Unigas H365X Manual Of Installation - Use - Maintenance

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H365X

H440X

H500X

Gas burners

Microprocessor controlled

LMV5x

Also with flue gas recirculation FGR

MANUAL OF INSTALLATION - USE - MAINTENANCE

BURNERS - BRUCIATORI - BRULERS - BRENNER - QUEMADORES - ГОРЕЛКИ

M039552CB 0.0 04/2022

Table of Contents

Summary of Contents for Unigas H365X

Page 1 H365X H440X H500X Gas burners Microprocessor controlled LMV5x Also with flue gas recirculation FGR MANUAL OF INSTALLATION - USE - MAINTENANCE BURNERS - BRUCIATORI - BRULERS - BRENNER - QUEMADORES - ГОРЕЛКИ M039552CB 0.0 04/2022...
Page 2: General Introduction
DANGERS, WARNINGS AND NOTES OF CAUTION THIS MANUAL IS SUPPLIED AS AN INTEGRAL AND ESSENTIAL PART OF THE PRODUCT AND MUST BE DELIVERED TO THE USER. INFORMATION INCLUDED IN THIS SECTION ARE DEDICATED BOTH TO THE USER AND TO PERSONNEL FOLLOWING PRODUCT INSTALLATION AND MAINTENANCE.
Page 3: Directives And Standards
3b) FIRING WITH GAS, LIGHT OIL OR OTHER FUELS DIRECTIVES AND STANDARDS Gas burners GENERAL European directives  The burner shall be installed by qualified personnel and in compliance -Regulation 2016/426/UE (appliances burning gaseous fuels) with regulations and provisions in force; wrong installation can cause -2014/35/UE (Low Tension Directive) injuries to people and animals, or damage to property, for which the -2014/30/UE (Electromagnetic compatibility Directive)
Page 4: Symbols Used
Burner data plate Type Gas - Light oil burners For the following information, please refer to Model Year European Directives the data plate: S.Number -Regulation 2016/426/UE (appliances burning gaseous fuels) burner type and burner model: must be Output  Oil Flow -2014/35/UE (Low Tension Directive) reported in any communication with the Fuel...
Page 5 PART I: SPECIFICATIONS PART I: SPECIFICATIONS BURNERS FEATURES Note: the figure is indicative only Control panel with startup switch Gas valve group Electrical panel Cover Blast tube + Combustion head Flange Silcencer Actuator Air pressure switch 10 Head adjusting ring nut 11 FGR, flue gas recirculation EK: with O trim control, with VSD control...
Page 6 Burners are identified by burner type and model. Burner model identification is described as follows. Type H500X Model ES / EF .FGR (10) BURNER TYPE H365X, H440X, H500X B- Biogas C - Off-gas FUEL L - LPG M - Natural gas OPERATION (Available versions) MD - Fully modulating...
Page 7: Technical Specifications
PART I: SPECIFICATIONS Technical Specifications BURNER TYPE H365X M- H440X M- H500X M- H365X L- H440X L- H500X L- 700 - 4400 580 - 5250 700 - 4400 580 - 5250 Output min. - max. kW 650 - 3650 650 - 3650...
Page 8 Overall dimensions (mm) boiler recommended drilling template burner flange BS = standard blast tube BL = long blast tube DN = gas valves size B*: SPECIAL blast tube lengths must be agreed with Cib Unigas TIPO (AS) (AL) (BS) (BL)
Page 9 639 145 430 530 488 1033 511 1659 1082 410 360 410 494 480 586 M14 552 390 390 390 791 150 642 942 353 856 270 496 618 260 300 577 B*: SPECIAL blast tube lengths must be agreed with Cib Unigas...
Page 10: Performance Curves
This value must be lower or equal to the pgas value, calcula- ted before. Power kW Potenza / Output (kW) Performance Curves H365X M- H440X M- H500X M-...
Page 11 PART I: SPECIFICATIONS H365X L- H440X L- H500X L- To get the input in kcal/h, multiply value in kW by 860. Data are referred to standard conditions: atmospheric pressure at 1013mbar, ambient temperature at 15° C NOTE: The performance curve is a diagram that represents the burner performance in the type approval phase or in the laboratory tests, but does not represent the regulation range of the machine.
Page 12 PART I: SPECIFICATIONS H440X M- H500X M- H365X L- H440X L- H500X L- WARNING: the diagrams refers to natural gas. For different type of fuel please refer to the paragraph “Fuel” at the beginning of this chapter. The values in the diagrams refer to natural gas with a calorific value of 8125 kcal/Stm (15°C, 1013 mbar) and a density of...
Page 13 (quoted on the y axis). The data obtained must be considered when adjusting the gas flow rate. Pressure - rate in combustion head curves (natural gas) Curves are referred to pressure = 0 mbar in the combustion chamber! H365X M- H440X M- H500X M-...
Page 14 PART I: SPECIFICATIONS H365X L- H440X L- H500X L- POWER REDUCTION WITH REFERENCE TO THE BURNER OPERATING CURVE Since depowering the burner operating range is equivalent to increasing the burner power by the same percentage, the quickest proce- dure is described point by point below: Choosing the burner without taking flue gas recirculation into account ...
Page 15 PART I: SPECIFICATIONS H440X Thermic Load (MW/m H500X Thermic Load (MW/m...
Page 16: Transport And Storage
PART II: INSTALLATION PART II: INSTALLATION MOUNTING AND CONNECTING THE BURNER Transport and storage ATTENTION! The equipment must be installed in compliance with the regulations in force, following the manufac- turer’s instructions, by qualified personnel. All handling operations must be carried out with appropriate resources and qualified personnel ATTENTION: Use intact and correctly dimensioned hoisting equipment, conforms to the local regulations and health and safety regulations.
Page 17 PART II: INSTALLATION Fitting the burner to the boiler To install the burner into the boiler, proceed as follows: make a hole on the closing door of the combustion chamber as described on paragraph “Overall dimensions”) place the burner to the boiler: lift it up and handle it according to the procedure described on paragraph “Handling the burner”; place the 4 stud bolts (5) on boiler’s door, according to the burner drilling template described on paragraph “Overall dimensions”;...
Page 18 PART II: INSTALLATION Sizing of the FGR pipe (FGR burners only) ATTENTION! Performance curve is obtained in a plant designed according to the following guidelines, size the FGR pipe as per the example below. 1111 Keys 4 Bellow unit (a counter-flange supplied 7 Stack 1 Stainless steel FGR pipe, insulated loose is to be welded to the FGR duct)
Page 19 PART II: INSTALLATION GAS TRAIN CONNECTIONS The diagrams show the components of the gas train included in the delivery and which must be fitted by the installer.The diagrams are in compliance with the current laws. Note: the figure is indicative only ”direction”...
Page 20 PART II: INSTALLATION Gas train with valves group VGD and MBE with built-in gas pressure governor + gas leakage pressure switch (PGCP) by others supplied by burner constructor gas inlet gas inlet Legend 1 Filter 6 Butterfly valve 2 Pressure switch - PGMIN 7 Pressure transducer 3 Safety valve with built in gas governor 8 Main burner...
Page 21 PART II: INSTALLATION Threaded train with MultiBloc MBE - Mounting 1. Insert studs A. 2. Insert seals B. 3. Insert studs C. 4. Tighten studs in accordance with section 8. Ensure correct position of the seal! 5. Perform leak and functional tests after mounting. 6.
Page 22 PART II: INSTALLATION Siemens VGD20.. and VGD40.. gas valves - with SKP2.. (pressure governor) - Connect the reference gas pipe (TP in figure; 8mm-external size pipe supplied loose), to the gas pressure nipples placed on the gas pipe, downstream the gas valves: gas pressure must be measured at a distance that must be at least 5 times the pipe size. - Leave the blowhole free (SA in figure).
Page 23 PART II: INSTALLATION Gas valveGas Filter (if provided) The gas filters remove the dust particles that are present in the gas, and prevent the elements at risk (e.g.: burner valves, counters and regulators) from becoming rapidly blocked. The filter is normally installed upstream from all the control and on-off devices. ATTENTION: it is reccomended to install the filter with gas flow parallel to the floor in order to prevent dust fall on the safety valve during maintenance operation.
Page 24 PART II: INSTALLATION BURNERS WITH INVERTER VARIANT (if provided) Type Model XXXXX M-. MD. xx. xx. x. x. xxx. EI. XXXXX M-. MD. xx. xx. x. x. xxx. EG. LMV5 DANFOSS XXXXX MG. MD. xx. xx. x. x. xxx. EK. XXXXX MG.
Page 25 PART II: INSTALLATION BURNERS WITH INVERTER VARIANT (if provided) KOSTAL Tipo Modello XXXXX M-. MD. xx. xx. x. x. xxx. EI. XXXXX M-. MD. xx. xx. x. x. xxx. EG. LMV5 XXXXX MG. MD. xx. xx. x. x. xxx. EK. XXXXX MG.
Page 26: Overall Dimensions (Mm)
PART II: INSTALLATION Speed Sensor AGG 5.310 is a speed sensor kit used to monitor the speed of a motor. This kit is used to mount the speed sensor directly on the motor casing. Overall dimensions (mm) - BURNERS WITH INVERTER VARIANT (if provided) ELECTRICAL CONNECTIONS WARNING: (only for double stage and progressive burners) The burner is provided with an electrical bridge between terminals 6 and 7;...
Page 27 PART II: INSTALLATION The system must comply with the current regulations.  Earth the system; always check in advance the connection, functionality and compliance with the health and safety principles of the earth  cable. If in doubt, ask for an accurate inspection by qualified technical engineers. Check the connection to the grounding system.
Page 28 PART III: OPERATION PART III: OPERATION LIMITATIONS OF USE THE BURNER IS AN APPLIANCE DESIGNED AND CONSTRUCTED TO OPERATE ONLY AFTER BEING CORRECTLY CONNEC- TED TO A HEAT GENERATOR (E.G. BOILER, HOT AIR GENERATOR, FURNACE, ETC.), ANY OTHER USE IS TO BE CONSIDE- RED IMPROPER AND THEREFORE DANGEROUS.
Page 29: Gas Operation
PART III: OPERATION Fig. 4 - Burner front panel Keys Lock-out LED B2 B3 B4 Hi-flame operation LED Lo-flame operation LED “Ignition transformer operation” LED “Fan motor overload tripped” LED “EV2 opening” LED “EV1 opening” LED “Gas pressure switch signal ” LED Main switch AZL..
Page 30: Start-Up Procedure
PART III: OPERATION 12 Ensure the pressure entering the main valves is not excessive due to damage to or wrong adjustment of the line pressure regulator 13 Ensure the gas supply minimum pressure is at least equal to the pressure required by the pressure curves - burnt gas flow DANGER! Venting the air from the piping must take place in safe conditions, avoiding dangerous concentrations of fuel in the rooms.
Page 31: Fault History
PART III: OPERATION Fuel Second page Fuel: it shows (in degrees) the fuel actuator position. Air: it shows (in degrees) the air actuator position. Ax1..3: auxiliaries. VSD: % value on the inverter maximum frequency O2: oxygen percentage Ld: load percentage (burner output). Press the ENTER key to go back to the main page.
Page 32 PART III: OPERATION Lockout History To visualise the Lockout History, choose the related item and press ENTER. The message will be: 10.08.07 13.47 C:71 D:00 Start No. Load alternating by an error message as: No flame at end of safety time To see the other Lockout History pages, press the arrow keys.
Page 33 PART III: OPERATION Choose “ControllerParam” and press ENTER: the following menu is shown: ContrlParamList MinActuatorStep SW_FilterTmeCon SetPointW1 Choose “SetPointW1” and press ENTER: SetpointW1 Curr: 90° New: 90° Curr: it shows the current set-point; use the arrows keys to change. NOTE: the availabel range for this parameter depends on the probe provided; the unit measure of the detected value and its limits are bound up with parameters set at the “Service”...
Page 34 PART III: OPERATION The deafult value for this parameter is10% that is, the burner will turn off at a temperature 1% higher than the set-point. Change value, if needed, by means of the arrow keys; press ENTER to confirm and the press ESC to exit. Press only ESC to exit without changing.
Page 35: System Lockout
PART III: OPERATION UnitTemperature UnitPressure Settable temperature units: °C or °F Settable pressure units: bar or psi. choose the desired unit and cofirm by pressing ENTER; press ESC to exit.  choose the temperature and pressure unit and cofirm by pressing ENTER; press ESC to exit. ...
Page 36 PART III: OPERATION SetLoad Autom/Manual/Off Autom/Manual/Off Curr:: Automatic New: Burner On three modes are provided: Automatic: automatic operation Burner on: manual operation Burner off: burner in stand-by If the BurnerOn mode is choosen,the burner does not follow the modulator and probe settings, but operates at the set load. Caution: if BurnerOff mode is selected, the burner stays in stand-by.
Page 37: Pressure Taps
PART III: OPERATION MultiBloc MBE Regulation VD-R whith PS Setting scale is „Not“ linear! Various sensors available. Output pressure according to sensor‘s measuring range. Increasing pressure Adjust the outlet pressure to the value specified by the burner or equipment manufacturer! While making outlet pressure adjustments, do not exceed a value that creates a hazardous condition to the burner! Decreasing pressure...
Page 38 PART III: OPERATION Calibration air and gas pressure switches The air pressure switch locks the control box if the air pressure is not the one requested. If it happens, unlock the burner by means of the control box unlock pushbutton, placed on the bur- ner control panel.
Page 39 PART III: OPERATION Adjusting the combustion head CAUTION: perform these adjustments once the burner is turned off and cooled. The combustion head position affects the flame stability. The burner is factory-adjusted with the combustion head in its "all-ahead" position. Laboratory tests have shown that this is the optimal configuration to assure flame stability. If different settings are required, it is possible to change the position: loosen the VB screw and slightly move the combustion head backwards, turning clockwise the knob VRT.
Page 40: Routine Maintenance
PART IV: MAINTENANCE PART IV: MAINTENANCE At least once a year carry out the maintenance operations listed below. In the case of seasonal servicing, it is recommended to carry out the maintenance at the end of each heating season; in the case of continuous operation the maintenance is carried out every 6 months.
Page 41 PART IV: MAINTENANCE MultiBloc MBE MultiBloc VD Mounting to push position 1. Position VD on VB, fig. 2+3. 2. Slide VD forward up to the stop, fig. 4. 3. Screw VD on with 2 M5 screws for each, max. 5 Nm/44 in.-lb., fig. 5/6. 4.
Page 42 Check the electrodes position after any intervention on the combustion head. EA: Ignition electrode H365X - H440X ER: Detection electrode Ignition electrode on open hole. Do not close the gas hole in the centre where the ignition electrode is positioned.
Page 43 PART IV: MAINTENANCE Replacing the ignition electrodes ATTENTION: avoid the ignition and detection electrodes to contact metallic parts (blast tube, head, etc.), otherwise the boi- ler’s operation would be compromised. Check the electrodes position after any intervention on the combustion head. To replace the ignition electrodes, proceed as follows: 1 remove the burner cover;...
Page 44: Seasonal Stop
PART IV: MAINTENANCE Burner service term - In optimal operating conditions, and with preventive maintenance, the burner can last up to 20 years. - Upon expiry of the burner service term, it is necessary to carry out a technical diagnosis and, if necessary, an overall repair. - The burner status is considered to be at its limit if it is technically impossible to continue using it due to non-compliance with safety requirements or a decrease in performance.
Page 45 PART IV: MAINTENANCE TROUBLESHOOTNG GUIDE Gas operation * No electric power supply * Restore power supply * Main switch open * Close switch * Thermostats open * Check set points and thermostat connections * Bad thermostat set point or broken thermostat * Reset or replace the thermostat * No gas pressure * Restore gas pressure...
Page 48 C.I.B. UNIGAS S.p.A. Via L.Galvani, 9 - 35011 Campodarsego (PD) - ITALY Tel. +39 049 9200944 - Fax +39 049 9200945/9201269 web site: www.cibunigas.it - e-mail: cibunigas@cibunigas.it Note: specifications and data subject to change. Errors and omissions excepted.
Page 49 Siemens LMV5x Service Manual M12920CC rev 2.1 08/2017...
Page 50 Warnings: To avoid injury to persons, damage to property or the environment, the following warning notes must be observed Qualified personal In the sense of this documentation, qualified personal are those who are knowledgeable and qualified to install, mount, commission, operate and service / maintain LMV5 system together with burner &...
Page 51 WIRING RECOMMENDATIONS ....................................... 4 Earthing ......................................4 1.1.1 TN earthing system ................................4 1.1.2 Protective Earth (PE) and Functional Earth (FE) ........................4 .Frequency inverter / Variable Speed Drive (VSD) ......................... 5 ...
Page 52: Wiring Recommendations
1 WIRING RECOMMENDATIONS Earthing 1.1.1 TN earthing system For the LMV5x-System it is preconditioned that a TN earthing system is used. In a TN earthing system, one of the points in the generator or transformer is connected with earth, usually the star point in a three-phase system. TN−S: PE and N are separate conductors that are connected together only near the power source.
Page 53 .Frequency inverter / Variable Speed Drive (VSD) A VSD is one of the strongest EMC sources in a boiler house, so the following is recommended: LMV5 hi ld Earth Note: If the LMV5 is mounted in a cabinet, alternative to (X73.6 / FE), also a connection with the PE- rail in the cabinet is possible Use only VSD with EMC- filter!
Page 54 1.3.1 Recommendations It is recommended to use a metal "mounting plate" for the LMV5 Base Unit and the Transformer AGG5.220. Use this plate to provide the Functional Earth (FE), see also /EARTH connection example The connection of the FE to the LMV5 has to be made by connecting the X52.4 terminal with FE! Follow exactly the shield and earth connection in the wiring diagram In some cases connecting the terminal X52.2 with FE results in an improved EMC- immunity of the LMV5.
Page 55 Wireway and electrical conduit The following cables are recommended for separate wiring; Complete separate from all other cables: • Cable for "VSD to Fan motor" Line voltage, see also "1. Frequency inverter / Variable Speed Drive (VSD)" • Cable for ignition high voltage, see also "2. Ignition" •...
Page 57 1.4.1 Servomotor wiring example 1.4.2 Bus cable wiring on LMV5x and AZL doors. 1.4.3 EARTH connection example...
Page 58 2 AZL display/programming unit Users can set only the LMV parameters that can be accessed without password: (see “Adjusting the temperature set-point”). The Siemens AZL User Interface allows programming the Siemens LMV control box and monitoring the system data. The user interface is made of: display: it shows menus and parameters key (previous level): it goes back to the previous level menu or exits the programming mode without changing...
Page 59 LMV5x program operating phases Phase number Description Sequence Home run Stand by 20,21 Waiting to start realase Startup Start fan on Startup Driving to pre-purge Startup 30..34 Pre purging Startup Driving to ignition pos Startup Ingnition pos Startup 40,42,44 Fuel release 1 Startup 50,52 Fuel release 2...
Page 60 LMV5x program structure...
Page 61 NOTE: (1) only for LMV52.400, LMV51.300 without temperature compensation (2) only for LMV5.200 (controlling the oxygen level in the exhaust gas flue) and LMV52.400 (monitoring the oxygen level in the exhaust gas flue, a lock out occur if a limit value is overcoming) (3) Only for LMV51.300 (in this case VSD cannot be used), LMV52.xxx ATTENTION: LMV51.300: HAS ONE AUX.
Page 62: Changing Password
Password 2.4.1 Access to service levels by password Depending on password (service or OEM), different parameters are visible. "Service" parameters, as per the actuator curves and the set-point values, are password protected. The operator must logon using the "9876" password. "User"...
Page 63 3 Thermostatic series and safety loop The burner shuts down properly when the thermostatic series (X5-03.1 and X5-03.4 - terminals 3 and 4 of the burner terminal block) opens. In this way, before shut-down, the burner drives to the minimum load, then the fuel valve will close. The post-purging phase will be performed if set. By re-closing the thermostatic series, the burner will start-up again.
Page 64 4 Actuators Addressing the actuators The addressing assigns to each actuator its proper function. The addressing is factory set by the burner manufacturer. If an actuator must be replaced, it is necessary to address it, otherwise the system will not work. The parameter that sets the actuator function is protected by the Service level password.
Page 65 Actuator doors configuration After the adressing of the actuators, it is necessary to activate and to configure the operation way for each servomotor. ATTENTION: Activate only the actuators that are really present, otherwise an error will occur. 1st level 2nd level 3rd level 4th level Possible choices...
Page 66 5 Setting the load controller Door X60 is used for IntLC... choice and a temperature modulationg probe is used. ATTENTION: in case of FGR, it is not possible to connect a modulating temperature probe at the X60 door of the LMX5...
Page 67 ExtLC X5-03 = three-point external controller (X5-03 terminals) Int LC = internal controller (LMV5x) (it switches between 2 set points, W1,W2 set thought AZL. the switch from W1 and W2 is realized opening/closing the LMV5x... terminals X62.1, X62.2). Int LC Bus = internal controller and set point setting via bus connection Int LC X62 = internal controller (LMV), but set point is externally controlled by means of a voltage/current signal on X62 terminals Ext LC X62 = external controller, the burner output is controlled by means of a voltage/current signal on X62 terminals Ext LC Bus = external controller, the burner output is controlled via bus...
Page 68 Configuration of a pressure or a temperature probe type at X61 door ATTENTION: If the external load controller is set do not connected to terminals X60 or X61. If a modulation probe is connected to the X61 terminal, proceeding as follows: 1st level 2nd level 3rd level...
Page 69 Setting the setpoint and the burner and the PID operative band. 6.4.1 Set-point To set the temperature set-point value, that is the generator operating temperature; proceed as follows. 1st level 2nd level 3rd level 4th level 5th level 6th level Description Params &...
Page 70: Pid Control Parameters
The default value for this parameter is10% that is, the burner will turn off at a temperature 1% higher than the set-point. Press the ENTER to confirm, the press ESC to exit. Otherwise press ESC to exit without changing data. Press the ESC to exit 6.4.3 PID control parameters The controller’s memory contains 5 standard parameter sets.
Page 71 Setting functions “TL_ThreshOff” and “TL_SD_On” These functions enable the settable threshold for the immediate shutdown, if value set on TL_ThreshOff is exceeded. The automatic restart is performed for values lower than the one set on TL_SD_On. On display, values detected by temperature/pressure probe are shown at the same time. TL_ThreshOff turns the burner off if temperature exceeds the set value.
Page 72 7 VSD Standardization Motor standardization (speed acquisition) allows the LMV unit to control the motor rounds at the maximum frequency signal coming from the VSD. A temporary standardization is factory set only for test purpose. The definite standardization must be performed on site by the Service Center (only if the fan is supplied), before the plant test.
Page 73 8 SPECIAL POSITIONS Ignition position The ignition point is independent from the other curve points of the air/fuel ratio curve. As far as dual fuel burners, the ignition point set for the gas operation does not depend on the one set for the oil operation. LMV5x allow two different ignition position for gas mode and oil mode.
Page 74 9 ADJUSTING THE AIR/FUEL RATIO CURVES ATTENTION: when burners are provided with VSD, before setting the air/fuel ratio curves, the Standardization of the motor speed must be performed (see chapter “Standardization”). 1st level 2nd level 3rd level 4th level 5th level 6th level Description Params &...
Page 75 Setting the load points output (burners with no FGR) Following the below route access to the programming levels of the menu 1st level 2nd level 3rd level 4th level 5th level 6th level Description Params & Display RatioControl Parameter settings for fuel/ air ratio control GasSettings Parameter settings for firing...
Page 76 Point Load To choose the actuator to set, press the “left arrow” and choose Air or VSD Fuel Point Load Press "Enter" to access the Air actuator value to be set. Fuel Point Load Press keys to change value. Fuel Point Load Press Enter...
Page 77 Caution! In case it is necessary to immediately shut the burner down while working at high flame and the maximum load point is not already set observing the combustion parameters, decrease gas by means of the pressure governor as to drive the burner to a sufficient excess of air, then shut the burner down by the main switch.
Page 78 10 Configurations for burner with FGR 10.1 Recommendations Note! Reduction of maximum burner output Use of the flue gas recirculation (FGR) function or the flue gas mass introduced to the supply air duct might lower the burner’s maximum output. This means that the maximum amount of combustion air that can be introduced will be reduced. It is recommended to consider a proper air excess during the regulation of the burner in order to have to the right O2 content in the smoke, after the flue gas recirculation.
Page 79 10.2 Address and activate the AUX3 servomotor. Usually these operations are already set in the manufacturer factory. They would be necessary in same cases as: the substitution of the servomotor, in case the FGR mode were not activated yet or the LMV5x were be supplied loose…...
Page 80 10.3 Setting the special positions 1st level 2nd level 3rd level 4th level 5th level 6th level Description Param & Display RatioControl GasSettings OilSettings SpecialPosition Suggested positions are below. They can be modify during the commissioning according to right needs. Special Position: AUX3 POS •...
Page 81 10.5 FGR mode choice 1st level 2nd level 3rd level 4th level 5th level 6th level Description Param & Display Flue Gas Recirc According to the preference and FGR-Mode AUX3onCurve instruction in the table below. time temperature temp. contr. TCautoDeact deactMinpos auto deact Description of the FGR mode.
Page 82 10.6 Main parameter of the FGR function LMV50 LMV52.4.. Parameter Description LMV51.3 LMV52.2 DelaytimeFGR Gas Setting of delay time for auxiliary actuator 3 to be kept in the ignition position after entering phase ● ● OPERATION DelaytimeFGR Oil ThresholdFGR Gas Setting of temperature that must not be exceeded so that auxiliary actuator 3 can be kept in the ●...
Page 83 10.7 Example of FGR factor and FGR Maps Factor on the burner regulation. We consider to set the AUX3 for FGR with the “temp.contr.” Mode The curve is as per the below table. Point Note Load % 37,5 % 62,5 % 75 % 100 % AUX3 FGR Curve...
Page 84 11 Cold start thermal shock (CSTP) If there is a steam boiler or a boiler that must start up cold in the plant and to avoid thermal shocks a slow heating is required for the boiler by maintaining the burner at the minimum output, the automatic function “Cold start thermal shock” can be performed instead of the manual operation at minimum load. The CSTP (Cold Start Thermal Schock) function can be enabled by the Technical service only (access by reserved password).
Page 85 Note: by enabling the manual operation (this function can be set at user level also -see chapter “manual operation”) the CSTP function is momentary excluded, when enabling the automatic operation again, the CSTP function (previously set at Service level) will be enabled as well.
Page 86 12 BURNER MANUAL OPERATION The operator can decide if choosing burner manual operation at a settable fixed load or modulating operation through the automatic load controller, then can also set the burner shutdown by means of the “burner off” function. Choose the type of operation (Au-tom / Manual / Off).
Page 88 Terminal Description of connection termi- nals group Connection symbol Electrical rating PIN1 Fan motor contactor AC 230 V +10 % / -15 %, 50...60 Hz, 1 A, cos.0.4 PIN2 Alarm AC 230 V +10 % / -15 %, 50...60 X3-01 Hz, 1 A, cos.0.4 PIN1 Air pressure switch (LP)
Page 89 Terminal Connection symbol Description of connection terminals Electrical rating group PIN1 Protective earth (PE) Pressure switch min-oil (DWmin-oil) AC 230 V +10 % / -15 %, PIN2 50...60 Hz, Imax 1.5 mA X5-01 Power signal for pressure switch-min- AC 230 V +10 % / -15 %, oil (DWmin-oil) PIN3 50...60 Hz, Imax 500 mA...
Page 90 Terminal Connection symbol Description of connection termi- nals Electrical rating group PIN1 Protective earth (PE) PIN2 Neutral conductor (N) X7-01 PIN3 Fuel valve 2 (oil) AC 230 V +10 % / -15 %, 50...60 Hz, 1 A, cos.0.4 PIN1 Protective earth (PE) PIN2 Neutral conductor (N) AC 230 V +10 % / -15 %, 50...60...
Page 91 Terminal Connection symbol Description of connection termi- nals Electrical rating group AC 230 V +10 % / -15 %, 50...60 PIN2 Firing on oil Hz, 1 A, cos.0.4 X8-01 PIN1 Firing on gas AC 230 V +10 % / -15 %, 50...60 Hz, 1 A, cos.0.4 PIN4 Protective earth (PE)
Page 92 Termi- nal group Connection symbol Description of connection termi- nals Electrical rating AC 230 V +10 % / -15 %, 50...60 Hz, PIN4 Neutral conductor (N) max 1 mA PIN3 Power signal transformer AC 12 V +10 % / -15 %, 50...60 Hz, X10-01 PIN2 AC power signal GO...
Page 93 (functional earth) PIN4 AC power supply from transformer to LMV5... system PIN3 AC 12 V +10 % / -15 %, 50...60 Hz PIN2 Reference ground (PELV) AC power supply from transformer to LMV5... system PIN1 AC 12 V +10 % / -15 %, 50...60 Hz Terminal Connection symbol Description of connection termi- nals...
Page 96 Note: Specifications and data subject to change. Errors and omissions excepted.
Page 97 COD. M07979CD rel. 3.2 01/13 RECOMMENDATIONS FOR LMV5x CONNECTIONS Connections affected by EMC noises are related to the bus cable (actuator line cable, PLL52), detection probe cable, speed sensor cable, 4-20mA signal cable that controls the VSD. Input and power cables (400V e 230V) must be laid separately from the signal cables. The bus cable between control panel and burner and between burner and PLL52 board (used when O2 trim control must be perfomed) must be laid separately and far from power cables.
Page 98 Annex1 – Example for motor cable...
Page 100 Annex 2 – Example for sensor cable...
Page 103 SIEMENS Appendix: Example for wiring, earthing and shielding the LMV5-System Cabinet Siemens MM440 CAN-Bus shielded cable X52.2 X52.4 "VSD - Fan Motor" Separate conduit & shielded line voltage cable! Separate plastic conduit X51, X50 Metal plate = FE for high voltage ign. cable X9-02 X10-01 Power...
Page 104 Addendum 4: LMV52... with O trim control and O module General The LMV52... system is an extended LMV51... system. A special feature of the LMV52… is control of the residual oxygen content to increase the boiler’s efficiency. In addition to the features of the LMV51..., the LMV52... provides O trim control, con- trol of a maximum of 6 actuators, control of a VSD, and acquisition of cumulated fuel consumption and current fuel throughput.
Page 105 The maximum cable length between transformer and CAN bus users is dependent on Determination of the the type of cable (cross-sectional area), the number of actuators and the type of actua- maximum cable length tor used (current). The following graphs can be used to determine the maximum CAN bus cable lengths between the transformer and group of actuators or the AZL5…, depending on the rele- vant influencing factors.
Page 107: Control Panel
Example 2 LMV5... basic unit in the control panel, actuator on the burner; CAN bus cable «LMV5... → SA» > 20 m Jumper Control panel Burner ACT 1 ACT 2 ACT 3 ACT 4 Fixed internal bus termination SQM4... SQM4... SQM4...
Page 108 Example 3a Installation of all components in the burner; CAN bus cable «LMV52... ↔ SA» > 20 m with 6 actuators and O2 module PLL52... Jumper Fixed internal ACT 1 ACT 2 ACT 3 ACT 4 ACT 5 ACT 6 bus termination SQM45...
Page 109 Notes on example 3a / 3b CAN bus cable with LMV52... and more than 4 actuators and O2 module PLL52... On LMV52... applications with more than 4 actuators (SQM45...), a second transformer is required for powering the extra actuators. In that case, transformer 1 powers the LMV52... basic unit, the AZL5..., and the first 4 actuators.
Page 110: Inputs And Outputs
O2 module In comparison with the LMV51... system, the extra components to be connected with the LMV52… system are the O module and the O sensor QGO... and, optionally, the combustion air and flue gas temperature sensors. The O module is to be connected to the basic unit via the CAN bus.
Page 112 8 8 8...
Page 113 ß ß ß...
Page 114 ©...
Page 115 Technical Data PLL52... LMV52... basic unit Refer to chapter Technical Data! Mains voltage «X89-01» AC 120 V AC 230 V PLL52... –15 % / +10 % -15 % / +10 % Safety class I with parts according to II as per DIN EN 60730-1 Mains frequency 50 / 60 Hz ±6 % Power consumption...
Page 116 PLL52... Flue gas temperature X86.3 Shield connection Temperature sensor X86.1 Pt / LG-Ni1000 PLL52... Pt / LG-Ni1000 X86.2 Signal reference X89-01.4 Protective earth (PE) Supply air temperature X89-01.5 Power supply neutral X87.3 conductor (L) Shield connection F 6.3AT Temperature sensor X87.1 X89-01.6 Power supply live Pt / LG-Ni1000...

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