GE IS210BAPAH1A Mark VI Backplane Power Adapter Module
Manufacturer: GE Fanuc
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Part Number: IS210BAPAH1A
Condition:New with Original Package
Product Type: Power Distribution ModuleS
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Country of Origin: USA
Payment:T/T, Western Union
Shipping port: Xiamen
Warranty: 12 months
GE IS210BAPAH1A Backplane Power Adapter Module
The GE IS210BAPAH1A, also cataloged as the GE IS210BAPA Backplane Power Adapter Module, operates as a dedicated hardware component for DC power distribution and isolation management within Mark VI system platforms.
Hardware Specifications
| Parameter | Specification |
|---|---|
| Model | IS210BAPAH1A |
| Brand | General Electric (GE) |
| Origin | United States |
| Weight | 0.3 kg |
| Dimensions | 15.0 cm x 9.0 cm x 11.0 cm |
| Operating Temp | -40 to +70 deg C |
| Power Consumption | 28 VDC nominal input voltage |
| Protection Layout | Overcurrent and short-circuit protection |
| Circuit Fusing | Replaceable fuses rated at 2 to 5 A per channel |
| Structural Isolation | Channel-to-channel and channel-to-system electrical isolation |
| System Interface | Direct rack-mounted backplane contact interface |
| Relative Humidity | 5 to 95% RH, non-condensing |
Deterministic Power Interfacing and Backplane Management
The backplane power adapter coordinates with centralized processors via integrated connection traces to stabilize voltage delivery across internal racks. Because the module directly impacts the backplane bus communication velocity, the internal filtering components strip high-frequency ripple from the 28 VDC input before routing power to adjacent logic boards.
This clean regulation enables predictable firmware flash compatibility execution down-line by preventing voltage-drop resets. Transitioning across expanded processing chassis, the board maintains structural current boundaries to facilitate stable I/O density scaling. Consequently, the isolated paths ensure that the main automation rack retains synchronous communication links over local networks without noise disruption.
Frequently Asked Questions
Q: How does the power adapter isolate localized electrical faults from the main system?
A: The hardware incorporates individual replaceable fuses rated between 2 and 5 A on each outbound branch. If a short circuit occurs on a downstream I/O pack, the local fuse opens the circuit while channel-to-channel isolation barriers block the voltage spike from crossing onto adjacent hardware slots.
Q: Can maintenance teams execute a dynamic hot-swap replacement on this adapter during turbine operation?
A: No, technicians must completely isolate the primary 28 VDC incoming system power supply before replacing or unseating this unit. Removing the power adapter under live current conditions breaks the backplane logic loop and immediately de-energizes connected I/O equipment.
Q: What mechanism tracks the health and conductivity of the sub-channel fuses?
A: The board interfaces directly with system monitoring diagnostics through the backplane contacts. The main controller senses the downstream voltage state of each fused circuit line and pushes real-time open-circuit fault alerts directly to the HMI screen.
Field Installation Guidelines
Mount the power adapter card directly into its designated position within the Mark VI cabinet rack by guiding the structural edges along the chassis tracking grooves. Technicians must wear static-safe wrist bands tied to an unpainted point on the metal frame before removing the hardware from its static shielding bag.
Push the component inward with steady manual pressure until the edge connectors sit fully inside the mating backplane sockets, then tighten the alignment fasteners to protect against industrial vibration profiles. Keep all incoming DC supply lines isolated from heavy motor or high-power variable frequency drive wiring to prevent electromagnetic induction from transferring to the logic power plane.