IC695PSD140 GE Fanuc RX3i Power Supply Datasheet & Manual
Manufacturer: GE Fanuc
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Part Number: IC695PSD140-SA
Condition:New with Original Package
Product Type: Power Supply Modules
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Country of Origin: USA
Payment:T/T, Western Union
Shipping port: Xiamen
Warranty: 12 months
GE Fanuc IC695PSD140 PACSystems RX3i Power Supply Module
Configured for supplying regulated DC power to CPU and I/O modules in the rack in PACSystems RX3i networks, the GE Fanuc IC695PSD140SA (IC695PSD140 Power Supply Module) provides direct physical/electrical execution.
Hardware Specifications
| Parameter | Specification |
|---|---|
| Model | IC695PSD140SA |
| Brand | GE Fanuc / Emerson |
| Origin | USA |
| Weight | 0.26 kg (0.56 lbs) |
| Dimensions | Single-slot universal backplane module |
| Operating Temp | 0 to 60 deg C |
| Power Consumption | 60 Watts maximum input power at full load |
| Nominal Rated Voltage | 120/240 VAC or 125 VDC |
| Input Voltage Range | 85 to 264 VAC / 100 to 300 VDC |
| Output Power | 40 Watts maximum total output |
| Output Channels | 3 internal DC voltage rails |
| DC Output Ratings | 24 VDC @ 0 to 1.6 A; 5.1 VDC @ 0 to 6 A; 3.3 VDC @ 0 to 9 A |
| Channel Limits | 5.1 VDC: 30 Watts maximum; 3.3 VDC: 30 Watts maximum |
| Ripple / Noise | 150 mV |
| Isolation | None |
| Baseplate Integration | Up to 4 modules in a single universal backplane |
| Redundancy Support | Hardware configuration allows parallel execution |
| Mechanical Switch | Integrated front panel On/Off toggle switch |
| Diagnostics | 4 front panel status LED indicators |
| Storage Temp | -40 to 85 deg C |
Profinet / EtherNet/IP Deterministic Networks & Hardware Redundancy
The IC695PSD140SA distributes three distinct DC voltage rails across the universal backplane to maintain the signal integrity of communication interfaces handling Profinet / EtherNet/IP deterministic networks. Up to four power supply modules can be installed in a single RX3i rack to execute active load-sharing or n+1 hardware redundancy configurations.
When linked in a parallel redundancy matrix, the internal control loops balance output currents automatically. This hardware architecture prevents transient voltage sags from disrupting backplane logic processing during localized input supply faults or the complete electrical failure of a companion power supply module.
Frequently Asked Questions
Q: Does the IC695PSD140SA support Hot Module Insertion and Removal (RIUP)?
A: Yes. When deployed in a redundant, multi-supply configuration on an RX3i universal backplane, an individual power supply module can be extracted or inserted under power without interrupting the operation of the executing CPU or online I/O modules.
Q: How are internal overcurrent and overvoltage faults managed by the module?
A: The module incorporates built-in electronic protection circuitry. If an output rail encounters an overcurrent or overvoltage condition that exceeds the factory-set thresholds, the module safely throttles or cuts execution of the affected outputs and changes the status of the front-facing diagnostic LEDs.
Q: What are the continuous limits when mixing the 5.1 VDC and 3.3 VDC outputs?
A: While the combined total output of the module cannot exceed 40 Watts, the individual internal output stages restrict both the 5.1 VDC rail and the 3.3 VDC rail to a maximum threshold of 30 Watts each. Load calculations must balance these independent parameters.
Field Installation Guidelines
- Backplane Insertion: De-energize the specific external supply lines. Slide the chassis frame along the plastic guides of the universal baseplate until the rear bus interfaces seat firmly, then secure the top and bottom retention screws to complete mechanical integration.
- Terminal Wiring: Connect the input supply conductors to the front terminal block using wire sizes matched to the 6 Amps terminal rating. Tighten terminal screws to standard torque limits to prevent resistive heating at the junction.
- Conduit Segregation: Route incoming 120/240 VAC or 100-300 VDC power conductors through separate physical wire ducts away from low-voltage DC signals, network lines, and analog measurement cables to avoid electromagnetic coupling.
- Thermal Management: Ensure vertical clearance zones above and below the RX3i rack are not blocked by wiring harnesses or wire ducts, allowing continuous passive airflow to maintain internal operating temperatures below 60 deg C.