The HIMA B9361, also cataloged as the B9361 Safety Power Supply Module, serves as the primary B9361 Power Supply Module utilized to execute regulated DC power distribution across HIQuad/HIMax Series platforms.
| Parameter | Specification |
|---|---|
| Model | B9361 (Alternate Part No: 997009361) |
| Brand | HIMA |
| Origin | Germany |
| Module Type | Redundant Power Supply Module |
| Input Voltage Range | 110-230 VAC, 50/60 Hz |
| Output Voltage | 24 VDC regulated (up to 10 A) or 5 VDC (up to 18 A) |
| Redundancy | N+1 or Triple-Module Redundant (TMR) topologies |
| Response Time | < 10 ms |
| Operating Temp | -25 to +70 deg C |
| Power Consumption | Varies by output load factor (Max load capacity dependent) |
| Dimensions | 221 x 482 x 300 mm (Rack-mount variant configuration) |
| Weight | 3.2 kg (8.00 lbs packaged assembly) |
The B9361 engineering framework features integral coupling matrices that support triple modular redundancy (TMR) 2oo3 architecture options when populated within dedicated HIMA backplane enclosures. Internal voting circuits continually assess current shared performance across parallel power rails, enabling automatic load-sharing transitions and sub-millisecond fault isolation. Complete galvanic isolation separates the incoming 110-230 VAC line potentials from the internal DC logic buses. If internal over-voltage tracking thresholds are breached, the hardware switches to a diagnostic fail-safe state execution, shutting down the affected output regulator loop to prevent structural electrical faults from spreading to adjacent safety processors.
Q: What are the restrictive parameters when performing a hot-swap replacement on the B9361 module?
A: Hot-swapping the B9361 module is permissible only when it operates inside a valid N+1 or TMR redundant configuration where the remaining parallel power supply units can sustain the total active backplane current load. The faulty unit must be pulled straight out of its slot to prevent physical backplane pin short-circuits.
Q: How does the B9361 communicate internal hardware faults or output voltage degradation to the master controller?
A: The module incorporates built-in diagnostic real-time fault detection loops that interface with separate fault relay signaling contacts. When output boundaries drop or an internal diode bridge fails, the hardware state shifts, de-energizing the fault relay and toggling the front-panel indicator matrix to prompt an system alarm.
Q: What specific hardware step is required to determine if the module drives a 24 VDC or 5 VDC subplane architecture?
A: Output parameters are governed by factory component populating configurations matching the architecture family (HIMax versus HIQuad). Part allocation must be confirmed via the specific suffix sub-code and order scheme before seating the card into an active backplane track.
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