Datasheet Inverter control board »FP1602«

Application

The Inverter control board »FP1602« is a printed circuit board for use in Fischer Panda inverter synchronous generators with 1-phase and 3-phase inverters with an output of more than 25 kVA.


Product description

  • The Inverter control board »FP1602« can control up to 4 external IGBT driver boards »FP1601« directly.
  • Voltage measurement (8 x ADC).
  • Current measurement via 4 external Hall effect sensors.
  • The module can measure up to 6 temperatures (Sensor KTY81 – 210).
  • 3 switching outputs (high side switches 1,3 A).
  • 8 CMOS outputs.
  • 1 output for controlling a fan (PWM, 1 A max.).
  • CAN interface for communication.

Connectors

The Inverter control board »FP1602« and its connectors
The Inverter control board »FP1602« and its connectors
ConnectorAssignment
X201IGBT driver module 1
X202IGBT driver module 2
X203IGBT driver module 3
X204IGBT driver module 4
X301Synchronization
X2Program / Debug
X401Voltage measurement
X501Temperature measurement
X502Hall-effect current sensor DC-Link
X504Hall-effect current sensor AC (L1, L2, L3)
X103Power and CAN bus communication
X503Digital outputs
X506Fan
X505Digital Outputs (CMOS)

Pin assignments

Pin assignment of »X201« for IGBT driver module 1
PinLine
1GND
2PWM1A
3GND
4PWM1B
5GND
6+5 V
7+5 V
8GND
9+15 V
10+15 V
11+15 V
12+15 V
13GND
14GND
15Status input (SO IGBT module)
16GND

Pin assignment of »X202« for IGBT driver module 2
PinLine
1GND
2PWM1A
3GND
4PWM1B
5GND
6+5 V
7+5 V
8GND
9+15 V
10+15 V
11+15 V
12+15 V
13GND
14GND
15Status input (SO IGBT module)
16GND

Pin assignment of »X203« for IGBT driver module 3
PinLine
1GND
2PWM1A
3GND
4PWM1B
5GND
6+5 V
7+5 V
8GND
9+15 V
10+15 V
11+15 V
12+15 V
13GND
14GND
15Status input (SO IGBT module)
16GND

Pin assignment of »X204« for IGBT driver module 4
PinLine
1GND
2PWM1A
3GND
4PWM1B
5GND
6+5 V
7+5 V
8GND
9+15 V
10+15 V
11+15 V
12+15 V
13GND
14GND
15Status input (SO IGBT module)
16GND

Pin assignment of »X301« for Synchronization
PinLine
1Sync I / O
2GND

Pin assignment of »X2« for Program / Debug
PinLine
1/MCLR
2+3,3 V
3GND
4PEGD1
5PGEC1

Pin assignment of »X401« for the voltage measurement
PinLine
1Inverter Output L1
2Inverter Output L2
3Inverter Output L3
4Inverter Output Load Contactor L1
5Inverter Output Load Contactor L2
6Frequency measurement Winding
7DC-Link (+)
8DC-Link (-)
9N

Pin assignment of »X501« for temperature measurement
PinLine
1Sensor 1 (+)
2Sensor 1 (-)
3Sensor 2 (+)
4Sensor 2 (-)
5Sensor 3 (+)
6Sensor 3 (-)
7Sensor 4 (+)
8Sensor 4 (-)
9Sensor 5 (+)
10Sensor 5 (-)
11Sensor 6 (+)
12Sensor 6 (-)

Pin assignment of »X502« for the Hall-effect current sensor DC-Link
PinLine
1+5 V
2GND
3Input

Pin assignment of »X504« for the Hall-effect current sensor AC (L1, L2, L3)
PinLine
1+5 V Sensor L1
2GND Sensor L1
3Input Sensor L1
4+5 V Sensor L2
5GND Sensor L2
6Input Sensor L2
7+5 V Sensor L3
8GND Sensor L3
9Input Sensor L3

Pin assignment of »X103« for power and CAN bus communication
PinLine
1Battery (+)
2Battery (-)
3not used
4CAN low
5CAN high
6not used

Pin assignment of »X503« for the digital outputs
PinLine
1DO1 – Output Contactor (+)
2DO1 – Output Contactor (–) (GND)
3DO2 – Generator online (+)
4DO2 – Generator online (-) (GND)
5DO3 – (+) not used
6DO3 – (-) not used

Pin assignment of »X506« for the fan
PinLine
1Fan (+)
2Fan (-)

Pin assignment of »X505« for the digital outputs (CMOS)
PinLine
1GND
2Output 1 – LED »Power«
3Output 2 – LED »L1«
4Output 3 – LED »L2«
5Output 4 – LED »L3«
6Output 5
7Output 6
8Output 7
9Output 8