1-Blind Mating Connector, 2-Retaining Flange,
3-Positioning Handle, 4-Runners
Fig 1-6 Battery Module
Main Intelligence Module (MIM)Main Intelligence Module (MIM)
Main Intelligence Module (MIM)Main Intelligence Module (MIM)
Main Intelligence Module (MIM)
The MIM is the computer for the Power Array system. It
gathers and processes data, including monitoring the condi-
tion of each of the modules.
The PowerView functions as the user interface for the MIM,
and is used to access data, and to configure the system. When
a redundant intelligence module is installed and function-
ing, the main intelligence module can be replaced without
placing the load at risk. The main intelligence module also
communicates with an external battery frame (if present).
The main intelligence and the redundant intelligence mod-
ule are factory installed in the upper right bay of the frame.
Important: The MIM is always installed in the bottom rack,
and the RIM is always installed in the top rack in this bay.
1-Blind Mating Connector, 2-Flip Latch Micro Switch,
3-Retaining Screw, 4-Positioning Handle, 5-Installation Rail
Fig 1-7 Main & Redundant Intelligence Module
Chapter 1 - Physical Representation
1-3
Redundant Intelligence Module (RIM)Redundant Intelligence Module (RIM)
Redundant Intelligence Module (RIM)Redundant Intelligence Module (RIM)
Redundant Intelligence Module (RIM)
The redundant intelligence module is a backup version of
the main intelligence module. It provides redundancy in the
event of a MIM failure or while a MIM is being replaced. If a
functioning MIM is present, the RIM can be removed and
replaced without placing the load at risk. The condition of
the RIM can be determined with the PowerView display.
Input CirInput Cir
Input CirInput Cir
Input Cir
cuit Brcuit Br
cuit Brcuit Br
cuit Br
eakereaker
eakereaker
eaker
The input circuit breaker protects the Power Array from ex-
treme overloads. When switched to stand by, the Power
Array is disconnected from incoming (mains) voltage. When
switched to the on position, power flows from the mains
power source into the Power Array. Under normal operating
conditions, the input circuit breaker always remains in the
on position.
Fig 1-9 Input Circuit Breaker & Maintenance Bypass Switch
Maintenance Bypass SwitchMaintenance Bypass Switch
Maintenance Bypass SwitchMaintenance Bypass Switch
Maintenance Bypass Switch
When switched to the on position, the maintenance bypass
switch bypasses the Power Array and causes the load equip-
ment to be powered directly from the mains power source.
When it is switched to the off position, mains power flows
into the Power Array, and conditioned power is delivered to
the load equipment. The load equipment is unprotected when
the maintenance bypass switch is in the on position. Under
normal operating conditions, the maintenance bypass switch
remains in the off position.
(Front of Frame)
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