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Manual ETAMATIC OEM / ETAMATIC S OEM Sensors and Systems for Combustion Technology www.lamtec.de… -
Page 3: Table Of Contents
5.1.2 Connecting to the ETAMATIC OEM……..13 Customer Interface .
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Table of Contents 6.1.18 Setting …………31 6.1.18.1 Setting the Limit Switches of the Motors . - Page 5
Table of Contents 7.9.7.3 Guidelines ……….. . . 52 Internal Burner Firing Rate Controller . - Page 6
10.14.3 LAMTEC SYSTEM BUS Plug …….. -
Page 7: General Information
General Information General Information Validity of these Instructions These instructions apply to the ETAMATIC OEM and ETAMATIC S OEM in any configuration. These devices conform to the following standards and regulations: • EN 230 • EN 267 (where applicable) •…
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Page 8: Safety
Safety Safety For Your Safety The following symbols are used in this document to draw the user’s attention to important safe- ty information. They are located at points where the information is required. It is essential that the safety information is observed and followed, and that applies particularly to the warnings. DANGER! This draws the user’s attention to imminent danger.
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Page 9: Associated Automatic Flame Guard
LAMTEC GmbH & Co KG will not be liable for damage or injury arising out of a failure to ob- serve the instructions above. The warranty and liability provisions contained in LAMTEC GmbH &…
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Page 10: Brief Description
Up to 20 points (standard 11) can be programmed for every channel. The display occurs be- tween 0 and 999 relatively. The ETAMATIC OEM has a 25 pin D-SUB-socket with a serial interface for remote control or remote display via PC (windows Software seperately available). Connections for PROFIBUS- DP, TCP/IP (MODBUS TCP), Interbus-S and Modbus RTUare optionally available.
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Page 11: Operating Description
MATIC OEM remains in base firing rate position until control release is given. After control release the ETAMATIC OEM follows the power control unit’s default setting. A shut off follows the cancelling of the signal of the terminal 58. The main valves close. In gas operation, first main gas 1 and second main gas 2 closes with a delay of approx.
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Page 12: Operator Device
Operator Device Operator Device Intent of the keys: Reset Firing rate/ Fault history up Firing rate / Fault history down Firing rate / Fault history down Fig. 5-1 Customer interface Manual operation on / off –…
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Operator Device Display change: – Fuel/air ratio control – – Flame intensity – Operating hours Fig. 5-2 Console de commande… -
Page 14: Programming Unit
Connecting to the ETAMATIC OEM Connect the operating unit by using a 9-pin Cannon connector. To do so, use the supplied con- necting cable, item no. 663 R 0430. Data transmission takes place via the LAMTEC SYSTEM BUS. Alternatively, you can connect the operating unit with the cable of the customer interface. An adapter cable, item no.
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Page 15: Customer Interface
9-pole Sub-D-plug of the ETAMATIC OEM. The data from the ETAMATIC OEM are transferred via LAMTEC SYSTEM BUS. If the cus- tomer interface is the last device connected to the LAMTEC SYSTEM BUS , You have to switch the dip switch SW1.8 at the back panel of the customer interface to «ON».
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Page 16: Settings
Use the DIP-switches SW 1.3 … SW 1.7 you can adjust the contrast in steps of 2 from 0…62 (default value after RESET). With DIP-switch SW 1.8 you can define the terminator’s function for LAMTEC SYSTEM BUS (LSB), the CAN Bus-terminator.
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Page 17: Commissioning
Before Commissioning 6.1.1 Basic Settings First you must configure the device (ETAMATIC OEM) for the requirements of the system. Therefore, you have to set the following parameters. We recommend to use the LAMTEC PC software for Windows (available separately). The factory standard settings are indicated by *.
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Page 18: Select Language
Commissioning 6.1.3 Select Language Select parameter 833 Value Language Value Language Value Language German* Danish Coal-Gas-English English Portuguese Slovene French Polish Czech Italian Turk Coal-Oil-French Swedish Croatian Coal-Gas-French Spanish Coal-Oil-German Hungarian Dutch Coal-Oil-English Romanian Slovak Coal-Gas-German Norse…
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Page 19: Character Of The Output Channels
Commissioning 6.1.4 Character of the Output Channels Select parameter 356 — 359 (channel 1 to channel 4). Enter the type of control element which is connected. Short Text Description Default /FA1 Fkt. K Function definition channel1 Category = channel configuration and broken wire detection In this parameter you define the type of actuator which controls the respective output channel.
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Commissioning This parameter defines, which channel is active with which curve set. All channels are active by default (con- tent 31, in ETAMATIC 15). The following function may be realised. Example: changing channel activities with fuel oil/gas emergency operation with or without frequency con- verter Selection per binary pattern: with 15, all 4 channels are released for operation… -
Page 21: Start With Or Without Pilot Burner
Commissioning 6.1.5 Start with or without Pilot Burner Select parameter no. 774 and 775 (oil operation, gas operation). Short Text Description Default /FA1 ZüBr. ÖL Start with (1) or without (0) pilot burner for oil, (2)=oil with continuous ignition flame 0 = start without pilot burner — oil operation 1 = start with pilot burner — oil operation 2 = pilot burner also active in burner operation with…
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Commissioning Short Text Description Default /FA1 ZüBr.Gas Start with (1) or without (0) pilot burner for gas, (2)=gas with continuous ignition flame 0 = start without pilot burner — gas operation 1 = start with pilot burner — gas operation 2 = pilot burner also active in burner operation with continuous monitoring of the ignition flame. -
Page 23: Pre-Purge Period
Commissioning 6.1.6 Pre-purge Period Select parameter no. 785 If an output channel is set to flue gas re-circulation, attention must still be given to P 427. Short Text Description Default /FA1 ZEIT VO Pre-purge time in seconds Set the duration of pre-purge in this parameter. The commissioning engineer sets this value.
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Page 24: Deactivate Firing Rate Control Unit
Commissioning 6.1.8 Deactivate Firing Rate Control Unit Select parameter no.790 (type of burner firing rate controller). Short Text Description Default /FA1 Lasttyp Type of output regulator. 0-OFF / 1-constant regulator / 2-weather-controlled regulator Switch on or set the type of internal firing rate controller 0 = OFF 1 = constant control 2 = control by atmospheric condition 1…
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Page 25: Minimum Running Time Of The Fuel/Air Ratio Control
Commissioning 6.1.10 Minimum Running Time of the Fuel/Air Ratio Control Select parameter no. 729 Short Text Description Default /FA1 stopVERB Minimum running time of fuel/air ratio control Minimum running time of the fuel/air ratio control (in seconds) Set the minimum running time of the fuel/air ratio control in seconds.
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Page 26: Delaytime Of The Air Dampers During Pre-Purge
Commissioning 6.1.12 Delaytime of the Air Dampers During Pre-purge Select parameter no. 768. Short Text Description Default /FA1 KverznLE Damper delay after fan ON in seconds Delay time for flaps after switching ON the fan in sec- onds (only for FAT) Enter a delay time for opening of the flaps with respect to the ventilator release.
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Page 27: Deactivate Leakage Test
Commissioning 6.1.14 Deactivate Leakage Test Select parameter no. 772 Short Text Description Default /FA1 Dicht.Zü Leak check before ignition (0-OFF / 1-ON) Setting of the leakage test before ignition: 0 = leakage test is off before ignition 1 = leakage test is on before ignition This parameter is only of significance if the leakage test is activated with an FMS.
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Page 28: Automatic Restart After Failure
Commissioning 6.1.16 Automatic Restart after Failure Respect the directives for combustion plants, if you set this parameter. Short Text Description Default /FA1 AutStart Automatic restart after fault Automatic restart of the burner on fault condition. In the case of a fault for which the standards permit an auto- matic restart for FMS/ETAMATIC, this parameter initi- ates the restart.
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Page 29: Burner Firing Rate Controller
Commissioning 6.1.17 Burner Firing Rate Controller 6.1.17.1 Enter Set Point Values Select parameter 796 and 798 (setpoint value 1 and setpoint value 2). With control by atmospheric condition select additionally parameter 797 and 799. Short Text Description Default /FA1 Soll1min Controller setpoint 1 minimum Firing rate controller setpoint 1 minimum (setpoint 1) in °…
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Page 30: Control Range
Commissioning 6.1.17.2 Control Range Select parameter no. 802 and 803 Short Text Description Default /FA1 EinschPt Burner start point Enter the switching point of the firing rate controller as the difference to the set point. [Switching point] = [setpoint] — [parameter content] e.
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Page 31: Controller Parameters
1 = display in °C (0… 320 °C) 2 = display in bar (P 810 and P 811) Select also for ETAMATIC OEM, from which input the actual value signal should be taken. If the parameter is set to 1, the integrated PT100 input is…
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Page 32: Display Range In Bar
6.1.18.1 Setting the Limit Switches of the Motors As soon as the ETAMATIC OEM is supplied with voltage, it attempts to drive the actuator mo- tors to the lower limit of the factory set curve. If the end-bearing’s limit switches are not prop-…
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Page 33: Adjusting Control Elements
NOTICE If the ETAMATIC OEM has 2 oil curves or 2 gas curves (parameter 776 at #1 (oil) or #2 (gas), curve set 1 (0V) or curve set 3 (+24V) can be chosen for oil and curve set 2 or curve set 4 can…
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Page 34: Release Settings By Customer Interface
With keys 2, 3 and «Change-over», the password for level 1 can be entered. Confirm with „Hand“ key. ETAMATIC OEM can be switched on via the ’Setting’ mode using the remote control panel. This function is independant of the settings in parameter 869 (An additional password is required for terminal 59).
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Page 35: Clear Memory
Commissioning 6.2.2 Clear Memory press key twice the display shows «SL» in it’s centre. press key the display shows «cleared». The old curve is cleared Start burner (signal at terminal 58) Wait until pre-purge has finished. 6.2.3 Programming the Ignition Point press key …
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Page 36: Changing Points
Commissioning 6.2.7 Changing Points Points can be changed at any time by selecting the firing rate rating for the required point and re-entering the associated control element position. Enter password (see 6.1.2 Password Entry press key the display shows «EL» in the centre use keys 16 and 17 to set to «firing rate value»…
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Page 37: Calling The Checksums
NOTICE The total counter refers to the ETAMATIC OEM’s running time. It starts timing as soon as the unit is connected to a voltage source (this also provides the basis for the fault history). The individual running time counters refer to the burner’s running time. They start timing as soon as the burner is in operation with the relevant curve set (flame signal is present).
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Page 38: With User Interface
6.5.1.3 Resetting Faults By programming unit: press key Via customer interface: Press the RESET key to reset a fault of ETAMATIC OEM. NOTICE This may result in a RESET of the O trim when a fault of O trim is pending (see chapter 7.3 Resetting O Errors).
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Page 39: Recalling Fault History
3 and 2 to browse the fault history NOTICE If it is certain that the ETAMATIC OEM is fed with voltage at all the time since the last fault, it is possible to determine at what time the fault occurred from the present running time counter reading and the current clock time.
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Page 40: How To Switch The Display
Commissioning How to switch the Display By programming unit: press F4 to change the display from status of the fuel/air ratio control to O value (if acti- vated) and to flame intensity (if activated). If neither O trim, nor integrated Flame scanner is active, F4 has no function. Via customer interface: With this key you may switch between display of fuel/air ratio, O value (if activated)
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Page 41: Trim
O setpoint value (below the second monitoring band) and corrective actions by the ETAMATIC OEM cannot clear this error, then the trim is deactivated and the base value for air deficiency errors will be put out.
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Page 42: Calling Fault History O Trim
5 sec. O controller faults lasting more than 30 sec are stored. They are only stored in the EEPROM once the fault is cleared up or the ETAMATIC OEM leaves the operating mode «Control» or «Base Firing Rate». 7.4.2 With User Interface You can browse through the fault history with the ’up’…
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Page 43: Automatic Function Monitoring During Operation
Trim Automatic Function Monitoring During Operation 7.5.1 Test During Burner Start The actual O value is checked to ensure that during pre-purge it corresponds to the air value (equal to or greater than 18 vol.% O and less than 24 vol.% O After ignition, the actual O value must reach a value equal to or below 14% within 45 seconds.
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Page 44: O 2 Limit Curve
Full firing rate (parameters 932 / 934) 70% 7.5.4 Dynamic Probe Test The ETAMATIC OEM monitors the measured O value for changes during operation. If a fluc- tuation no higher than 0.2 O vol.% is detected over a period of 10 minutes, a state of excess air is enforced by changing the fuel/air mixture.
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Page 45: Control Strategy
-50% to +50%, the correction value (neutral value) output is 500; in the case of -30% to +70%, the output value is 300. NOTICE The neutral value corresponds to the base settings of the ETAMATIC OEM without control.
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Page 46: Connecting The O 2 Measurement Device
Trim Connecting the O Measurement Device Fig. 7-1 Connection ETAMATIC OEM — O -measurement device via LAMTEC SYSTEM BUS Connecting diagram see appendix LAMTEC SYSTEM BUS transfers to ETAMATIC OEM : • probe current • probe current during calibration •…
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Page 47: Co/O 2 Control Operating And Display
Trim CO/O Control Operating and Display 7.8.1 Display and Interpretation of the Operating Modes op O trim in standby (during burner start-up), or O trim temporarily switched off as a func- tion firing rate via parameters 914 and 915. — trim active. trim temporarily deactivated (air deficiency, probe dynamics etc).
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Trim Display of CO is replacing O display values as soon as CO control is active. Fig. 7-3 CO control display Startup-Manager Display Fig. 7-4 O trim display Fig. 7-5 CO control display Example: I — O actual value II — CO value Threshold position: «-«… -
Page 49: Commissioning
Trim Commissioning You must set several of the O parameters before you can program the O curve. For param- eter adjustment see chapter 6.1 Before Commissioning). You will find a list of O parameters in a separate document (DLT1045). 7.9.1 Setting the Correction Range and the Correction Mode The correction value (control signal) transmitted to the electronic fuel/air ratio control is 0 …100% with a resolution of 0.1%.
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Page 50: Correction Type 2
Trim Fig. 7-6 Correction Type1 NOTICE When switching on any O correction you must ensure, that the combustion boundary values are maintained even with the maximum possible correction (100%). For details see chapter 7.9.6 Checking the Combustion Limit Values. 7.9.3 Correction Type 2 Correction type 2 is used where the correction is applied to a non-linear control element, e.g.
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Page 51: Calling Up The Set Correction Mode
Take the correction into account during later programming. The correction actuator must be able to operate without the ETAMATIC OEM reaching the end-stop (0 or 999 or limit stop values). If the correction actuator cannot be driven all the way as required because a channel has reached the range limit determined during pre-purge, the burner’s output is increased or de- creased until the actuator can be driven all the way.
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Page 52: O 2 Curve Input
Trim NOTICE The burner must be firing and the control release be set. 7.9.7 Curve Input Enter the password (see chapter 6.1.2 Password Entry) press keys F2 and F3 to select «Set O ” press key 9 to delete the entire O curve press key 8 if you only want to modify points press keys 16 and 17 to set to firing rate value…
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Page 53: Guidelines
Trim press keys F2 and F3 to select «Set O » press key 8 to confirm the query press key 16 until the display shows «setpoint» trim unit during adjustment. the display shows «T» press key 5 up, to activate O use the keys 6 and 7 to change the O setpoint from the preset value with the range +3 to -1 vol.% O…
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Trim → correction input base value for deactivated O trim P 901/P 902 → correction input base value for air deficiency P 917/P 918 Recommended settings: for P 901 / P 902 and P 917 / P 918 Base value for deactivated O trim = neutral value Base value for air deficiency <… - Page 55
Trim Set the P-term in that way, that the setpoint value / actual value deviation of 1…2 vol.% is regulated in 4…6 steps without overshoot. Setting pulses too short — increase the P-term. Overshoot — reduce P-term O2 TZ — Dead time reduction for O controlled system at full fir- ing rate… -
Page 56: Internal Burner Firing Rate Controller
Moving Screen «Actual Temperature is too high» press key F3 MANUAL to start the ETAMATIC OEM, even if the display shows the running text, subject to the condition, that the maximum temperature is not exceeded.
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Page 57: Change The Setpoint Of Power Control Unit Via Programming Unit
Internal Burner Firing Rate Controller Active constant controller: Press the key for 5 s long. Display = actual setpoint 1 or 2. This depends on the choice of setpoint values of terminal 50: Terminal 50 = 0 V = setpoint value 1 Terminal 50 = 24 V = setpoint value 2 The required setpoint values can be set through the arrow keys.
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Page 58: Input Signals
0…5 k resistance signal, terminal 4, 5 and 6 • directly as PT 100 terminal 21, 20, 19 as three-wire connection (0 – 320 °C) Outside temperature (setpoint-shifting) — only available if ETAMATIC OEM has the option «con- trol by atmospheric condition» •…
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Page 59: Setpoint Changeover
Internal Burner Firing Rate Controller Fig. 8-1 Control by atmospheric conditions 8.11 Setpoint Changeover You can switch the setpoint with the input «setpoint switchover». If you use a version with fixed setpoint value it is possible to select one of the two values, which are entered in the parame- ters 796 and 798 with this contact.
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Page 60: Start-Up Sequence
Internal Burner Firing Rate Controller Short Text Description Default /FA1 Soll1min Controller setpoint 1 minimum Firing rate controller setpoint 1 minimum (setpoint 1) in ° C or bar (xx.x) Set the minimum value for the first controller setpoint (active if input «set point switching» = 0) (weather guided controller) in this parameter.
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Page 61: Thermostat And Control Range
Internal Burner Firing Rate Controller *(1) = P 792 *(2) = P 793 Fig. 8-2 Startup sequence Short Text Description Default /FA1 Anf.Temp Max. start-up temperature Maximum start-up temperature or pressure in relation to the actual value Start — up circuit parameter: Enter the actual temperature, up to which the start — up circuit is active.
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Internal Burner Firing Rate Controller This is done by internal processing. If the actual value drops below the lower control range, a re-start can occur. NOTICE This function can replace the control thermostat, which is required on the plant. It does not replace a safety thermostat. Short Text Description Default… -
Page 63: Manual Control
«Manual» again You also may switch the ETAMATIC OEM to «Manual Control» with the terminals. By short- circuiting the PT 100 signal (e.g. bridge terminal 19 and 20) the burner firing rate controller is switched off.
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Page 64: Checking Of The Safety Limiter
Internal Burner Firing Rate Controller range is upwardly limited by the «Burner off» parameter (P 804). The parameter is added to the setpoint value. If this value is exceeded, the burner is shut off. The range between «Upper control range» and «Burner off» forms the shut-off range. If the ac- tual value reaches this range, the to cancel firing rate controller, press key «Manual»…
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Page 65: Control Mode
Control Mode Control Mode The firing rate controller tries to bring the actual value into line with the setpoint value. In doing so, a direct correlation is assumed between internal firing- ate and boiler temperature, e.g. the greater the internal firing rate, the faster the boiler temperature rises. Should the curves be programmed differently, the firing rate controller will not function.
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Page 66: Aides For Setting
Control Mode Aides for Setting Characteristic Control Process Control Mode Start-up Procedure P term higher decrease of stronger reaction with faster start-up with attenuation overshoot overshoot P term smaller increase of less reaction, less ten- slower startup attenuation dency to oscillate Fig.
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Control Mode Fig. 9-3 Controller operation with D-term too high… -
Page 68: Valve Leakage Test
(gas pressure > min. = 0). The ETAMATIC OEM checks this. Main gas 1 is then opened shortly and gas flows into the test line (gas pressure > min. changes from 0 to 1). This pressure must then subsist for 30 seconds.
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Page 69: Valve Leakage Test Flow Chart
Control Mode 9.2.1 Valve Leakage Test Flow Chart Fig. 9-4 Valve leakage test flow chart…
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Page 70: Calculation Example
Control Mode 9.2.2 Calculation Example An (approximate) formula for calculating the valve leakage test monitoring facility is summa- rised below: Definitions: GDW: gas pressure monitor gas-side safety shut-off device burner-side safety shut-off device barometric air pressure < 1000 mbar lower GDW switching point (falling) upper GDW switching point (rising) p = P GDW switching difference…
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Page 71: Appendix
Display of ACTUAL VALUE Short text Description READY (signal on terminal 58) ZÜ IGNITION POSITION or IGNITION SETTING/IGNITION position (same as IGNITION, but ETAMATIC OEM on SETTING) BASE FIRING RATE SETTING/BASE FIRING RATE” (as BASIC FIRING RATE, but ETAMATIC OEM on SETTING) POST-PURGE…
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Page 72: Flame Monitoring
NOTICE We recommend the LAMTEC flame monitoring systems (like F300K, F200K2), if you have other requirements for the flame monitoring (e.g. combustion of coal dust). You will find infor- mation on this devices in the corresponding manuals (DLT7650, DLT7600 and DLT7502/ DLT7503).
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Page 73: Characteristics Flame Sensor
Appendix Approvals for flame scanner/sensor in conjunction with ETAMATIC OEM with validity from that date are not valid for F250, FFS05 or FFS06. Replacement for FFS05 = FFS07 Replacement for FFS06 = FFS08 Replacement for F250 = F152 or F200K (depending on application) 10.2.1.2 Characteristics flame sensor…
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Page 74: General Information Of The Optical Flame Monitoring
Appendix FFS05 (up to January 2014, replaced by FFS07) Fig. 10-1 FFS07, FFS 05 Adjusting the flame sensitivity — factory settings IR 50% UV 100% FFS08 IR FFS06 (up to January 2014, replaced by FFS08) Fig. 10-2 FFS08 IR, FFS06: Adjusting the flame sensitivity — factory settings IR 50%) 10.2.2 General Information of the Optical Flame Monitoring Notes on assembly and installation…
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Page 75: Optical Flame Sensors
WARNING! If the ETAMATIC OEM is used with an integral flame monitor, terminal 53 may not be connect- ed to any other components The optical flame sensors are supplied together with a connecting cable of ca. 2 m length. The line between the sensor and the flame monitoring unit may be extended up to a distance of 500 m.
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Page 76: Avoiding Emc Effects
– a disconnection of the flame sensor shielding from the protective earth terminal at the ETAMATIC OEM and the connection with the GND of the flame sensor (terminals 22 or 44) – In rarely cases the shielding may be disconnected like described in section a) and the sensor housing may be grounded at the burner plate.
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Page 77: Fault Codes
Appendix 10.4 Fault Codes Fault Restart according to Description Code EN676 No fault code available for this fault Ignition flame does not appear. H/Ü Check flame stability. Check wiring. Check ignition transformer and pilot burner. Check flame sensor. Check Parameter 788. parasitic light failure H/Ü…
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Appendix Fault Restart according to Description Code EN676 Flame signal does not appear during safety time H/Ü Check flame stability. Check wiring. Check flame sensor. Check Parameter 774, 775 and 788. Flame signal goes out immediately after ignition H/Ü If the flame extinguishes within three seconds after ignition, fault H010 is shown; after that, fault H004 appears. - Page 79
Appendix Fault Restart according to Description Code EN676 Internal fault: Error in misc. data H/Ü The fault can occur during an internal self-test. A fault was discovered during the reading of the redundant data in the EEPROM. Reset the fault. In the process, switch the mains voltage off and on again if neces- sary. - Page 80
For more details, see the «Protected data record» description in the remote control software. If this is not possible, you must order a preprogrammed EEPROM from LAMTEC. When ordering, you must enter the device number and software checksums. Only in this way are mix-ups excluded. For the address, see the overleaf of this publica- tion. - Page 81
If fault messages are constantly appearing one after the other the EPROM pro- gramme is possibly defective. Request a new programme EPROM from LAMTEC with the precise specification of the respective purchase order number, sales order number, and commission of the device. - Page 82
Appendix Fault Restart according to Description Code EN676 RAM-Test detected error H/Ü Fault during an internal self-test. Reset the fault; switch the mains voltage off and on again if necessary. Check all fuses in the device. Check the curve points of the main and monitoring processors for irregularities. … - Page 83
For more details, see the «Protected data record» description in the remote control software. If this is not possible, you must order a preprogrammed EEPROM from LAMTEC. When ordering, you must enter the device number and software checksums. Only in this way are mix-ups excluded. For the address, see the overleaf of this publica-… - Page 84
Appendix Fault Restart according to Description Code EN676 Potentiometer faulty, feedback changing too quickly: channel 1 H/Ü The return values of a three-point-step servo output change faster than specified as maximum in parameters 12-16. Check the wiring; check the potentiometers for short circuit. It is possible that the range limit switch is set higher than the end of the range of the potentiometer. - Page 85
Appendix Fault Restart according to Description Code EN676 >88 the same as P 151, but channel: 5 H/Ü See S151 >88 Monitoring direction of ratation: channel 1 H/Ü The channel is not running or does not start on time. During operation, the channel briefly changes direction. - Page 86
Appendix Fault Restart according to Description Code EN676 1st monitoring band over range too long. Channel: 2 H/Ü 1st monitoring band over range too long. Channel: 3 H/Ü 1st monitoring band over range too long. Channel: 4 H/Ü 1st monitoring band over range too long. Channel: 5 H/Ü… - Page 87
Appendix Fault Restart according to Description Code EN676 >88 Fuel/air ratio control blocked: channel 3 >88 Fuel/air ratio control blocked: channel 4 >88 Fuel/air ratio control blocked: channel 5 Broken wire at firing rate input -1 H/Ü Check the wiring. Broken wire at firing rate input-2 H/Ü… - Page 88
Appendix Fault Restart according to Description Code EN676 permissible O value was fallen below Initially, the time from parameter P904 «O trim active after ignition in seconds» runs out before the fault is permitted. After that, the monitoring time from P966 starts. Also works without an active O controller (from 5.4):… - Page 89
Appendix Fault Restart according to Description Code EN676 Ignition position was left in ignition mode. Channel: 1 H/Ü In case of a constant output: Possible EMC influences due to ignition transformer; check the frequency converter settings Ignition position was left in ignition mode. Channel: 2 H/Ü… - Page 90
Appendix Fault Restart according to Description Code EN676 Internal comparison: relay output terminal 67 not dropping out. See S500 Internal comparison: relay output terminal 43 or 68 (ETAMATIC) not dropping out. See S500 Internal comparison: relay output terminal 16 or 65 (ETAMATIC) not dropping out. - Page 91
Appendix Fault Restart according to Description Code EN676 TRIAC selftest : Ignition transformer is currentless See S500 TRIAC selftest : ignition valve is currentless See S500 Oil fuel blocked because a required solenoid valve is not connected The test current for the TRIAC self-test cannot flow. Gas fuel blocked because a required solenoid valve is not connected The test current for the TRIAC self-test cannot flow. - Page 92
Appendix Fault Restart according to Description Code EN676 Oil circulation: Temperature does not rise up within 45 sec. Oil lance blow out: Delay for opening not kept Oil lance blow out: Oil valve actuator not in ignition position Oil lance blow out: blow out period too long Atomizer switch-ON-pre-period not kept >88 Oil pressure too low… - Page 93
Appendix Fault Restart according to Description Code EN676 Gas valves open when burning oil Ü Oil valves open when burning gas Ü Main gas 2 open without main gas 1 Ü Main gas 1 illegally open Ü Main gas valves and ignition valve open too long Ü… - Page 94
Appendix Fault Restart according to Description Code EN676 Programme check time exceeded. Ü Solenoid value switch-off faulty Ü Leak check: ventilating into boiler not allowed Ü Shut-down on faults via bus. Ü >88 No data transfer via the bus (time-out). Ü… - Page 95
Remote-fault-reset happens within a too short distance EN 14459 permits a remote unlocking only 4 x within 15 minutes. The fault release is monitored by the remote control software, LAMTEC system bus, and field bus (parameter 19). When exceeded, fault deactivation H889 is gen- erated and additional remote fault releases are ignored. - Page 96
Check all fuses in the device. If fault messages are constantly appearing one after the other exchange the device or respective card. Curve set adjustment via LAMTEC SYSTEM BUS, selftest recognizes fault Error in reference, channel: 1 Ü Fault during an internal self-test. - Page 97
Appendix Fault Restart according to Description Code EN676 Relay driver self-test : output terminal 11 or 66 (ETAMATIC) faulty. H/Ü Fault during an internal self-test. Reset the fault; switch the mains voltage off and on again if necessary. Check all fuses in the device. If fault messages are constantly appearing one after the other … - Page 98
Appendix Fault Restart according to Description Code EN676 >88 Default language missing or LANGUAGE-FLASH defect Fault during an internal self-test. Reset the fault; switch the mains voltage off and on again if necessary. Check all fuses in the device. If fault messages are constantly appearing one after the other exchange the device or respective card. -
Page 99: Calling Up The Condition Of The Digital Inputs
Appendix 10.5 Calling Up the Condition of the Digital Inputs Press keys 16 and 17 to switch to DIGITAL INPUTS. Meaning of the digital inputs ETAMATIC OEM signal present signal absent SIC = safety interlock chain…
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Page 100: Tips And Tricks
If it is required to measure the installation’s safety times at a later time (e.g. as part of an in- stallation’s acceptance tests), it is not sufficient to disconnect the magnetic valves before start- up. This is recognised by the ETAMATIC OEM’s self-testing circuit, and results in emergency shut-down.
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Page 101: Process Sequence Charts
Appendix 10.7 Process Sequence Charts Fig. 10-3 Process sequence chart: gas with pilot burner…
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Appendix Fig. 10-4 Process sequence chart: gas without pilot burner… - Page 103
Appendix Fig. 10-5 Process sequence chart: oil with pilot burner… - Page 104
Appendix Fig. 10-6 Process sequence chart: oil without pilot burner… - Page 105
Appendix Key to process sequence charts Any condition Wait for gas safety interlock circuit air pressure monitor min. scan Time for pressure build-up in the gas test line (only with valve leakage test activated) 2 sec. Servo drive running time 30-60 sec. - Page 106
Appendix Footnote to the Process Sequence Chart ETAMATIC OEM Flame intensity to adjust the flame sensor (not connected during operation) Here you can measure the flame intensity to adjust the flame sensor. You can also determine the flame frequency with a multimeter which can determine the frequency with an AC meas-… - Page 107
(P 18 = 1) WARNING! P 762 = 0 terminal 46 has no function (ETAMATIC OEM and Burner Control FA1)! P 17 = 3 (FA1 special) terminal 46 is set to «ignition position acknowledgement! «Oil pressure > min» / «atomiser air pressure» is not monitored via terminal 46! - Page 108
(2 safety time) and ends after the duration, set in this parameter has passed. ETAMATIC OEM This parameter effects the safety interlock chain oil as well as the oil pressure min. Fkt <max Function mode of gas pressure < max. switch ETAMATIC input terminal 54 0 = recirculation «ON»… -
Page 109: Connection Diagrams
Appendix 10.8 Connection Diagrams Fig. 10-7 Connecting diagram ETAMATIC OEM with pilot flame monitoring (footnotes see pages before)
- Page 110
Appendix Fig. 10-8 Connecting diagram ETAMATIC S OEM with pilot burner (footnotes see pages before) -
Page 111: Connection Examples Regular Firing Rate Input
Appendix 10.9 Connection Examples Regular Firing Rate Input Connection examples firing rate default Where current is used as firing rate default signal instead of a potentiometer: f.ex. active steam pressure controller Where a three-point step signal from the firing rate controller is used as firing rate input, you must connect the contacts instead of the potentiometer of the firing rate: Where a 4-20mA unit shall be supplied with 24V (e.g.
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Page 112: Permitted Cable Lengths
Appendix 10.10 Permitted Cable Lengths ETAMATIC OEM Signal Cable Length Channel 1 (term. 34, term. 33) 100 m Channel 2 (term. 32, term. 31) 100 m Channel 3 (term. 30, term. 29) 100 m Channel 4 (term. 28, term. 27) 100 m Power supply (term.
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Page 113: Connections In Non Grounded Power Line Networks
500 m 10.11 Connections in Non Grounded Power Line Networks If you use a ETAMATIC OEM in a non-grounded power line network, you have to connect the ETAMATIC OEM upstrem to a mains filter. Description mains filter type 663 R 4050…
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Page 114: Flame Scanner And Sensor Connection
Appendix 10.12 Flame Scanner and Sensor Connection 10.12.1 Flame Scanner Connection Fig. 10-9 Connection flame scanner Flame intensity to align the flame sensor (not connected during operation) with delivery of 01.01.2003 on. Abbreviation Description Abbreviation Description ETAMATIC Black White Pink Green Blue Yellow…
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Page 115: Flame Sensor Connection
Appendix 10.12.2 Flame Sensor Connection 10.12.2.1FFS07 Assembly BK Black RD Red WH White BU Blue GN Green YE Yellow PK Pink Recommended assembly location Sealing washer must latch!
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Page 116: Ffs08 Assembly
Appendix 10.12.2.2FFS08 Assembly BK Black RD Red WH White BU Blue GN Green YE Yellow PK Pink…
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Page 117: Connecting Diagram Of Customer Interface
Appendix 10.13 Connecting Diagram of Customer Interface Fig. 10-10 Connection diagram customer interface — ETAMATIC OEM Description CANopen plug Termination resistor LSB Connecting cable 663P0421, length 2m Customer interface Termination resistor LSB DIP switch 8 ON…
- Page 118
Appendix Fig. 10-11 Connection diagram customer interface — PROFIBUS — LSB-Module… - Page 119
LSB Module NOTICE LAMTEC SYSTEM BUS is to be wired as a chain! Stub lines are not permitted! For the cable length and cable cross-section of the LAMTEC SYSTEM BUS, please take note of the following recommendations: 120 0-40 m… - Page 120
Appendix Fig. 10-12 Connecting diagram customer interface -LT1 — LT2… -
Page 121: Lamtec System Bus (Lsb)
10.14.1 Configuration of the Processor Board NOTICE The LAMTEC SYSTEM BUS may not be connected with a branch cable and has to be termi- nated at both sides with 120 Ω. Fig. 10-13 Configuration of the processor board LT1/LT2 to LAMTEC SYSTEM BUS (LSB)
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Page 122: Lsb Connection
Appendix 10.14.2 LSB Connection Fig. 10-14 LSB connection ETAMATIC OEM to LT2 Fig. 10-15 LSB connection ETAMATIC OEM — LT2 — other LAMTEC devices Description To other LAMTEC-devices Housing Pre-canned line 2 m PE-bar in housing LT2 Terminal resistance passive…
- Page 123
Appendix Fig. 10-16 LSB connection ETAMATIC OEM o LT1 from SN 600 on Description PE-bar in housing LT1 Housing Pre-canned line 2m, 663R0421N LT1 from serial number 0600 Terminal resistance active To other LAMTEC- devices Fig. 10-17 LSB-Connection ETAMATIC OEM — LT 1 to SN 0599… -
Page 124: Lamtec System Bus Plug
With a slide-switch you can set the termination of the LSB. If You place the device at the beginning or the end of the LAMTEC SYSTEM BUS, you must set the slide of the plug to ON (terminator active).If you place the device at another position of the LAMTEC SYSTEM BUS, set the slide to OFF (terminator inactive).
- Page 125
Fig. 10-19 Pin assignment LSB plug Description 9 pole Sub-D jack service- and programming interface for the operating unit Switch for activating/deactivating the LSB-termination ON.-.OFF 9 pole Sub-D pikes LSB for connection with the ETAMATIC OEM Clamp-connection Solder pins Shielding… -
Page 126: Lsb Cable Connection
Appendix 10.14.4 LSB Cable Connection Devices on LAMTEC SYSTEM BUS (LSB) muss be connected in serial/row (see Fig. 10-20 Serial BUS connection). The first and the last participant on LSB must be terminated with a termination resistor of 120 . All the other BUS participants are not allowed to be connected to any termination resistor at all.
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Page 127: Internal Connecting Diagram Of The Control Output Device
Appendix Fig. 10-23 connection diagram modem for remote control Description with termination resistors, setting via DIP switch adjustment of the modem’s DIP switch: dial-up connection 0000 all without function 0000 0000 tel. connection, 2-wire cable 1000 0000 19200 baud, 8N 1110 1100 automatic speed adaptation 1111 0000 shield 2/4 wire…
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Page 128: Valve Leakage Test Venting Over The Roof
Appendix Always connect the attached firing rates (valves etc.) to the ETAMATIC OEM (even when the burner is off). If You could not ensure this, use an RC combination (ca. 0,15μF, ca. 220 ) be- tween the output terminal and neutral to let the testing current flow.
- Page 129
Appendix Fig. 10-26 Suggested wiring for venting the gas line over the roof in conjunction with the ETAMATIC OEM… -
Page 130: Schalter Und Tastenkombination Der Bedieneinheit
Appendix 10.18 Schalter und Tastenkombination der Bedieneinheit 10.18.1 Programming Unit Action Display Mode Other recall correction range status monitoring display automatic press key 11 (Enter) setting reset press key F1 (Reset) code entry for parameter set- status automatic tings press keys 5, 7 and 8 simultaneously scan fault history status monitoring display…
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Page 131: Customer Interface
In the initial state of the display (not on manual mode) while no fault of ETAMATIC OEM is pending, the upper indicator line switches to: •…
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Page 132: Display Level 1
10.18.2.4Manual Function of the manual key In the HAND mode, the regular firing rate input of ETAMATIC OEM can be manually adjusted. Press HAND key LED in HAND key lights up With these arrow keys the firing rate value can be adjusted.
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Page 133: Special Functions
Appendix Press HAND key to finish. 10.18.2.5Special Functions With HAND key, you can change the setpoints of the internal power control unit (see chapter 8.5 How to Change the Burner-Firing-Rate Controller with the Customer Interface 10.18.2.6RESET Faults can be reset through the RESET key. If the O trim is in fault condition and the lower display line shows the O value, the RESET-…
- Page 134
Appendix Fig. 10-27 R.p.m. sensor 663P8001 delivered up to September 2003 Speed nominal range (164… 819 Digit) • 300 … 3000 pulses/min (Standard) • 800 … 4000 pulses/min (Standard) • III 1000 … 8000 pulses/min Range which is theoretically, technically possible (140-941 Digit) •… - Page 135
Appendix 140 to 942 Points S1.4 355 — 8430 pulses/min (5,9…140,5 Hz) Additionally, there are 2 DIP switch for changing between NAMUR and three wire connection. S2.1 and S2.2 at OFF three wire system – S2.1 and S2.2 at ON NAMUR –… -
Page 136: Selection Of A Suitable R. P. M. Sensor
Owing to the large number of usable transducers LAMTEC has only one two wire element and one three wire element in it’s product range. It is selected in that way, that it covers a number of measuring tasks. Other transducers only on enquiry or direct from the company Turck.
- Page 137
Appendix 1 = r.p.m. sensor Fig. 10-32 Position r.p.m. sensor to the attenuating element Fig. 10-33 Dimensional drawing attenuating element for our exam- The illustration (left) shows a typical arrangement of attenuating element, sensor and shaft. How the system works: Every inductive sensor forms an electric field at its active surface, from which the contact gap (nominal contact gap «Sn”) can be derived as a function of sensor size. -
Page 138: Circuit Proposal 3-Wired Speed Sensor With Higher Power Supplay Voltage
ETAMATIC S OEM is provided with a 3-wired pick up sensor with approx. 13 V voltage. This is sufficient for Turck Bi4-M12-AP6X as it is tested and approved by LAMTEC. For pick up sen- sor which requires a higher power supply voltage (e.g. Turck Bi8U-M18-AP6X UPROX+) the circuit should be as described in Fig.
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Page 139: External Switching Of The Fuel Motors/ Valves
Appendix 10.20 External Switching of the Fuel Motors/ Valves If there are not enough output channels, it is possible to switch externally between actuators, which are not needed in every curve set (oil motors and gas motors). WARNING! If you use an external switching you must recognise this for safety reasons: You must ensure that the feedback of the selected motor is also selected, e.g.
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Page 140: Feedback At Three-Point-Step Channels
10.21 Feedback at Three-Point-Step Channels 10.21.1 Connect with Positive Locking Since the ETAMATIC OEM, in the case of three-point step channels, adjusts the damper until the actual value is equal to the setpoint value, the feedback potentiometer must always relia- bly correspond to the damper position.
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Page 141: Examples Of Potentiometers And Motors
Appendix 10.21.3 Examples of Potentiometers and Motors Example of potentiometers: The following potentiometers are authorised for use as solo feedback in the case of ETAMATIC OEM, on condition that they are positively connected to the damper: Manufacturer Type Rating Novotechnik SP-Serie Rating: 5 kΩ*…
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Page 142: Changing Control Drives / Potentiometers
This may lead to an other position of the damper. WARNING! Therefore you must prove the burner adjustment again in all firing rate positions and all oper- ation modes. If necessary adapt the curves in the ETAMATIC OEM. 10.22.2 How to Replace a Potentiometer WARNING! Keep switches in the same position.
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Page 143: Changing Eproms
After you have uploaded the protected dataset activate the new settings with the interrup- tion of the power supply and the restarting the new ETAMATIC OEM. All device parameters are set in the uploaded dataset. It is important to check all safety relevant parameters before you put the device into operation on-site.
- Page 144
Appendix NOTICE Always pay attention to the direction of the notches before exchanging. The notches show to- wards the PE connection. Fig. 10-37 Pliers Fig. 10-38 Removing EPROM Remove old EPROMS carefully out of their sockets and insert new EPROMS in the correct position. -
Page 145: Wiring Notes
CV 10.25 Wiring Notes 10.25.1 Shields Connection All cables from and to the ETAMATIC OEM must be shielded (with the exception of the 230 V cable). Connect the shielding to PE by the shortest possible route. Right:…
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Page 146: Pe Busbar
10.25.3 Control Cabinet Wiring The low-voltage cables from and to the ETAMATIC OEM should not run in parallel to the power electronics’ in and out conductors in one cable duct. Frequency converter cables and switches/contacts carrying high inductive or capacitive firing rates are particularly critical.
- Page 147
Appendix press keys 2 and 3 to run to the firing rate point for checking it wait until the system has run to that point enter password press key 14 one time (setting) – Adjust setpoint value of the three-point step channel in the air deficiency direction (for dead band setting, see parameters) –… -
Page 148: Tolerance Limit In Direction Air Deficiency
Appendix 10.27 Tolerance Limit in Direction Air Deficiency To be able to perform the test, the parameter values in the air deficiency direction should be known. WARNING! If the default setting for dead bands and monitoring bands have changed during commission- ing, this must be documented clearly.
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Page 149: Example Of A Protocol Of The Parameter Settings Of The Monitoring Bands
Appendix 10.27.1 Example of a Protocol of the Parameter Settings of the Monitoring Bands Date: Serial No.: Installation: Operating mode: Tolerance on air shortage side: Channel Functions Dead band Monitoring Band Band shift 32 /34 62 / 67 Channel 1 33 / 43 63 / 73 Channel 2…
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Page 150: Technical Data
Servomotor 19 Nm 60 s runtime on 90° Ident.no.: 662R2111/N Servomotor 30 Nm 60 s runtime on 90° Ident.no.: 662R2112 Servomotor 40 Nm 60 s runtime on 90° Ident.no.: 662R2121 Other servomotors only after approvals by LAMTEC. Power consumption max. 50 mA continuous current/starting current.
- Page 151
Appendix Continuous control Apparent ohmic resistance: 4…20mA < 600 output Apparent ohmic resistance: 100 Analogue inputs ETAMATIC OEM Connectable flame sensors: with internal flame Type: FFS07 IR (successor type for FFS05) monitor FFS08 IR (successor type for FFS06) FFS07 UV (successor type for FFS05 UV) - Page 152
State Input Number of program unlimited cycles Interfaces – 1 serial interface on 25-pole Sub-D-connector, addressable via LAMTEC adapter only (Dongle 663P0600)(RS 232) – 1 interface on 9-pole Sub-D-connector WARNING! Using the interface without the adapter may damage the device. -
Page 153: Etamatic Oem Without Internal Flame Monitor
Appendix 10.29 ETAMATIC OEM without Internal Flame Monitor Connectable flame detectors: Any tested flame sensor with error-proof floating contact for flame signalling WARNING! If a flame monitor, which is not approved for continuous operation is connected, the entire sys- tem’s approval for continuous operation will loose it’s validation.
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Page 154: Dimensions And Weight
ETAMATIC OEM cabinet mounting Position of use Customer interface panel mounting Fig. 10-40 Panel mounting Fig. 10-39 Customer interface length 180 mm width 94 mm depth 40 mm Fig. 10-41 Measurements of oper- ating unit Fig. 10-42 Dimensional drawing ETAMATIC OEM…
- Page 155
LAMTEC SYSTEM BUS Communications interface Fig. 10-43 Rear view ETAMATIC OEM NOTICE PC connection possible only via LAMTEC interface adapter! NOTICE For exchange of the fuses F3, F4, F5 these specifications are to be complied: — 2A slow blow — high breaking capacity according to IEC 60127-2, Sheet 5: 1500A @ 250VAC — melting integral I²t <… - Page 156
Appendix Fig. 10-45 Mounting clip for FS 60 see the docu- Fig. 10-46 Mounting clip for FS60 (DLT7660) mentation for the desired device Marking Colour black blue green white yellow Fig. 10-47 Flame sensor FFS 07 Description Type plate Grounding M4 (Pozidrive 2) Incidence of light Bend radius of the of the FM wire min. -
Page 157: Declaration Of Conformity
Appendix 10.31 Declaration of Conformity…
- Page 158
Appendix… - Page 159
Appendix… - Page 160
The information in this publication is subject to technical changes. LAMTEC Meß- und Regeltechnik für Feuerungen GmbH & Co. KG Wiesenstraße 6 D-69190 Walldorf Telefon: +49 (0) 6227 6052-0 info@lamtec.de Telefax: +49 (0) 6227 6052-57 www.lamtec.de Printed in Germany | Copyright 2016…
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Contents
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Table of Contents
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Quick Reference for Endusers
ETAMATIC OEM
ETAMATIC S OEM
Sensors and Systems for Combustion Engineering
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Related Manuals for Lamtec ETAMATIC OEM
Summary of Contents for Lamtec ETAMATIC OEM
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Page 1
Quick Reference for Endusers ETAMATIC OEM ETAMATIC S OEM Sensors and Systems for Combustion Engineering www.lamtec.de… -
Page 3: Table Of Contents
Table of Contents Table of Contents General Information …………3 Validity of these Instructions .
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Page 4: General Information
General Information General Information Validity of these Instructions These instructions apply to the following device(s): ETAMATIC OEM in any configuration. These devices conform to the following standards and regulations: • DIN EN 298: 2012-11 • DIN EN 1643: 2014-09 •…
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Page 5: Safety
Safety Safety For Your Safety The following symbols are used in this document to draw the user’s attention to important safe- ty information. They are located at points where the information is required. It is essential that the safety information is observed and followed, and that applies particularly to the warnings. DANGER! This draws the user’s attention to imminent danger.
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Page 6: Brief Description
ETAMATIC S OEM has 3 three point step continuous output and a 0/4-20 mA output. The ETAMATIC OEM has a 25 pin D-SUB-socket with a serial interface for remote control or remote display via PC (windows Software seperately available). Connections for PROFIBUS- DP, TCP/IP (MODBUS TCP), Interbus-S and Modbus RTUare optionally available.
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Page 7: Operating Description
The ETAMATIC OEM then interrogates the boiler safety interlock chain (ETAMATIC) or the common safety interlock chain (ETAMATIC OEM) and the contact of the air pressure monitor. If it does not detect an «OK» condition, the text of a corresponding message appears and the operating control stops.
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Page 8: Customer Interface
Customer Interface Customer Interface Description of key functions: → RESET → Firing-rate/fault history up → Firing-rate/fault history down → MANUAL mode EIN/AUS Fig. 5-1 Customer interface → Umschaltung der Anzeige – Fuel/air ratio control – – Flame intensity – Operating hours Display and Operational Controls Fig.
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Page 9: Key Functions
In the initial state of the display (not on manual mode) while no fault of ETAMATIC OEM is pending, the upper indicator line switches to: •…
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Page 10: Display Level 2
Manual Function of the manual key In the HAND mode, the regular firing rate input of ETAMATIC OEM can be manually adjusted. Press HAND key → LED in HAND key lights up With these arrow keys the firing rate value can be adjusted.
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Page 11: Fault
The ETAMATIC OEM records the last 10 faults including the corresponding operating hours counter value. In initial state (not MANUAL mode), provided that no fault message of the ETAMATIC OEM is pending, the upper display line is switching over: You may scroll through the fault history using the arrow keys.
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Page 12: Co/O 2 Control
CO/O Control CO/O Control Customer Interface Display Fig. 7-1 O trim display I — O actual value II — O setpoint III — Operating status Threshold position: «-» → Reduce air «+» → Raise air Display of CO is replacing O display values as soon as CO control is active.
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Page 13
CO/O Control I — O actual value II — CO value Threshold position: «-» → Reduce air «+» → Raise air 11 → 11 optimisation steps are already car- ried out big letter «C» → optimisation with increasing firing rate small letter «c»… -
Page 14: What Happens If A Fault Occurs In The O Trim
100% check of O trim is carried out. A manual RESET of O fault is possible at any time: Press RESET → ETAMATIC OEM in mode O trim? If not, change to the required mode by pressing SHIFT. Calling Fault History O trim You can browse through the fault history with the ’up’…
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Page 15: Internal Burner Firing Rate Controller
Press key MANUAL again to cancel firing rate controller. It is also possible to switch the ETAMATIC OEM to «Manual Control» with the terminals. By short-circuiting the Pt100 signal (e.g. bridge terminal 19 and 20) the burner firing rate control- ler is switched off.
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Page 16: Displaying The Running Time Meter
The counter refers to the total sum of operating hours of ETAMATIC OEM. It is started as soon as voltage is applied to the device (this counter also provides basic data to fault history).
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Page 17: Calling The Checksums
→ One after the other is shown: CRC 16 of level 0, 1 and 2→ changeable by authorised personnel only CRC 16 der Ebene 4 → changeable by LAMTEC only 1. safety time oil in s 2. safety time oil in s 1.
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Page 18: Appendix
→ BURNER OFF (no signal present) → SETTING → CLEAR MEMORY → SETTING/PRE-PURGE» (as «PRE-PURGE», but ETAMATIC OEM on SETTING) → SETTING/CONTROL (as AUTOMATIC but ETAMATIC OEM on SET) → FAULT → PRE-PURGE → MANUAL MODE (burner efficiency may be adjusted manually) or Hand no display →…
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Page 19: Fuses
LAMTEC SYSTEM BUS Communications interface Fig. 9-3 Rear view ETAMATIC OEM NOTICE PC connection possible only via LAMTEC interface adapter! NOTICE For exchange of the fuses F3, F4, F5 these specifications are to be complied: — 2A slow blow — high breaking capacity according to IEC 60127-2, Sheet 5: 1500A @ 250VAC — melting integral I²t <…
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Page 20: Eu Declaration Of Conformity
Appendix EU Declaration of Conformity…
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Appendix… -
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Appendix… -
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Appendix… -
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The information in this publication is subject to technical changes. LAMTEC Meß- und Regeltechnik für Feuerungen GmbH & Co. KG Wiesenstraße 6 D-69190 Walldorf Telefon: +49 (0) 6227 6052-0 info@lamtec.de Telefax: +49 (0) 6227 6052-57 www.lamtec.de Printed in Germany | Copyright 2020…
Specifications:1565/1565155-etamatic_oem.pdf file (19 Mar 2023) |
Accompanying Data:
Lamtec ETAMATIC OEM Control Systems, Control Unit PDF Manual (Updated: Sunday 19th of March 2023 03:30:31 PM)
Rating: 4.6 (rated by 90 users)
Compatible devices: CMS, FMS 4, ETAMATIC S, ETAMATIC, BT300 BurnerTronic, ETAMATIC V, 663R0932, FMS Series.
Recommended Documentation:
Text Version of Lamtec ETAMATIC OEM Manual
(Ocr-Read Summary of Contents, UPD: 19 March 2023)
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47, 46 7 O 2 Trim 7.8 CO/O 2 Control Operating and Display 7.8.1 Display and Interpretation of the Operating Modes 7.8.2 Calling CO/O 2 Control Text Messages Switch display to O 2 trim By programming unit By customer interface Customer Interface Display Fig. 7-2 O 2 tri…
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155, 154 10 Appendix NOTICE PC connection possible only via LAMTEC interface adapter! NOTICE For exchange of the fuses F3, F4, F5 these specifications are to be complied: — 2A slow blow — high breaking capacity according to IEC 60127-2, Sheet 5: 1500A @ 250VAC — melting integral I²t <…
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154, Lamtec ETAMATIC OEM 153 10 Appendix 10.30 Dimensions and Weight Dimensions Installation ETAMATIC OEM (lxwxd) mm 144x256x94 Depth with LSB plug 125 Weight approx. 2,3 kg Protection class according to DIN 10 050 IP 40 ETAMATIC OEM cabinet mounting Position of use any Customer interface panel moun…
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81, Lamtec ETAMATIC OEM 80 10 Appendix Fault Code No. Restart according to Description TRD EN676 107 0 0 Invalid configuration H/Ü Fault during an internal self-test. Reset the fault; switch the mains voltage off and on again if necessary. Using the remote control software, compare the current parameter setting and …
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151, 150 10 Appendix Continuous control output Apparent ohmic resistance: 4…20mA < 600 Analogue inputs Apparent ohmic resistance: 100 ETAMATIC OEM with internal flame monitor Connectable flame sensors: NOTICE Up to 9 mA test current is discharged…
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127, 126 10 Appendix Fig. 10-23 connection diagram modem for remote control 10.16 Internal Connecting Diagram of the Control Output Device Fig. 10-24 Internal connecting diagram of the control outputs No. Description 1 with termination resistors, setting via DIP switch 2 adjustment of the modem’s DIP switch: SW1 di…
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12, 11 5 Operator Device 5 Operator Device Fig. 5-1 Customer interface Intent of the keys: Reset Firing rate/ Fault history up Firing rate / Fault history down Firing rate / Fault history down Manual operation on / off – Fuel/air ratio control –O 2 – Flame intensity – Operatin…
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28, Lamtec ETAMATIC OEM 27 6 Commissioning 6.1.16 Automatic Restart after Failure Respect the directives for combustion plants, if you set this parameter. Nr. FMS ETA /FA1 Short Text Description Min Max Default 836 2 2 AutStart Automatic restart after fault 0 30 0 Automatic restart of the burner on fault cond…
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135, Lamtec ETAMATIC OEM 134 10 Appendix Additionally, there are 2 DIP switch for changing between NAMUR and three wire connection. – S2.1 and S2.2 at OFF three wire system – S2.1 and S2.2 at ON NAMUR If the set pulse range is exceeded the value remains at the upper end of the range (higher…
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60, 59 8 Internal Burner Firing Rate Controller 8.12 Start-up Sequence The firing rate controller has a startup circuit, in order to slow down the burner’s start firing rate. The startup circuit is run during each new burner start. The internal firing rate is held at a value P 792 adjustable by the user, for a…
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30, 29 6 Commissioning 6.1.17.2 Control Range Select parameter no. 802 and 803 6.1.17.3 Setting the Control Thermostat Select parameter no. 804 Nr. FMS ETA /FA1 Short Text Description Min Max Default 802 0 0 EinschPt Burner start point 999 999 1 Enter the switching point of the firing rate…
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115, 114 10 Appendix 10.12.2 Flame Sensor Connection 10.12.2.1FFS07 Assembly BK Black RD Red WH White BU Blue GN Green YE Yellow PK Pink Recommended assembly location 4 Sealing washer must latch!
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Gas safety solenoid shut-off valve series VSB and VSA, ap-proved according to the norm EN 161 with product iden-tication and manufactured according to regulation EU 2016/426, are suitable for the automatic control of gases belonging to the rst, second and third family. On request there are versions for biogas and air. These val-ves, normally closed for continu …
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INSTALLATION AND MAINTENANCE INSTRUCTIONSIM-2-00021-US April 2014MST21 Series Thermostatic Steam TrapMaximum Working Conditions305 psig @572º F (21 barg @300º C)Installation1. Install strainer optional and isolation valve upstream of trap if draining to grade and both sides if discharging into return system.2. Never weld pipe connections to the trap, damage to the thermostatic capsule c …
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Table of Contents for Lamtec ETAMATIC OEM:
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35 6 Commissioning 6.2.7 Changing Points Points can be changed at any time by selecting the firing rate rating for the required point and re-entering the associated control element position. Enter password (see 6.1.2 Password Entry Change any other point To save the changes: 6.2.8 Re-enter Range Limits When changing the limit switch after programming, the range limits must be re-determined. Enter password (see chapter 6.1.2 Password Entry). Since no point has been entered, the old curve is re-activated, but the range limits remain cleared
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140 10 Appendix 10.21.3 Examples of Potentiometers and Motors Example of potentiometers: The following potentiometers are authorised for use as solo feedback in the case of ETAMATIC OEM, on condition that they are positively connected to the damper: Other potentiometers are permitted only after consulting LAMTEC or the TÜV. Examples of servomotors Servomotors with approved potentiometer, fitted with a positive interlock connection: Manufacturer Type Rating Novotechnik SP-Serie Rating: 5 kΩ* Contelec PL 240 Rat
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10 4 Operating Description 4 Operating Description (For example chart, see chapter 10.7 Process Sequence Charts) Should the burner be switched on, a «Burner On» signal would first be sent to terminal 58. The burner control unit would send a request to the safety interlock chain (SIC) and the air pres- sure monitor contact. If it does not recognise any «good condition», a corresponding message would be displayed
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145 10 Appendix 10.25.2 PE Busbar Two rails are fitted to the left and right side of the terminal strips and parallel to them on the unit’s rear side. Connect all shieldings to these rails. Also connect the PE to this point from the outside. 10.25.3 Control Cabinet Wiring The low-voltage cables from and to the ETAMATIC OEM should not run in parallel to the power electronics’ in and out conductors in one cable duct. Frequency converter cables a
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125 10 Appendix 10.14.4 LSB Cable Connection Devices on LAMTEC SYSTEM BUS (LSB) muss be connected in serial/row (see Fig. 10-20 Serial BUS connection). The first and the last participant on LSB must be terminated with a termination resistor of 120 . All the other BUS participants are not allowed to be connected to any termination resistor at all. A star wiring is not permitted (see Fig. 10-21 Star BUS con- nection). For activation of the termination
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5 Table of Contents 10.12.1 Flame Scanner Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113 10.12.2 Flame Sensor Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114 10.12.2.1 FFS07 Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114 10.12.2.2 FFS08 Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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122 10 Appendix Fig. 10-16 LSB connection ETAMATIC OEM o LT1 from SN 600 on Fig. 10-17 LSB-Connection ETAMATIC OEM — LT 1 to SN 0599 No. Description 1 PE-bar in housing LT1 2 Housing 3 Pre-canned line 2m, 663R0421N 4 LT1 from serial number 0600 5 Terminal resistance active 6 To other LAMTEC- devices No. Description 1 PE-Track in system-cover LT1 2 Cover 3 Pre-canned
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75 10 Appendix 10.3 Avoiding EMC Effects The proper installation normally prevents from the EMC-adverse effects. In exceptional cases it may be necessary by not traceable and /or not removable sources of interference to find an adequate grounding point for the shielding. 1 In exceptional cases it is possible, that through the protected earth an interference level is injected into the shielding. Unmotivated fault shut-downs (especially with low wanted sig- nal) or temporary extraneous light may occur. In this cases the
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123 10 Appendix 10.14.3 LAMTEC SYSTEM BUS Plug Use the LSB plug with service-interface to connect a LAMTEC device to the LAMTEC SYS- TEM BUS. The plug is equipped with circuit board clamps. The clamping points can be held open with an integrated slide. With this you can position and insert the conductor ends of the multi conductor bus cable simultaneously. The clamps are suitable for all wire kinds of 0,08 mm 2 …. 0,5 mm 2 The plug has 2 horizontal cable inlets for in- and output, of t
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112 10 Appendix 10.11 Connections in Non Grounded Power Line Networks If you use a ETAMATIC OEM in a non-grounded power line network, you have to connect the ETAMATIC OEM upstrem to a mains filter. Firing-rate input (term. 3 to term. 6) 100 m LSB 500 m ETAMATIC OEM Signal Cable Length No. Description 1 mains filter type 663 R 4050 2 ETAMATIC OEM 3 PE bar
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111 10 Appendix 10.10 Permitted Cable Lengths ETAMATIC OEM Signal Cable Length Channel 1 (term. 34, term. 33) 100 m Channel 2 (term. 32, term. 31) 100 m Channel 3 (term. 30, term. 29) 100 m Channel 4 (term. 28, term. 27) 100 m Power supply (term. 25, term. 26) unlimited Setting release (term. 24, term. 59) 100 m Burner on (term. 24, term. 58) 100 m Oil pressure < max. (term. 24, term. 57) 100 m Control release (term. 24, term. 56) 100 m
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15 5 Operator Device 5.2.3 Settings 5.2.3.1 DIP Switch The DIP-switches SW 1.1 and SW 1.2 define the LSB-family 1…4 (0…3 binary). Use the DIP-switches SW 1.3 … SW 1.7 you can adjust the contrast in steps of 2 from 0…62 (default value after RESET). With DIP-switch SW 1.8 you can define the terminator’s function for LAMTEC SYSTEM BUS (LSB), the CAN Bus-terminator. 5.2.3.2 Description of the LED SW 1.2 SW 1.1 LSB-Familie off off 1 off on 2 on off 3 on on 4 SW 1.8 Terminator off inac
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57 8 Internal Burner Firing Rate Controller 8.7 Input Signals The analogue inputs can be preset in various forms. Actual value: • as 0/4-20 mA current signal, terminals 4 and 5 (+), 3 (-) • as non active current signal 4…20 mA (two-wire connection), terminal 23, + 24V supply, terminals 4 and 5 input • as 0…10 V voltage signal • as 0…5 k resistance signal, terminal 4, 5 and 6 • directly as PT 100 terminal 21
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117 10 Appendix Fig. 10-11 Connection diagram customer interface — PROFIBUS — LSB-Module
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70 10 Appendix 10 Appendix 10.1 Mode Abbreviations Used Programming unit: Display of ACTUAL VALUE Short text Description BE READY (signal on terminal 58) ZÜ IGNITION POSITION or IGNITION EZ SETTING/IGNITION position (same as IGNITION, but ETAMATIC OEM on SETTING) GL BASE FIRING RATE EG SETTING/BASE FIRING RATE” (as BASIC FIRING RATE, but ETAMATIC OEM on SETTING) NA POST-PURGE AU BURNER OFF (no signal present) EI SETTING SL CLEAR MEMORY EV SETTING/PRE-PURGE» (as «PRE-PURGE», but ETAMATIC OEM on SET- TIN
Questions, Opinions and Exploitation Impressions:
You can ask a question, express your opinion or share our experience of Lamtec ETAMATIC OEM device using right now.
9
Appendix
9.4
A * means, that a reset is valid in this error. A blinking error LED signalises, that the system
will be restarted within a short time.
A ** means, the system tries to restart without a limit.
Fault
TRD
Code:
P425=0
P836>1
S000
0
S001
0
S002
0
S003
0
S004
1
S005
0
S006
0
S007
0
S008
0
S009
0
S010
0
S011
0
S012
0
S013
1
S102
0
S103
0
S104
0
S105
>88
S106
0
S107
0
S108
0
S110
0
S111
0
S112
0
S120
1
S121
0
S122
0
S123
0
S124
0
S125
0
S139
0
S140
0
S141
0
S142
0
EN676
Description
P425=2
21.1.11
P836>1
0
No fault code available for this fault
3
No pilot flame appearing
0
light/dark check failure
3
Flame fault during ignition
1
Flame fault during operation
3
Flame signal does not appear during 1sr safety time
3
Flame signal goes out during stabilising time
3
Flame signal goes out during 1st safety time
0
Flame signal goes out during 2nd safety time
0
Flame signal does not appear during safety time
0
Flame signal goes out immediately after ignition
0
Internal fault: 5 sec. outside light monitoring period not kept
0
relay module not connected or missing 24V supply for relay
3
main flame signals appears during ignition
0
Internal fault: Internal communication fifo has overflowed
0
Internal fault: Error in misc. data
0
Internal Fault: D/A-Converter faulty
3
Curve data faulty! Curve set no.:
0
parameters not equal for parameter no.:
0
Invalid configuration
0
Different input signals on main processor and monitoring processor terminal-
0
CRC-16 test had found an error
0
RAM-Test detected error
0
Etamatic selftest exceeds timeout limit
1
Different operating modes for mon. and main processor
0
Correction is outside permissible range. Channel : 1
0
Correction is outside permissible range. Channel : 2
0
Correction is outside permissible range. Channel : 3
0
Correction is outside permissible range. Channel : 4
0
Correction is outside permissible range. Channel : 5
0
Integr. Flame Detector: selftest fault
0
EEProm is faulty.
0
Potentiometer faulty, feedback changing too quickly: channel 1
0
Potentiometer faulty, feedback changing too quickly: channel 2
74
- Page 1
Manual BT300 BurnerTronic Sensors and Systems for Combustion Engineering www.lamtec.de… -
Page 3: Table Of Contents
Table of Contents Table of Contents Important Information about the Manual ……..6 Validity of these Instructions.
- Page 4
Table of Contents 4.8.2 Direction of Rotation/Position Damper Closed ……55 4.8.3 Detection of Actuators with Transposed Connections ….56 4.8.4 Adjusting of Actuators . - Page 5
Table of Contents 5.3.7.2 Access Rights ……….130 5.3.7.3 BurnerTronic . - Page 6
Table of Contents 7.4.2 LEDs …………186 7.4.3 Electrical Connection . -
Page 7: Important Information About The Manual
Important Information about the Manual Important Information about the Manual Validity of these Instructions This manual is valid for the burner control system BurnerTronic BT300 in any configuration. The information contained in this document refer to the software versions BT300 v3.5 and UI300 v3.8.
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Page 8: General Safety Instructions
General Safety Instructions General Safety Instructions Classification of the Safety Instructions and Warnings The following symbols are used in this document to draw the user’s attention to important safe- ty information. They are located at points where the information is required. It is essential that the safety information is observed and followed, and that applies particularly to the warnings.
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Page 9: Product-Specific Dangers
The BT300 is a safety device! The device must not be opened, interfered with or modified. LAMTEC assumes no liability for damages arising as a result of unauthorised interference! • After commissioning and after each maintenance action check the exhaust gas values across the entire power range.
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Page 10: Commissioning Notes
General Safety Instructions 2.2.1 Commissioning Notes • Check all safety functions during commissioning! • There is no feature to prevent RASTx connector plugs being transposed. Therefore en- sure the correct assignment of the plant’s plugs prior to commissioning. • Check electromagnetic emissions specific to the application. •…
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Page 11: Basic Device
General Safety Instructions 2.2.1.2 Basic Device Check the following items prior to commissioning: • Valves must be assigned correctly to valve outputs on BT300. • Correct setting of time parameters (especially safety and pre-purge times). • Flame sensor functioning well in case of: •…
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Page 12: Checking The Fuel/Air Ratio Control System
General Safety Instructions 2.2.2.2 Checking the Fuel/Air Ratio Control System Save setting values (curve parameters) for actuator elements, fuel and combustion air through the complete range of burner firing rate in sufficient number. Select setting values of fuel and combustion air considering combustion chamber pressure, fuel pressure, temperature and pressure of the combustion air in order to guarantee proper operation with adequate excess air through the entire range of burner firing rate.
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Page 13: Installation Notes
General Safety Instructions NOTICE Damaging the servomotors with 1.2 Nm and 9.0 Nm through opening. Opening the servomotor destroys the servomotor. The warranty expires. Installation Notes • Lay high-voltage ignition cable always separately and in safe distance from device and other cables.
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Page 14: Electrical Connection Flame Sensor
General Safety Instructions Electrical Connection Flame Sensor Interruptions and losses in signal transmission need to be minimised: • Do not wire the sensor cable with other cables. Flame signal is reduced through line capacities. Use a separate 7-pole cable. •…
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Page 15: Product Description
Product Description Product Description Functional Description BT300 combines the benefits of an electronic fuel/air ratio control system with up to three mo- torised actuator elements and optional modules like an analogue output for speed control of the combustion air fan with an electronic burner control unit. The leakage test, flame monitor- ing system, power control unit and (optional) CO/O controller for control and optimisation of an oil or gas-fired forced-draught burner are all integrated.
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Page 16: Life Cycle
A cutting and clamping technique (SKT) * B screw terminals * 2 RAST2.5 plug connector for actuator, User interface and LAMTEC SYSTEM BUS in cutting and clamping technique * please note plug-in direction The designed lifetime is not the warranty time specified in the Terms of Delivery…
- Page 17
Product Description Fig. 3-1 Dimensions BT320 … 340 (terminal assignment BT330/BT340 only) Fig. 3-2 UI300 side view Fig. 3-3 UI300 front view Fig. 3-4 UI300 panel cut-out… - Page 18
Product Description Function Power supply: 230 V +10/-15 % 47-63 Hz 115 V +10/-15 % 47-63 Hz (on request) Maximum backup-fuse: 10 A slow-blow To be used only in a grounded power line network! Power consumption: max. 30 VA 1 A Switching threshold of ionisation current: Digital signal inputs:… -
Page 19: Actuator
Product Description Environmental Conditions Temperature range -20 … +60 °C/-4 °F … +140 °F (condensation is prohibited) Transport: Climatic conditions Class 2K3 according to DIN EN 60721-3 Mechanic conditions Class 2M2 according to DIN EN 60721-3 Temperature range -20 … +70 °C/-4 °F … +158 °F (condensation is prohibited) Storage: Climatic conditions…
- Page 20
Product Description 1 15.4 (+0.3/-1) including axial play 2 Cap cannot be removed by hand 3 Flexible control cable (black), length 1.5 m 4 Plug connector (RAST 2.5) pole number 6 5 Brass tube and M4 x 30 DIN 912 cylinder bolt fixed with O-ring Function Power supply 24 VDC ±20 %… -
Page 21: Actuators 662R5001
Product Description NOTICE Damaging the 0,8 Nm actuator by opening the actuator. Do not open the actuator at another part as the cover of the electric connection, otherwise the actuator will be damaged. The warranty expires and is invalid. Do not open the actuator but at the cover of the electric connection. 3.3.2.2 Actuators 662R5001…
- Page 22
Product Description Fig. 3-6 Dimensional drawing of motor type 0R5001-1 and type 662R5003-1 with cable Fig. 3-7 Dimensional drawing of motor type 660R5009-0 without cable but with plug… - Page 23
Product Description Function 662R5001… 662R5003… 662R5009… Power supply: 24VDC ±20 % Floating time 5 s/90° 5 s/90° 15 s/90° Direction of rotation 0° left — view to the drive shaft to 90° Effective 1.2 Nm 3 Nm 9 Nm output torque (both directions of rota- (both directions of rota- (both directions of rotation) -
Page 24: Flame Sensor/Flame Scanner
Product Description 3.3.3 Flame Sensor/Flame Scanner Fig. 3-8 KLC 1000 Fig. 3-9 Dimensions KLC 1000 (1 = radial scanning opening) KLC10/KLC1000 Input Data Power supply: KLC10: 120 VAC -15/+10 % 50-60 Hz KLC1000: 230/240 VAC -15/+10 % 50-60 Hz Current consumption: 5,5 mA Optical Evaluation Spectral range:…
- Page 25
Product Description Fig. 3-10 Dimensions of angle adapter for KLC 2002 Fig. 3-11 Dimensions KLC 2002 KLC20/KLC2002 Input Data Power supply: KLC20: 120 VAC -15/+10 % 50-60 Hz KLC2002: 230/240 VAC -15/+10 % 50-60 Hz Current consumption: 3 — 4 mA Optical Evaluation Spectral range: 380 — 1150 nm… -
Page 26: Mounting And Functions
Mounting and Functions Mounting and Functions System Overview Fig. 4-1 System overview of BurnerTronic BT300…
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Page 27: Connecting Diagrams
Mounting and Functions Connecting Diagrams X30 = User Interface UI 300 Maximum cable length X31 = LSB Option X01-X6+X08: 10 m X32 = continuous output 1, e.g. air damper X07+X09: 20 m X33 = continuous output 2, e.g. gas damper X10: 20 m X34 = continuous output 3 (optional)
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Page 28: Optional Connections For The Fuel Line
Mounting and Functions When running oil/gas burning applications (BT340 in combination with DFM300), the function ’Gas > min’ is aligned with X05. Put in oil/gas applications, the pressure monitoring for ’Oil pressure > min.’ in the oil safety ► interlock chain (SIC). 4.2.1 Optional Connections for the Fuel Line Fuel valve (gas side)
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Page 29: Optional Connections For The Flame Scanner
Mounting and Functions Oil pressure min sensor Oil valve 1 stage Oil valve 2 stage Oil valve 3 stage Fig. 4-4 Fuel train — oil 3-stage Oil pressure min sensor Oil valve for modulated operation, oil valve 1 stage at 2-stage operation Oil valve 2 stage at 2-stage operation Optional ignition valve…
- Page 30
Mounting and Functions Fig. 4-8 Connecting diagram of the sensor Honeywell IRD1020 Fig. 4-9 Connecting diagram of sensor Honeywell IRD1010, KLC10, KLC20, KLC1000 or KLC2002 Colour code BK = black; BN = brown; BU = blue Fig. 4-10 Connecting diagram F300K via power pack FN20 (also valid for F200K) Fig. - Page 31
Mounting and Functions Dimensional Drawings Fig. 4-12 Dimensional drawing F200K Fig. 4-13 Dimensional drawing F300K Fig. 4-15 Dimensional drawing KLC1000/KLC2002 side view Fig. 4-14 Dimensional drawing KLC1000/KLC2002 top view 1 Radial opening (with KLC1000 only) -
Page 32: Lsb Module Integration
Mounting and Functions 4.2.3 LSB Module Integration EBM100 may be used as an alterna- tive field bus module instead of PBM100 Alternative CO/O measurement LEM100 can be used as an alternative to LCM100 to connect LSB to BT100 CO/O measurement Fig.
- Page 33
2x2x0,60 twisted pairs with shielding, impedance 120 Devices on LAMTEC SYSTEM BUS (LSB) must be connected in serial/row (see Fig. 4-17 Se- rial BUS connection). The first and the last participant on LSB must be terminated with a ter- mination resistor of 120 . All the other BUS participants are not allowed to be connected to any termination resistor at all. -
Page 34: Flame Monitoring
The following types of flame sensor for intermittent operation (burner switched off at least once every 24 hours) are valid for use. Manufacturer Type Settings P 800 Approval LAMTEC F152 with FFS07 o. FFS08 UV (up to v3.1) Continuous contact (from v3.3) F200K with FN20 UV (up to v3.1)
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Page 35: Flame Sensors
Mounting and Functions WARNING! Danger from fuel ingress to combustion chamber after loss of flame! Improper use or configuration of flame sensors not approved for continuous operation can re- sult in hazardous situations and possible cause of explosion leading to loss of life and prop- erty.
- Page 36
Mounting and Functions NOTICE To avoid any disturbance, do not align the detector direct to the ignition spark. Breakdowns during pre-purge procedure may occur. The maximum length of the connection must be in accordance with the technical data. Install the detector connection cable with most possible distance to the ignition cable or the mains cable. -
Page 37: Klc 10/Klc 1000
Mounting and Functions KLC 20/KLC 2002 switches the flame relay ON – the red LED is permanently ON. After 9 sec. the switching output is disconnected – the red LED flashes. NOTICE Due to the safety function of the disturbance frequency cut-off, a flame simulation is not pos- sible by means of a simple art source of light.
- Page 38
Mounting and Functions CAUTION! For safety reasons and within the technical regulations, a controlled burner shut-down of the burner must occur and be guaranteed to happen at least once in every 24 hours of operation. Operating Indicator LED The flame detector KLC 10/KLC 1000 indicates the following operating conditions and flame signal strengths via the built-in LED. -
Page 39: Process Sequence Charts
Mounting and Functions Process Sequence Charts Key to process sequence charts Any condition Waiting for safety interlock chain gas, scan of air pressure monitor min. Time for pressure build-up in the gas test line (available with activated leakage test) 2,4 s Actuator running time 30 s — 60 s Delay of the recirculation damper…
- Page 40
Mounting and Functions Fig. 4-19 Oil with pilot burner BT300… - Page 41
Mounting and Functions Fig. 4-20 Oil without pilot burner BT300… - Page 42
Mounting and Functions Fig. 4-21 Gas with pilot burner and leakage test BT300… - Page 43
Mounting and Functions Fig. 4-22 Gas without pilot burner and leakage test BT300… -
Page 44: Leakage Test For Main Gas Valves
Mounting and Functions Fig. 4-23 Leakage test BT300 Leakage Test for Main Gas Valves 4.5.1 Calculation Example With BT300 the gas pressure monitor is also applicable to the monitoring of minimal gas pres- sure. Therefore the minimal gas pressure of the burner must be set. The valve leakage test time t3 (P 311) would be set by BT300.
- Page 45
Mounting and Functions Example 1 Burner capacity =1000 KW Fuel = natural gas H, calorific value = 10 kW/m Nominal volumetric flow of the gases = 100 m Leakage rate max. = 0,1 m /h or 100l/h Example 2 Burner capacity =1000 KW Fuel = propane, calorific value = 25,9 kW/m Nominal volumetric flow of propane = 38,6 m Leakage rate max. - Page 46
Mounting and Functions Leakage rate in l/h leak Absolute pressure on the switching point of pressure monitor (adjusted over- pressure + atmosphere pressure) Adjusted overpressure on switching point of pressure monitor sw e Output pressure on gas valve V2 during purge out e Atmospheric pressure (average of 101,3 kPa at sea level) Test volume between the valves… -
Page 47: Leakage Test Process Flow
Mounting and Functions 4.5.2 Leakage Test Process Flow The valve leakage test checks if the main gas valves are sealed. For this purpose the gas pressure of the supply is analysed. As valve leakage test section (space between the two main valves) burns empty whenever the burner is switched off, this part is usually pressureless at start-up (gas pressure >…
- Page 48
Mounting and Functions Fig. 4-25 Leakage test process diagram… -
Page 49: Reaction On Gas Deficiency
Mounting and Functions 4.5.3 Reaction on Gas Deficiency If main gas 1 valve is open and the pressure drops below the minimum pressure, gas deficien- cy is detected. This causes a safety shut down and fault indication H611. Further reactions are depending on the settings in P301 (automatic restart).
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Page 50: Staged Operation
Mounting and Functions Fig. 4-27 Wiring proposition for purge of gas line via roof in combination with BurnerTronic Staged Operation Function BT300 has not only the ability of shifting the burner firing rate in oil operation infinitely but 2- stage and 3-stage. Therefore oil valve 2 and oil valve 3 is switched ON and OFF depending on the position of air channel 1.
- Page 51
Mounting and Functions Fig. 4-28 Switching threshold of stage operation Switch-on point valve 2 P 528 … P 530 Parameters 528 … 530 Switch-off point valve 2 S1 … S3 Threshold 1 … 3 Switch-on point valve 3 Internal firing rate Switch-off point valve 3 Ignition point Firing Rate Controller… -
Page 52: Flue Gas Recirculation
Mounting and Functions NOTICE When using TPS input via X9.x P 531, P 532, P 533 and P 534 are not necessary. Example for a 2 stage oil burner with firing rate controller by LCM100: Situation: • The burner has only one air flap at channel 1. •…
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Page 53: Actuator
Mounting and Functions Negative pressure created by the combustion air fan can be used as an alternative to a recir- culation fan to aspirate flue gases. For this method of flue gas recirculation it is sufficient to monitor the combustion air fan. It is not possible to use a VSD controlled recirculation fan with the BT300 system.
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Page 54: Detection Of Actuators With Transposed Connections
Mounting and Functions 12 o’clock position P 458 — P 460 = 0 • 9 o’clock position P 458 — P 460 = 1 • 4.8.3 Detection of Actuators with Transposed Connections While replacing BT300 make sure actuators are re-connected to the correct channel. Label the plugs/cables to prevent faults or use the ’transposition test’…
- Page 55
Mounting and Functions External, mechanical stop on channel 2 for detection of transposition External, mechanical stop on channel 1 for detection of transposition Operational range Reference mark Fig. 4-30 Actuators 662R5001…, 662R5003…, 662R5009 Reference mark Internal mechanical stop Max. angle of rotation for detection of transposition External, mechanical stop on channel 1 for detection of transposition… -
Page 56: Operating Control And Displays
Operating Control and Displays Operating Control and Displays User Interface UI300 5.1.1 UI300 User Interface Display BACK key Cursor keys ENTER key Fig. 5-1 User Interface Display The display shows in pictogram: • the menu structure • operating status • parameters •…
- Page 57
Operating Control and Displays INFO MANUAL SETTINGS DATA PROCESSING (release level 1 is mandatory) INFO Select INFO path for information about the following: • Burner • Faults/Fault history • Software version • Display of check sums • Serial number • Actuator positions (current damper position for each channel) •… -
Page 58: Main Menu
Operating Control and Displays 5.1.3 Main Menu INFORMATION menu path [selected] Display of fuel type Bar graph of internal firing rate in % (0 — 100) MANUAL menu path SETTINGS menu path Release level DATA HANDLING menu path Window number Fig.
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Page 59: Burner Details
Operating Control and Displays 5.1.4.1 Burner Details Displaying Operating Hours and Burner Starts Display of operating hours Number of operating hours in total (device connected with mains) Number of operating hours in oil operation Number of operating hours in gas operation Display of burner starts Number of burner starts in oil operation Number of burner starts in gas operation…
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Page 60: Recalling Fault History
Operating Control and Displays 5.1.4.2 Recalling Fault History Displaying Burner Faults Fault code (Last 10 faults are stored, No. of operating hours when no. 01 is the latest fault) fault has occurred D1 Diagnostic code 1 Duration of the fault D2 Diagnostic code 2 NOTICE Information concerning fault and diagnostic codes can be found in the list of fault codes.
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Page 61: Software Version
Operating Control and Displays Fault unlock How to unlock BT300 A fault is pending and the ENTER key is flashing. 1. Press ENTER key. BT300 is not locked anymore. Changing from fault unlock to main menu: A fault is pending and the ENTER key is flashing 1.
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Page 62: Serial Number
Operating Control and Displays The checksum shows whether the value of one or more parameters have been changed. 5.1.4.5 Serial Number UI = Serial numberUI300 BT = Serial number BT300 5.1.4.6 Positions of Actuators Indication of the channel’s actual (left to right): Channel 1 (oil) Channel 2 (air) Channel 3 (oil)
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Page 63: Check Digital Inputs/Outputs
Operating Control and Displays 5.1.4.7 Check Digital Inputs/Outputs Check Digital Inputs and Outputs Fuel selection oil Fan ON/OFF Fuel selection gas Fault Burner ON Ignition transformer ON/ Oil pressure min. is present Ignition valve ON/OFF Gas pressure min. is present SIC* oil is closed SIC* boiler is closed Oil pump OFF…
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Page 64: Manual Menu Path
Operating Control and Displays 5.1.5 Manual Menu Path MANUAL Select MANUAL path to carry out actions as follows: Switching burner ON and OFF Presetting of burner firing rate Start burner manually Adjust burner firing rate NOTICE At least release level1 is mandatory to start the burner. The ’Burner ON’…
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Page 65: Fault Indication
Operating Control and Displays 5.1.6 Fault Indication Displaying Burner Faults Fault code (Last 10 faults are stored, No. of operating hours when no. 01 is the latest fault) fault has occurred D1 Diagnostic code 1 Duration of the fault D2 Diagnostic code 2 NOTICE Information concerning fault and diagnostic codes can be found in the list of fault codes.
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Page 66: Settings Menu Path
Operating Control and Displays Fault unlock How to unlock BT300 A fault is pending and the ENTER key is flashing. 1. Press ENTER key. BT300 is not locked anymore. Changing from fault unlock to main menu: A fault is pending and the ENTER key is flashing 1.
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Page 67: Password
Operating Control and Displays 5.1.7.1 Password Reset access level Enter password to get access level 5.1.7.2 Program Sequence Duration pre-purge period Duration post purge period valve leakage test Pilot burner gas operation Pilot burner oil operation…
- Page 68
Operating Control and Displays Set duration of pre-purge period Parameter number UI Parameter modifications are transferred BT = Parameter number BT300 Parameter modifications are discarded NOTICE Both values are identical – Confirm with The values are different – Cancel with NOTICE Pre-purge starts as soon as damper reaches pre-purge position and — if you use a VSM — the last but one point of fuel/air ratio curve is passed. - Page 69
Operating Control and Displays Set duration of the post-purge NOTICE Both values are identical – Confirm with The values are different – Cancel with… - Page 70
Operating Control and Displays Valve Leakage Test Valve leakage test ON/OFF P802 P802 = 0 = Valve leakage test OFF P802 = 1 = If valve leakage test before ignition is configured, the test runs during ignition. P802 = 2 = If valve leakage test before ignition is configured, the test runs after pre-purge. - Page 71
Operating Control and Displays Activate pilot burner in gas operation Pilot burner ON Pilot burner OFF Activate pilot burner in oil operation Pilot burner ON Pilot burner OFF Ignition point Firing rate points 200, 250, 300, 400, 500, 600, 700, 800, 900, 999 S 0 … - Page 72
Operating Control and Displays NOTICE The following firing rate points are available: Ignition point , 200, 250, 300, 400, 500, 600, 700, 800, 900, 999 Use BACK key to switch to menu settings after having completed curve settings. NOTICE Pressing while setting firing rate points discards the modifications. -
Page 73: Configuration Of The Actuators
Operating Control and Displays NOTICE The points are approached from above by using the overshoot-function. If you use the over- shoot-function in operation, you must program all points from above. Only if you do so, the required position will match the actual position. 5.1.7.3 Configuration of the Actuators Displaying the Actuators’…
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Page 74: Deleting Curves
Operating Control and Displays NOTICE The actuators are running to the new position immediately after the modification. To adjust channel 4 the fan motor must be running. The feedback setpoint curve of channel 4 must rise continuously. Pressing key BACK for longer than 2 s in menu ’Curve settings of the actuators’ causes a fault shut down.
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Page 75: Ui300 Settings
Operating Control and Displays CO/O Controller Settings • ON/OFF • Correction mask • Correction spreading Trim Settings • Correction range • Testing O trim • curve settings • Delete O setpoint curve or optimisation curve • Adjusting P term and dead time •…
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Page 76: Edit Parameter
Operating Control and Displays 5.1.7.8 Edit Parameter Setting Parameters up to Release Level 2 NOTICE Only parameters of the present release level can be modified.
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Page 77: Menu Path Dataset Processing
Operating Control and Displays 5.1.8 Menu Path Dataset Processing Saving/Restoring BT300 Dataset Saving dataset from BT300 Transfer dataset to BT300 NOTICE Check the checksum for equality each time after saving the data: Check the settings from chapter 2.4 Installation Notes after transferring data to BT300: Other Displays No connection between UI300 and BT300 UI300 User Interface pictogram…
- Page 78
Operating Control and Displays Termination Communication error pictogram connection unavailable Fig. 5-4 Termination Error Mode H120 Failure number Diagnostics 1 Diagnostics 2 Failure occurs at that time Fig. 5-5 BT300 ferror mode CO/O2 Hint Number of the currently pending hint. The hint can be released by the RESET but- ton. - Page 79
Operating Control and Displays CO/O2 Fault Number of the currently pending fault. The fault can be released by the RESET button. Fig. 5-8 CO/O fault CO Faultr Number of the currently pending fault. The fault can be released by the RESET button. -
Page 80: Lsb Remote Software
Resolution of the display 1024 x 768 pixel 5.3.1.2 Install Software The remote software visualises parameters and curve data of the end devices on LAMTEC SYSTEM BUS (LSB). Values are edited and saved. A USB-CAN module connects the end device via LSB. For this purpose, install the driver for the USB-CAN module.
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Page 81: Install Software
Operating Control and Displays The current status of the end device, which is determined by the settings for the parameters and curve data can be saved (backed-up) in a data set on the PC. Once backed-up, these data sets can then be restored later to reproduce a certain status in the BT300. You will find a schematic diagram in chapter 4.1 System Overview.
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Operating Control and Displays Fig. 5-14 Software setup assistant 3. Select ’Next’. The window to select destination folder opens. Fig. 5-15 Select destination folder 4. Specify the folder where the LSB Remote Software should be installed. A warning if the folder already exists is displayed. 5. - Page 83
Operating Control and Displays Fig. 5-16 Select start menu folder 6. To proceed, select ’Next’ 7. Create a program short cut. a) Check the box to launch an icon for the application on the desktop. Fig. 5-17 Create a desktop icon 8. - Page 84
Operating Control and Displays Fig. 5-18 Select USB-CAN drivers 10. «Next» to continue, «Cancel» to exit. NOTICE Do not connect an USB-CAN converter to the computer during installation of the USB-CAN driver! 11. Click on “Install“ to start the installation. Otherwise select «Cancel» to cancel the installa- tion. - Page 85
Operating Control and Displays Fig. 5-20 Installation in progress The progress bar shows installation process. NOTICE As soon as the bar fills up the USB-CAN driver setup starts. Do not connect a USB-CAN converter to the computer during installation of the USB-CAN driver! 12. - Page 86
Operating Control and Displays Fig. 5-22 Start window of the USB-CAN driver installation Select ’Next’ to start installation. 14. Read and accept the license agreement. Then proceed by clicking “Next”. (The ’Next’ button will be active after accepting the license agreement. Fig. - Page 87
Operating Control and Displays Fig. 5-24 Preparing USB-CAN-driver installation «Next» to continue, «Cancel» to exit. 16. Fill out the fields in the following window Fig. 5-25 User information «Next» to continue, «Cancel» to exit. 17. Select installation folder for installation of USB-CAN-driver. - Page 88
Operating Control and Displays Fig. 5-26 Selection of the installation folder «Next» to continue, «Cancel» to exit. 18. Read following information carefully and answer question with ’YES’. NOTICE It is important that you read the information window thoroughly and fully understand its con- tents. - Page 89
Operating Control and Displays Fig. 5-28 Selection of the components «Next» to continue, «Cancel» to exit. 20. Confirm selection of storage folder for program’s short cuts (standard = start menu). Fig. 5-29 Storage of short cuts «Next» to continue, «Cancel» to exit. 21. - Page 90
Operating Control and Displays Fig. 5-30 Additional functions «Next» to continue, «Cancel» to exit. 22. Additional options regarding driver update Fig. 5-31 Additional options «Next» to continue, «Cancel» to exit. 23. Select “Install“ to start the installation. Otherwise select «Cancel» to cancel the installation. - Page 91
Operating Control and Displays Fig. 5-32 Start the driver installation 24. The installation starts. The bar indicates the progress of the installation. Wait until the bar fills up. Fig. 5-33 USB-CAN driver installation Process 25. During installation you will receive the following security prompt. - Page 92
Operating Control and Displays Fig. 5-34 Security dialogue Select “Install“ to continue 26. When the installation is completed you will receive the following version information. Fig. 5-35 Important information regarding the USB-CAN driver version «Next» to continue 27. Complete the driver installation by clicking “Finish”… - Page 93
Operating Control and Displays Fig. 5-36 Driver setup has been completed 28. Connect the USB/CAN module to the computer. As soon as the module is connected to the system the system recognises the module and starts installing the driver software. 29. -
Page 94: First Connection With The End Device
Operating Control and Displays Fig. 5-38 USB/CAN module is now ready to use 30. End the installation by clicking “Close” The installation is completed and the LSB Remote Software can be used. 5.3.1.4 First Connection with the End Device NOTICE If you start the software without connected and available USB-CAN module you will receive the following message: Fig.
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Page 95: Release Codes/Release Levels
This code is pro- vided by LAMTEC in combination with an USB-CAN module. Access to the input mask for this activation code is available either via menu (Options >> Enter…
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Page 96: Offline/Online
Operating Control and Displays 1. Click Key icon in the bottom left The following entry mask opens: Fig. 5-42 Dialogue window Access code NOTICE The activation code applies exclusively to one particular USB-CAN module in each case. For entering a code this USB-CAN module has to be connected already. NOTICE If a USB-CAN module is present, the serial number ’Systec SN’…
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Page 97: Online Mode
1. Connect USB/CAN converter directly with SUB D 9 plug for LSB to LCM100. 2. Connect USB/CAN converter via USB to the PC. Call up the LSB Remote Software 1. Select the path C: ProgrammeLamtec. 2. Double-click LSBRemote.exe The initial screen opens.
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Operating Control and Displays Fig. 5-44 Initial screen LSB Remote Software Initial screen Select function (pictograms) Device list Menu bar Device status ’Set online’ button 3. Select device type BT300. 4. Click button ’set Online’. The following ’device selection’ window opens: Fig. - Page 99
Operating Control and Displays 5. Select device you want to establish a connection with and press OK to confirm. The software starts to establish a connection. Fig. 5-46 Reading data On display ’Set online’ orange and green progress bars are displayed showing status of synchronisation of PC’s data with data of the connected device. - Page 100
Operating Control and Displays Fig. 5-48 Change customer abbreviation NOTICE The customer ID process must be carried out for each device once. This process sets pass- words specific to each customer. The customer ID cannot be deleted or changed. Enter Password Entering the level 1 password 1. - Page 101
Operating Control and Displays 3. Enter your customer password for access level 1 in the ’Password’ text box. 4. Click the ’Set password’ button. Access to all level 1 functions is granted now. NOTICE The ’Check password’ button allows you to check the validity of the password. Edit Parameter 1. - Page 102
Operating Control and Displays 4. Select parameter group 5 (System). You can now set properties for UI300 User Interface. NOTICE For changes in parameter group 5 no additional confirmation is necessary. NOTICE Parameter group 10 ’Maintenance’ is without function at present. NOTICE Parameter groups 15 to 35 were described in relation to corresponding system options. - Page 103
Operating Control and Displays Parameters of Operating Modes Fig. 5-53 Parameters of the operating modes * available with BT340 only… - Page 104
Operating Control and Displays Controller Parameters For setting the control parameters the LSB Remote Software is providing special input win- dows. According to the access level functions can be activated/deactivated and values can be edited within these windows. Call up windows through parameter sub menu. Fig. - Page 105
Operating Control and Displays Fig. 5-56 Window for setting O trim parameters Fig. 5-57 Window for setting CO control parameters… -
Page 106: Read Out Faults
Operating Control and Displays Fig. 5-58 Window for setting correction parameters NOTICE You will find settings of the CO/O control in the commissioning supplement for «Integrated CO/O control», print no. DLT1207. 5.3.3 Read Out Faults 1. From the ’BurnerTronic’ menu, select the sub menus ’Histories’ and ’Fault history’. The window for selecting the fault history opens.
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Operating Control and Displays Fig. 5-60 Fault information Fault selection tab Description of fault Time that fault occurred (estimated) Burner status display… - Page 108
Operating Control and Displays NOTICE The date and time of the fault are calculated basing on the operating hours accumulated at the time of the fault, the current BurnerTronic operating hours, and the computer time. If BT300 was disconnected from the mains after fault occurred and before fault has been read, the date and time of the fault will not be calculated correctly. -
Page 109: Bt300 Curve Dialogue
Operating Control and Displays Fig. 5-62 Temperature statistics NOTICE The temperature is measured directly on the circuit board of the BT300. Due to self-heating this temperature is always slightly higher the ambient temperature. 5.3.4 BT300 Curve Dialogue The curve dialogue window shows the setpoint curves of the channels (ratio controller) per curve set — either oil (1) or gas (2).
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Page 110: Setpoint Graphic
Operating Control and Displays 5.3.4.1 Setpoint Graphic Fig. 5-64 Setpoint graphic window 5.3.4.2 Curve Table Fig. 5-65 Curve table window…
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Page 111: Set Curve
Operating Control and Displays 5.3.4.3 Set Curve To make curve changes to BT300, change BT300 to ’setting mode’ first. Fig. 5-66 Setting dialogue NOTICE This function affects safety. The function must be re-confirmed within eight seconds. In setting mode of the curve set two functions of the device are available: Save point Delete curve set NOTICE…
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Operating Control and Displays Fig. 5-67 Setting window NOTICE While using the overshoot-function you should program all points top down because they must be approached in overshoot-process that way. Only when you act according to this procedure the required position will match the actual position in operation. NOTICE Pre-purge starts as soon as the damper reaches pre-purge position and — if you use a VSM — the last but one point of the fuel/air ratio control curve is passed. -
Page 113: Programming Of Fuel/Air Ratio Control
Operating Control and Displays 5.3.5 Programming of Fuel/Air Ratio Control 1. Click on menu ’Curves (Fuel/Air ratio control)’. Fig. 5-68 Curves window 2. Click on button ’Start EI-Mode (Setting)’. 3. Press OK to confirm the message ’Setting start’. Automatic EI Mode is active now. NOTICE To use channel 4 set a continuously increasing curve! NOTICE…
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Operating Control and Displays Take note of following information in this window: – A blue frame around curve and channels’ positioning information is indicating selection of channels you want to set. – Fields ’Setpoint’ show respective setpoint position of the actuator. –… - Page 115
Operating Control and Displays Warm setting/Cold setting 1. Start the burner by connecting voltage on terminal X10 Pin 2/’burner on’. NOTICE Knowing the curve settings allows to adjust the burner in ’cold’ condition. The specifications are the same as in ’warm’ condition. In ’cold’ condition the burner is OFF. A red frame around the basic screen shows the burner’s actual state. - Page 116
Operating Control and Displays Fig. 5-71 Values are read As soon as the point has been stored, the program reads the data back from BT300. Programming firing rate curve 1. Click button to select first curve point of the firing rate curve. Fig. - Page 117
Operating Control and Displays Fig. 5-73 Programming the firing rate curve 3. Click on button to select a higher curve point of firing rate curve and adjust burner at this point. 4. Adjust burner this way up to the firing rate point 999 (nominal output). NOTICE Following firing rate points are available: 200, 250, 300, 400, 500, 600, 700, 800, 900, and 999. - Page 118
Operating Control and Displays Fig. 5-74 Programming of firing rate curve NOTICE You do not need to adjust all provided curve points on the firing rate curve. The BT300 inter- polates between two adjacent curve points linearly, regardless curve points in between are plausible or not. -
Page 119: Programming A Staged Operation
Operating Control and Displays 5.3.6 Programming a Staged Operation 1. Click in menu on ’Curves (Fuel/Air ratio control)’ Fig. 5-75 Curve selection Window ’Curves (Fuel/Air ratio control)’ opens. Fig. 5-76 Curves window 2. Click button ’Start EI-Mode (Setting)’. 3. Quit the message ’Start setting’ with OK. NOTICE Click button OK in the message during running time of the blue bar.
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Operating Control and Displays NOTICE Take the following information from this window: A blue frame around curve and around channels’ position information indicates channel selection for setting. Fields ’Setpoint’ show setpoint position of the actuator. Fields ’Actual Value’ show actual position of the actuator. ’Big’… - Page 121
Operating Control and Displays Fig. 5-78 Adjust stage operation Adjust levels finely (warm setting) 1. Connect voltage to terminal X10 Pin2 (burner ON) to start-up burner. Fig. 5-79 Status field — pre-purge [setting] 2. Wait until the burner is in control mode. 3. - Page 122
Operating Control and Displays Fig. 5-80 Adjust ignition position in staged operation 4. Click button ’save point’ to confirm the settings. The point is stored. Once a point has been stored, the program reads the data back from the device . 5. -
Page 123: Software Interface Lsb Remote Software
Operating Control and Displays 8. Enter the values in field ’1 2’ and ’2 1’. Switch-on point and switch-off point of the 2 stage are adjusted. Fig. 5-82 Adjust 2 stage in staged operation 9. Click button to choose 2 stage of firing rate curve.
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Operating Control and Displays Fig. 5-84 Menu file — active connection to device Fig. 5-83 Menu file — no connection to device Open dataset 1. Click on menu to ’open dataset’. The window for selecting data set opens. Fig. 5-85 Open dataset window (Language of window depends on language of operating system) 2. - Page 125
Operating Control and Displays Save dataset 1. Click on menu to ’save dataset’. The window for saving dataset opens. Fig. 5-86 Save dataset window (Language of window depends on language of operating system) 2. Browse to directory you want to save your dataset to (destination folder). 3. - Page 126
Operating Control and Displays Fig. 5-87 Dataset information 4. Enter information of dataset to be saved in text boxes. Button ’Print’ print of information. • Button ’Clear fields’ deletion of all entries in text boxes • Button ’Reload’ loading information of actual dataset •… - Page 127
Operating Control and Displays Upload dataset to device 1. Click on menu to «Upload dataset into device». Window for opening dataset opens. Fig. 5-88 Upload dataset to device (Language of the window depends on language of operating system) 2. Browse to dataset you want to load and click on button «open». The window «dataset information»… -
Page 128: Access Rights
Operating Control and Displays NOTICE It is obligatory to document all parameter changes on the device. Note at least the date and the name of dataset. The dataset will be transferred. 7. Confirm message «Please CRC(s) receipt» with «OK». NOTICE Without confirmation or cancellation the device will remain in blocked mode.
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Page 129: Burnertronic
Operating Control and Displays Fig. 5-90 Menu access rights Enter password 1. The description, how to enter the password see chapter Enter Password Change password for customer-level 1 1. Click in menu on ’change password level 1’. The window for entering a new password opens. Fig.
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Operating Control and Displays Fig. 5-92 Menu ’BurnerTronic’ Parameter 1. Find the description how to read or change parameters in chapter Edit Parameter. Reading level CRCs 1. Click in menu on ’Parameters’ >> ’CRCs level’. The window with CRC16 checksums of all level opens. The calculated parameters and the parameters of the remote device are compared. - Page 131
Operating Control and Displays Get the current status of digital outputs of remote device. Fig. 5-94 Status of digital outputs Proceed cold check (check digital outputs) 1. Click in menu on ’Cold check’. The dialogue to proceed the check of outputs starts. Fig. -
Page 132: Options
Operating Control and Displays NOTICE Not confirming this message during default time with OK, aborts the process. The process can be repeated immediately. Cold check mode is activated now. To illustrate this status, the choice box of outputs re- ceives a red frame. 5.
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Operating Control and Displays Fig. 5-97 Flash DLL client For more information see chapter 6.2 Firmware Update BT300 and chapter 6.3 Firmware Up- date UI300. - Page 134
Operating Control and Displays USB-CAN (Systec) 1. Click in menu on ’USB-CAN (Systec)’. The USB-CAN window opens. Fig. 5-98 USB-CAN (Systec) 2. Click button to establish a connection to LSB module. 3. Click button to interrupt connection to LSB module. 4. - Page 135
Operating Control and Displays Select language 1. Click in menu on ’Language’. Language selection window opens. Fig. 5-99 Changing language 2. Select language of LSB remote software and confirm with ’OK’. Activation Code 1. Click in the menu on ’Activation Code’. Activation Code window opens. -
Page 136: Help
Operating Control and Displays 5.3.7.5 Help In menu path ’Help’ it is possible to • call up help to LSB Remote Software • get information about version of LSB Remote Software Fig. 5-101 Menu help Getting help 1. Click in the menu on ’LSB Remote Software/User Manual F1’. The BT300 manual opens.
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Page 137: Maintenance
Maintenance Maintenance BT300 Data Back-Up At any time, you are able to create a protected data set (DS) for storage (back up) of current status of device. Therefore you must set LSB remote software to online mode. Fig. 6-1 Select the protected dataset menu In contrast to a ‘normal’ data set the protected data set includes storage of check sums of pa- rameter values (etc.).
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Page 138: Firmware Update Bt300
Firmware Updates can only be processed with LSB Remote Software version OEM-Level and higher. NOTICE To switch OFF the burner before starting the firmware update via LAMTEC SYSTEM BUS is mandatory! NOTICE Only one device of the same type as the one you want to update may be connected to LAMTEC SYSTEM BUS (p.
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Maintenance 7. Click button ’Open HEX Image (HP)’ and search for the file containing the software of the main processor of the BT300 in the window ’Open HEX image’. 8. Repeat the procedure in no. 3 but click Button ’Open HEX Image (UP)’ and select the file containing the software of the watchdog processor of the BT300 in the window ’Open HEX image’. - Page 140
Maintenance 12. The progress bar shows the progress of the update. 13. Software versions 1.12.0.0 and higher display a success message. 14. Software versions prior to V1.12.0.0 show the end of the update by a message from the boot loader of the respective device. 15. -
Page 141: Firmware Update Ui300
Maintenance Firmware Update UI300 Preparation of the UI300 firmware update 1. Connect LAMTEC SYSTEM BUS to your computer and start LSB Remote Software. 2. Do not set BT300 online. Switch on BT300. UI300 firmware update 1. Process the firmware update analogue to the BT300 firmware update. Start with step 3.
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Page 142: Options
Options Options Firing-Rate Controller Module LCM100 The LCM100 adds the function of a firing rate controller to the BurnerTronic. Additional com- ponents of the module are: – An integrated power supply for external 24 V consumers (sensors, additional BurnerTronic expansion modules) –…
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Page 143: Range Limits
Options 7.1.1 Range Limits You must set limit values in the parameters, switching the burner on and off. After a burner shut-down while actual temperature has not reached the switch-on threshold yet, a display will inform you that firing rate controller is refusing a start-up. Fig.
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Page 144: Enter Setpoint Of Firing Rate Controller
Options 7.1.2 Enter Setpoint of Firing Rate Controller Use the arrow keys to select switching point (ON or OFF) and to set switch- ing point afterwards. If you confirm settings with ENTER in a preset time slot, the value is stored in the parameter.
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Page 145: Operating Description
Options 7.1.3 Operating Description The burner start-up is carried out as described above. At least ’Burner ON’ signal and ’Re- lease’ must be sent by firing rate controller. The burner starts as soon as it is receiving signals ’Burner ON’ and ’Release’ from firing rate controller.
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Page 146: Setpoint Changeover
Options External Setpoint Presetting For the external setpoint values to be activated, parameter 40 must be set to the value 2 (con- trol by atmospheric condition). The terminals 25, 26 and 27 must be short-circuited. At terminal 16 (-) and 17 (+) of the LCM100, a 0/4 … 20 mA would be connected. Lower limit P 52 Upper limit…
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Page 147: Start-Up Sequence
Options 7.1.6 Start-up Sequence The firing rate controller has a start-up cycle in order to slow down burners’ firing rate while starting. The start-up cycle is passed during each new burner start. The internal firing rate is held at user-adjusted value (P 0044) as long as the boiler is cold. The actual value is below parameter set limit (P 0043.
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Page 148: Control Range
Options 7.1.8 Control Range The control range is located around setpoint. The content of ’burner ON’ parameter is sub- tracted from setpoint to form switch-on value. ’Upper control range’ parameter value (P 0055) is added to setpoint to form the upper limit of control range. The control range may therefore be located asymmetrically around setpoint.The shut-off range is limited by ’Burner off’…
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Page 149: Aides For Setting
Options value. I > → faster approximation to setpoint → danger of overshooting! • D term The difference term is calculated from variation of actual values. This may result in accel- erating, respectively retarding effects. In practice adjustments of PID-controller is orientated by given controlled system. Out of char- acteristics of the controlled system data can be deduced, i.e.
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Page 150: External/Manual Firing-Rate Presetting (Terminals 16 — 19)
Options Characteristic Control Process Control Mode Start-up Procedure I term higher decrease of atten- stronger reaction with faster start-up with ten- uation tendency to oscillate dency to oscillate I term smaller increase of attenu- less reaction, less ten- slower start-up ation dency to oscillate Fig.
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Page 151: Dip Switch
Options Connection external/manual regular firing rate input (Terminal 16 — 19) Fig. 7-9 Connection possibilities of external firing rate input NOTICE If 0 … 10 V input is used for the presetting of the firing rate the sensor must be able to load the input of the LCM100 with 100 A to 0.
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Page 152: Leds
Options You can set LSB Family by DIP switches 2 — 3. DIP switch 2 DIP switch 3 LSB Family You can set sensor inputs by DIP switches 4 — 6. DIP switch 4 DIP switch 5 DIP switch 6 Input –…
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Options TPS (Three-Point-Step) Potentiometer 0 … 10 V 4 … 20 mA R = 2.2 k — 22 k LED1 = Error LED2 = CAN data traffic LED3 = Power ON… -
Page 154: Galvanic Isolation
Options Cable assembly Type Shield Cable length max [m] Mains AC in 24 V external DC out BT-CAN Fuel measurement oil Fuel measurement gas Setpoint changeover Fault reset Flue gas temperature Ambient temperature Boiler water temperature Steam pressure Combination input 20 mA Combination input term.
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Page 155: Terminal Assignment
Options DANGER! Attention! Short-circuit danger and electrical shock! An improper wiring connection could lead to a short-circuit, which may cause damages to the connected devices or to an electrical shock. Please ensure all connections on SELV have a safe separation from main voltage in wiring and with connected devices! 7.1.15.2 Terminal Assignment LCM100 has a 24 V power supply for pressure transmitter and for power supplies of other LSB…
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CAN Interface (Terminal 10 — 13) Recommendation: Connect BT300 plug X31 to LCM100 by a prefabricated cable with LAMTEC Order No. 667P0515. The plug X31 is already installed on this cable and terminal numbers for LCM100 are marked on the wires. - Page 157
Options CAUTION! Short circuit and electric shock! If the analogue standard signals are not separated from the mains, a buffer amplifier must be used for galvanic separation. Pressure sensor connections Fig. 7-20 Connection pressure sensor 2-wire-system * Fig. 7-21 Connection pressure sensor 3-wire-system * Fig. -
Page 158: Technical Data Lcm100
Options 7.1.16 Technical data LCM100 Fig. 7-24 Dimensions LCM100 General data Power supply: 90 — 250 V 47 — 63 Hz Power consumption: 18,2 VA Housing: Polyamide 6.6 (panel: polycarbonate) Dimensions: 65x70x80 mm Weight: 270 g Flammability: UL-94 V0 (panel: UL-94 V2) Mounting position: as desired Installation:…
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Cable length max.: Digital inputs (setpoint switching and reserve input) Input frequency max.: 300 Hz Cable length max.: 10 m LAMTEC SYSTEM BUS Bit rate: 125 kbit/s Address: static LSB address, device family 1-4, selection with dip-switch Termination: integrated, activation with dip-switch… -
Page 160: Dual Fuel Module Dfm300
(e.g. oil pressure monitor during gas oper- ation) to be open. The DFM300 is connected to BT300 via LSB (LAMTEC SYSTEM BUS). DFM300 is providing a 230 VAC input for selection of current fuel.
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Options Device Description Attributes 0525 BT300 Setting of number of stages for staged operation in oil mode (0 = modulated operation/ 1 = 2 stages/2 = 3 stages) 0 = 1 stage = modulated operation Group: 60 1 = 2 stages Min.: 0 2 = 3 stages Max.: 2… -
Page 162: Dip Switch 1
Options DIP switch 1 LSB terminating resistor deactivated LSB terminating resistor activated You can set LSB family by DIP switch 2-3. DIP switch 2 DIP switch 3 LSB Family DIP switches 4 — 6 are not assigned. 7.2.2 LEDs The DFM300 has 4 LEDs connected as mentioned below: Colour Description Fault (LED1)
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Page 163: Electrical Connection
Options 7.2.3 Electrical Connection LED1 = Error LED2 = CAN LED3 = Oil active LED4 = Gas active Signal Line Type Shield Cable length max. [m] Fuel valve 1 10 m — Gas valve 1/oil valve 1 Fuel valve 2 10 m — Gas valve 2/oil valve 2 Fuel valve 3 10 m — Gas valve 2/oil valve 2/ignition…
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Page 164: Galvanic Isolation
Options Signal Line Type Shield Cable length max. [m] SIC gas 10 m — input SIC fuel Ignition transformer gas 10 m — input ignition transformer Oil valve 1 10 m — input fuel valve 1 Oil valve 2 10 m — input fuel valve 2 Oil valve 3/ignition valve 10 m — input fuel valve 3 SIC oil…
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Page 165: Terminal Assignment
Options DANGER! Attention! Short-circuit danger and electrical shock! An improper wiring could lead to a short-circuit which may cause damages to connected de- vices or an electrical shock. Please ensure all connections on SELV have a safe separation from main voltage in wir- ing and with connected devices! 7.2.3.2 Terminal Assignment Oil acknowledgement/Gas acknowledgement (Terminals 36;…
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Options Fig. 7-29 Circuit diagram for modulating 2/3 stage oil and gas NOTICE You must integrate the oil pressure monitor into safety interlock chain oil. For the purposes of leakage test you must connect the gas pressure monitor to pressure monitor input of BT300. -
Page 167: Technical Data Dfm300
Installation: TS35 mounting rail as per EN 50022 or TS32 as per EN 50035 Connection cross section: 2.5 mm LAMTEC SYSTEM BUS Bit rate: 125 kbit/s Addressing: fixed LSB address, device family 1-4 selected by DIP switch Termination:…
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Page 168: Adapter System Rast5
Options Environmental Conditions Electronic safety: Degree of protection (DIN EN 60529) IP40 housing IP20 terminals 7.2.5 Adapter System Rast5 The burner is connected to DFM in general via BTR/Riaconn-screw terminal block. In order to connect DFM exactly the same way as BT300 which means directly at a mono-fuel burner the Rast5 module is transposing connectors provided by DFM.
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Options Fig. 7-31 Connection Rast5 module… - Page 170
Options Connection to burner Rast5 adapter offers following options to connect the burner: Connection Terminal type Plug Terminal Terminal assignment block GV1 Valve gas 1 X01-Gas GV2 Valve gas 2 X02-Gas X700 GV3 Valve gas 3 X03-Gas ZT Gas Ignition transformer X04-Gas ÖV1… -
Page 171: Technical Data Rast5-Module
Options Connection to DFM and BT300 Rast5 adapter offers following options to connect DFM and BT300: Connection Terminal type Plug Terminal Terminal assignment block to BT300 X028 X28-BT X706 Fuel selection to DFM X41-DFM Security chain gas X42-DFM Ignition transformer gas Security chain oil Ignition transformer oil firing rate input -…
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Page 172: Variable Speed Drive Module Vsm100
Use VSM and DFM only with BT300 software version 3.0.0.0 or higher. Software versionens before 3.0.0.0 do not support all necessary safety functions. Connect the RPM module VSM100 via LSB (LAMTEC SYSTEM BUS) to BT300. To insulate LSB from potential power supply voltage of BT300 a LCM100 or a LEM with power supply 24 VDC SELV is needed.
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Page 173: Dip Switch
Options Device Description Attributes 0403 BT300 Specification of channel 4 functions see P 400 Group: 50 Min.: 0 Max.: 6 Default: 0 Write: 2 Version: 1.0.0.0 0405 BT300 Channel release for curve set 1 Switch-off bit for each curve set. If bit ’x’ is set, channel in curve set ’x’ is in use. Group: 50 Define with this parameter active channel in a curve set.
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Options DIP-Switch 1 LSB terminating resistor deactivated LSB terminating resistor activated You can set LSB family by DIP switch 2-3. DIP switch 2 DIP switch 3 LSB family Select sensor input with DIP switch 4 — 7 for acknowledgement and range of values settings. DIP switch 4 DIP switch 5 DIP switch 6… -
Page 175: Leds
Options 7.3.2 LEDs The VSM100 has 5 LEDs which should be connected as described below: Colour Relevance ERR (LED1) During normal operation LED is switched off. It will light up subject to following conditions: — Initialisation incomplete or not yet successfully com- pleted (e.g.
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Page 176: Electrical Connection
Options 7.3.3 Electrical Connection LED1 = Error LED2 = ON LED3 = CAN data traffic LED4 = Namur LED5 = 3-wire CAUTION! Short circuit and electric shock! If the analogue standard signals are not separated from the mains, a buffer amplifier must be used for galvanic separation.
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Page 177: Galvanic Isolation
Options Circuit Type Shielding Cable length max. [m] Speed feedback 0/4 … 20 mA Speed setpoint 0/4 … 20 mA Speed setpoint 0 … 10 V Input Output NOTICE If cable shielding is provided you must connect this shielding to an extra protected earth ter- minal.
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Page 178: Terminal Assignment
Options 7.3.3.2 Terminal Assignment Fig. 7-34 Namur Sensor, 2-wire system BN = brown BU = blue BK = black Fig. 7-35 Inductive proximity switch with switch contact, 3-wire-system The damping element for the inductive proximity switch and the Namur sensor has to consist of magnetic material.
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Page 179: Technical Data Vsm100
Options 7.3.4 Technical Data VSM100 Fig. 7-37 Dimensions VSM100 General data Power supply: 24 VDC +10/-15 % SELV Current consumption: 60 mA Housing: Polyamide 6.6 (panel: polycarbonate) Dimensions: 65x70x35 mm Weight: ca. 80 g Flammability: UL-94 V0 (panel: UL-94 V2) Mounting position: as desired Installation:…
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Page 180: Expansion Module For Lsb — Lem100
Options Digital speed feedback input Input pulse width: min. 200 μs Environmental Conditions Operation: Climatic conditions Class 3K5 according to DIN EN 60721-3 Mechanic conditions Class 3M5 according to DIN EN 60721-3 Temperature range -20 … +60 °C (condensation is prohibited) Transport: Climatic conditions Class 2K3 according to DIN EN 60721-3…
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Page 181: Electrical Connection
DC-Supply (low voltage) CAN/LSB CAN interface from BT300 NOTICE You will find wiring, cable length and definition of the interface in the respective documentation of the field bus systems: LAMTEC SYSTEM BUS LSB – print no. DLT6095 PROFIBUS – print no. DLT6100…
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Page 182: Galvanic Isolation
Options 7.4.3.1 Galvanic Isolation Fig. 7-38 Electrical isolation LEM100 FELV Functional Extra Low Voltage Cannot be used as safety measure against electrical shock. SELV Safety Extra Low Voltage offers protection against electrical shock. DANGER! Attention! Short-circuit danger! An improper wiring connection could lead to a short-circuit, which may cause damages to the connected devices or to an electrical shock.
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Page 183: Field Bus Modules
7.5.1 Field Bus Module for PROFIBUS PBM100 The burner control system communicates via LAMTEC SYSTEM BUS (LSB) with its modules consistently. PROFIBUS module PBM100 integrates LAMTEC burner control system into field bus environment (PROFIBUS). PBM100 listens for different, measured process values on…
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Page 184: Dip Switch
Options 7.5.1.1 DIP Switch Use DIP switches to configure settings of PBM100. Functions of DIP switches DIP switches 1 — 7 Binary coded PROFIBUS address Switch no. 1 = bit 6 Switch no. 7 = bit 0 Example: LSB family is set by DIP switch 8-9. DIP switch 8 DIP switch 9 LSB family…
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Page 185: Electrical Connection
NOTICE You will find wiring, cable length and definition of the interface in the respective documentation of the field bus systems: LAMTEC SYSTEM BUS LSB – print no. DLT6095 PROFIBUS – print no. DLT6100 7.5.1.4 PROFIBUS Communication While PBM is connected to PROFIBUS MASTER in active way, following messages were sent…
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Options Byte position Description Note 14 — 15 Operating mode O controller v 3.0 and higher: Byte 15 active curve set Byte 14 condition corresponding to 7.5.3 Appendix 16 — 17 Error information O controller v. 3.0 and higher: Bit pattern corresponding to 7.5.3 Appendix 18 — 19 Actual value O Actual value O… -
Page 187: Technical Data Pbm100
Options 7.5.1.5 Technical Data PBM100 Fig. 7-40 Dimensions PBM100 PBM100 Power supply: 24 VDC +10/-15% via bus terminals Current consumption: 100 mA Housing: PA6.6 UL94-V0 Cover: Polycarbonate, transparent Installation: Support rail TH35 according to EN 60715 Dimensions (H x W x D) [mm]: 72 x 51 x 70 Weight [g]: Flammability:…
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Page 188: Field Bus Module For Modbus Tcp Ebm100
7.5.2 Field Bus Module for MODBUS TCP EBM100 The burner control system communicates via LAMTEC SYSTEM BUS (LSB) with its modules consistently. The MODBUS module EBM100 integrates LAMTEC burner control system into fieldbus environment (MODBUS TCP). EBM100 listens for different, measured process val- ues on LSB, processes these signals and transfers them to fieldbus.
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Page 189: Leds
Options 7.5.2.3 LEDs EBM100 has 4 LED and 2 additional LED at the RJ45 socket, which should be connected as described below: Colour Description green ON: Module working in normal mode = fully initialised and without any fault. green OFF: No communication or CAN BUS error Flashing with 2 Hz: Sporadic errors (optional, if a CAN warning is detectable).
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Options Condition Flashing Flashing Flashing either – Device started – Connection error CAN and Ethernet – Device started – Connection error CAN – Ethernet OK – Fieldbus master not connected – Error in initialising Ethernet – Error in initialising CAN either –… -
Page 191: Electrical Connection
NOTICE You will find information to wiring, cable length, and interface definition in the documentation of the particular fieldbus systems: LAMTEC SYSTEM BUS LSB – document no. DLT6095 Ethernet Connection – document no. DLT6096 7.5.2.5 Ethernet Communication Sending Data on the Modbus/TCP (Master-Input-Data) In the table below input data are specified, which EBM transfers to the master (Modbus/TCP –Client):…
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Options Register Description Configuration Active curve set Bit pattern corresponding to 7.5.3 Appendix table ’Bit Pattern curve set’ Condition of digital outputs Bit pattern corresponding to 7.5.3 Appendix Value 0 to 250 0,0 % to 25,0 % Setpoint value O Operating mode O controller v 3.0 and higher:… -
Page 193: Technical Data Ebm100
Options Holding Description – Configuration register Status of firing rate controller setpoint Validity bit 15 =1 (b1XXXXXXX XXXXXXXX): sets analysis of setpoint shift by LCM Smooth setpoint shift of firing rate controller (int16), value range is defined by config- ured upper and lower limits Status smooth setpoint shift of firing rate controller Validity bit 15 =1 (b1XXXXXXX XXXXXXXX): sets analysis of setpoint shift by LCM…
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Page 194: Appendix
Options Environmental Conditions Operation: Climatic conditions Class 3K5 according to DIN EN 60721-3 Mechanic conditions Class 3M5 according to DIN EN 60721-3 Temperature range -20 … +50 °C (condensation is prohibited) Transport: Climatic conditions Class 2K3 according to DIN EN 60721-3 Mechanic conditions Class 2M2 according to DIN EN 60721-3 Temperature range…
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Options Digital input Active (bit pattern) Boiler safety interlock circuit 0x0080 Safety interlock circuit oil 0x0040 Firing rate + 0x0020 External high firing-rate acknowledgement 0x0010 (always 1) Air pressure monitor 0x0008 Gas pressure > Min 0x0004 Ignition acknowledgement 0x0002 Curve set selection = curve set 1 0x0001 Bit Pattern Curve Set Curve set… - Page 196
Options Description Value controller inactive at SETTING/DELETE MEMORY controller inactive due to O value too small during pre-purge controller inactive due to O value too high during pre-purge controller inactive due to O -value too high after ignition controller pre-purge and ignition Bit Pattern Cause of Failure O Trim Failure cause… - Page 197
Options Bit Pattern Cause of Failure CO Controller Failure cause Active (Bit pattern) No valid threshold information on LSB available 0x0001 Probe voltage out of monitoring range 0x0002 Probe offset voltage out of monitoring range, or no dynamics 0x0004 Cell resistance out of monitoring range 0x0008 Cell temperature out of monitoring range 0x0010… - Page 198
Options Value Description Switched OFF Permanent purge ON Pre-purge gas Leakage test for pre-purge 2 Leakage test for pre-purge 1 Ignition position gas Ignition transformer gas Ignition pilot burner gas Ignition gas safety time 1 has expired Ignition gas safety time 2 is running Control of ignition firing-rate gas Switch OFF gas valve 1 Switch OFF gas valve 2… -
Page 199: Disposal Notes
Disposal Notes Disposal Notes The device contains electrical and electronic components and must not be disposed of as do- mestic waste. The local and currently valid legislation absolutely must be observed.
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Page 200: Declaration Of Conformity
Declaration of Conformity Declaration of Conformity…
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Declaration of Conformity… - Page 202
Declaration of Conformity… -
Page 203: Appendix
Appendix Appendix 10.1 Display Symbols Hint 4: No effects of the CO/O controller. Hint 6: The number of 250 000 burner starts has exceeded. Hint 7: Maintenance mode is active. Hint 8: Fuel selection is missing. Hint 9: Safety interlock chain boiler is not closed (symbol is flashing). Hint 10: Air pressure is still pending.
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Page 204: Indication Symbols
Appendix Hint 1096: Maintenance of the burner is necessary. Hint 2001: The time running between the signal ’Valve is open’ and the signal ’Flame’ is relatively long. Hint 2002: Dynamic test of the fuel/air ratio control is running. Hint 2003: No burner release but the signal ’Burner ON’…
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Appendix Under the INFO path, you can obtain information regarding: • Burner • Fault • Software version • Display of the check sums • Serial number • Servomotor position (current flap position per channel) • Digital input/output Use MANUAL for: •… - Page 206
Appendix Check sums Display of operating hours [selected] Number of burner starts Burner at fault [selected] Digital input [selected] Digital output Password [selected] Access level (e.g. 1) Delete curve Display programme settings… - Page 207
Appendix Burner firing-rate controller settings Read continuous output configuration Password settings Curve settings Display settings Length of pre-purge time Length of post-purge time Pilot burner oil operation Valve leakage test Pilot burner gas operation… - Page 208
Appendix Valve leakage test On/Off Valve leakage test before ignition Valve leakage test after ignition Length of valve leakage test time… - Page 209
Appendix… - Page 210
The information in this publication is subject to technical changes. LAMTEC Meß- und Regeltechnik für Feuerungen GmbH & Co. KG Wiesenstraße 6 D-69190 Walldorf Telefon: +49 (0) 6227 6052-0 info@lamtec.de Telefax: +49 (0) 6227 6052-57 www.lamtec.de Printed in Germany | Copyright 2017…
www.lamtec.de Sensors and Systems for Combustion Engineering Quick Reference for Endusers BurnerTronic BT300 2 Table of Contents Table of Contents 1 General Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.1 Validity of these Instructions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.2 Life Cycle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.3 Disposal Notes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 2 Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 2.1 Safety Instructions - Common Information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 3 For Your Safety. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 3.1 Mounting Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 3.2 Security Advice - Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3.3 Installation Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.4 Electrical Connection Flame Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 3.5 Commissioning Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 3.5.1 Fuel/Air Ratio Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 3.5.2 Basic Device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 3.6 Tasks fulfilled by "authority on the subject" during Approval Test. . . . . . . . . . . . . . . . . . 11 3.6.1 Checking for Correct Parameter Setting in System . . . . . . . . . . . . . . . . . . . . . . 11 3.6.2 Checking the Fuel/Air Ratio Control System . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 3.6.3 Checking Burner Sequencer Part . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 4 Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 5 Operating Control and Displays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 5.1 UI300 User Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 5.2 Menu Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 5.3 Main Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 5.4 Information Menu Path. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 5.4.1 Burner Details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 5.4.2 Recalling Fault History. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 5.4.3 Software Version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 5.4.4 Display of Check Sums . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 5.4.5 Serial Number . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 5.4.6 Positions of Actuators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 5.4.7 Check Digital Inputs/Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 5.4.8 Digital Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 5.5 Manual Menu Path. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 5.6 Settings Menu Path . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 5.6.1 Enter Password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 5.6.2 Program Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 5.6.3 Other Displays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 6 Leakage Test for Main Gas Valves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 6.1 Calculation Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 6.2 Leakage Test Process Flow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 3 Table of Contents 6.3 Valve Leakage Test Venting Over the Roof . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 7 Technical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 7.1 Technical Data BT300 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 7.2 Actuators 662R550... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41 7.3 Actuators 662R5001... / 662R5003.... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43 4 1 General Information 1 General Information 1.1 Validity of these Instructions This manual is valid for the burner control system BurnerTronic BT300 in any configuration. The information contained in this document refer to the software versions BT300 v3.5 and UI300 v3.8. If you use any other software version as mentioned previously some of the de- scribed functions may not be available or not all available functions work as described in this document. 1.2 Life Cycle BurnerTronic BT300 burner management system has a designed lifetime * of 250,000 burner start-up cycles, which, under normal operating conditions in heating mode, correspond to ap- prox. 10 years of usage (starting from the production date given on the type plate). This lifetime is based on the endurance tests specified in standard EN230/EN298 and the ta- ble containing the relevant test documentation as published by the European Association of Component Manufacturers (Afecor) (www.afecor.org). The designed lifetime is based on use of BT300 according to the manufacturer’s basic docu- mentation. After reaching designed lifetime in terms of number of burner start-up cycles, or the respective time of usage, the BT300 must be replaced by authorized personnel. 1.3 Disposal Notes The device contains electrical and electronic components and must not be disposed of as do- mestic waste. The local and currently valid legislation absolutely must be observed. * The designed lifetime is not the warranty time specified in the Terms of Delivery 5 2 Safety 2 Safety 2.1 Safety Instructions - Common Information The following symbols are used in this document to draw the user's attention to important safe- ty information. They are located at points where the information is required. It is essential that the safety information is observed and followed, and that applies particularly to the warnings. DANGER! This draws the user's attention to imminent danger. If it is not avoided, it will result in death or very serious injury. The plant including its surroundings could be damaged. WARNING! This draws the user's attention to the possibility of imminent danger. If it is not avoided, it may result in death or very serious injury. The plant including its surroundings could be damaged. CAUTION! This draws the user's attention to the possibility of imminent danger. If it is not avoided, it may result in minor injuries. The plant including its surroundings could be damaged. NOTICE This draws the user's attention to important additional information about the system or system components and offers further tips. The safety information described above is incorporated into the instructions. Thus, the operator is requested to: 1 Comply with the accident prevention regulations whenever work is being carried out. 2 Do everything possible within his control to prevent personal injury and damage to prop- erty. 6 3 For Your Safety 3 For Your Safety Please observe the safety instructions to avoid personal injury and damage to property and the environment! The BT300 is a safety device! The device must not be opened, interfered with or modified. LAMTEC assumes no liability for damages arising as a result of unauthorised interference! • After commissioning and after each maintenance action check the exhaust gas values across the entire power range. • Qualified specialist staff are required to carry out all activities (assembly, installation, ser- vicing, etc.). • The burner or boiler manufacturer will ensure that the BT300 base unit is compliant with protection class IP40 or IP54 for outdoor use in accordance with DIN EN 60 529. • The hazard risk in the event of external fire, traffic, wind, tidal waves and earthquakes de- pends on the installation situation and the location of the gas appliance. It shall be as- sessed separately where appropriate. • Before working in the connection area, switch off the power supply to the plant from all poles. Ensure that it cannot be switched back on and that the plant is voltage-free. There is a risk of electric shock when the plant is not switched off. • Place and secure the protection against contact on the BT300 and on all connected elec- trical parts. The cover must fulfil the design, stability and protection requirements of EN 60730. • Plug connectors X30 - X34 have no protective separation from the mains voltage. To re- place or disconnect the plug connectors, all poles of the plant must be disconnected from the mains. • After each activity (e.g. assembly, installation, servicing, etc.) check wiring and parameters to make sure it is in good working condition. • If the equipment is dropped or suffers impact, you should no longer commission it. The safety functions may also be impaired but fail to show any obvious external damage. • When the ratio curves are being programmed, the adjuster will continually monitor the quality of the plant's combustion (e.g. using an exhaust gas analysis station). In the event that the combustion values are inadequate or the conditions are potentially harmful, the adjuster will take suitable action, e.g. switch off the system manually. • These operating instructions describe many possible applications and functions and should be used as guidelines. Carry out functional tests on the test bench and/or in the plant application to ensure correct functioning and document the results. Follow additional instructions to guarantee safety and reliability while operating the BT300: • Condensation and humidity are to be avoided. If necessary, make sure that the installation is sufficiently dry before you switch it on. • Avoid static charge having a destructive effect in case of touching the device's electronic components. NOTICE LAMTEC recommends that you use ESD equipment while working on electrics/electronics. 7 3 For Your Safety 3.1 Mounting Notes • Please consider protection against contact when installing the Gerät. Protection classes as IP 40 - IP 54 are minimum requirements for outdoor use in accordance with EN 60529 and therefore obligatory. • The protective cover of the BurnerTronic may only be opened by trained, qualified person- nel. • Make sure that settings for safety-relevant parameters are set in line with the requirements applicable to each type of combustion requiring monitoring and conform to the applicable standards (by checking device parameters via operating elements or using remote-control software after commissioning). To verify settings you should also refer to manufacturer’s documentation of the combustion plant. Protecting the parameters in level 1 by setting a password will prevent any unauthorised change. • Save setting values for the actuating elements across the power range of the burner as follows: – Quantity of fuel – Quantity of air – All additional, safety-relevant actuating variables of the combustion – While burner is modulating with at least five different firing-rate points • Make sure that the combustion equipment operates stably and safely throughout the pow- er range and in all combustion modes. For this purpose you should adjust the following values correctly: – Actuating elements – Parameter settings of the CO/O 2 controller – Combustion chamber pressure – Fuel pressure – Temperature – Pressure of combustion air – Heating value of fuel • Ensure the connection between the actuators and control valves is form-fit throughout, gearing this towards the maximum controlling torques of the actuators. • Only use external flame monitors compliant with DIN EN 298 or DIN EN 230 and author- ised for continuous operation. Safety time of flame monitor must not extend 1 s. • If the valve testing system is activated, connect the supply-side solenoid valve to terminal X01 and the burner-side solenoid valve to terminal X02. Connect the pressure monitor of the valve testing system to terminal X05. Adjust the gas pressure monitor and the dimen- sions of the test section in order to make sure that the valve testing system is detecting a maximum leakage gas volume of 0.1 % in relation to the gas flow rate (minimum 50 dm³/ h) at maximum combustion heat output. • Consider the potential danger depending on installation situation and position where the- pressure equipment is being installed. Bear in mind the risk of external fire and the impact from traffic, wind and earthquake. • When fixing duomodul plug-in connectors to insulation displacement technology (IDT) use HZ-M35 a modular crimping tool from Lumberg (see www.lumberg.com). 8 3 For Your Safety 3.2 Security Advice - Mounting • Compliance with national safety regulations and standards is obligatory at all times. • During the assembly and installation process, you must meet the standard requirements of DIN VDE 0100, 0550 and DIN VDE 0722 • To mount the BT300 basic unit, use screw fittings with an M4 thread (UNC32) and a max- imum tightening torque of 1.8 Nm for fastening all four fixing points. Keep in mind that housings have improved mechanical stability when connected on surrounding contact sur- faces. Generally connect to an even mounting surface. NOTICE Deterioration of the 0.8 Nm servomotor through opening. Opening the servomotor in a different position other than the cap of the electrical connection, destroys the servomotor. The warranty expires. Open the servomotor at the cap of the electrical connection only. NOTICE Damaging the servomotors with 1.2 Nm and 9.0 Nm through opening. Opening the servomotor destroys the servomotor. The warranty expires. 9 3 For Your Safety 3.3 Installation Notes • Lay high-voltage ignition cable always separately and in safe distance from device and other cables. • Only trained, qualified personnel may open the BurnerTronic’s cover. • Observe local and national regulations when wiring the electric cables inside the burner. • Tighten the screw terminals of the BT300 using a tightening torque of > 0.5 Nm. • Supply the feed cable with L, N and PE only. The N neutral conductor must not have po- tential difference to the PE protective conductor. • The pre-fuse for the BT300 should be max.10 A slow-blow. • Phase, neutral and central point conductors must not be interchanged (this would lead to dangerous malfunctioning, loss of protection against contact, etc.). • The strain relief for the connected cables must comply with standards (e.g. DIN EN 60730 and DIN EN 60335). • Make sure that no spliced strands can come into contact with any of the adjacent connec- tions. Use appropriate end sleeves. • The burner manufacturer is obligated to supply unused connections on the BT300 with dummy plugs. • To replace or disconnect the plug connectors, all poles of the plant must be disconnected from the mains. • Make a form-fit connection between the actuators and actuating elements for fuel and combustion air, as well as a form-fit connection for any additional actuator element. • Optional components with safety extra low voltage (SELV) must be safely separated from the mains. Otherwise this can cause an electrical shock or damage the device due to a short-circuit. • You may connect only passive devices or devices without feedback effects at the 230V outputs of the BT300 (like relays without additional voltage connection). In case of error it must be guaranteed that BT300 is not fed with 230 V by this terminals. • To avoid disruption of the UI300’s display during ignition, a damping resistor of 1 ... 5 k must be installed in the high-voltage ignition line. • To avoid disturbance on the Bus, the termination must be active on the first and the last device connected to the bus must be terminated. 3.4 Electrical Connection Flame Sensor Interruptions and losses in signal transmission need to be minimised: • Do not wire the sensor cable with other cables. Flame signal is reduced through line capacities. Use a separate 7-pole cable. • Consider the permitted length of sensor cables. • The ionisation flame sensor supplied from the mains is not protected against contact. Pro- tection against accidental contact is therefore obligatory. • Ground the burner according to instructions – grounding the boiler itself is not sufficient! • Position ignition electrode and ionisation flame sensor where spark cannot hit ionisation flame sensor (risk of electrical overloading). 10 3 For Your Safety 3.5 Commissioning Notes • Check all safety functions during commissioning! • There is no feature to prevent RASTx connector plugs being transposed. Therefore en- sure the correct assignment of the plant's plugs prior to commissioning. • Check electromagnetic emissions specific to the application. • While installing and commissioning the plant, the person in charge of the plant/heating technician needs to document the following: – Parameter set values – Setting values (e.g. curve progressions) – Values describing the fuel/air ratio control. This data can be printed using LSB remote software or alternatively being kept as a hand- written note. Retain this documentation and have it checked by the ’authority on the subject’. WARNING! For BT300 parameter settings which deviate from the application standards can be carried out in access level 2. For this reason, check whether the parameter settings are consistent with the corresponding application standards (e.g. EN 298, EN 230, EN 676, EN 267, etc.) or the respective plant has to be approved separately. WARNING! While unlocking the safety interlock chain in the mode ’BURNER OFF’ BT300 does not lock the system. BT300 prevents a burner start-up until safety interlock chains are locked. In case your application needs an interlock of the plant while unlocking the safety interlock chain also in ’BURNER OFF’ mode you must take suitable measures at the plant. NOTICE Should the safety times be changed, these changes must be documented on the devices Bring an additional sticker for the device. Note the changed safety times on this sticker. The details on this sticker must be clear for reading and non-smudge. 3.5.1 Fuel/Air Ratio Control • Guarantee proper operation by ensuring adequate excess air. In order to do this, set the values for fuel and combustion air in such a way that – combustion chamber pressure – fuel pressure – temperature and pressure of the combustion air can ensure proper, stable operation through the entire range of burner firing rate until next periodic inspection. • Pay attention to wear and tear of actuators and actuator elements. • Measure characteristic values of combustion process to document proper operation. 11 3 For Your Safety 3.5.2 Basic Device Check the following items prior to commissioning: • Valves must be assigned correctly to valve outputs on BT300. • Correct setting of time parameters (especially safety and pre-purge times). • Flame sensor functioning well in case of: • flame blow-off during operation (incl. flame-out response time) • ambient light is present during pre-purge period • at a missing flame formation while end of safety period starts • Activation of the valve leakage control function of gas valves and correct leakage meas- urement, when required by an application. 3.6 Tasks fulfilled by "authority on the subject" during Approval Test By specifying the assigned DIN registration number and product ID number the manufacturer confirms that model BT300 burner control system is consistent with type-tested system. The connection between actuators and actuator elements for fuel and combustion air and also to any additional actuator elements used must be form-fit. 3.6.1 Checking for Correct Parameter Setting in System While installing and commissioning the plant the person in charge of the plant/heating techni- cian needs to document the following: • Parameter set values • Setting values (e.g. curve progressions) • Values describing fuel/air ratio control. This data can be printed using LSB Remote Software or alternatively being kept as a hand- written note. Retain this documentation and have it checked by the ’authority on the subject’. NOTICE For BT300 parameter settings which deviate from application standards can be carried out in access level 2. For this reason, check whether the parameter settings are consistent with the corresponding application standards (e.g. EN 676, EN 267, etc.) or the respective plant has to be approved separately. 3.6.2 Checking the Fuel/Air Ratio Control System Save setting values (curve parameters) for actuator elements, fuel and combustion air through the complete range of burner firing rate in sufficient number. Select setting values of fuel and combustion air considering combustion chamber pressure, fuel pressure, temperature and pressure of the combustion air in order to guarantee proper operation with adequate excess air through the entire range of burner firing rate. The burner/boiler manufacturer has to document this by measuring reference values of the combustion process. 12 3 For Your Safety 3.6.3 Checking Burner Sequencer Part Check the following: • Correct setting of time parameters (especially safety and pre-purge periods). • Whether an ionisation or approved self-checking flame sensor is used as only these types allow continuous operation. • Functioning of flame sensor – in case of flame blow-off during operation – parasitic light being present during pre-purge period – missing flame formation at the end of the safety-period • Check the performance of all available and/or essential incoming signals, such as: – Air pressure switch – Gas pressure - min./oil pressure - min. – Safety interlock chain (e.g. STB) • Activated leakage control function for gas valves if required for application purposes. – If necessary, ensure a correct leakage quantification. 13 4 Functional Description 4 Functional Description BT300 combines the benefits of an electronic fuel/air ratio control system with up to three mo- torised actuator elements and optional modules like an analogue output for speed control of the combustion air fan with an electronic burner control unit. The leakage test, flame monitor- ing system, power control unit and (optional) CO/O 2 controller for control and optimisation of an oil or gas-fired forced-draught burner are all integrated. BT300 is suitable for virtually all combustion plants. Safety interlock chains, monitors (e.g. gas and air pressure) and sensors are wired directly to the BT300. This greatly reduces the cost of additional relays and wiring. The BT300 is designed to be attached to the burner. The short wiring paths also save money. As a result, BT300 is particularly suitable as standard equip- ment for monoblock burners. The compact design of BT300 burner control system also has its advantages during commis- sioning. Standardisation of wiring and operator interface minimises sources of errors right from the start. Moreover, intelligent display information is making search for errors much easier. The BT300 is available in five designs: Burner sequencer and fuel/air ratio control can be adjusted for a wide range of combustion conditions by setting parameters. The BT300 for oil and gas can be set to start with and with- out pilot burner. The integrated leakage test can be run before ignition or after shutting down the burner. Starting without pre-purge using gas is available in accordance with EN676. The setting of fuel/air ratio curves can be optimised using optional CO/O 2 control during op- eration. This helps to counteract conditions that interfere with combustion. This ensures a per- manent burner operation at the greatest possible efficiency. Operating and fault messages are displayed by symbols and numbers on UI300 User Inter- face. Plant-specific configurations and settings of fuel/air ratio control curves are operated via menu of UI300 User Interface. An operating and start-up counter is integrated. The optional LCM100 power control unit with two setpoints, external setpoint shift (control by atmospheric condition) and start-up control is also available. • BT320 2 motorised control outputs 1 continuous output 0 ... 10 V, 0/4 ... 20 mA for speed control of the combustion air fan using VSM100 (optional) intermittent operation • BT330 3 motorised control outputs 1 continuous output 0 ... 10 V, 0/4 ... 20 mA for speed control of the combustion air fan using VSM100 (optional) Approved for continuous operation only in combination with flame sensors capable of running continuously • BT331 Same range of functions as BT330 but including following certificates: DIN EN 61508:2002 parts 1-7 for SIL 3 Performance Level PLE according DIN EN ISO 13849-1 • BT340 3 motorised control outputs Oil-gas dual-fuel operation via DFM300 1 continuous output 0 ... 10 V, 0/4 ... 20 mA for speed control of the combustion air fan using VSM100 (optional) approved for continuous operation only in combination with flame sensors capable of running continuously • BT341 Same range of functions as BT340 but also including following certificates: DIN EN 61508:2002 parts 1-7 for SIL 3 Performance Level PLE according DIN EN ISO 13849-1 14 5 Operating Control and Displays 5 Operating Control and Displays 5.1 UI300 User Interface Display The display shows in pictogram: • the menu structure • operating status • parameters • error messages Back key Back to previous window. Cursor keys ENTER keys Fig. 5-1 User interface 1 Display 2 BACK key 3 Cursor keys 4 ENTER key To navigate in the menu using cursor keys Use ’left’ and ’right’ keys to move step by step in a selected row. At the end of the selected row the cursor jumps down to the next row, if possible. In a multiline menu use ’up’ and ’down’ keys to switch to other rows. To display parameters, switch between various fields. Press ENTER to call up a menu on the start screen. Select a sub-menu in the menu window. Transfer setting values by pressing ENTER key in a parameter window. Use a flushing, red ENTER key to release a fault interlocker. If the ENTER key is permanently lit red, a fault with an automatic restart is displayed. 15 5 Operating Control and Displays 5.2 Menu Functions The menu is divided into five paths: INFO Select INFO path for information about the following: • Burner • Faults/Fault history • Software version • Display of check sums • Serial number • Actuator positions (current damper position for each channel) • Digital inputs/outputs MANUAL Select MANUAL to: • Start and stop burner by hand • Adjust internal burner firing rate SETTINGS Select the SETTINGS path for getting information/make changes to: • Password • Burner settings (display and settings) • Actuator elements settings (display) • Air/fuel control system • Deletion of curve sets • Display settings INFO MANUAL SETTINGS DATA PROCESSING (release level 1 is mandatory) 16 5 Operating Control and Displays DATA PROCESSING Use DATA PROCESSING to: • Read out datasets from the BT300 • To transfer datasets to the BT300 5.3 Main Menu NOTICE The parameters of release level 1 must be protected by a password against unauthorised changes. This password must differ to ’0000’. 5.4 Information Menu Path Fig. 5-2 Main menu 1 INFORMATION menu path [selected] 2 Display of fuel type 3 Bar graph of internal firing rate in % (0 - 100) 4 MANUAL menu path 5 SETTINGS menu path 6 Release level 7 DATA HANDLING menu path * 8 Window number * Excess level 1 is mandatory Burner information Error history Software ver- sion Checksums Serial number Continuous output configuration (display only) Digital inputs/outputs 17 5 Operating Control and Displays 5.4.1 Burner Details Displaying Operating Hours and Burner Starts Display of operating hours Number of operating hours in total (device connected with mains) Number of operating hours in oil operation Number of operating hours in gas operation Display of burner starts Number of burner starts in oil operation Number of burner starts in gas operation 18 5 Operating Control and Displays 5.4.2 Recalling Fault History Displaying Burner Faults NOTICE Information concerning fault and diagnostic codes can be found in the list of fault codes. For fault analysis a fault code and diagnostic code D1 or D2 is required. 01 02 Fault code (Last 10 faults are stored, no. 01 is the latest fault) No. of operating hours when fault has occurred D1 Diagnostic code 1 Duration of the fault D2 Diagnostic code 2 19 5 Operating Control and Displays Fault unlock How to unlock BT300 A fault is pending and the ENTER key is flashing. 1. Press ENTER key. BT300 is not locked anymore. Changing from fault unlock to main menu: A fault is pending and the ENTER key is flashing 1. Press BACK key. ENTER key isn’t flashing any more. The display returns to main menu. An error number is flashing in the display on top, left hand. UI300 can be used as usual. Back to fault unlock An error number is flashing in the display on top, left hand. 1. Use BACK key to switch back to main menu. 2. Press arrow-key left. ENTER key is flashing again. BT300 can be unlocked. NOTICE A permanent red light on the ENER key indicates gas shortage. A countdown is running to the next start. This countdown can be interrupted by the ENTER key. 20 5 Operating Control and Displays 5.4.3 Software Version Display software version UI = Software version UI300 BT = Software version BT300 5.4.4 Display of Check Sums Displaying Check Sums 0 ... 4 = Check sum, access levels 0 ... 4 The checksums are generated from the device parameters. The BT300 calculates one checksum for the parameters of each access level (0, 1, 2 or 4). The UI300 indicates the checksums in hexadecimal code. The checksum shows whether the value of one or more parameters have been changed. 21 5 Operating Control and Displays 5.4.5 Serial Number UI = Serial numberUI300 BT = Serial number BT300 5.4.6 Positions of Actuators Indication of the channel’s actual (left to right): Channel 1 (oil) Channel 2 (air) Channel 3 (oil) Optional channel (OFF; control of the frequency inverter) NOTICE The assignment of channels is depending on configuration settings! 22 5 Operating Control and Displays 5.4.7 Check Digital Inputs/Outputs Check Digital Inputs and Outputs NOTICE The signals ’Fuel selection oil’ and ’Fuel selection gas’ are logical and not physical signals. Background: Some signals have more sources than one (terminals, LSB, field buses, param- eters). Fuel selection oil Fuel selection gas Burner ON Fan ON/OFF Fault Ignition transformer ON/ OFF Oil pressure min. is present Gas pressure min. is present SIC* oil is closed Ignition valve ON/OFF SIC* boiler is closed Flame signal is present Fault release Oil pump OFF * SIC = safety interlock chain 23 5 Operating Control and Displays 5.4.8 Digital Outputs Check digital outputs 1. Use the cursor keys to select the menu and press ENTER to confirm. The display shows ’Page 1 digital outputs’ menu: Call up 2 nd page of outputs 1. Use the cursor keys to select the next page and press ENTER to confirm. The display shows ’Page 2 digital outputs’ menu: Call up 3 rd page of outputs 1. Use the cursor keys to select the next page and press ENTER to confirm. The display shows ’Page 3 digital outputs’ menu: Fig. 5-3 Page 1 digital outputs menu 1 Digital outputs pictogram 2 Jump to next page 3 Fan [on] - terminal X25 4 Error [off] - terminal X24 (adjustable with P 809) 5 Ignition transformer [off] - terminal X04 Fig. 5-4 Page 2 digital outputs menu 1 Digital outputs pictogram 2 Jump to previous page 3 Jump to next page 4 Oil valve 1 [on] - terminal X01 5 Oil valve 2 [off] - terminal X02 6 Oil valve 3 [off] - terminal X03 Fig. 5-5 Page 3 digital outputs menu 1 Digital outputs pictogram 2 Jump to previous page 3 Jump to next page 4 Ignition valve [on] - terminal X03 5 Gas valve 1 [off] - terminal X01 6 Gas valve 2 [off] - terminal X02 24 5 Operating Control and Displays Call up 4 th page of outputs 1. Use the cursor keys to select the next page and press ENTER to confirm. The display shows "Page 4 digital outputs" menu: Fig. 5-6 Page 4 digital outputs menu 1 Digital outputs pictogram 2 Jump to previous page 3 Oil pump [off] - terminal X26 4 Fuel selection oil [off] - terminal X24 (adjustable with P 809) 5 Fuel selection gas [off] - terminal X24 (adjustable with P 809) 25 5 Operating Control and Displays 5.5 Manual Menu Path MANUAL Select MANUAL path to carry out actions as follows: 1 Switching burner ON and OFF 2 Presetting of burner firing rate NOTICE At least release level1 is required to start the burner. The ’Burner ON’ control loop does not need to be switched on to start the burner from this menu. The user interface assumes control in this menu. If there is no ’Burner ON’ signal from other sources (terminal X10.2) software switches off the burner when you exit the menu. CAUTION! If you carry out a manual start-up via display BT300 no longer responds to ’Burner ON’ signal input at connector X10.2. Therefore that limiters, monitors and other similar safety functions must not be operated with this input! NOTICE Leaving of window will terminate manual burner operation! Adjust burner firing rate 1. Use cursor keys to select adjustment of burner firing rate in % and press ENTER to confirm . 2. Change burner firing rate with the cursor keys and press ENTER to confirm. Start burner manually Adjust burner firing rate 26 5 Operating Control and Displays NOTICE Changes of burner firing rate are possible only while burner is running. If you want to adjust burner firing rate remember to start-up the burner first. 5.6 Settings Menu Path NOTICE The level 1 parameters must be protected against unauthorised modification by setting a password different to "0000". 5.6.1 Enter Password Password Display settings for program sequence Read configura- tion for continuous out- put Configure curve Delete curve Configure controller Configure password Configure parameters Configure display Reset access level Password entry 27 5 Operating Control and Displays 5.6.2 Program Sequence Set duration of pre-purge period NOTICE Both values are identical – Confirm with . The values are different – Cancel with . Duration pre-purge period Duration post purge period valve leakage test Pilot burner gas operation Pilot burner oil operation Parameter number UI Parameter modifications are transferred BT = Parameter number BT300 Parameter modifications are discarded 28 5 Operating Control and Displays NOTICE Pre-purge starts as soon as damper reaches pre-purge position and - if you use a VSM - the last but one point of fuel/air ratio curve is passed. NOTICE The second to last channel’s position must be lower than the position of the last curve point. Set duration of the post-purge NOTICE Both values are identical – Confirm with . The values are different – Cancel with . 29 5 Operating Control and Displays Valve Leakage Test Valve leakage test ON/OFF P802 OFF P802 = 0 = Valve leakage test OFF P802 = 1 = If valve leakage test before ignition is configured, the test runs during ignition. P802 = 2 = If valve leakage test before ignition is configured, the test runs after pre-purge. Valve leakage test before ignition P312 Valve leakage test after burner OFF P315 Duration of Valve leakage test P311 30 5 Operating Control and Displays Activate pilot burner in gas operation Activate pilot burner in oil operation NOTICE Actuators move according to changes immediately to the set position. If you want to change channel 4 the fan motor must be running. Pilot burner ON Pilot burner OFF Pilot burner ON Pilot burner OFF Ignition point Firing rate points 200, 250, 300, 400, 500, 600, 700, 800, 900, 999 S 0 ... 999 Setpoint value (to adjust) I 0 ... 999 Actual value 31 5 Operating Control and Displays NOTICE The following firing rate points are available: Ignition point , 200, 250, 300, 400, 500, 600, 700, 800, 900, 999 Use BACK key to switch to menu settings after having completed curve settings. NOTICE Pressing while setting firing rate points discards the modifications. Set Multi Stage Operation NOTICE Set the following stages according to this procedure! NOTICE Pressing die key while modifying the firing-rate points discards the changes. NOTICE The following points are available for multi stage operation: Ignition point , 1 (first stage), 1 2 (valve switch-on threshold for stage 2), 2 1 (valve switch-off threshold for stage 2), 2 (second stage), 2 3 (valve switch-on threshold for stage 3) 3 2 (valve switch-off threshold for stage 3) , 3 (third stage) AIR Air channel Switching from 1. stage to 2. stage S Setpoint position of air damper The internal setpoint curve always has 200 digit in stage 1, 300 digit in stage 2 and 400 digit in stage 3. I Actual position of air damper 32 5 Operating Control and Displays NOTICE The points are approached from above by using the overshoot-function. If you use the over- shoot-function in operation, you must program all points from above. Only if you do so, the required position will match the actual position. 5.6.3 Other Displays No connection between UI300 and BT300 Display shown e.g. when using LSB remote software and communication between BT300 and UI300 is temporarily unavailable. Termination Error Mode Fig. 5-7 No connection 1 UI300 User Interface pictogram 2 No connection symbol 3 BT300 burner control Fig. 5-8 Termination 1 Communication error pictogram connection unavailable Fig. 5-9 BT300 ferror mode H120 Failure number D1 Diagnostics 1 D2 Diagnostics 2 Failure occurs at that time 33 5 Operating Control and Displays CO/O2 Hint CO Hingt CO/O2 Fault CO Faultr Fig. 5-10 CO/O 2 hint Number of the currently pending hint. The hint can be released by the RESET but- ton. Fig. 5-11 CO hint Number of the currently pending hint.. The hint can be released by the RESET but- ton. Fig. 5-12 CO/O 2 fault Number of the currently pending fault. The fault can be released by the RESET button. Fig. 5-13 CO fault Number of the currently pending fault. The fault can be released by the RESET button. 34 5 Operating Control and Displays O 2 /CO-Fehlerhistorie Fig. 5-14 CO/O 2 fault history Fault history including the time when the fault occurs Fig. 5-15 Details of the fault history 01 - 001 Fault number D1 Diagnostics 1 D2 Diagnostics 2 Fault occurs at that time || Duration of the fault 35 6 Leakage Test for Main Gas Valves 6 Leakage Test for Main Gas Valves 6.1 Calculation Example With BT300 the gas pressure monitor is also applicable to the monitoring of minimal gas pres- sure. Therefore the minimal gas pressure of the burner must be set. The valve leakage test time t3 (P 311) would be set by BT300. The time t2 for BT300 is fixed to 2s. The time t3 (P 311) must be set in a way that the maximum allowable leakage rate Q Leck can be securely detected. The maximum leakage rate stated in EN1643 and ISO23551-4 is 0.1% of the nominal volumetric flow of the gases or a minimum of 50l/h. Example 1 Burner capacity =1000 KW Fuel = natural gas H, calorific value = 10 kW/m 3 Nominal volumetric flow of the gases = 100 m 3 /h Leakage rate max. = 0,1 m 3 /h or 100l/h Example 2 Burner capacity =1000 KW Fuel = propane, calorific value = 25,9 kW/m 3 Nominal volumetric flow of propane = 38,6 m 3 /h Leakage rate max. = 50 l/h (not 38,6 l/h) Calculation Fig. 6-1 Principle scheme The test volume V test must be calculated with tube diameter and valve volume. The value vol- umes are provided by the valve manufacturer. If valve 1 and valve 2 are be used as a double valve, the test volume would be provided by the valve manufacturer. The leakage test V Leak is calculated according to the Boyle-Mariotte principle. 36 6 Leakage Test for Main Gas Valves p 1 V 1 = p 2 V 2 p = absolute pressure V = gas volume This is valid for the test of valve 1 V1: Should t3 be negative, at least 1s must be set. If the calculation of t3 for valve 2 is higher than t3 for valve 1, the value for the calculation of valve 2 must be adjusted. NOTICE p Schalt must always be higher than p out. Otherwise V1 would be recognised as leaking even if it is not. This is valid for the test of valve 2 V2: If t3 is negative, at least 1 s must be set. If the calculated t3 value of valve 1 is higher than t3 for valve 2, the calculated value of valve 1 must be adjusted. Q leak Leakage rate in l/h p sw Absolute pressure on the switching point of pressure monitor (adjusted over- pressure + atmosphere pressure) p sw e Adjusted overpressure on switching point of pressure monitor p out e Output pressure on gas valve V2 during purge p Atm Atmospheric pressure (average of 101,3 kPa at sea level) V test Test volume between the valves t2 Settling time is always 2 s t3 Adjusted leakage check time Q leak Leakage rate in l/h p sw Absolute pressure on switching point of pressure monitor (adjusted overpres- sure + atmosphere pressure) p sw e Adjusted overpressure on the switching point of pressure monitor p in Absolute input pressure on gas valve V1 p in e Overpressure at gas valve V1 input p Atm Atmosphere pressure (average of 101,3 kPa at sea level) V test Test volume between the valves t2 Settling time is always 2 s t3 Adjusted leakage check time 37 6 Leakage Test for Main Gas Valves 6.2 Leakage Test Process Flow The valve leakage test checks if the main gas valves are sealed. For this purpose the gas pressure of the supply is analysed. As valve leakage test section (space between the two main valves) burns empty whenever the burner is switched off, this part is usually pressureless at start-up (gas pressure > min = 0). This is checked by BT300. At this point, main gas 1 opens briefly and gas flows into test sec- tion (gas pressure > min switches from 0 to 1). While main gas 1 valve is open gas pressure must apply.Otherwise BT300. detects gas deficiency. Gas pressure must remain at least con- stant during valve leakage test period (2 s + P 311). The valve leakage test is considered com- plete then. If leakage test section is not empty at start-up (e.g. resulting from a previous fault shut down), main gas valve 2 opens first. The leakage test line is then purged (depending on the plant, either in the combustion chamber or through the roof). During leakage test period section is checked whether it remains pressureless or not. Apart from that the process is the same as described above. The leakage test takes place prior to ignition. The pressure monitor for the leakage test line must be connected to the ’Gas pressure > min’ input on plug X05. It also monitors the minimum pressure during operation. If a different min- imum pressure should be monitored during operation, the pressure monitor must be inserted into the safety interlock chain gas or into the controller loop (burner ON). 38 6 Leakage Test for Main Gas Valves Fig. 6-2 Leakage test process diagram 39 6 Leakage Test for Main Gas Valves 6.3 Valve Leakage Test Venting Over the Roof NOTICE Consider diameter of gas line in the roof purge. For purge, plug X02 is activated for 3 s. Make sure that this period is sufficient even for smallest purge line diameter! Fig. 6-3 Wiring proposition for purge of gas line via roof in combination with BurnerTronic 40 7 Technical Data 7 Technical Data 7.1 Technical Data BT300 Function Power supply: 230 V +10/-15 % 47-63 Hz 115 V +10/-15 % 47-63 Hz (on request) Maximum backup-fuse: 10 A slow-blow To be used only in a grounded power line network! Power consumption: max. 30 VA Switching threshold of ionisation current: 1 A Digital signal inputs: Max. line length 10 m/33 ft Max. line length 20 m/66 ft for the following signals: Firing rate+ / firing rate- Boiler safety interlock chain (SIC) Burner ON Reset Alarm Fuel selection DFM Digital outputs: 3 fuel valves max. 1 A cos 0,4 VL fan max. 2 A cos 0,4 oil pump max. 2 A cos 0,4 ignition transformer max. 2 A cos 0,2 alarm output max. 1 A cos 0,3 Resolution: 999 digit, 10 bit Number of curve sets: BT320/33x: 1 curve set (oil or gas) BT34x: 2 curve sets (oil/gas switchable; DFM300 or LCM100 required) Number of programs: unlimited (EEPROM) Field bus-coupling (optional): PROFIBUS DP Modbus TCP PROFINET LEM100 or LCM100 always required Housing: Polycarbonate + ABS Dimensions: 200x115x61 mm/7.87x4.53x2.4 in Weight: 1,0 kg/2.20 lb Flammability: UL-94 V0 Display UI300 Display: 128x64 pixel, monochrome White backlighting (dimmable) Dimensions: 112x64x24 mm/4.41x2.52x0.94 in Weight: 140 g/0.31 lb Housing: Basic housing: Polyamide glass fibre reinforced LCD-display window: Polycarbonate Flammability: UL-94 V0 Cable length: 1 m/3.28 ft 41 7 Technical Data 7.2 Actuators 662R550... Environmental Conditions Operation: Climatic conditions Class 3K5 according to DIN EN 60721-3 Mechanic conditions Class 3M5 according to DIN EN 60721-3 Temperature range -20 ... +60 °C/-4 °F ... +140 °F (condensation is prohibited) Transport: Climatic conditions Class 2K3 according to DIN EN 60721-3 Mechanic conditions Class 2M2 according to DIN EN 60721-3 Temperature range -20 ... +70 °C/-4 °F ... +158 °F (condensation is prohibited) Storage: Climatic conditions Class 1K3 according to DIN EN 60721-3 Mechanic conditions Class 1M2 according to DIN EN 60721-3 Temperature range -20 ... +70 °C/-4 °F ... +158 °F (condensation is prohibited) Electronic safety: Degree of protection (DIN EN 60529): BT300 – IP00 housing IP20 (terminals covered) UI300 – IP40 (clamping) IP54 (glued assembly) Function Power supply 24 VDC ±20 % Floating time 5 s / 90° at 180 Hz Direction of rotation 0° to 90° right Torque 0.8 Nm (both directions) Holding torque 0.4 Nm (no power) 0.7 Nm Permissible radial load 30 Nm (centre of output shaft) Permissible axial load 5 N Axial play of drive shaft 0.1 ... 0.2 mm Cable length securely connected 0.6 m pluggable max. 3 m Environmental conditions Operation Climatic condition Class 3K3 according to DIN EN 60721-3 Mechanical condition Class 3M3 according to DIN EN 60721-3 Temperature range -20 ... +60 °C (condensation is prohibited) Transport Climatic condition Class 2K3 according to DIN EN 60721-3 Mechanical condition Class 2M2 according to DIN EN 60721-3 Temperature range -20 ... +70 °C (condensation is prohibited) Storage Climatic condition Class 1K3 according to DIN EN 60721-3 Mechanical condition Class 1M2 according to DIN EN 60721-3 Temperature range -20 ... +70 °C (condensation is prohibited) 42 7 Technical Data DANGER! Danger by electrical shock! Shut BT300 down before opening the cover, otherwise it is possible to get in contact with con- ducting parts. This may cause an electrical shock. Only open BT300 when it is disconnected it all-pole. Disconnect BurnerTronic all-pole. NOTICE Damaging the 0,8 Nm actuator by opening the actuator. Do not open the actuator at another part as the cover of the electric connection, otherwise the actuator will be damaged. The warranty expires and is invalid. Do not open the actuator but at the cover of the electric connection. NOTICE The limits of the technical data must be strictly adhered to. Bursting strength Peak voltage 4 kV Repeat frequency 2,5 kHz Electrical safety Protection class 2 as per DIN EN 60730 Environmental conditions 43 7 Technical Data 7.3 Actuators 662R5001... / 662R5003... Function 662R5001... 662R5003... 662R5009... Power supply: 24VDC ±20 % Floating time 5 s/90° 5 s/90° 15 s/90° Direction of rotation 0° to 90° left - view to the drive shaft Effective output torque 1.2 Nm (both directions of rota- tion) 3 Nm (both directions of rota- tion) 9 Nm (both directions of rotation) Holding torque 0.82 Nm (currentless) 2.8 Nm (currentless) 6 Nm (currentless) Permissible radial load 100 N (centre of output shaft) Permissible axial load 10 N Axial play of drive shaft 0.1 ... 0.2 mm 0.1 ... 0.2 mm Motor RDM 51/6 stepper motor Angular resolution 0.1°/motor step 0.1°/motor step 0.03°/motor step Rated resolution encoder monitoring 0,7° Monitoring accuracy 0,5° 0,5° 1.3125° (corresponds 44 motor steps) Repeat accuracy 0,1° 0,1° 0,1° Life cycle 2,000,000 motions forward and back performed on complete actuator range Degree of protection IP54 according to DIN EN 60529-1 Weight 1400 g Cable length securely connected 1.5mpluggable max. 3 m securely connected 1.5mpluggable max. 3 m pluggable max. 3 m Environmental conditions 662R5001.../662R5003.../662R5009... Operation Climatic condition Class 3K5 according to DIN EN 60721-3 Mechanical condition Class 3M5 according to DIN EN 60721-3 Temperature range -20 ... +60 °C (condensation is prohibited) Transport Climatic condition Class 2K3 according to DIN EN 60721-3 Mechanical condition Class 2M2 according to DIN EN 60721-3 Temperature range -20 ... +70 °C (condensation is prohibited) Storage Climatic condition Class 1K3 according to DIN EN 60721-3 Mechanical condition Class 1M2 according to DIN EN 60721-3 Temperature range -20 ... +70 °C (condensation is prohibited) Bursting strength Peak voltage 4 kV Repeat frequency 2,5 kHz Electrical safety Protection class 2 as per DIN EN 60730 44 7 Technical Data NOTICE Damage of the actuator with 1.2, 3.0 and 9.0 Nm due to opening the actuators housing. Opening the actuator’s housing will damage the actuator . The warranty expires. NOTICE The limits of the technical data must be strictly adhered to. 45 7 Technical Data 46 7 Technical Data LAMTEC Meß- und Regeltechnik für Feuerungen GmbH & Co. KG Wiesenstraße 6 D-69190 Walldorf Telefon: +49 (0) 6227 6052-0 Telefax: +49 (0) 6227 6052-57 [email protected] www.lamtec.de print no. DLT1206-18-aEN-010 The information in this publication is subject to technical changes. Printed in Germany | Copyright 2018
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Manual BT300 BurnerTronic Sensors and Systems for Combustion Engineering www.lamtec.de… -
Page 3: Table Of Contents
Table of Contents Table of Contents Important Information about the Manual ……..6 Validity of these Instructions.
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Table of Contents 4.8.2 Direction of Rotation/Position Damper Closed ……55 4.8.3 Detection of Actuators with Transposed Connections ….56 4.8.4 Adjusting of Actuators . - Page 5
Table of Contents 5.3.7.2 Access Rights ……….130 5.3.7.3 BurnerTronic . - Page 6
Table of Contents 7.4.2 LEDs …………186 7.4.3 Electrical Connection . -
Page 7: Important Information About The Manual
Important Information about the Manual Important Information about the Manual Validity of these Instructions This manual is valid for the burner control system BurnerTronic BT300 in any configuration. The information contained in this document refer to the software versions BT300 v3.5 and UI300 v3.8.
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Page 8: General Safety Instructions
General Safety Instructions General Safety Instructions Classification of the Safety Instructions and Warnings The following symbols are used in this document to draw the user’s attention to important safe- ty information. They are located at points where the information is required. It is essential that the safety information is observed and followed, and that applies particularly to the warnings.
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Page 9: Product-Specific Dangers
The BT300 is a safety device! The device must not be opened, interfered with or modified. LAMTEC assumes no liability for damages arising as a result of unauthorised interference! • After commissioning and after each maintenance action check the exhaust gas values across the entire power range.
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Page 10: Commissioning Notes
General Safety Instructions 2.2.1 Commissioning Notes • Check all safety functions during commissioning! • There is no feature to prevent RASTx connector plugs being transposed. Therefore en- sure the correct assignment of the plant’s plugs prior to commissioning. • Check electromagnetic emissions specific to the application. •…
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Page 11: Basic Device
General Safety Instructions 2.2.1.2 Basic Device Check the following items prior to commissioning: • Valves must be assigned correctly to valve outputs on BT300. • Correct setting of time parameters (especially safety and pre-purge times). • Flame sensor functioning well in case of: •…
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Page 12: Checking The Fuel/Air Ratio Control System
General Safety Instructions 2.2.2.2 Checking the Fuel/Air Ratio Control System Save setting values (curve parameters) for actuator elements, fuel and combustion air through the complete range of burner firing rate in sufficient number. Select setting values of fuel and combustion air considering combustion chamber pressure, fuel pressure, temperature and pressure of the combustion air in order to guarantee proper operation with adequate excess air through the entire range of burner firing rate.
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Page 13: Installation Notes
General Safety Instructions NOTICE Damaging the servomotors with 1.2 Nm and 9.0 Nm through opening. Opening the servomotor destroys the servomotor. The warranty expires. Installation Notes • Lay high-voltage ignition cable always separately and in safe distance from device and other cables.
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Page 14: Electrical Connection Flame Sensor
General Safety Instructions Electrical Connection Flame Sensor Interruptions and losses in signal transmission need to be minimised: • Do not wire the sensor cable with other cables. Flame signal is reduced through line capacities. Use a separate 7-pole cable. •…
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Page 15: Product Description
Product Description Product Description Functional Description BT300 combines the benefits of an electronic fuel/air ratio control system with up to three mo- torised actuator elements and optional modules like an analogue output for speed control of the combustion air fan with an electronic burner control unit. The leakage test, flame monitor- ing system, power control unit and (optional) CO/O controller for control and optimisation of an oil or gas-fired forced-draught burner are all integrated.
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Page 16: Life Cycle
A cutting and clamping technique (SKT) * B screw terminals * 2 RAST2.5 plug connector for actuator, User interface and LAMTEC SYSTEM BUS in cutting and clamping technique * please note plug-in direction The designed lifetime is not the warranty time specified in the Terms of Delivery…
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Product Description Fig. 3-1 Dimensions BT320 … 340 (terminal assignment BT330/BT340 only) Fig. 3-2 UI300 side view Fig. 3-3 UI300 front view Fig. 3-4 UI300 panel cut-out… - Page 18
Product Description Function Power supply: 230 V +10/-15 % 47-63 Hz 115 V +10/-15 % 47-63 Hz (on request) Maximum backup-fuse: 10 A slow-blow To be used only in a grounded power line network! Power consumption: max. 30 VA 1 A Switching threshold of ionisation current: Digital signal inputs:… -
Page 19: Actuator
Product Description Environmental Conditions Temperature range -20 … +60 °C/-4 °F … +140 °F (condensation is prohibited) Transport: Climatic conditions Class 2K3 according to DIN EN 60721-3 Mechanic conditions Class 2M2 according to DIN EN 60721-3 Temperature range -20 … +70 °C/-4 °F … +158 °F (condensation is prohibited) Storage: Climatic conditions…
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Product Description 1 15.4 (+0.3/-1) including axial play 2 Cap cannot be removed by hand 3 Flexible control cable (black), length 1.5 m 4 Plug connector (RAST 2.5) pole number 6 5 Brass tube and M4 x 30 DIN 912 cylinder bolt fixed with O-ring Function Power supply 24 VDC ±20 %… -
Page 21: Actuators 662R5001
Product Description NOTICE Damaging the 0,8 Nm actuator by opening the actuator. Do not open the actuator at another part as the cover of the electric connection, otherwise the actuator will be damaged. The warranty expires and is invalid. Do not open the actuator but at the cover of the electric connection. 3.3.2.2 Actuators 662R5001…
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Product Description Fig. 3-6 Dimensional drawing of motor type 0R5001-1 and type 662R5003-1 with cable Fig. 3-7 Dimensional drawing of motor type 660R5009-0 without cable but with plug… - Page 23
Product Description Function 662R5001… 662R5003… 662R5009… Power supply: 24VDC ±20 % Floating time 5 s/90° 5 s/90° 15 s/90° Direction of rotation 0° left — view to the drive shaft to 90° Effective 1.2 Nm 3 Nm 9 Nm output torque (both directions of rota- (both directions of rota- (both directions of rotation) -
Page 24: Flame Sensor/Flame Scanner
Product Description 3.3.3 Flame Sensor/Flame Scanner Fig. 3-8 KLC 1000 Fig. 3-9 Dimensions KLC 1000 (1 = radial scanning opening) KLC10/KLC1000 Input Data Power supply: KLC10: 120 VAC -15/+10 % 50-60 Hz KLC1000: 230/240 VAC -15/+10 % 50-60 Hz Current consumption: 5,5 mA Optical Evaluation Spectral range:…
- Page 25
Product Description Fig. 3-10 Dimensions of angle adapter for KLC 2002 Fig. 3-11 Dimensions KLC 2002 KLC20/KLC2002 Input Data Power supply: KLC20: 120 VAC -15/+10 % 50-60 Hz KLC2002: 230/240 VAC -15/+10 % 50-60 Hz Current consumption: 3 — 4 mA Optical Evaluation Spectral range: 380 — 1150 nm… -
Page 26: Mounting And Functions
Mounting and Functions Mounting and Functions System Overview Fig. 4-1 System overview of BurnerTronic BT300…
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Page 27: Connecting Diagrams
Mounting and Functions Connecting Diagrams X30 = User Interface UI 300 Maximum cable length X31 = LSB Option X01-X6+X08: 10 m X32 = continuous output 1, e.g. air damper X07+X09: 20 m X33 = continuous output 2, e.g. gas damper X10: 20 m X34 = continuous output 3 (optional)
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Page 28: Optional Connections For The Fuel Line
Mounting and Functions When running oil/gas burning applications (BT340 in combination with DFM300), the function ’Gas > min’ is aligned with X05. Put in oil/gas applications, the pressure monitoring for ’Oil pressure > min.’ in the oil safety ► interlock chain (SIC). 4.2.1 Optional Connections for the Fuel Line Fuel valve (gas side)
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Page 29: Optional Connections For The Flame Scanner
Mounting and Functions Oil pressure min sensor Oil valve 1 stage Oil valve 2 stage Oil valve 3 stage Fig. 4-4 Fuel train — oil 3-stage Oil pressure min sensor Oil valve for modulated operation, oil valve 1 stage at 2-stage operation Oil valve 2 stage at 2-stage operation Optional ignition valve…
- Page 30
Mounting and Functions Fig. 4-8 Connecting diagram of the sensor Honeywell IRD1020 Fig. 4-9 Connecting diagram of sensor Honeywell IRD1010, KLC10, KLC20, KLC1000 or KLC2002 Colour code BK = black; BN = brown; BU = blue Fig. 4-10 Connecting diagram F300K via power pack FN20 (also valid for F200K) Fig. - Page 31
Mounting and Functions Dimensional Drawings Fig. 4-12 Dimensional drawing F200K Fig. 4-13 Dimensional drawing F300K Fig. 4-15 Dimensional drawing KLC1000/KLC2002 side view Fig. 4-14 Dimensional drawing KLC1000/KLC2002 top view 1 Radial opening (with KLC1000 only) -
Page 32: Lsb Module Integration
Mounting and Functions 4.2.3 LSB Module Integration EBM100 may be used as an alterna- tive field bus module instead of PBM100 Alternative CO/O measurement LEM100 can be used as an alternative to LCM100 to connect LSB to BT100 CO/O measurement Fig.
- Page 33
2x2x0,60 twisted pairs with shielding, impedance 120 Devices on LAMTEC SYSTEM BUS (LSB) must be connected in serial/row (see Fig. 4-17 Se- rial BUS connection). The first and the last participant on LSB must be terminated with a ter- mination resistor of 120 . All the other BUS participants are not allowed to be connected to any termination resistor at all. -
Page 34: Flame Monitoring
The following types of flame sensor for intermittent operation (burner switched off at least once every 24 hours) are valid for use. Manufacturer Type Settings P 800 Approval LAMTEC F152 with FFS07 o. FFS08 UV (up to v3.1) Continuous contact (from v3.3) F200K with FN20 UV (up to v3.1)
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Page 35: Flame Sensors
Mounting and Functions WARNING! Danger from fuel ingress to combustion chamber after loss of flame! Improper use or configuration of flame sensors not approved for continuous operation can re- sult in hazardous situations and possible cause of explosion leading to loss of life and prop- erty.
- Page 36
Mounting and Functions NOTICE To avoid any disturbance, do not align the detector direct to the ignition spark. Breakdowns during pre-purge procedure may occur. The maximum length of the connection must be in accordance with the technical data. Install the detector connection cable with most possible distance to the ignition cable or the mains cable. -
Page 37: Klc 10/Klc 1000
Mounting and Functions KLC 20/KLC 2002 switches the flame relay ON – the red LED is permanently ON. After 9 sec. the switching output is disconnected – the red LED flashes. NOTICE Due to the safety function of the disturbance frequency cut-off, a flame simulation is not pos- sible by means of a simple art source of light.
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Mounting and Functions CAUTION! For safety reasons and within the technical regulations, a controlled burner shut-down of the burner must occur and be guaranteed to happen at least once in every 24 hours of operation. Operating Indicator LED The flame detector KLC 10/KLC 1000 indicates the following operating conditions and flame signal strengths via the built-in LED. -
Page 39: Process Sequence Charts
Mounting and Functions Process Sequence Charts Key to process sequence charts Any condition Waiting for safety interlock chain gas, scan of air pressure monitor min. Time for pressure build-up in the gas test line (available with activated leakage test) 2,4 s Actuator running time 30 s — 60 s Delay of the recirculation damper…
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Mounting and Functions Fig. 4-19 Oil with pilot burner BT300… - Page 41
Mounting and Functions Fig. 4-20 Oil without pilot burner BT300… - Page 42
Mounting and Functions Fig. 4-21 Gas with pilot burner and leakage test BT300… - Page 43
Mounting and Functions Fig. 4-22 Gas without pilot burner and leakage test BT300… -
Page 44: Leakage Test For Main Gas Valves
Mounting and Functions Fig. 4-23 Leakage test BT300 Leakage Test for Main Gas Valves 4.5.1 Calculation Example With BT300 the gas pressure monitor is also applicable to the monitoring of minimal gas pres- sure. Therefore the minimal gas pressure of the burner must be set. The valve leakage test time t3 (P 311) would be set by BT300.
- Page 45
Mounting and Functions Example 1 Burner capacity =1000 KW Fuel = natural gas H, calorific value = 10 kW/m Nominal volumetric flow of the gases = 100 m Leakage rate max. = 0,1 m /h or 100l/h Example 2 Burner capacity =1000 KW Fuel = propane, calorific value = 25,9 kW/m Nominal volumetric flow of propane = 38,6 m Leakage rate max. - Page 46
Mounting and Functions Leakage rate in l/h leak Absolute pressure on the switching point of pressure monitor (adjusted over- pressure + atmosphere pressure) Adjusted overpressure on switching point of pressure monitor sw e Output pressure on gas valve V2 during purge out e Atmospheric pressure (average of 101,3 kPa at sea level) Test volume between the valves… -
Page 47: Leakage Test Process Flow
Mounting and Functions 4.5.2 Leakage Test Process Flow The valve leakage test checks if the main gas valves are sealed. For this purpose the gas pressure of the supply is analysed. As valve leakage test section (space between the two main valves) burns empty whenever the burner is switched off, this part is usually pressureless at start-up (gas pressure >…
- Page 48
Mounting and Functions Fig. 4-25 Leakage test process diagram… -
Page 49: Reaction On Gas Deficiency
Mounting and Functions 4.5.3 Reaction on Gas Deficiency If main gas 1 valve is open and the pressure drops below the minimum pressure, gas deficien- cy is detected. This causes a safety shut down and fault indication H611. Further reactions are depending on the settings in P301 (automatic restart).
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Page 50: Staged Operation
Mounting and Functions Fig. 4-27 Wiring proposition for purge of gas line via roof in combination with BurnerTronic Staged Operation Function BT300 has not only the ability of shifting the burner firing rate in oil operation infinitely but 2- stage and 3-stage. Therefore oil valve 2 and oil valve 3 is switched ON and OFF depending on the position of air channel 1.
- Page 51
Mounting and Functions Fig. 4-28 Switching threshold of stage operation Switch-on point valve 2 P 528 … P 530 Parameters 528 … 530 Switch-off point valve 2 S1 … S3 Threshold 1 … 3 Switch-on point valve 3 Internal firing rate Switch-off point valve 3 Ignition point Firing Rate Controller… -
Page 52: Flue Gas Recirculation
Mounting and Functions NOTICE When using TPS input via X9.x P 531, P 532, P 533 and P 534 are not necessary. Example for a 2 stage oil burner with firing rate controller by LCM100: Situation: • The burner has only one air flap at channel 1. •…
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Page 53: Actuator
Mounting and Functions Negative pressure created by the combustion air fan can be used as an alternative to a recir- culation fan to aspirate flue gases. For this method of flue gas recirculation it is sufficient to monitor the combustion air fan. It is not possible to use a VSD controlled recirculation fan with the BT300 system.
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Page 54: Detection Of Actuators With Transposed Connections
Mounting and Functions 12 o’clock position P 458 — P 460 = 0 • 9 o’clock position P 458 — P 460 = 1 • 4.8.3 Detection of Actuators with Transposed Connections While replacing BT300 make sure actuators are re-connected to the correct channel. Label the plugs/cables to prevent faults or use the ’transposition test’…
- Page 55
Mounting and Functions External, mechanical stop on channel 2 for detection of transposition External, mechanical stop on channel 1 for detection of transposition Operational range Reference mark Fig. 4-30 Actuators 662R5001…, 662R5003…, 662R5009 Reference mark Internal mechanical stop Max. angle of rotation for detection of transposition External, mechanical stop on channel 1 for detection of transposition… -
Page 56: Operating Control And Displays
Operating Control and Displays Operating Control and Displays User Interface UI300 5.1.1 UI300 User Interface Display BACK key Cursor keys ENTER key Fig. 5-1 User Interface Display The display shows in pictogram: • the menu structure • operating status • parameters •…
- Page 57
Operating Control and Displays INFO MANUAL SETTINGS DATA PROCESSING (release level 1 is mandatory) INFO Select INFO path for information about the following: • Burner • Faults/Fault history • Software version • Display of check sums • Serial number • Actuator positions (current damper position for each channel) •… -
Page 58: Main Menu
Operating Control and Displays 5.1.3 Main Menu INFORMATION menu path [selected] Display of fuel type Bar graph of internal firing rate in % (0 — 100) MANUAL menu path SETTINGS menu path Release level DATA HANDLING menu path Window number Fig.
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Page 59: Burner Details
Operating Control and Displays 5.1.4.1 Burner Details Displaying Operating Hours and Burner Starts Display of operating hours Number of operating hours in total (device connected with mains) Number of operating hours in oil operation Number of operating hours in gas operation Display of burner starts Number of burner starts in oil operation Number of burner starts in gas operation…
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Page 60: Recalling Fault History
Operating Control and Displays 5.1.4.2 Recalling Fault History Displaying Burner Faults Fault code (Last 10 faults are stored, No. of operating hours when no. 01 is the latest fault) fault has occurred D1 Diagnostic code 1 Duration of the fault D2 Diagnostic code 2 NOTICE Information concerning fault and diagnostic codes can be found in the list of fault codes.
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Page 61: Software Version
Operating Control and Displays Fault unlock How to unlock BT300 A fault is pending and the ENTER key is flashing. 1. Press ENTER key. BT300 is not locked anymore. Changing from fault unlock to main menu: A fault is pending and the ENTER key is flashing 1.
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Page 62: Serial Number
Operating Control and Displays The checksum shows whether the value of one or more parameters have been changed. 5.1.4.5 Serial Number UI = Serial numberUI300 BT = Serial number BT300 5.1.4.6 Positions of Actuators Indication of the channel’s actual (left to right): Channel 1 (oil) Channel 2 (air) Channel 3 (oil)
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Page 63: Check Digital Inputs/Outputs
Operating Control and Displays 5.1.4.7 Check Digital Inputs/Outputs Check Digital Inputs and Outputs Fuel selection oil Fan ON/OFF Fuel selection gas Fault Burner ON Ignition transformer ON/ Oil pressure min. is present Ignition valve ON/OFF Gas pressure min. is present SIC* oil is closed SIC* boiler is closed Oil pump OFF…
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Page 64: Manual Menu Path
Operating Control and Displays 5.1.5 Manual Menu Path MANUAL Select MANUAL path to carry out actions as follows: Switching burner ON and OFF Presetting of burner firing rate Start burner manually Adjust burner firing rate NOTICE At least release level1 is mandatory to start the burner. The ’Burner ON’…
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Page 65: Fault Indication
Operating Control and Displays 5.1.6 Fault Indication Displaying Burner Faults Fault code (Last 10 faults are stored, No. of operating hours when no. 01 is the latest fault) fault has occurred D1 Diagnostic code 1 Duration of the fault D2 Diagnostic code 2 NOTICE Information concerning fault and diagnostic codes can be found in the list of fault codes.
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Page 66: Settings Menu Path
Operating Control and Displays Fault unlock How to unlock BT300 A fault is pending and the ENTER key is flashing. 1. Press ENTER key. BT300 is not locked anymore. Changing from fault unlock to main menu: A fault is pending and the ENTER key is flashing 1.
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Page 67: Password
Operating Control and Displays 5.1.7.1 Password Reset access level Enter password to get access level 5.1.7.2 Program Sequence Duration pre-purge period Duration post purge period valve leakage test Pilot burner gas operation Pilot burner oil operation…
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Operating Control and Displays Set duration of pre-purge period Parameter number UI Parameter modifications are transferred BT = Parameter number BT300 Parameter modifications are discarded NOTICE Both values are identical – Confirm with The values are different – Cancel with NOTICE Pre-purge starts as soon as damper reaches pre-purge position and — if you use a VSM — the last but one point of fuel/air ratio curve is passed. - Page 69
Operating Control and Displays Set duration of the post-purge NOTICE Both values are identical – Confirm with The values are different – Cancel with… - Page 70
Operating Control and Displays Valve Leakage Test Valve leakage test ON/OFF P802 P802 = 0 = Valve leakage test OFF P802 = 1 = If valve leakage test before ignition is configured, the test runs during ignition. P802 = 2 = If valve leakage test before ignition is configured, the test runs after pre-purge. - Page 71
Operating Control and Displays Activate pilot burner in gas operation Pilot burner ON Pilot burner OFF Activate pilot burner in oil operation Pilot burner ON Pilot burner OFF Ignition point Firing rate points 200, 250, 300, 400, 500, 600, 700, 800, 900, 999 S 0 … - Page 72
Operating Control and Displays NOTICE The following firing rate points are available: Ignition point , 200, 250, 300, 400, 500, 600, 700, 800, 900, 999 Use BACK key to switch to menu settings after having completed curve settings. NOTICE Pressing while setting firing rate points discards the modifications. -
Page 73: Configuration Of The Actuators
Operating Control and Displays NOTICE The points are approached from above by using the overshoot-function. If you use the over- shoot-function in operation, you must program all points from above. Only if you do so, the required position will match the actual position. 5.1.7.3 Configuration of the Actuators Displaying the Actuators’…
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Page 74: Deleting Curves
Operating Control and Displays NOTICE The actuators are running to the new position immediately after the modification. To adjust channel 4 the fan motor must be running. The feedback setpoint curve of channel 4 must rise continuously. Pressing key BACK for longer than 2 s in menu ’Curve settings of the actuators’ causes a fault shut down.
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Page 75: Ui300 Settings
Operating Control and Displays CO/O Controller Settings • ON/OFF • Correction mask • Correction spreading Trim Settings • Correction range • Testing O trim • curve settings • Delete O setpoint curve or optimisation curve • Adjusting P term and dead time •…
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Page 76: Edit Parameter
Operating Control and Displays 5.1.7.8 Edit Parameter Setting Parameters up to Release Level 2 NOTICE Only parameters of the present release level can be modified.
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Page 77: Menu Path Dataset Processing
Operating Control and Displays 5.1.8 Menu Path Dataset Processing Saving/Restoring BT300 Dataset Saving dataset from BT300 Transfer dataset to BT300 NOTICE Check the checksum for equality each time after saving the data: Check the settings from chapter 2.4 Installation Notes after transferring data to BT300: Other Displays No connection between UI300 and BT300 UI300 User Interface pictogram…
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Operating Control and Displays Termination Communication error pictogram connection unavailable Fig. 5-4 Termination Error Mode H120 Failure number Diagnostics 1 Diagnostics 2 Failure occurs at that time Fig. 5-5 BT300 ferror mode CO/O2 Hint Number of the currently pending hint. The hint can be released by the RESET but- ton. - Page 79
Operating Control and Displays CO/O2 Fault Number of the currently pending fault. The fault can be released by the RESET button. Fig. 5-8 CO/O fault CO Faultr Number of the currently pending fault. The fault can be released by the RESET button. -
Page 80: Lsb Remote Software
Resolution of the display 1024 x 768 pixel 5.3.1.2 Install Software The remote software visualises parameters and curve data of the end devices on LAMTEC SYSTEM BUS (LSB). Values are edited and saved. A USB-CAN module connects the end device via LSB. For this purpose, install the driver for the USB-CAN module.
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Page 81: Install Software
Operating Control and Displays The current status of the end device, which is determined by the settings for the parameters and curve data can be saved (backed-up) in a data set on the PC. Once backed-up, these data sets can then be restored later to reproduce a certain status in the BT300. You will find a schematic diagram in chapter 4.1 System Overview.
- Page 82
Operating Control and Displays Fig. 5-14 Software setup assistant 3. Select ’Next’. The window to select destination folder opens. Fig. 5-15 Select destination folder 4. Specify the folder where the LSB Remote Software should be installed. A warning if the folder already exists is displayed. 5. - Page 83
Operating Control and Displays Fig. 5-16 Select start menu folder 6. To proceed, select ’Next’ 7. Create a program short cut. a) Check the box to launch an icon for the application on the desktop. Fig. 5-17 Create a desktop icon 8. - Page 84
Operating Control and Displays Fig. 5-18 Select USB-CAN drivers 10. «Next» to continue, «Cancel» to exit. NOTICE Do not connect an USB-CAN converter to the computer during installation of the USB-CAN driver! 11. Click on “Install“ to start the installation. Otherwise select «Cancel» to cancel the installa- tion. - Page 85
Operating Control and Displays Fig. 5-20 Installation in progress The progress bar shows installation process. NOTICE As soon as the bar fills up the USB-CAN driver setup starts. Do not connect a USB-CAN converter to the computer during installation of the USB-CAN driver! 12. - Page 86
Operating Control and Displays Fig. 5-22 Start window of the USB-CAN driver installation Select ’Next’ to start installation. 14. Read and accept the license agreement. Then proceed by clicking “Next”. (The ’Next’ button will be active after accepting the license agreement. Fig. - Page 87
Operating Control and Displays Fig. 5-24 Preparing USB-CAN-driver installation «Next» to continue, «Cancel» to exit. 16. Fill out the fields in the following window Fig. 5-25 User information «Next» to continue, «Cancel» to exit. 17. Select installation folder for installation of USB-CAN-driver. - Page 88
Operating Control and Displays Fig. 5-26 Selection of the installation folder «Next» to continue, «Cancel» to exit. 18. Read following information carefully and answer question with ’YES’. NOTICE It is important that you read the information window thoroughly and fully understand its con- tents. - Page 89
Operating Control and Displays Fig. 5-28 Selection of the components «Next» to continue, «Cancel» to exit. 20. Confirm selection of storage folder for program’s short cuts (standard = start menu). Fig. 5-29 Storage of short cuts «Next» to continue, «Cancel» to exit. 21. - Page 90
Operating Control and Displays Fig. 5-30 Additional functions «Next» to continue, «Cancel» to exit. 22. Additional options regarding driver update Fig. 5-31 Additional options «Next» to continue, «Cancel» to exit. 23. Select “Install“ to start the installation. Otherwise select «Cancel» to cancel the installation. - Page 91
Operating Control and Displays Fig. 5-32 Start the driver installation 24. The installation starts. The bar indicates the progress of the installation. Wait until the bar fills up. Fig. 5-33 USB-CAN driver installation Process 25. During installation you will receive the following security prompt. - Page 92
Operating Control and Displays Fig. 5-34 Security dialogue Select “Install“ to continue 26. When the installation is completed you will receive the following version information. Fig. 5-35 Important information regarding the USB-CAN driver version «Next» to continue 27. Complete the driver installation by clicking “Finish”… - Page 93
Operating Control and Displays Fig. 5-36 Driver setup has been completed 28. Connect the USB/CAN module to the computer. As soon as the module is connected to the system the system recognises the module and starts installing the driver software. 29. -
Page 94: First Connection With The End Device
Operating Control and Displays Fig. 5-38 USB/CAN module is now ready to use 30. End the installation by clicking “Close” The installation is completed and the LSB Remote Software can be used. 5.3.1.4 First Connection with the End Device NOTICE If you start the software without connected and available USB-CAN module you will receive the following message: Fig.
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Page 95: Release Codes/Release Levels
This code is pro- vided by LAMTEC in combination with an USB-CAN module. Access to the input mask for this activation code is available either via menu (Options >> Enter…
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Page 96: Offline/Online
Operating Control and Displays 1. Click Key icon in the bottom left The following entry mask opens: Fig. 5-42 Dialogue window Access code NOTICE The activation code applies exclusively to one particular USB-CAN module in each case. For entering a code this USB-CAN module has to be connected already. NOTICE If a USB-CAN module is present, the serial number ’Systec SN’…
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Page 97: Online Mode
1. Connect USB/CAN converter directly with SUB D 9 plug for LSB to LCM100. 2. Connect USB/CAN converter via USB to the PC. Call up the LSB Remote Software 1. Select the path C: ProgrammeLamtec. 2. Double-click LSBRemote.exe The initial screen opens.
- Page 98
Operating Control and Displays Fig. 5-44 Initial screen LSB Remote Software Initial screen Select function (pictograms) Device list Menu bar Device status ’Set online’ button 3. Select device type BT300. 4. Click button ’set Online’. The following ’device selection’ window opens: Fig. - Page 99
Operating Control and Displays 5. Select device you want to establish a connection with and press OK to confirm. The software starts to establish a connection. Fig. 5-46 Reading data On display ’Set online’ orange and green progress bars are displayed showing status of synchronisation of PC’s data with data of the connected device. - Page 100
Operating Control and Displays Fig. 5-48 Change customer abbreviation NOTICE The customer ID process must be carried out for each device once. This process sets pass- words specific to each customer. The customer ID cannot be deleted or changed. Enter Password Entering the level 1 password 1. - Page 101
Operating Control and Displays 3. Enter your customer password for access level 1 in the ’Password’ text box. 4. Click the ’Set password’ button. Access to all level 1 functions is granted now. NOTICE The ’Check password’ button allows you to check the validity of the password. Edit Parameter 1. - Page 102
Operating Control and Displays 4. Select parameter group 5 (System). You can now set properties for UI300 User Interface. NOTICE For changes in parameter group 5 no additional confirmation is necessary. NOTICE Parameter group 10 ’Maintenance’ is without function at present. NOTICE Parameter groups 15 to 35 were described in relation to corresponding system options. - Page 103
Operating Control and Displays Parameters of Operating Modes Fig. 5-53 Parameters of the operating modes * available with BT340 only… - Page 104
Operating Control and Displays Controller Parameters For setting the control parameters the LSB Remote Software is providing special input win- dows. According to the access level functions can be activated/deactivated and values can be edited within these windows. Call up windows through parameter sub menu. Fig. - Page 105
Operating Control and Displays Fig. 5-56 Window for setting O trim parameters Fig. 5-57 Window for setting CO control parameters… -
Page 106: Read Out Faults
Operating Control and Displays Fig. 5-58 Window for setting correction parameters NOTICE You will find settings of the CO/O control in the commissioning supplement for «Integrated CO/O control», print no. DLT1207. 5.3.3 Read Out Faults 1. From the ’BurnerTronic’ menu, select the sub menus ’Histories’ and ’Fault history’. The window for selecting the fault history opens.
- Page 107
Operating Control and Displays Fig. 5-60 Fault information Fault selection tab Description of fault Time that fault occurred (estimated) Burner status display… - Page 108
Operating Control and Displays NOTICE The date and time of the fault are calculated basing on the operating hours accumulated at the time of the fault, the current BurnerTronic operating hours, and the computer time. If BT300 was disconnected from the mains after fault occurred and before fault has been read, the date and time of the fault will not be calculated correctly. -
Page 109: Bt300 Curve Dialogue
Operating Control and Displays Fig. 5-62 Temperature statistics NOTICE The temperature is measured directly on the circuit board of the BT300. Due to self-heating this temperature is always slightly higher the ambient temperature. 5.3.4 BT300 Curve Dialogue The curve dialogue window shows the setpoint curves of the channels (ratio controller) per curve set — either oil (1) or gas (2).
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Page 110: Setpoint Graphic
Operating Control and Displays 5.3.4.1 Setpoint Graphic Fig. 5-64 Setpoint graphic window 5.3.4.2 Curve Table Fig. 5-65 Curve table window…
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Page 111: Set Curve
Operating Control and Displays 5.3.4.3 Set Curve To make curve changes to BT300, change BT300 to ’setting mode’ first. Fig. 5-66 Setting dialogue NOTICE This function affects safety. The function must be re-confirmed within eight seconds. In setting mode of the curve set two functions of the device are available: Save point Delete curve set NOTICE…
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Operating Control and Displays Fig. 5-67 Setting window NOTICE While using the overshoot-function you should program all points top down because they must be approached in overshoot-process that way. Only when you act according to this procedure the required position will match the actual position in operation. NOTICE Pre-purge starts as soon as the damper reaches pre-purge position and — if you use a VSM — the last but one point of the fuel/air ratio control curve is passed. -
Page 113: Programming Of Fuel/Air Ratio Control
Operating Control and Displays 5.3.5 Programming of Fuel/Air Ratio Control 1. Click on menu ’Curves (Fuel/Air ratio control)’. Fig. 5-68 Curves window 2. Click on button ’Start EI-Mode (Setting)’. 3. Press OK to confirm the message ’Setting start’. Automatic EI Mode is active now. NOTICE To use channel 4 set a continuously increasing curve! NOTICE…
- Page 114
Operating Control and Displays Take note of following information in this window: – A blue frame around curve and channels’ positioning information is indicating selection of channels you want to set. – Fields ’Setpoint’ show respective setpoint position of the actuator. –… - Page 115
Operating Control and Displays Warm setting/Cold setting 1. Start the burner by connecting voltage on terminal X10 Pin 2/’burner on’. NOTICE Knowing the curve settings allows to adjust the burner in ’cold’ condition. The specifications are the same as in ’warm’ condition. In ’cold’ condition the burner is OFF. A red frame around the basic screen shows the burner’s actual state. - Page 116
Operating Control and Displays Fig. 5-71 Values are read As soon as the point has been stored, the program reads the data back from BT300. Programming firing rate curve 1. Click button to select first curve point of the firing rate curve. Fig. - Page 117
Operating Control and Displays Fig. 5-73 Programming the firing rate curve 3. Click on button to select a higher curve point of firing rate curve and adjust burner at this point. 4. Adjust burner this way up to the firing rate point 999 (nominal output). NOTICE Following firing rate points are available: 200, 250, 300, 400, 500, 600, 700, 800, 900, and 999. - Page 118
Operating Control and Displays Fig. 5-74 Programming of firing rate curve NOTICE You do not need to adjust all provided curve points on the firing rate curve. The BT300 inter- polates between two adjacent curve points linearly, regardless curve points in between are plausible or not. -
Page 119: Programming A Staged Operation
Operating Control and Displays 5.3.6 Programming a Staged Operation 1. Click in menu on ’Curves (Fuel/Air ratio control)’ Fig. 5-75 Curve selection Window ’Curves (Fuel/Air ratio control)’ opens. Fig. 5-76 Curves window 2. Click button ’Start EI-Mode (Setting)’. 3. Quit the message ’Start setting’ with OK. NOTICE Click button OK in the message during running time of the blue bar.
- Page 120
Operating Control and Displays NOTICE Take the following information from this window: A blue frame around curve and around channels’ position information indicates channel selection for setting. Fields ’Setpoint’ show setpoint position of the actuator. Fields ’Actual Value’ show actual position of the actuator. ’Big’… - Page 121
Operating Control and Displays Fig. 5-78 Adjust stage operation Adjust levels finely (warm setting) 1. Connect voltage to terminal X10 Pin2 (burner ON) to start-up burner. Fig. 5-79 Status field — pre-purge [setting] 2. Wait until the burner is in control mode. 3. - Page 122
Operating Control and Displays Fig. 5-80 Adjust ignition position in staged operation 4. Click button ’save point’ to confirm the settings. The point is stored. Once a point has been stored, the program reads the data back from the device . 5. -
Page 123: Software Interface Lsb Remote Software
Operating Control and Displays 8. Enter the values in field ’1 2’ and ’2 1’. Switch-on point and switch-off point of the 2 stage are adjusted. Fig. 5-82 Adjust 2 stage in staged operation 9. Click button to choose 2 stage of firing rate curve.
- Page 124
Operating Control and Displays Fig. 5-84 Menu file — active connection to device Fig. 5-83 Menu file — no connection to device Open dataset 1. Click on menu to ’open dataset’. The window for selecting data set opens. Fig. 5-85 Open dataset window (Language of window depends on language of operating system) 2. - Page 125
Operating Control and Displays Save dataset 1. Click on menu to ’save dataset’. The window for saving dataset opens. Fig. 5-86 Save dataset window (Language of window depends on language of operating system) 2. Browse to directory you want to save your dataset to (destination folder). 3. - Page 126
Operating Control and Displays Fig. 5-87 Dataset information 4. Enter information of dataset to be saved in text boxes. Button ’Print’ print of information. • Button ’Clear fields’ deletion of all entries in text boxes • Button ’Reload’ loading information of actual dataset •… - Page 127
Operating Control and Displays Upload dataset to device 1. Click on menu to «Upload dataset into device». Window for opening dataset opens. Fig. 5-88 Upload dataset to device (Language of the window depends on language of operating system) 2. Browse to dataset you want to load and click on button «open». The window «dataset information»… -
Page 128: Access Rights
Operating Control and Displays NOTICE It is obligatory to document all parameter changes on the device. Note at least the date and the name of dataset. The dataset will be transferred. 7. Confirm message «Please CRC(s) receipt» with «OK». NOTICE Without confirmation or cancellation the device will remain in blocked mode.
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Page 129: Burnertronic
Operating Control and Displays Fig. 5-90 Menu access rights Enter password 1. The description, how to enter the password see chapter Enter Password Change password for customer-level 1 1. Click in menu on ’change password level 1’. The window for entering a new password opens. Fig.
- Page 130
Operating Control and Displays Fig. 5-92 Menu ’BurnerTronic’ Parameter 1. Find the description how to read or change parameters in chapter Edit Parameter. Reading level CRCs 1. Click in menu on ’Parameters’ >> ’CRCs level’. The window with CRC16 checksums of all level opens. The calculated parameters and the parameters of the remote device are compared. - Page 131
Operating Control and Displays Get the current status of digital outputs of remote device. Fig. 5-94 Status of digital outputs Proceed cold check (check digital outputs) 1. Click in menu on ’Cold check’. The dialogue to proceed the check of outputs starts. Fig. -
Page 132: Options
Operating Control and Displays NOTICE Not confirming this message during default time with OK, aborts the process. The process can be repeated immediately. Cold check mode is activated now. To illustrate this status, the choice box of outputs re- ceives a red frame. 5.
- Page 133
Operating Control and Displays Fig. 5-97 Flash DLL client For more information see chapter 6.2 Firmware Update BT300 and chapter 6.3 Firmware Up- date UI300. - Page 134
Operating Control and Displays USB-CAN (Systec) 1. Click in menu on ’USB-CAN (Systec)’. The USB-CAN window opens. Fig. 5-98 USB-CAN (Systec) 2. Click button to establish a connection to LSB module. 3. Click button to interrupt connection to LSB module. 4. - Page 135
Operating Control and Displays Select language 1. Click in menu on ’Language’. Language selection window opens. Fig. 5-99 Changing language 2. Select language of LSB remote software and confirm with ’OK’. Activation Code 1. Click in the menu on ’Activation Code’. Activation Code window opens. -
Page 136: Help
Operating Control and Displays 5.3.7.5 Help In menu path ’Help’ it is possible to • call up help to LSB Remote Software • get information about version of LSB Remote Software Fig. 5-101 Menu help Getting help 1. Click in the menu on ’LSB Remote Software/User Manual F1’. The BT300 manual opens.
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Page 137: Maintenance
Maintenance Maintenance BT300 Data Back-Up At any time, you are able to create a protected data set (DS) for storage (back up) of current status of device. Therefore you must set LSB remote software to online mode. Fig. 6-1 Select the protected dataset menu In contrast to a ‘normal’ data set the protected data set includes storage of check sums of pa- rameter values (etc.).
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Page 138: Firmware Update Bt300
Firmware Updates can only be processed with LSB Remote Software version OEM-Level and higher. NOTICE To switch OFF the burner before starting the firmware update via LAMTEC SYSTEM BUS is mandatory! NOTICE Only one device of the same type as the one you want to update may be connected to LAMTEC SYSTEM BUS (p.
- Page 139
Maintenance 7. Click button ’Open HEX Image (HP)’ and search for the file containing the software of the main processor of the BT300 in the window ’Open HEX image’. 8. Repeat the procedure in no. 3 but click Button ’Open HEX Image (UP)’ and select the file containing the software of the watchdog processor of the BT300 in the window ’Open HEX image’. - Page 140
Maintenance 12. The progress bar shows the progress of the update. 13. Software versions 1.12.0.0 and higher display a success message. 14. Software versions prior to V1.12.0.0 show the end of the update by a message from the boot loader of the respective device. 15. -
Page 141: Firmware Update Ui300
Maintenance Firmware Update UI300 Preparation of the UI300 firmware update 1. Connect LAMTEC SYSTEM BUS to your computer and start LSB Remote Software. 2. Do not set BT300 online. Switch on BT300. UI300 firmware update 1. Process the firmware update analogue to the BT300 firmware update. Start with step 3.
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Page 142: Options
Options Options Firing-Rate Controller Module LCM100 The LCM100 adds the function of a firing rate controller to the BurnerTronic. Additional com- ponents of the module are: – An integrated power supply for external 24 V consumers (sensors, additional BurnerTronic expansion modules) –…
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Page 143: Range Limits
Options 7.1.1 Range Limits You must set limit values in the parameters, switching the burner on and off. After a burner shut-down while actual temperature has not reached the switch-on threshold yet, a display will inform you that firing rate controller is refusing a start-up. Fig.
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Page 144: Enter Setpoint Of Firing Rate Controller
Options 7.1.2 Enter Setpoint of Firing Rate Controller Use the arrow keys to select switching point (ON or OFF) and to set switch- ing point afterwards. If you confirm settings with ENTER in a preset time slot, the value is stored in the parameter.
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Page 145: Operating Description
Options 7.1.3 Operating Description The burner start-up is carried out as described above. At least ’Burner ON’ signal and ’Re- lease’ must be sent by firing rate controller. The burner starts as soon as it is receiving signals ’Burner ON’ and ’Release’ from firing rate controller.
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Page 146: Setpoint Changeover
Options External Setpoint Presetting For the external setpoint values to be activated, parameter 40 must be set to the value 2 (con- trol by atmospheric condition). The terminals 25, 26 and 27 must be short-circuited. At terminal 16 (-) and 17 (+) of the LCM100, a 0/4 … 20 mA would be connected. Lower limit P 52 Upper limit…
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Page 147: Start-Up Sequence
Options 7.1.6 Start-up Sequence The firing rate controller has a start-up cycle in order to slow down burners’ firing rate while starting. The start-up cycle is passed during each new burner start. The internal firing rate is held at user-adjusted value (P 0044) as long as the boiler is cold. The actual value is below parameter set limit (P 0043.
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Page 148: Control Range
Options 7.1.8 Control Range The control range is located around setpoint. The content of ’burner ON’ parameter is sub- tracted from setpoint to form switch-on value. ’Upper control range’ parameter value (P 0055) is added to setpoint to form the upper limit of control range. The control range may therefore be located asymmetrically around setpoint.The shut-off range is limited by ’Burner off’…
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Page 149: Aides For Setting
Options value. I > → faster approximation to setpoint → danger of overshooting! • D term The difference term is calculated from variation of actual values. This may result in accel- erating, respectively retarding effects. In practice adjustments of PID-controller is orientated by given controlled system. Out of char- acteristics of the controlled system data can be deduced, i.e.
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Page 150: External/Manual Firing-Rate Presetting (Terminals 16 — 19)
Options Characteristic Control Process Control Mode Start-up Procedure I term higher decrease of atten- stronger reaction with faster start-up with ten- uation tendency to oscillate dency to oscillate I term smaller increase of attenu- less reaction, less ten- slower start-up ation dency to oscillate Fig.
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Page 151: Dip Switch
Options Connection external/manual regular firing rate input (Terminal 16 — 19) Fig. 7-9 Connection possibilities of external firing rate input NOTICE If 0 … 10 V input is used for the presetting of the firing rate the sensor must be able to load the input of the LCM100 with 100 A to 0.
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Page 152: Leds
Options You can set LSB Family by DIP switches 2 — 3. DIP switch 2 DIP switch 3 LSB Family You can set sensor inputs by DIP switches 4 — 6. DIP switch 4 DIP switch 5 DIP switch 6 Input –…
- Page 153
Options TPS (Three-Point-Step) Potentiometer 0 … 10 V 4 … 20 mA R = 2.2 k — 22 k LED1 = Error LED2 = CAN data traffic LED3 = Power ON… -
Page 154: Galvanic Isolation
Options Cable assembly Type Shield Cable length max [m] Mains AC in 24 V external DC out BT-CAN Fuel measurement oil Fuel measurement gas Setpoint changeover Fault reset Flue gas temperature Ambient temperature Boiler water temperature Steam pressure Combination input 20 mA Combination input term.
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Page 155: Terminal Assignment
Options DANGER! Attention! Short-circuit danger and electrical shock! An improper wiring connection could lead to a short-circuit, which may cause damages to the connected devices or to an electrical shock. Please ensure all connections on SELV have a safe separation from main voltage in wiring and with connected devices! 7.1.15.2 Terminal Assignment LCM100 has a 24 V power supply for pressure transmitter and for power supplies of other LSB…
- Page 156
CAN Interface (Terminal 10 — 13) Recommendation: Connect BT300 plug X31 to LCM100 by a prefabricated cable with LAMTEC Order No. 667P0515. The plug X31 is already installed on this cable and terminal numbers for LCM100 are marked on the wires. - Page 157
Options CAUTION! Short circuit and electric shock! If the analogue standard signals are not separated from the mains, a buffer amplifier must be used for galvanic separation. Pressure sensor connections Fig. 7-20 Connection pressure sensor 2-wire-system * Fig. 7-21 Connection pressure sensor 3-wire-system * Fig. -
Page 158: Technical Data Lcm100
Options 7.1.16 Technical data LCM100 Fig. 7-24 Dimensions LCM100 General data Power supply: 90 — 250 V 47 — 63 Hz Power consumption: 18,2 VA Housing: Polyamide 6.6 (panel: polycarbonate) Dimensions: 65x70x80 mm Weight: 270 g Flammability: UL-94 V0 (panel: UL-94 V2) Mounting position: as desired Installation:…
- Page 159
Cable length max.: Digital inputs (setpoint switching and reserve input) Input frequency max.: 300 Hz Cable length max.: 10 m LAMTEC SYSTEM BUS Bit rate: 125 kbit/s Address: static LSB address, device family 1-4, selection with dip-switch Termination: integrated, activation with dip-switch… -
Page 160: Dual Fuel Module Dfm300
(e.g. oil pressure monitor during gas oper- ation) to be open. The DFM300 is connected to BT300 via LSB (LAMTEC SYSTEM BUS). DFM300 is providing a 230 VAC input for selection of current fuel.
- Page 161
Options Device Description Attributes 0525 BT300 Setting of number of stages for staged operation in oil mode (0 = modulated operation/ 1 = 2 stages/2 = 3 stages) 0 = 1 stage = modulated operation Group: 60 1 = 2 stages Min.: 0 2 = 3 stages Max.: 2… -
Page 162: Dip Switch 1
Options DIP switch 1 LSB terminating resistor deactivated LSB terminating resistor activated You can set LSB family by DIP switch 2-3. DIP switch 2 DIP switch 3 LSB Family DIP switches 4 — 6 are not assigned. 7.2.2 LEDs The DFM300 has 4 LEDs connected as mentioned below: Colour Description Fault (LED1)
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Page 163: Electrical Connection
Options 7.2.3 Electrical Connection LED1 = Error LED2 = CAN LED3 = Oil active LED4 = Gas active Signal Line Type Shield Cable length max. [m] Fuel valve 1 10 m — Gas valve 1/oil valve 1 Fuel valve 2 10 m — Gas valve 2/oil valve 2 Fuel valve 3 10 m — Gas valve 2/oil valve 2/ignition…
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Page 164: Galvanic Isolation
Options Signal Line Type Shield Cable length max. [m] SIC gas 10 m — input SIC fuel Ignition transformer gas 10 m — input ignition transformer Oil valve 1 10 m — input fuel valve 1 Oil valve 2 10 m — input fuel valve 2 Oil valve 3/ignition valve 10 m — input fuel valve 3 SIC oil…
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Page 165: Terminal Assignment
Options DANGER! Attention! Short-circuit danger and electrical shock! An improper wiring could lead to a short-circuit which may cause damages to connected de- vices or an electrical shock. Please ensure all connections on SELV have a safe separation from main voltage in wir- ing and with connected devices! 7.2.3.2 Terminal Assignment Oil acknowledgement/Gas acknowledgement (Terminals 36;…
- Page 166
Options Fig. 7-29 Circuit diagram for modulating 2/3 stage oil and gas NOTICE You must integrate the oil pressure monitor into safety interlock chain oil. For the purposes of leakage test you must connect the gas pressure monitor to pressure monitor input of BT300. -
Page 167: Technical Data Dfm300
Installation: TS35 mounting rail as per EN 50022 or TS32 as per EN 50035 Connection cross section: 2.5 mm LAMTEC SYSTEM BUS Bit rate: 125 kbit/s Addressing: fixed LSB address, device family 1-4 selected by DIP switch Termination:…
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Page 168: Adapter System Rast5
Options Environmental Conditions Electronic safety: Degree of protection (DIN EN 60529) IP40 housing IP20 terminals 7.2.5 Adapter System Rast5 The burner is connected to DFM in general via BTR/Riaconn-screw terminal block. In order to connect DFM exactly the same way as BT300 which means directly at a mono-fuel burner the Rast5 module is transposing connectors provided by DFM.
- Page 169
Options Fig. 7-31 Connection Rast5 module… - Page 170
Options Connection to burner Rast5 adapter offers following options to connect the burner: Connection Terminal type Plug Terminal Terminal assignment block GV1 Valve gas 1 X01-Gas GV2 Valve gas 2 X02-Gas X700 GV3 Valve gas 3 X03-Gas ZT Gas Ignition transformer X04-Gas ÖV1… -
Page 171: Technical Data Rast5-Module
Options Connection to DFM and BT300 Rast5 adapter offers following options to connect DFM and BT300: Connection Terminal type Plug Terminal Terminal assignment block to BT300 X028 X28-BT X706 Fuel selection to DFM X41-DFM Security chain gas X42-DFM Ignition transformer gas Security chain oil Ignition transformer oil firing rate input -…
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Page 172: Variable Speed Drive Module Vsm100
Use VSM and DFM only with BT300 software version 3.0.0.0 or higher. Software versionens before 3.0.0.0 do not support all necessary safety functions. Connect the RPM module VSM100 via LSB (LAMTEC SYSTEM BUS) to BT300. To insulate LSB from potential power supply voltage of BT300 a LCM100 or a LEM with power supply 24 VDC SELV is needed.
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Page 173: Dip Switch
Options Device Description Attributes 0403 BT300 Specification of channel 4 functions see P 400 Group: 50 Min.: 0 Max.: 6 Default: 0 Write: 2 Version: 1.0.0.0 0405 BT300 Channel release for curve set 1 Switch-off bit for each curve set. If bit ’x’ is set, channel in curve set ’x’ is in use. Group: 50 Define with this parameter active channel in a curve set.
- Page 174
Options DIP-Switch 1 LSB terminating resistor deactivated LSB terminating resistor activated You can set LSB family by DIP switch 2-3. DIP switch 2 DIP switch 3 LSB family Select sensor input with DIP switch 4 — 7 for acknowledgement and range of values settings. DIP switch 4 DIP switch 5 DIP switch 6… -
Page 175: Leds
Options 7.3.2 LEDs The VSM100 has 5 LEDs which should be connected as described below: Colour Relevance ERR (LED1) During normal operation LED is switched off. It will light up subject to following conditions: — Initialisation incomplete or not yet successfully com- pleted (e.g.
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Page 176: Electrical Connection
Options 7.3.3 Electrical Connection LED1 = Error LED2 = ON LED3 = CAN data traffic LED4 = Namur LED5 = 3-wire CAUTION! Short circuit and electric shock! If the analogue standard signals are not separated from the mains, a buffer amplifier must be used for galvanic separation.
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Page 177: Galvanic Isolation
Options Circuit Type Shielding Cable length max. [m] Speed feedback 0/4 … 20 mA Speed setpoint 0/4 … 20 mA Speed setpoint 0 … 10 V Input Output NOTICE If cable shielding is provided you must connect this shielding to an extra protected earth ter- minal.
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Page 178: Terminal Assignment
Options 7.3.3.2 Terminal Assignment Fig. 7-34 Namur Sensor, 2-wire system BN = brown BU = blue BK = black Fig. 7-35 Inductive proximity switch with switch contact, 3-wire-system The damping element for the inductive proximity switch and the Namur sensor has to consist of magnetic material.
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Page 179: Technical Data Vsm100
Options 7.3.4 Technical Data VSM100 Fig. 7-37 Dimensions VSM100 General data Power supply: 24 VDC +10/-15 % SELV Current consumption: 60 mA Housing: Polyamide 6.6 (panel: polycarbonate) Dimensions: 65x70x35 mm Weight: ca. 80 g Flammability: UL-94 V0 (panel: UL-94 V2) Mounting position: as desired Installation:…
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Page 180: Expansion Module For Lsb — Lem100
Options Digital speed feedback input Input pulse width: min. 200 μs Environmental Conditions Operation: Climatic conditions Class 3K5 according to DIN EN 60721-3 Mechanic conditions Class 3M5 according to DIN EN 60721-3 Temperature range -20 … +60 °C (condensation is prohibited) Transport: Climatic conditions Class 2K3 according to DIN EN 60721-3…
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Page 181: Electrical Connection
DC-Supply (low voltage) CAN/LSB CAN interface from BT300 NOTICE You will find wiring, cable length and definition of the interface in the respective documentation of the field bus systems: LAMTEC SYSTEM BUS LSB – print no. DLT6095 PROFIBUS – print no. DLT6100…
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Page 182: Galvanic Isolation
Options 7.4.3.1 Galvanic Isolation Fig. 7-38 Electrical isolation LEM100 FELV Functional Extra Low Voltage Cannot be used as safety measure against electrical shock. SELV Safety Extra Low Voltage offers protection against electrical shock. DANGER! Attention! Short-circuit danger! An improper wiring connection could lead to a short-circuit, which may cause damages to the connected devices or to an electrical shock.
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Page 183: Field Bus Modules
7.5.1 Field Bus Module for PROFIBUS PBM100 The burner control system communicates via LAMTEC SYSTEM BUS (LSB) with its modules consistently. PROFIBUS module PBM100 integrates LAMTEC burner control system into field bus environment (PROFIBUS). PBM100 listens for different, measured process values on…
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Page 184: Dip Switch
Options 7.5.1.1 DIP Switch Use DIP switches to configure settings of PBM100. Functions of DIP switches DIP switches 1 — 7 Binary coded PROFIBUS address Switch no. 1 = bit 6 Switch no. 7 = bit 0 Example: LSB family is set by DIP switch 8-9. DIP switch 8 DIP switch 9 LSB family…
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Page 185: Electrical Connection
NOTICE You will find wiring, cable length and definition of the interface in the respective documentation of the field bus systems: LAMTEC SYSTEM BUS LSB – print no. DLT6095 PROFIBUS – print no. DLT6100 7.5.1.4 PROFIBUS Communication While PBM is connected to PROFIBUS MASTER in active way, following messages were sent…
- Page 186
Options Byte position Description Note 14 — 15 Operating mode O controller v 3.0 and higher: Byte 15 active curve set Byte 14 condition corresponding to 7.5.3 Appendix 16 — 17 Error information O controller v. 3.0 and higher: Bit pattern corresponding to 7.5.3 Appendix 18 — 19 Actual value O Actual value O… -
Page 187: Technical Data Pbm100
Options 7.5.1.5 Technical Data PBM100 Fig. 7-40 Dimensions PBM100 PBM100 Power supply: 24 VDC +10/-15% via bus terminals Current consumption: 100 mA Housing: PA6.6 UL94-V0 Cover: Polycarbonate, transparent Installation: Support rail TH35 according to EN 60715 Dimensions (H x W x D) [mm]: 72 x 51 x 70 Weight [g]: Flammability:…
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Page 188: Field Bus Module For Modbus Tcp Ebm100
7.5.2 Field Bus Module for MODBUS TCP EBM100 The burner control system communicates via LAMTEC SYSTEM BUS (LSB) with its modules consistently. The MODBUS module EBM100 integrates LAMTEC burner control system into fieldbus environment (MODBUS TCP). EBM100 listens for different, measured process val- ues on LSB, processes these signals and transfers them to fieldbus.
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Page 189: Leds
Options 7.5.2.3 LEDs EBM100 has 4 LED and 2 additional LED at the RJ45 socket, which should be connected as described below: Colour Description green ON: Module working in normal mode = fully initialised and without any fault. green OFF: No communication or CAN BUS error Flashing with 2 Hz: Sporadic errors (optional, if a CAN warning is detectable).
- Page 190
Options Condition Flashing Flashing Flashing either – Device started – Connection error CAN and Ethernet – Device started – Connection error CAN – Ethernet OK – Fieldbus master not connected – Error in initialising Ethernet – Error in initialising CAN either –… -
Page 191: Electrical Connection
NOTICE You will find information to wiring, cable length, and interface definition in the documentation of the particular fieldbus systems: LAMTEC SYSTEM BUS LSB – document no. DLT6095 Ethernet Connection – document no. DLT6096 7.5.2.5 Ethernet Communication Sending Data on the Modbus/TCP (Master-Input-Data) In the table below input data are specified, which EBM transfers to the master (Modbus/TCP –Client):…
- Page 192
Options Register Description Configuration Active curve set Bit pattern corresponding to 7.5.3 Appendix table ’Bit Pattern curve set’ Condition of digital outputs Bit pattern corresponding to 7.5.3 Appendix Value 0 to 250 0,0 % to 25,0 % Setpoint value O Operating mode O controller v 3.0 and higher:… -
Page 193: Technical Data Ebm100
Options Holding Description – Configuration register Status of firing rate controller setpoint Validity bit 15 =1 (b1XXXXXXX XXXXXXXX): sets analysis of setpoint shift by LCM Smooth setpoint shift of firing rate controller (int16), value range is defined by config- ured upper and lower limits Status smooth setpoint shift of firing rate controller Validity bit 15 =1 (b1XXXXXXX XXXXXXXX): sets analysis of setpoint shift by LCM…
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Page 194: Appendix
Options Environmental Conditions Operation: Climatic conditions Class 3K5 according to DIN EN 60721-3 Mechanic conditions Class 3M5 according to DIN EN 60721-3 Temperature range -20 … +50 °C (condensation is prohibited) Transport: Climatic conditions Class 2K3 according to DIN EN 60721-3 Mechanic conditions Class 2M2 according to DIN EN 60721-3 Temperature range…
- Page 195
Options Digital input Active (bit pattern) Boiler safety interlock circuit 0x0080 Safety interlock circuit oil 0x0040 Firing rate + 0x0020 External high firing-rate acknowledgement 0x0010 (always 1) Air pressure monitor 0x0008 Gas pressure > Min 0x0004 Ignition acknowledgement 0x0002 Curve set selection = curve set 1 0x0001 Bit Pattern Curve Set Curve set… - Page 196
Options Description Value controller inactive at SETTING/DELETE MEMORY controller inactive due to O value too small during pre-purge controller inactive due to O value too high during pre-purge controller inactive due to O -value too high after ignition controller pre-purge and ignition Bit Pattern Cause of Failure O Trim Failure cause… - Page 197
Options Bit Pattern Cause of Failure CO Controller Failure cause Active (Bit pattern) No valid threshold information on LSB available 0x0001 Probe voltage out of monitoring range 0x0002 Probe offset voltage out of monitoring range, or no dynamics 0x0004 Cell resistance out of monitoring range 0x0008 Cell temperature out of monitoring range 0x0010… - Page 198
Options Value Description Switched OFF Permanent purge ON Pre-purge gas Leakage test for pre-purge 2 Leakage test for pre-purge 1 Ignition position gas Ignition transformer gas Ignition pilot burner gas Ignition gas safety time 1 has expired Ignition gas safety time 2 is running Control of ignition firing-rate gas Switch OFF gas valve 1 Switch OFF gas valve 2… -
Page 199: Disposal Notes
Disposal Notes Disposal Notes The device contains electrical and electronic components and must not be disposed of as do- mestic waste. The local and currently valid legislation absolutely must be observed.
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Page 200: Declaration Of Conformity
Declaration of Conformity Declaration of Conformity…
- Page 201
Declaration of Conformity… - Page 202
Declaration of Conformity… -
Page 203: Appendix
Appendix Appendix 10.1 Display Symbols Hint 4: No effects of the CO/O controller. Hint 6: The number of 250 000 burner starts has exceeded. Hint 7: Maintenance mode is active. Hint 8: Fuel selection is missing. Hint 9: Safety interlock chain boiler is not closed (symbol is flashing). Hint 10: Air pressure is still pending.
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Page 204: Indication Symbols
Appendix Hint 1096: Maintenance of the burner is necessary. Hint 2001: The time running between the signal ’Valve is open’ and the signal ’Flame’ is relatively long. Hint 2002: Dynamic test of the fuel/air ratio control is running. Hint 2003: No burner release but the signal ’Burner ON’…
- Page 205
Appendix Under the INFO path, you can obtain information regarding: • Burner • Fault • Software version • Display of the check sums • Serial number • Servomotor position (current flap position per channel) • Digital input/output Use MANUAL for: •… - Page 206
Appendix Check sums Display of operating hours [selected] Number of burner starts Burner at fault [selected] Digital input [selected] Digital output Password [selected] Access level (e.g. 1) Delete curve Display programme settings… - Page 207
Appendix Burner firing-rate controller settings Read continuous output configuration Password settings Curve settings Display settings Length of pre-purge time Length of post-purge time Pilot burner oil operation Valve leakage test Pilot burner gas operation… - Page 208
Appendix Valve leakage test On/Off Valve leakage test before ignition Valve leakage test after ignition Length of valve leakage test time… - Page 209
Appendix… - Page 210
The information in this publication is subject to technical changes. LAMTEC Meß- und Regeltechnik für Feuerungen GmbH & Co. KG Wiesenstraße 6 D-69190 Walldorf Telefon: +49 (0) 6227 6052-0 info@lamtec.de Telefax: +49 (0) 6227 6052-57 www.lamtec.de Printed in Germany | Copyright 2017…