The IS200EHPAG1AAA is a gate pulse amplifier board manufactured by GE Energy as part of the EX2100™ excitation control series. This board is specifically designed for use in 100 mm EX2100 excitation systems. Its primary function is to receive gate commands from the ESEL (Exciter Selector) board and control the gate firing of up to six Silicon Controlled Rectifiers (SCRs) on the power bridge. In addition to gate pulse amplification, the IS200EHPAG1AAA serves as the interface for several critical feedback and monitoring functions, including current conduction feedback, bridge airflow monitoring, line filter airflow detection, blown fuse detection, and bridge temperature monitoring.
The IS200EHPAG1AAA is a high‑reliability board that provides galvanic isolation between individual SCR gates, ensuring safe and stable operation of the power converter. Some revisions of the EHPA board support an optional daughterboard, the EHFC (Exciter Heating and Fan Control), which enables start/stop control of the bridge cooling fan or redundant (lead/lag) bridge cooling fans. For detailed information on EHFC interfaces and operation, refer to GEI‑100548.
The board is powered by a nominal 125 V dc source (80‑140 V dc range) supplied from the EPDM (Exciter Power Distribution Module). An on‑board DC/DC converter provides the necessary power for SCR gating across the full input voltage range. A comprehensive set of LEDs on the front panel provides visual indication of power supply status, gate command activity, SCR gate firing status, conduction sensor inputs, fan rotation, temperature alarms, and fault conditions. The IS200EHPAG1AAA is designed for easy troubleshooting and maintenance, with clearly labelled test points and jumpers for configuration.
The suffix AAA indicates a specific revision and factory configuration that maintains full backward compatibility with all EX2100 excitation systems while incorporating the latest design enhancements. This board is intended for use by trained personnel familiar with GE excitation products.
Functional Description
The IS200EHPAG1AAA receives six gate commands from the ESEL board via a twisted‑pair, multi‑conductor, shielded cable (connected through the 37‑pin D‑sub connector J7). Each gate command signal is optically coupled, filtered, AC coupled, and then sent to one of six Gate Pulse Amplifiers (GPAs), one per SCR. The board provides galvanic isolation between individual SCR gates, preventing cross‑talk and ensuring reliable firing.
The board also interfaces with various sensors to monitor the health and operating status of the power bridge. These sensor inputs include:
Conduction currents on all three phases of the bridge input. Hall Effect sensors located on the EMCS boards are powered by the EHPA, and their signals are received at connectors J9, J10, and J11. The EHPA conditions these signals and sends bridge current status to the controller.
Bridge temperature is monitored via an RTD (thermistor) sensor connected at J13. The board generates an alarm when the temperature exceeds a user‑configurable threshold and a fault (trip) when a higher threshold is exceeded.
Bridge airflow (fan rotation) is sensed through a fan sensor connected at J12. The EHPA accepts either a pulsed (frequency) or dry‑contact, normally open sensor input. The detection mode is configured by berg jumper JP2. A second redundant fan can be connected via the optional EHFC daughterboard.
Line filter fuse failure is detected via a single normally closed dry contact input at J14.
Line filter fan rotation (if used) is sensed at J20 and configured by jumper JP3. Most applications do not require fan cooling for the line filter.
The sensor feedback logic generates alarm and fault conditions. An alarm is generated if the line filter fuse fails, if a fan stops (or pulse train is lost), or if the RTD exceeds the alarm threshold. A temperature trip is generated if the RTD exceeds the fault threshold, or if the bridge cooling fan(s) fail. Two failure modes cause the bridge to be shut down: a temperature trip or an EHPA power supply failure. If either occurs, the EHPA stops gating until its control power is cycled.
Hardware Characteristics
The IS200EHPAG1AAA is a printed wiring board designed for mounting inside the Power Conversion Cabinet of the EX2100 excitation system. Its exact dimensions are not specified in the document, but it follows the standard 100 mm form factor for EX2100 boards.
Connectors and I/O
The board is equipped with the following connectors:
Connector | Type | Description |
J1, J2, J3, J4, J5, J6 | 2‑pin connectors (each) | Gate power connections to SCRs 1 through 6. Pin 1 = SCR cathode, Pin 2 = SCR gate. |
J7 | 37‑pin D‑sub female | Receives gate commands from ESEL and sends status signals (alarm, fault, conduction sensor signals) back to the controller. Pinout is detailed in the attached document (pages 8‑9). |
J8 | 2‑pin connector | Power supply input: Pin 1 = 125 V dc (80‑140 V dc), Pin 2 = PSCOM (power supply common). |
J9, J10, J11 | 4‑pin connectors (each) | For conduction sensors (Hall Effect) on phases A, B, and C respectively. Pins: 1 = power to sensor, 2 = sensor input, 3 = power supply common, 4 = sensor input (differential). |
J12 | 4‑pin connector | Bridge fan sensor (primary). Pins: 1 = power to fan sensor, 2 = power common, 3 = return from fan sensor, 4 = not connected. |
J13 | 6‑pin connector | Bridge RTD (thermistor) sensor. Pins 5 = voltage supply, 6 = current signal return. Other pins not used. |
J14 | 2‑pin connector | Line filter fuse sensor (normally closed dry contact). Pin 1 = power to contact, Pin 2 = return. |
J20 | 4‑pin connector | Line filter fan sensor (optional). Pinout same as J12. |
Jumpers and Test Points
The IS200EHPAG1AAA includes configuration jumpers and test points for setup and troubleshooting.
Jumpers:
Jumper | Position | Configuration |
JP2 | Shorted | Enables fan 1 operation sensor (pulse train mode) |
JP2 | Open | Disables fan 1 operation sensor (dry contact mode) |
JP3 | Shorted | Enables line filter fan sensor operation at J20 |
JP3 | Open | Disables line filter fan sensor operation |
Test Points (partial list):
Test Point | Nomenclature | Description |
TP40 | P1FA | Power supply input voltage (125 V dc) |
TP41 | N50 | Negative 50 V reference |
TP42 | P8 | +8 V dc supply |
TP43 | P40 | +40 V dc supply |
TP44 | PCOM | Common for 40 V supply |
TP45 | P15 | +15 V dc supply |
TP46 | ACOM | Analog common for 15 V supply |
TP47 | N15 | -15 V dc supply |
TP48 | DCOM | Digital common for 5 V supply |
TP49 | P5 | +5 V dc supply |
TP50 | P12 | +12 V dc supply |
TP51 | PCOM | Common for 12 V supply |
TP54 | LINFILN | Line filter sensor input (closed = high) |
LED Indicators
A comprehensive set of LEDs provides visual status of the board and the power bridge:
Designation | Color | Description |
PSOK | Green | EHPA power on, power supply OK |
GT1I, GT2I, GT3I, GT4I, GT5I, GT6I | Yellow | Gate pulse input from ESEL is active (1 through 6) |
GT1O, GT2O, GT3O, GT4O, GT5O, GT6O | Yellow | SCR gate pulse amplifier output is active (1 through 6) |
ALRM | Yellow | Alarm condition feedback; blinking is normal (two brief flashes every ~10 seconds). Longer flashes indicate an alarm reported to control. |
FAN | Red | Air flow sensor; flashing = fan not running. Note: Blinking when bridge is not gating is normal (fan not running or status unknown). |
FUSE | Red | Line filter fuse sensor; flashing = line filter fuse failed. |
TEMP | Red | RTD low temperature alarm; flashing = alarm. |
TFLT | Red | Temperature sensor or RTD high temperature alarm; flashing = alarm. |
FALT | Red | Bridge temperature fault, fan fault, and/or EHPA power failure. |
PHA, PHB, PHC | Yellow | Conduction sensor input active for phase A, B, or C. |
Installation and Replacement Procedures
Handling Precautions
Static sensitivity – The IS200EHPAG1AAA contains static‑sensitive components. Always wear a grounding wrist strap and handle the board only at a grounded workstation. Store the board in its antistatic bag when not in use.
De‑energise before handling – To prevent electric shock, turn off power to the excitation system (or the power converter section) and verify zero voltage on all circuits before touching the board or any connected cables. Follow all local lock‑out/tag‑out procedures. Refer to GEH‑6631 (Installation and Startup Guide) for complete de‑energising procedures.
Do not insert or remove with power applied – Doing so may cause equipment damage or personal injury.
Replacement Procedure
The EHPA board is not online‑maintainable unless the power converter section includes the online repair switch option. The bridge and EHPA power must be off before replacement.
De‑energise the excitation system or the specific power converter section containing the board. Verify that all EHPA LEDs are off.
Open the Power Conversion Cabinet door and test all electrical circuits for zero voltage.
Label all cables connected to the EHPA board to ensure correct reconnection. If an EHFC daughterboard is present, refer to GEI‑100548 for additional procedures.
Carefully disconnect all cables from the board.
Remove the board from its mounting (unscrew or unlatch as appropriate).
Before installing the replacement board, verify that all jumpers (JP2, JP3) are set to the same positions as on the original board.
Insert the replacement IS200EHPAG1AAA board and secure it to its mounting.
Reconnect all cables in the order noted, and tighten connectors securely.
Close the cabinet door and restore power. Verify that the PSOK LED illuminates green and that other LEDs behave as expected.
When ordering the IS200EHPAG1AAA, use the complete part number exactly as shown. The part number follows GE’s convention:
IS200 – Innovation Series, 200‑class.
EHPA – Functional acronym: Exciter Gate Pulse Amplifier.
G1 – Generation/version.
A – Base designator.
A – Modifier (e.g., coating or component variation).
A – Revision A.
Warranty and Order Placement
Warranty replacements (within the warranty period): Contact GE Energy Post Sales Service:
GE Energy
Post Sales Service
1501 Roanoke Blvd.
Salem, VA 24153‑6492 USA
Phone (US): +1 888 GE4 SERV (888 434 7378)
Phone (International): +1 540 378 3280
Fax: +1 540 387 8606
Spare parts or non‑warranty orders: Contact your nearest GE Sales or Service Office. Provide:
Note: All digits and letters in the part number are significant. GE may substitute later compatible revisions, but backward compatibility is assured.
Diagnostics and Maintenance
The IS200EHPAG1AAA does not require routine calibration. However, periodic inspection of LED status and test point voltages is recommended. The EX2100 control system (via the ESEL and higher‑level controller) provides diagnostic messages for gate pulse failures, conduction sensor faults, fan failures, temperature alarms, and fuse failures.
Normal LED behaviour:
PSOK: steady green.
GTxI and GTxO: flash in synchronisation with gate pulses (normal when bridge is firing).
ALRM: two brief flashes every ~10 seconds (normal). Longer flashes indicate an active alarm.
FAN: should be off when bridge fan is running. Flashing indicates fan stopped or sensor fault.
FUSE: off when line filter fuse is intact; flashing indicates blown fuse.
TEMP/TFLT: off under normal temperature; flashing indicates alarm or fault.
PHA, PHB, PHC: illuminate when corresponding phase conducts.
If a fault is indicated (FALT LED on):
