Operation Manual For GC1200 Series Genset Controllers SEDEMAC DOC # ENG-PD-APPKIT-GC1200-002
Transcription
Operation Manual For GC1200 Series Genset Controllers SEDEMAC DOC # ENG-PD-APPKIT-GC1200-002
SEDEMAC Operation Manual For GC1200 Series Genset Controllers DOC # ENG-PD-APPKIT-GC1200-002 Rev # 02 Rev Date 4 Jul 2014 Page 1 of 39 SEDEMAC Table of Contents 1 Introduction..............................................................................................................................................3 1.1 Key Highlights Of The Product............................................................................................................................3 2 Specifications............................................................................................................................................3 2.1 2.2 2.3 2.4 2.5 Terminals............................................................................................................................................................3 Power Supply Specifications...............................................................................................................................4 Generator Voltages And Frequency Measurements............................................................................................5 Generator Current Sensing.................................................................................................................................5 Mains Voltage And Frequency Sensing...............................................................................................................5 3 Inputs........................................................................................................................................................6 3.1 3.2 3.3 3.4 3.5 Digital Inputs......................................................................................................................................................6 Analog Resistive Sensor Inputs...........................................................................................................................6 Magnetic Pick Up Input (Optional).....................................................................................................................6 Analog Voltage Input..........................................................................................................................................6 Charge Fail Input.................................................................................................................................................6 4 Outputs.....................................................................................................................................................7 4.1 Digital Outputs...................................................................................................................................................7 4.2 Actuator Outputs (Optional)...............................................................................................................................7 5 Communication Ports................................................................................................................................7 6 Dimensions...............................................................................................................................................8 7 Installation................................................................................................................................................9 7.1 Terminal Description..........................................................................................................................................9 7.2 Typical Wiring Diagram ....................................................................................................................................11 8 Module Display ......................................................................................................................................14 8.1 Monitoring Mode.............................................................................................................................................14 9 Description Of Control Keys.....................................................................................................................23 10 Configuration Mode..............................................................................................................................24 10.1 Configurable Parameters................................................................................................................................24 11 Module Operation In Manual Control Mode..........................................................................................34 11.1 11.2 11.3 11.4 11.5 Starting The Engine.........................................................................................................................................34 Stopping The Engine.......................................................................................................................................34 Acknowledging The Alarms.............................................................................................................................35 Clearing The Alarms........................................................................................................................................35 Accessing Event Log........................................................................................................................................36 12 Troubleshooting....................................................................................................................................36 Page 2 of 39 SEDEMAC 1 Introduction SEDEMAC GC1200 is a series of modern and feature rich genset controllers with user-friendly HMI and full graphics LCD. The GC1200 controllers come bundled with highly versatile software & extensive I/O's, and thereby support a wide variety of industry standard features in diesel / gas / gasoline engine gensets. They also offer unique features such as electronic governing for engines with mechanical fuel systems. With a SEDEMAC rotary actuator as an add-on for air/fuel charge control, the GC1200 controllers can subsume the electronic governing duty for the engine and offer tight speed governing performance within ISO 8528:G3 class limits. This document gives operating instructions for SEDEMAC's GC1200 series genset controllers (refered to as GC12xx further in the document). Refer to the Software Manual for Configuration Utility For GC1200 series Genset Controllers for details of the configuration utility. 1.1 Key Highlights Of The Product • • • • 2 AMF, manual and remote start / stop modes for 1-ph & 3-ph gensets PC connectivity via USB port (default), RS232/485 (optional), CAN (optional) Backlit and full graphics display with power saving feature Multiple language display (optional) Specifications 2.1 Terminals The GC12xx has two types of terminal blocks as shown in figure below. 2.1.1 5 mm pitch connector suitable for 2 sq mm wire. Page 3 of 39 SEDEMAC Connector type/ Manufacturer Male (On genset controller) Female (Mating) Male (On genset controller) Degson 2.1.2 Phoenix 2-Pin 2EDGVC-5.08-02P-14- 2EDGK-5.08-02P-1400AH 00AH 1755516 1754449 4-Pin 2EDGVC-5.08-04P-24- 2EDGK-5.08-04P-2400AH 00AH NA NA Male (On genset controller) Female (Mating) 3.5 mm pitch connector suitable for 0.5 – 1.5 sq mm wire Connector type/ Manufacturer Male (On genset controller) Female (Mating) Degson 2.2 2.3 Female (Mating) Phoenix 4-Pin 15EDGVC-3.5-04P-14- 15EDGK-3.5-04P-1400AH 00AH 1843622 1840382 6-Pin 15EDGVC-3.5-06P-14- 15EDGK-3.5-06P-1400AH 00AH 1843648 1840405 8-Pin 15EDGVC-3.5-08P-14- 15EDGK-3.5-08P-1400AH 00AH 1843664 1840421 10-Pin 15EDGVC-3.5-10P-14- 15EDGK-3.5-10P-1400AH 00AH 1843680 1840447 Power Supply Specifications Connector pin number 1, 2 (Ground and Battery positive respectively) Supply voltage range 8 to 32 VDC Maximum reverse voltage -40VDC Measurement accuracy 1% full scale Resolution 0.1V Generator Voltages And Frequency Measurements Connector pin number 27, 28, 29, 30 (N, B, Y, R respectively)* Measurement type True RMS Phase to Neutral voltage 15VAC to 415VAC Page 4 of 39 SEDEMAC Phase to Phase voltage 15VAC to 750VAC Voltage accuracy ±1% of full scale Voltage resolution 1VAC for Phase to Neutral 2VAC for Phase to Phase Frequency range 3Hz to 75Hz Frequency accuracy 0.1Hz Note: * For 1 phase genset application it is mandatory to connect the genset phase and neutral to genset controller's phase R and Neutral respectively. 2.4 2.5 Generator Current Sensing Connector pin number 35 and 36 (for phase B), 37 and 38 (for phase Y), 39 and 40 (for phase R) Measurement type True RMS Maximum CT secondary current rating 5A Burden 0.25VA Accuracy 1% of full scale (5A) Mains Voltage And Frequency Sensing Connector pin number 31, 32, 33, 34 (N, B, Y, R respectively)* Measurement type True RMS Phase to Neutral voltage 15VAC to 415VAC Phase to Phase voltage 15VAC to 750VAC Voltage accuracy 2% of full scale Voltage resolution 1VAC for Phase to Neutral 2VAC for Phase to Phase Frequency range 3Hz to 75Hz Frequency accuracy 0.1Hz Note: * For 1 phase genset application it is mandatory to connect the mains phase and neutral to genset controller's phase R and Neutral respectively. 3 3.1 3.2 Inputs Digital Inputs Connector pin number 10, 11, 12, 21, 22 Number of inputs 5 Type Negative sensing (connect to ground for activation) Low level threshold 0.8V maximum High level threshold 8V minimum Open circuit voltage Vbat – 1VDC Analog Resistive Sensor Inputs Connector pin number 24, 25, 26 (Eng_temp, Fuel_Level sensor, LOP respectively) Page 5 of 39 SEDEMAC 3.3 Number of inputs 3 Type Ratiometric sensing Range 10 to 1000Ω Accuracy 2% of full scale Magnetic Pick Up Input (Optional) Connector pin number 41, 42 Type Differential ended Frequency range 10 to 10000Hz Input voltage range 200mV to 70V The Magnetic Pick Up (MPU) is an inductive sensor fitted on the engine flywheel for the engine speed sensing. The output of MPU is a sine-wave signal. 3.4 Analog Voltage Input Connector pin number 23 Type Analog voltage sensing Range 0 to 5VDC Accuracy 0.5% of full scale This input may used for the “Paralleling” application where the genset is governed by SEDEMAC GC12xx. 3.5 Charge Fail Input Connector pin number 7 Voltage range 0 to 30VDC Excitation PWM (Current limited to 250mA) Accuracy 1% of full scale The charge fail input is a combined input and output terminal. When the genset starts, the terminal provides excitation current to the charge alternator field winding. When the charge alternator is correctly charging the battery, the voltage of the terminal is close to the battery supply voltage. In case of failure of charging alternator, the voltage of this terminal is pulled down to a low voltage. This drop in voltage triggers the charge failure alarm. The level at which this operates and whether this triggers a warning or shutdown alarm is configurable. 4 4.1 4.2 Outputs Digital Outputs Connector pin number 3, 4, 5, 6, 8, 9 Number of outputs 6 Type High side driver Maximum current 0.75A Actuator Outputs (Optional) Connector pin number 17, 18, 19, 20 Type Stepper motor drive Page 6 of 39 SEDEMAC Maximum current 1A each coil The actuator outputs are used only for the SEDEMAC actuator, if installed. The SEDEMAC actuator is a 4-wire actuator that is used for creating an electronic governing application in case of a mechanical fuel system engine. In diesel engines, the rotary actuator's shaft output gets mechanically connected to the stop lever or the throttle lever of an inline or rotary fuel injection pump. In case of petrol or natural gas engines, the rotary actuator's shaft output gets connected to the throttle / charge control valve. 5 Communication Ports USB Used to flash the firmware RS485 (optional) Used for data communication Connector pin number for RS485 15, 16 CAN (optional) Reserved for future use Connector pin number for CAN 13, 14 Page 7 of 39 SEDEMAC 6 Dimensions Recommended mounting panel cut-out dimensions: 118 mm X 93 mm. Page 8 of 39 SEDEMAC 7 7.1 Installation Terminal Description Following figure shows the rear view of module. The following table provides the details of GC12xx terminals. Terminal Name Description Sr. No. 1 BATT - Battery ground 2 BATT + Battery positive 3 OUT A High side driver output – A 4 OUT B High side driver output - B 5 OUT C High side driver output - C 6 OUT D High side driver output - D 7 CHARGE FAIL IN Input for charging alternator 8 OUT E High side driver output - E 9 OUT F High side driver output - F 10 DIG_IN A Input from switch - A 11 DIG_IN B Input from switch - B 12 DIG_IN C Input from switch - C 13 CAN H (Optional) CAN high 14 CAN L (Optional) CAN low 15 RS485_B (Optional) RS485 - B 16 RS485_A (Optional) RS485 - A 17 GOV_ACT – OUT1 (Optional) Output for the SEDEMAC actuator Page 9 of 39 SEDEMAC Terminal Sr. No. Name Description 18 GOV_ACT – OUT4 (Optional) Output for the SEDEMAC actuator 19 GOV_ACT – OUT2 (Optional) Output for the SEDEMAC actuator 20 GOV_ACT – OUT3 (Optional) Output for the SEDEMAC actuator 21 DIG_IN D Input from switch - D 22 DIG_IN E Input from switch - E 23 ANLG_V IN Analog 0 to 5V input - A 24 ANLG_IN ENG_TEMP Analog input from Engine Temperature Sensor 25 ANLG_IN Fuel_Level Analog input from Fuel Level Sensor 26 ANLG_IN LOP Analog input from Lube Oil Pressure Sensor 27 GEN_V IN NTRL Voltage input from Gen Neutral 28 GEN_V IN B Voltage input from Gen B 29 GEN_V IN Y Voltage input from Gen Y 30 GEN_V IN R Voltage input from Gen R 31 MAINS_V IN NTRL Voltage input from Mains Neutral 32 MAINS_V IN B Voltage input from Mains Phase B 33 MAINS_V IN Y Voltage input from Mains Phase Y 34 MAINS_V IN R Voltage input from Mains Phase R 35 CT – IN B1 CT input 1 from Phase B 36 CT – IN B2 CT input 2 from Phase B 37 CT – IN Y1 CT input 1 from Phase Y 38 CT – IN Y2 CT input 2 from Phase Y 39 CT – IN R1 CT input 1 from Phase R 40 CT – IN R2 CT input 2 from Phase R 41 MPU – IN 2 (Optional) Input 2 from engine speed sensor(Inductive) 42 MPU – IN 1 (Optional) Input 1 from engine speed sensor(Inductive) Page 10 of 39 SEDEMAC 7.2 Typical Wiring Diagram 7.2.1 Manual Control Application The typical wiring diagram of GC12xx for manual control application on engine with mechanical fuel system. 7.2.2 Auo Mains Failuer Application The typical wiring diagram of GC12xx for Auto Mains Failuer application on engine with mechanical fuel system. Page 11 of 39 SEDEMAC Page 12 of 39 SEDEMAC Page 13 of 39 SEDEMAC 8 Module Display Following sections describe the layout of screens. 8.1 Monitoring Mode In monitoring mode the screen will scroll automatically after a predefined time which can be configured in configuration menu or you can use the “Navigation UP/DOWN Keys” to scroll/browse the screens. 8.1.1 Home Screen 1: Home 8.1.2 Generator L-N Voltages Screen 2: Generator L-N Voltages (The “L2” & “L3” will be visible only If configured for 3 phase genset) 8.1.3 Generator L-L Voltages Screen 3: Generator L-L Voltages (This screen will be visible only If configured for 3 phase genset) Page 14 of 39 SEDEMAC 8.1.4 Generator Currents Screen 4: Generator Currents (The “L2” & “L3” will be visible only If configured for 3 phase genset) 8.1.5 Mains L-N Voltages Screen 5: Mains L-N Voltages (The “L2” & “L3” will be visible only If configured for 3 phase mains) 8.1.6 Mains L-L Voltages Screen 6: Mains L-L Voltages (This screen will be visible only If configured for 3 phase mains) Page 15 of 39 SEDEMAC 8.1.7 Generator Line kW Screen 7: Generator Line kW (The “L2” & “L3” will be visible only If configured for 3 phase genset) 8.1.8 Generator Total kW Screen 8: Generator Total kW (This screen will be visible only If configured for 3 phase genset) 8.1.9 Generator Line kVA Screen 9: Generator Line kVA (The “L2” & “L3” will be visible only If configured for 3 phase genset) Page 16 of 39 SEDEMAC 8.1.10 Generator Total kVA Screen 10: Generator Total kVA (This screen will be visible only If configured for 3 phase genset) 8.1.11 Generator Line kVAr Screen 11: Generator Line kVAr (The “L2” & “L3” will be visible only If configured for 3 phase genset) 8.1.12 Generator Total kVAr Screen12: Generator Total kVAr (This screen will be visible only If configured for 3 phase genset) Page 17 of 39 SEDEMAC 8.1.13 Generator Line PF Screen 13: Generator Line PF (The “PF2” & “PF3” will be visible only If configured for 3 phase genset) 8.1.14 Generator Total PF Screen 14: Generator Total PF (This screen will be visible only If configured for 3 phase genset) 8.1.15 Generator Frequency Screen 15: Generator Frequency 8.1.16 Mains Frequency Page 18 of 39 SEDEMAC Screen 16: Mains Frequency (This screen will be visible only If “Mains monitoring” is enabled) 8.1.17 Generator Cumulative Power Screen 17: Generator Cumulative Power 8.1.18 Engine Speed Screen 18: Engine Speed 8.1.19 Engine Run Time Page 19 of 39 SEDEMAC Screen 19: Engine Run Time 8.1.20 Battery Voltage Screen 20: Battery Voltage 8.1.21 Coolant Temperature Screen 21: Coolant Temperature (This screen will be visible only If “Coolant temperature” sensor is configured) 8.1.22 Lube Oil Pressure Page 20 of 39 SEDEMAC Screen 22: Lube Oil Pressure (This screen will be visible only If “LOP” sensor is configured) 8.1.23 Balance Fuel Screen 23: Balance Fuel (This screen will be visible only If “Fuel level” sensor is configured) 8.1.24 Date And Time Screen 24: Date And Time 8.1.25 Product ID Page 21 of 39 SEDEMAC Screen 25: Product ID 8.1.26 System ID Screen 26: System ID 8.1.27 Alarms Screen 27: Alarms Page 22 of 39 SEDEMAC 9 Description Of Control Keys Display Menu Navigation UP Key Alarm LED Menu Navigation DOWN Key STOP Key START Key AUTO/MANUAL Mode Select Key Page 23 of 39 SEDEMAC 10 Configuration Mode For first-time-configuration please refer Quick start guide otherwise please follow the below mentioned instructions. To enter into the configuration mode press and hold “STOP” and “AUTO” keys simultaneously. Screen 28: Configuration Mode To enter into edit mode press “START” key. If you wish to read the configuration press “STOP” key. Screen 29: Configuration mode: Authentication Page Please enter your 4-Digit PIN here to access the configuration menu. Once you enter into the “EDIT” mode scroll to the parameter that you wish to edit and press “START” key to edit the parameter. At this moment the parameter will start blinking and you can change the parameter value using ”UP” and “DOWN” keys. (Refer section 10.1 for configuring parameters) After selecting the required value press ”START” key to save parameter or “STOP” key to discard the value. 10.1 Configurable Parameters 10.1.1 Table 1 – List Of Configurable Parameters Level 0 Level 1 Module General Display Level 2 Possible Value Languages 1 (English) Start mode 0, 1 (Stop, Auto) Lamp test enable 0, 1 (Disable, Enable) GSM enable(Optional) 0, 1 (Disable, Enable) Extended event log(Optional) 0, 1 (Disable, Enable) Deep sleep enable 0, 1 (Disable, Enable) Contrast 0-100% Power save enable 0, 1 (Disable, Enable) Communication Communication mode Modbus slave ID 0, 1, 2 (None, Modbus, GSM) 0 - 247 Page 24 of 39 SEDEMAC Level 0 Inputs Level 1 Pressure monitoring Temperature monitoring Fuel level monitoring Level 2 Modbus baudrate Refer Table 8 Low oil pressure action 0, 1, 2 (None, Warning, Shutdown) Low oil pressure threshold 0-5 bar Low oil pressure open circuit alarm 0, 1 (Disable, Enable) High engine temperature action 0, 1, 2 (None, Warning, Shutdown) High engine temperature threshold 25-150 deg C High engine temperature open circuit alarm 0,1 (Disable, Enable) LFL shutdown enable 0, 1 (Disable, Enable) LFL shutdown threshold 0-80% LFL warning enable 0, 1 (Disable, Enable) LFL warning threshold 0-80% Fuel tank capacity 0-500 Litres Fuel theft alarm 0, 1 (Disable, Enable) Fuel theft threshold 0-100% Radiator water Low level action level monitoring DIG IN A DIG IN B DIG IN C Possible Value 0, 1, 2 (None, Warning, Shutdown) Source Refer Table 2 Polarity 0, 1 (Close to activate, Open to activate) Action (for user configured input source) 0, 1, 2,3 (None, Warning, Electrical trip, Shutdown) Activation (for user configured input source) Refer Table 3 Activation delay (for user configured input source) 0-60s Source Refer Table 2 Polarity 0,1 (Close to activate, Open to activate) Action (for user configured input source) 0, 1, 2,3 (None, Warning, Electrical trip, Shutdown) Activation (for user configured input source) Refer Table 3 Activation delay (for user configured input source) 0-60s Source Refer Table 2 Polarity 0,1 (Close to activate, Open to activate) Action (for user configured input source) 0, 1, 2,3 (None, Warning, Electrical trip, Shutdown) Activation (for user configured input Refer Table 3 Page 25 of 39 SEDEMAC Level 0 Level 1 Level 2 Possible Value source) DIG IN D DIG IN E ANLG_IN LOP Activation delay (for user configured input source) 0-60s Source Refer Table 2 Polarity 0,1 (Close to activate, Open to activate) Action (for user configured input source) 0, 1, 2,3 (None, Warning, Electrical trip, Shutdown) Activation (for user configured input source) Refer Table 3 Activation delay (for user configured input source) 0-60s Source Refer Table 2 Polarity 0,1 (Close to activate, Open to activate) Action (for user configured input source) 0, 1, 2,3 (None, Warning, Electrical trip, Shutdown) Activation (for user configured input source) Refer Table 3 Activation delay (for user configured input source) 0-60s Sensor selection 0,1,2(None, DIG IN F, ANLG_IN LOP) (Digital) Source Refer Table 2 (Digital) Polarity 0,1 (Close to activate, Open to activate) (Digital, user configured source) Action 0, 1, 2,3 (None, Warning, Electrical trip, Shutdown) ANLG_IN Eng_Temp (Digital, user configured source) Activation Refer Table 3 (Digital, user configured source) Activation delay 0-60s Sensor selection 0,1,2(None, DIG IN G, ANLG_IN Eng_Temp) (Digital) Source Refer Table 2 (Digital) Polarity 0,1 (Close to activate, Open to activate) (Digital, user configured source) Action 0, 1, 2,3 (None, Warning, Electrical trip, Shutdown) ANLG_IN Fule_Level (Digital, user configured source) Activation Refer Table 3 (Digital, user configured source) Activation delay 0-60s Sensor selection 0,1,2(None, DIG IN G, ANLG_IN Fuel_Level) (Digital) Source Refer Table 2 (Digital) Polarity 0,1 (Close to activate, Open to activate) Page 26 of 39 SEDEMAC Level 0 Level 1 Level 2 Possible Value (Digital, user configured source) Action 0, 1, 2,3 (None, Warning, Electrical trip, Shutdown) Outputs Refer Table 3 (Digital, user configured source) Activation delay 0-60s LOP Sensor Calibration Refer Table 4 Eng_Temp Sensor Calibration Refer Table 5 Fuel_Level Sensor Calibration Refer Table 6 OUT A OUT B OUT C OUT D OUT E OUT F Timers (Digital, user configured source) Activation Cranking Monitoring Supervisory Module Source Refer Table 7 Polarity 0, 1 (de-energise, Energise) Source Refer Table 7 Polarity 0, 1 (de-energise, Energise) Source Refer Table 7 Polarity 0, 1 (de-energise, Energise) Source Refer Table 7 Polarity 0, 1 (de-energise, Energise) Source Refer Table 7 Polarity 0, 1 (de-energise, Energise) Source Refer Table 7 Polarity 0, 1 (de-energise, Energise) Crank time 0-15s Crank rest time 0-60s Monitoring on delay 0-60s Mains transient delay 0-30s Generator transient delay 0-30s Start delay 0-30s Return delay 0-600s Cooling time 0-300s Stop solenoid hold delay 0-120s Failed to stop delay 0-120s Transfer time 0-60s Power save mode delay 0-1800s Page timer 0-1800s Deep sleep delay 0-1800s Page 27 of 39 SEDEMAC Level 0 Level 1 Generator Alternator configuration Voltage monitoring Frequency monitoring Current monitoring Level 2 Possible Value Alternator fitted 0, 1 (No, Yes) Number of poles 0, 1, 2, 3 (2, 4, 6, 8) Ac system 0, 1 (1Ph-2wire, 3Ph-4 Wire) Loading voltage 90-250V Loading frequency 40-65Hz Under voltage shutdown enable 0, 1 (No, Yes) Under voltage shutdown threshold 0-250V Under voltage warning enable 0, 1 (No, Yes) Under voltage warning threshold 0-250V Over voltage shutdown enable 0, 1 (No, Yes) Over voltage shutdown threshold 120-400V Over voltage warning enable 0, 1 (No, Yes) Over voltage warning threshold 120-400V Under frequency shutdown enable 0, 1 (No, Yes) Under frequency shutdown threshold 0-60Hz Under frequency warning enable 0, 1 (No, Yes) Under frequency warning threshold 0-60Hz Over frequency shutdown enable 0, 1 (No, Yes) Over frequency shutdown threshold 25-70Hz Over frequency warning enable 0, 1 (No, Yes) Over frequency warning threshold 25-70Hz CT primary 0-8000 Full load rating 0-8000A Over current threshold 50-130% Over current delay time 0-600s Over current action 0, 1, 2, 3 (None, Warning, Electrical trip, Shutdown) Unbalanced load action 0, 1, 2, 3 (None, Warning, Electrical trip, Shutdown) Unbalanced load threshold 0-100% Unbalanced load delay time 0-600s Load monitoring Generator rating 0-800 kW Load monitoring threshold 50-130% Overload delay time 0-600s Overload action 0, 1, 2 (None, Warning, Shutdown) Page 28 of 39 SEDEMAC Level 0 Level 1 Mains Mains limits Level 2 Possible Value Mains under voltage enable 0, 1 (Disable, Enable) Mains under voltage trip threshold 0-394 Mains under voltage return threshold 2-396 Mains over voltage enable 0, 1 (Disable, Enable) Mains over voltage trip threshold 4-398 Mains over voltage return threshold 6-400 Mains under frequency enable 0, 1 (Disable, Enable) Mains under frequency trip threshold 0-67 Mains under frequency return threshold 1-68 Mains over frequency enable 0, 1 (Disable, Enable) Mains over frequency trip threshold 2-69 Mains over frequency return threshold 3-70 System Engine Mains AC system Crank disconnect Start attempts Speed monitoring Battery monitoring 0, 1 (1Ph-2wire, 3Ph-4 Wire) 0-9 Disconnect on oil pressure 0, 1 (Disable, Enable) Disconnect pressure threshold 0-50 bar Pressure monitor before start 0, 1 (Disable, Enable) Disconnect on oil pressure switch 0, 1 (Disable, Enable) Pressure switch transient time 0-30S Crank disconnect frequency 0-30Hz Crank disconnect engine speed 0-900RPM Engine speed sense source 0, 1, 2 (MPU(Optional), Alternator frequency, W-point) Flywheel teeth 0-300 W-point frequency @ 1500RPM 0-500 Hz Under speed shutdown enable 0, 1 (Disable, Enable) Under speed threshold 0-3600RPM Under speed delay 0-60s Over speed threshold 1000-4000RPM Over speed delay 0-20s Low battery volt action 0, 1, 2 (None, Warning, Shutdown) Low battery volt threshold 0-20V Low battery volt delay 0-1800s High battery volt action 0, 1, 2 (None, Warning, Shutdown) High battery volt threshold 12-40V Page 29 of 39 SEDEMAC Level 0 Level 1 Charge alternator monitoring Preheat Maintenance Oil filter Air filter Fuel filter Electronic governor (Optional) General Generator PID Parameters Engine PID Parameters Level 2 Possible Value High battery volt delay 0-1800s Charge alternator fail action 0, 1, 2 (None, Warning, Shutdown) Charge alternator fail threshold 0-12V Charge alternator fail delay 0-60s Preheat timer 2-900RPM Temp limit enable 0, 1 (Disable, enable) Temperature limit 25-60°C Alarm action 0, 1 (None, Warning) Engine hours 100-65000 hours Alarm action 0, 1 (None, Warning) Engine hours 100-65000 hours Alarm action 0, 1 (None, Warning) Engine hours 100-65000 hours Actuator speed 1-10 Actuator direction 0, 1 (Anticlockwise, Clockwise) Paralleling mode enable 0, 1(Disable, Enable) RPM for 0 volt 500-4000 RPM for 5 volt 500-4000 Cranking steps 50-5000 Target speed 500-4000 RPM Proportional gain 0-1000 Integral gain 0-2000 Derivative gain 0-1000 Friction set off 0-1000 Gain schedule trigger 0-1000 Loading factor 0-1000 Unloading factor 0-1000 Target speed 500-4000 RPM Proportional gain 0-1000 Integral gain 0-2000 Derivative gain 0-1000 Friction set off 0-1000 Gain schedule trigger 0-1000 Page 30 of 39 SEDEMAC Level 0 Active Profile (Optional) Level 1 Active profile Level 2 Possible Value Loading factor 0-1000 Unloading factor 0-1000 Active profile 0-10 Alternator configuration 0, 1 (1 Phase, 3 Phase) Mains monitoring 0, 1 (On, Off) 10.1.2 Table 2 - Input Sources Selection Value Source 0 None 1 User configured 2 Low fuel level switch 3 Oil pressure switch 4 High temp switch 5 Water level switch 6 Emergency stop 7 Remote start 8 Reserved parameter 9 Simulate “Start” 10 Simulate “Stop” 11 Simulate “Auto” 12 Close generator / open mains 13 Close mains / open generator 14 Simulate mains 15 Paralleling enable 16 Reserved parameter 10.1.3 Table 3 – Activation choices Value Activation choices 0 Never 1 From start 2 From monitoring on 3 Always 10.1.4 Table 4 – LOP Sensor Calibration Resistance(Ω) 0-1000(R1-R10) Pressure(Bar) 0-10(P1-P10) Page 31 of 39 SEDEMAC 10.1.5 Table 5 – Eng_Temp Sensor Calibration Resistance(Ω) 0-1000(R1-R10) Temperature° C 25-150(T1-T10) 10.1.6 Table 6 – Fuel_Level Sensor Calibration Resistance(Ω) 0-1000(R1-R10) Level (%) 0-100(L1-L10) 10.1.7 Table 7 – Output Source Selection Value Output source 0 Disable 1 Audible alarm 2 Battery over volts warning 3 Battery under volts warning 4 Charge alt shutdown 5 Charge alt warning 6 Close genset contactor 7 Close mains contactor 8 Mains failure 9 Common alarm 10 Common electrical trip 11 Common shutdown 12 Common warning 13 Cooling down 14 Digital input A 15 Digital input B 16 Digital input C 17 Digital input D 18 Digital input E 19 Digital input F(ANLG_IN LOP) 20 Digital input G (ANLG_IN ET) 21 Digital input H (ANLG_IN FLS) 22 Emergency stop 23 Stop solenoid 24 Fail to start 25 Fail to stop 26 Fuel relay 27 Generator available Page 32 of 39 SEDEMAC 28 Generator over voltage shutdown 29 Generator under voltage shutdown 30 Generator over current 31 High coolant temperature 32 Low fuel level 33 Low oil pressure 34 Main high voltage 35 Mains low voltage 36 Oil pressure open circuit 37 Open generator contactor 38 Open mains contactor 39 Over frequency shutdown 40 Over speed shutdown 41 Start relay 42 Temperature sensor open circuit 43 Under frequency shutdown 44 Under speed shutdown 45 Oil filter maintenance due 46 Air filter maintenance due 47 Fuel filter maintenance due 48 Stop mode 49 Auto mode 50 Manual mode 51 GSM reset 52 Preheat output 10.1.8 Table 8 – Modbus baudrate Selection Value Baudrate 0 1200 1 2400 2 4800 3 9600 4 19200 5 38400 6 57600 7 115200 Page 33 of 39 SEDEMAC 11 Module Operation In Manual Control Mode 11.1 Starting The Engine First Press STOP Key 11.2 Stopping The Engine Then, Press The START Key To Crank The Engine. While Engine Is Running, Press STOP Key To Stop Engine. To Stop Engine Immediately Press STOP Key Twice. Page 34 of 39 SEDEMAC 11.3 Acknowledging The Alarms Press The UP Key To Acknowledge Alarms And Warnings Note: This is to acknowledge the “Audiable Alarm Output” if configured. 11.4 Clearing The Alarms While On Alarms Page, Press STOP Key To Clear The Alarms And Warnings Page 35 of 39 SEDEMAC 11.5 Accessing Event Log While In Configuration Mode, Press And Hold UP & DOWN Key To Enter Into Event Log 12 Troubleshooting This section explains the common faults, their possible causes and remedial actions. Sr. Fault Possible Causes / Remedial Actions No. Normal Mode 1 Controller not powered ON. • • • • Check that the battery voltage is within operating voltage. Check DC power line fuse. Check continuity between battery +ve and controller pin # 2. Check continuity between battery ground and controller pin # 1. 2 Controller stuck on same page. • Reset the controller. 3 Controller fails to crank the engine when commanded. • • • • Check “START” led is glowing. Check battery voltage Check the “START” output configuration. Check configured output is working correctly by measuring the voltage at controller pin. Check the configuration of crank disconnect methods. Check “Oil Switch” polarity is correct. Check Oil switch/sensor and wiring. • • • 4 Emergency stop alarm when “Emergency Stop” not pressed. • • Check the “Emergency Stop” connection. Check the “Emergency Stop” polarity in the configuration. 5 Shutdown alarm/s. • Check the respective switch/sensor and wiring. Check the configuration threshold. • Page 36 of 39 SEDEMAC Sr. No. 6 Fault Warning alarm/s. Possible Causes / Remedial Actions • • 7 Charge fail alarm. • • • 8 A) Controller shows genset “ON” while genset is at rest. B) “Fail to stop” alarm when genset is at rest. Check the respective switch/sensor and wiring. Check the configuration threshold. Check the charge fail input connections. Check the current supplied by controller when the pin is grounded through current meter. (Should be equal to 220 - 270 mA.) Check charge alternator. • Check the oil switch/sensor and wiring. Check oil switch/sensor polarity in configuration. Check oil switch input configuration. • • 9 Controller issues “Start” command after power on. • • • Check “Start mode” configuration. Check crank output polarity. Check crank connections and wiring. 10 Engine runs but controller shows genset “OFF”. • • Check MPU signal/voltage signal(R phase). Check “Oil pressure” sensor/switch and wiring. Measurement Issues 11 Controller displays incorrect PF value. • Check wiring of the respective phase and the CT. 12 Controller displays incorrect voltage. • Check wiring of the respective phase. 13 Controller displays incorrect KW. • Check wiring of the respective phase and the CT. Check CT ratio in the configuration. • 14 Controller displays incorrect current. • • Check wiring of the respective phase and the CT. Check CT ratio in configuration. 15 Controller displays incorrect LOP/fuel/Temp sensor value. • • Check respective sensor and its wiring. Check the calibration for the respective sensor in configuration. 16 Controller displays incorrect RPM. • Check the MPU connection and configuration (if enabled). Check R-phase and neutral wiring. Check frequency and voltage on R-phase. • • Communication Issues 17 Unable to connect with computer/laptop through USB. • • • • 18 Unable to connect with computer/laptop through CAN. • Check the controller is in “Programming” mode. Check for correct and updated drivers are installed in computer/laptop for controller. Check the cable. Check PC USB port. Check that correct and updated drivers are installed in computer/laptop for controller and Page 37 of 39 SEDEMAC Sr. No. Fault Possible Causes / Remedial Actions • • 19 Controller fails to start/stop genset after commanded through SMS. • • • • CAN device. Check the cable/device. Check computer/laptop USB port. Check the controller is in “Auto” mode. Check the controller is receiving the SMS(If controller receives SMS it will send an acknowledgement). Check the wiring of the communication port. Check the wiring of GSM module. AUTO Mode Issues 20 Controller does not receives “Remote start” command. • • • 21 22 Controller does not receives “Remote stop” command. While in Auto mode, controller issues “Start” command even if the mains present. Check the wiring of the remote start. Check the configuration for the remote start input. Check that the controller is in “Auto” mode. • Check the wiring of the remote stop. Check the configuration for the remote stop input. Check controller is in “Auto” mode. • • Check the mains wiring. Check the configuration for mains monitoring. • • • Check the actuator connections. Check mechanical linkage assembly. Check the configuration parameters for egovernor. Check the PID control gains. • • E-Governor Issues 23 A) Controller not able to maintain the target RPM. B) Engine RPM is not stable • 24 Engine cranks but does not start the engine. • • • • Check that the actuator moves to full throttle position when engine cranked. Check the actuator connections. Check mechanical linkage assembly. Check the configuration parameters for egovernor. Disclaimer: Due to continuous development, the details provided in this document are subject to change without any prior notice. Page 38 of 39 SEDEMAC SEDEMAC Mechatronics C9-10, C Block, MIDC Bhosari, Opp Faurecia Ltd, Pune 411026. Support over email: Email: support@sedemac.com Support over phone: +91-8551039888 +91-8551041888 +91-8551043888 Page 39 of 39