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GE L90-G00-HCH-F8F-H6P-L6L-W7R Current Differential System
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- Part Number: L90-G00-HCH-F8F-H6P-L6L-W7R
- Brand: GE Fanuc
- Type: Current Differential System
- Dimensions: 4x18.5x12.7cm
- Country of Origin: USA
- Barcode: 8537101190
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Additional Specifications
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Product Description
The GE Multilin L90-G00-HCH-F8F-H6P-L6L-W7R, also cataloged as the L90 Line Current Differential System, operates as a dedicated hardware component for sub-cycle transmission line protection, phase-segregated fault clearance, and real-time telemetry routing within substation automation networks. The microprocessor-based automation platform evaluates local and remote analog current waveforms natively at the hardware tier to detect and isolate phase and ground faults across utility grid boundaries.
Hardware Specifications
| Parameter | Specification |
|---|---|
| Model | L90-G00-HCH-F8F-H6P-L6L-W7R |
| Brand | GE Multilin (General Electric) |
| Series | Universal Relay (UR) Protection Platform |
| Origin | Canada / United States |
| Product Weight | 33.07 lbs (15.00 kg) |
| Mounting Typology | Horizontal chassis rack layout |
| Operator Interface | Enhanced Front Panel with local target matrices and status display |
| Central Processing Unit | CPU Type V engine with integrated RS485 and 3 x 100BaseT Ethernet ports |
| Transceiver Configuration | Small Form-factor Pluggable (SFP) module with RJ45 connectivity |
| Operational Power Input | 125/250 V AC/DC nominal operating range power supply board |
| Analog Sampling Grid | 4 Current Transformers (CT) / 4 Voltage Transformers (VT) with enhanced diagnostics |
| Binary Signal Density | 16 discrete digital inputs for contact status tracking |
| Inter-Relay Media Link | Single-mode fiber media, 2-channel ELED optical interface |
| Core Protection Functions | Phase segregated line differential (87L), distance protection (21), overcurrent (50/51) |
| Product Type | Protection Relays |
Industrial Control & Drive Communications
- Profinet / EtherNet/IP Deterministic Networks and Substation Comm Loop Execution The protection system embeds a Type V CPU structure integrating three independent 100BaseT Ethernet interfaces. This digital processing layer hosts native IEC 61850 GOOSE and Modbus TCP/IP communication profiles parallel to the primary differential algorithms, delivering deterministic packet delivery and inter-relay telemetry sharing over high-speed optical loops.
- I/O Density Scaling and Real-Time Sample Synchronization The hardware design optimizes subsystem scaling by integrating 16 high-speed digital inputs and an enhanced 4CT/4VT analog measurement grid into a unified, rack-mounted frame. The analog input channels digitize raw current and voltage waveforms at 64 samples per cycle, utilizing single-mode ELED optical channels to continuously synchronize sampling clocks with remote-terminal relays and resolve propagation delays down to sub-millisecond margins.
Frequently Asked Questions
Q: What protective safety actions manifest if the single-mode optical fiber link experiences a complete communication failure?
A: Breaking the inter-relay fiber channel prevents the exchange of real-time current vector data. The internal Type V logic engine instantly detects a data loss fault, suspends the 87L line differential protection scheme to avert an uncommanded trip, sets an alarm register bit over the network, and transitions seamlessly to active local distance and overcurrent backup modes.
Q: Can the internal analog 4CT/4VT modules be pulled or replaced while the current transformer circuits are energized?
A: No, unseating or disconnecting internal hardware modules while the relay housing is active or connected to live CT loops is restricted. Opening a current transformer secondary circuit under load generates lethal inductive high-voltage transients that destroy terminal blocks and cause catastrophic physical damage to the hardware.
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