The IS200EXAMG1A is an Exciter Attenuation Module designed by General Electric (GE) for its EX2100™ and EX2100e™ Excitation Control Systems. This module works in conjunction with the Exciter Ground Detector Module (EGDM) or the Auxiliary Interface Board (EAUX) to form a complete ground detection system, used to monitor the insulation condition of the generator field circuit to ground. The IS200EXAMG1A module is mounted in the High Voltage Interface (HVI) module located in the auxiliary cabinet. Its primary function is to attenuate the high voltage from the field bus to a usable low-level signal for processing by the ground detection circuitry.
In the EX2100 excitation control system, the IS200EXAMG1A connects to the Exciter Power Backplane (EPBP) via a single 9-pin cable, while the EGDM plugs into the EPBP through a 96-pin connector, P2. The EGDM controls the activation of ground tests and the selection of the master controller via a relay located in the EXAM. When a ground test is activated, the bus voltage is distributed across attenuation resistors and sense resistors. The test can last up to 10 seconds. If a dead short to ground occurs on the bus, the entire bus voltage will appear across a single section of the attenuation resistors, and the system will generate a fault and shut down the exciter within 10 seconds.
In the EX2100e regulator control system, the IS200EXAMG1A interfaces with the EAUX board. The EAUX provides a ±50 V square wave signal to the EXAM and receives an analog feedback signal proportional to the ground current back from the EXAM. The EAUX provides two relay driver outputs to the EXAM: one for selecting the M1 or M2 redundant ground detector, and one for controlling a test relay (present on EXAM_B and later versions) that temporarily inserts a ground resistance to test the ground detector function.
The IS200EXAMG1A module has a simple and reliable design with no test points, fuses, or LED indicators. The module includes the following components:
J2 Connector: 9-pin D-type connector for test signals, relay control, and leakage current.
J1 Connector: 3-pin locking connector for the cable to the field flashing relay auxiliary contact.
E1, E2 Stab-on Connectors: Connect the positive and negative field bus voltages.
TB1 Terminal: Connection point for the EXAM board shield ground to the cabinet chassis ground.
JP1, JP2, JP3 Jumpers: Used to configure the module for different PPT secondary voltage levels.
II. Main Functions
The primary functions of the IS200EXAMG1A include, but are not limited to, the following:
1. High-Voltage Attenuation
The IS200EXAMG1A module uses an attenuation resistor network to reduce high voltages from the field bus (125 V dc to 1000 V dc) and the Power Potential Transformer (PPT) AC voltage (120 V ac rms to 1300 V ac rms) to low-level signals suitable for processing by the ground detection circuitry. The attenuation ratio is determined by the internal resistor network, ensuring safe output levels under both normal and fault conditions.
2. Ground Test Activation
When the EGDM or EAUX initiates a ground test, the test relay (present on EXAM_B and later versions) inside the EXAMG1A module activates, applying the test voltage to the sense resistor. The test voltage is a ±50 V square wave provided by the active master controller. The test can last up to 10 seconds, during which the system measures the ground current and calculates the ground resistance.
3. Master Controller Selection
In redundant systems, the relay within the IS200EXAMG1A module is controlled by the EGDM C board. It selects M1 or M2 as the active master controller. The relay's default state is de-energized, feeding back to the M1 controller; when energized, it feeds back to the M2 controller. This mechanism ensures that if one master controller fails, the ground detection function can still be performed by the other master.
4. Fault Detection and Protection
If a dead short to ground occurs on the bus, the entire bus voltage appears across a single section of the attenuation resistors. The IS200EXAMG1A module and the EGDM/EAUX detect this abnormal condition and generate a fault signal within 10 seconds, triggering an exciter shutdown to protect equipment and personnel.
5. Signal Isolation and Transmission
The IS200EXAMG1A module receives the square wave test signal from the EGDM or EAUX via the J2 connector and returns the attenuated signal from across the sense resistor to the ground detection circuit. The J1 connector connects to the field flashing relay auxiliary contact, allowing the test signal to be removed during field flashing.
6. Configuration Flexibility
Three jumpers, JP1, JP2, and JP3, allow configuration of the IS200EXAMG1A module's filter capacitance based on the site's PPT voltage level, ensuring accurate measurements across different voltage ranges.
III. System Applications
1. Application in EX2100 Excitation Control System
In the EX2100 excitation control system, the IS200EXAMG1A works with the EGDM to form the ground detection system:
High-Voltage Attenuation: Attenuates the high voltage from the field bus to low-level signals, sent to the EGDM via the EPBP backplane.
Ground Test Execution: Based on control from the EGDM C board, activates the test relay, applying the ±50 V square wave test voltage to the sense resistor.
Master Controller Selection: Uses the internal relay to select the active master controller between M1 and M2, ensuring redundant ground detection functionality.
Fault Protection: Assists the system in triggering a shutdown within 10 seconds upon detecting a dead short to ground.
2. Application in EX2100e Excitation Control System
In the EX2100e regulator control system, the IS200EXAMG1A works with the EAUX or ERAX:
Signal Interface: Receives the ±50 V square wave test signal from the EAUX via the J2 connector and returns the sense resistor signal to the EAUX.
Relay Control: The EAUX provides two relay driver outputs to the EXAM: one for selecting the M1 or M2 redundant ground detector, and one for controlling the test relay (EXAM_B and later versions).
Signal Removal During Flashing: Connects to the field flashing relay auxiliary contact via the J1 connector, removing the test signal during field flashing.
3. Application in PGDM Standalone Ground Detection Product
The IS200EXAMG1A can also be used in the standalone PGDM ground detection product, working with the BPPB processor board, BFGD acquisition board, and BGTB terminal board to provide ground detection functionality similar to the EX2100 system.
4. Typical Application Scenarios
Ground protection for synchronous generator excitation systems
Rotor ground monitoring for steam turbine generators
Insulation monitoring for hydro turbine generator field circuits
Ground fault detection for gas turbine excitation systems
Protection for industrial large motor excitation systems
IV. Detailed Interface Description
1. J2 Connector (Ground Detect Connector)
J2 is a 9-pin D-type connector (female) used for connection to the EPBP (EX2100) or directly to the EAUX/ERAX (EX2100e). Pin assignments are as follows:
| Pin | Signal | Description |
| 1 | M1 ±50 V dc | ±50 V square wave test signal from M1 controller |
| 2 | M2 ±50 V dc | ±50 V square wave test signal from M2 controller |
| 3 | Relay Power | Relay power supply |
| 4 | Sense attenuator | Sense attenuator signal |
| 5 | N/C | Not Connected |
| 6 | N/C | Not Connected |
| 7 | Test Relay | Test relay control (dedicated for EX2100e control) |
| 8 | Select Relay | Select relay control |
| 9 | Sense amplifier | Sense amplifier signal |
2. J1 Connector
J1 is a 3-pin locking connector for connection to the field flashing relay auxiliary contact:
| Pin | Nomenclature | Description |
| 1 | 53B Contact High | Voltage from field bus resistors to flashing relay auxiliary contact |
| 2 | 53B Contact Low | Voltage from flashing relay auxiliary contact to sense resistor |
| 3 | System Ground | System ground |
3. E1 and E2 Stab-on Connectors
| Connector | Nomenclature | Description |
| E1 | VBUS+ | Field bus positive voltage |
| E2 | VBUS- | Field bus negative voltage |
4. TB1 Ground Terminal
TB1 is the connection point for the EXAM board shield ground to the cabinet chassis ground, ensuring effective shield grounding and reducing electromagnetic interference.
V. Configuration Jumpers
The IS200EXAMG1A module has three configuration jumpers, JP1, JP2, and JP3, used to select the appropriate filter capacitance based on the site's PPT voltage level.
JP1 and JP2
These two jumpers work together to select whether the PPT voltage is greater than 750 V rms:
| Jumper Setting | Pins Connected | Applicable Voltage Range |
| JP1 and JP2 both set to 1-2 | Pins 1 and 2 | PPT > 750 V rms |
| JP1 and JP2 both set to 2-3 | Pins 2 and 3 | PPT < 750 V rms |
JP3
JP3 independently selects whether the PPT voltage is greater than 375 V rms:
| Jumper Setting | Pins Connected | Applicable Voltage Range |
| JP3 set to 1-2 | Pins 1 and 2 | PPT > 375 V rms |
| JP3 set to 2-3 | Pins 2 and 3 | PPT < 375 V rms |
Note: Jumper settings must be configured according to the actual site PPT secondary voltage. Incorrect settings may lead to inaccurate measurements or module damage.
VI. Installation and Replacement
1. Mounting Location
The IS200EXAMG1A module is mounted on a Glastic® bracket inside the High Voltage Interface (HVI) module in the auxiliary cabinet. During installation, ensure the module is firmly seated and all connectors are correctly attached and tightened.
2. Replacement Procedure (EX2100 or EX2100e System)
Important Safety Warnings:
The EXAM module is located in a high-voltage circuit. Power to the excitation system MUST be turned off before replacement. Follow the complete de-energizing procedures outlined in GEH-6631 (EX2100) or GEH-6780 (EX2100e). Adhere to all local Lock-out/Tag-out practices. Allow time for capacitors to discharge.
Use safety test equipment designed for high voltages to confirm circuits are de-energized before touching them.
Adhere to ESD (Electrostatic Discharge) precautions when handling the module. Wear a grounding strap and store the module in anti-static bags.
The EXAM module does NOT support online replacement. Power must be off before replacement.
Replacement Steps:
Verify Power Off: Ensure the excitation system is completely de-energized.
Open Cabinet Door: Open the auxiliary cabinet door. Using high-voltage test equipment, verify that circuits are de-energized.
Label Cables: Verify all cables are correctly labeled according to the markings on the module for easy reconnection.
Disconnect Cables:
Disconnect E1 and E2 stab-on connectors.
Disconnect J1 and J2 connectors.
Disconnect the ground wire from TB1.
Remove Old Module: Carefully unseat the module from the mounting pins and remove it from the Glastic® bracket.
Inspect New Module: Verify that the JP1-JP3 jumper settings on the new module match the original module.
Install New Module: Firmly seat the new module onto the Glastic® bracket.
Reconnect Cables: Reconnect all cables and the ground wire as labeled, and tighten connectors.
Restore Power: Close the cabinet door, restore power to the excitation system following procedures, and test operation.
3. Replacement Procedure in a PGDM Module
Verify Power Off: Ensure both the PGDM and the protected excitation equipment are completely de-energized.
Follow steps 2-8 above.
