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Phone: +86 16626708626Description
Product Model: GE IC3600STKH1
Product Brand: General Electric
Product Series: Speedtronic Mark II
Key Features:
- Provides reliable turbine temperature control and monitoring
- Engineered for endurance in harsh vibration and heat exposure
- Compatible with GE legacy Speedtronic rack systems
- Minimal configuration requirement and fast diagnostic response
- IC3600STKH1
- IC3600STKH1
Technical Specifications
| Specification | Details |
|---|---|
| Model | GE IC3600STKH1 |
| Manufacturer | General Electric |
| Series | Speedtronic Mark II |
| Functional Category | Temperature/process interface module |
| Rack Format | IC3600 standard rotary-insert |
| Typical Input | Thermal signal/relay conditioning |
| Operating Temperature | -10°C to +65°C |
| Vibration Resistance | High (turbine enclosure rated) |
| Power Feed | Control rack integrated |
| Diagnostics | Multimeter probe points available |
| Maintenance Interval | 12–24 months recommended |
| Replacement Style | Hot-swap not recommended (power down first) |
| Failure Mode | Predictable linear drift or contact degradation |
Technical Features & Benefits
The GE IC3600STKH1 was engineered with durability in focus. Built using mid-density industrial-grade PCB architecture, reinforced solder joints, and conductive shielding where required, it withstands steady turbine-induced vibration. Technicians often report high MTBF (mean time before failure), with many original units still working after twenty years of intermittent service cycles.
Key benefits offered by GE IC3600STKH1:
- Accurate signal conditioning: Converts raw thermal inputs into clean process signals for logic circuits.
- Robust thermal resistance: Withstands temperature fluctuations in turbine enclosures.
- Proven in harsh field applications: Common in desert-based high-heat engines and coastal power plants.
- Low maintenance demands: Standard inspection routines suffice; no complex configuration.
- Reliable safety behavior: Enhances logic chain predictability during high-heat alarms.
One field anecdote noted by an engineer at a 120 MW gas turbine station in Southeast Asia mentioned the GE IC3600STKH1 still functioned correctly after a severe enclosure overheating event, while other digital units experienced drift. The board required only contact cleaning and resistor re-evaluation before resuming operation.
Another small but meaningful benefit is accessibility. Test points on the card allow direct multimeter signal tracing. No proprietary diagnostic tools required. This is useful for maintenance crews during turbine startup or shutdown testing.
