General performance descriptions, Car2912te series front-end, Preliminary data sheet – GE Industrial Solutions CAR2912TE series User Manual

GE

Preliminary Data Sheet

CAR2912TE series front-end

Input: 90Vac to 264Vac; Output: 12Vdc @ 2900W; 3.3 or 5Vdc @ 4A Standby

October 21, 2013

©2013 General Electric Company. All rights reserved.

Page 18

LEDS test ON: Will turn-ON simultaneously the front panel

LEDs of the Power supply sequentially 7 seconds ON and 2

seconds OFF until instructed to turn OFF. The intent of this

function is to provide visual identification of the power supply

being talked to and also to visually verify that the LEDs
operate and driven properly by the micro controller

.

LEDS test OFF: Will turn-OFF simultaneously the four front

panel LEDs of the Power supply.

OR’ing Test: This command verifies functioning of output

OR’ing. At least two paralleled power supplies are required.

The host should verify that N+1 redundancy is established. If

N+1 redundancy is not established the test can fail. Only one

power supply should be tested at a time.
Verifying test completion should be delayed for

approximately 30 seconds to allow the power supply

sufficient time to properly execute the test.
Failure of the isolation test is not considered a power supply

FAULT because the N+1 redundancy requirement cannot be

verified. The user must determine whether a true isolation

fault indeed exists.

Dual Master Control :

Two independent I

2

C lines and SMBAlert signals provide true

communications redundancy allowing two independent

controllers to sequentially control the power supply.

A short or an open connection in one of the I

2

C lines does not

affect communications capability on the other I

2

C line. Failure

of a ‘master’ controller does not affect the power supplies

and the second ‘master’ can take over control at any time

when the bus is idle.

Conceptual representation of the dual I

2

C bus system.

The SMBAlert line exciting the power supply combines the

Alert functions of power supply control and

dual_bus_control.

Read Bus Status(0xD9):

Bus_Status is a single byte read

back. The command can be executed by either master at

any time independent of who has control.
The µC may issue a clock stretch, as it can for any other

instruction, if it requires a delay because it is busy with

other activities.
Automatically resetting into the default state requires the

removal of bias supply from the processors.

Bit

Position

Flag

Default

Value

7

Bus 1 command error

0

6

Bus 1 SMBAlert enabled

0

5

Bus 1 requested control

0

4

Bus 1 has control of the PS

0

3

Bus 0 command error

0

2

Bus 0 SMBAlert enabled

0

1

Bus 0 requested control

0

0

Bus 0 has control of the PS

1

Command Execution:

The master not in control can issue

two commands on the bus, take_over_bus_control and

clear_faults

Take over Bus Control(0xDA):

This command instructs the

internal µC to switch command control over to the ‘master’

that initiated the request.

Actual transfer is controlled by the I

2

C selector portion of the

µC. A bus transfer only occurs during an idle state when the

‘master’ currently in control (in the execution process of a

control command) has released the bus by issuing a STOP

command. Control can be transferred at any time if the

‘master’ being released is executing a read instruction that

does not affect the transfer of command control. Note; The

µC can handle read instructions from both busses

simultaneously.

The command follows PMBus™ standards and it is not

executed until the trailing PEC is validated.

Status Notifications:

Once control is transferred both

SMBAlert lines should get asserted by the I2C selector section

of the µC. The released ‘master’ is notified that a STATUS

change occurred and he is no longer in control. The

connected ‘master’ is notified that he is in control and he can

issue commands to the power supply. Each master must

issue a clear_faults command to clear his SMBAlert signal.

If the SMBAlert signal was actually triggered by the power

supply and not the I

2

C selector selector section of the µC,

then only the ‘master’ in control can clear the power supply

registers.

Incomplete transmissions should not occur on either bus.

General performance descriptions

Default state:

Power supplies are programmed in the default

state to automatically restart after a shutdown has occurred.

The default state can be reconfigured by changing non-

volatile memory (Store_default_code).

Delayed overcurrent shutdown during startup:

Power

supplies are programmed to stay in a constant current state

for up to 20 seconds during power up. This delay has been

introduced to permit the orderly application of input power to