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 13

configuration looking at the Vprog signal for output voltage

control. In many applications, the Vprog pin is used for

setting initial conditions, if different that the factory setting.

Software programming then takes over once I

2

C

communications are established.

To properly hot-plug a power supply into a live backplane, the

system generated voltage should get re-configured into

either the factory adjusted firmware level or the voltage level

reconfigured by the Vprog pin. Otherwise, the voltage state

of the plugged in power supply could be significantly different

than the powered system.

Voltage margin range: 10.8Vdc – 13.2 Vdc.

Vin_ON (0x35):

This is a ‘read only’ register that informs the

controller at what input voltage level the power supply turns

ON. The default value is tabulated in the data section. The

value is contingent on whether the power supply operates in

the low_line or high_line mode.

Vin_OFF (0x36):

This is a ‘read only’ register that informs the

controller at what input voltage level the power supply turns

OFF. The default value is tabulated in the data section. The

value is contingent on whether the power supply operates in

the low_line or high_line mode.

Fan_config_1_2 (0x3A) :

This command allows the controller

to define whether the fan speed command is in duty cycle or

RPM. Both fans must be commanded simultaneously, either

by duty cycle or RPM. Mixing controls will result in a ‘data

error’. The tachometer pulses per revolution is not used.

Fan_command_1 (0x3B):

This command instructs the power

supply to increase the speed of the fan. The transmitted data

byte represents the hex equivalent of the duty cycle in

percentage, i.e. 100% = 0 x 64h. The command can only

increase fan speed, it cannot instruct the power supply to

reduce the fan speed below what the power supply requires

for internal control.

Sending 00h tells the power supply to revert back to its

internal control.

Fan_command_2 (0x3C):

not used in this power supply.

Issuing this command will result in ‘invalid command’.

Vout_OV_fault_limit (0x40):

Sets the value at which the main

output voltage will shut down. The default OV_fault value is

set at 60Vdc. This level can be permanently changed and

stored in non-volatile memory.

Vout_OV_fault_response (0x41):

This is a ‘read only’ register.

The only allowable state is a latched state after three retry

attempts.
An overvoltage shutdown is followed by three attempted

restarts, each successive restart delayed 1 second. If within a

1 minute window three attempted restarts failed, the unit will

latch OFF. If less than 3 shutdowns occur within the 1 minute

window then the count for latch OFF resets and the 1 minute

window starts all over again. This performance cannot be

changed.

Restart after a latched state: Either of four restart

mechanisms is available;
•

The hardware pin Remote ON/OFF may be cycled OFF

and then ON.

•

The unit may be commanded to restart via i2c through

the Operation command by first turning OFF then turning

ON .

•

The third way to restart is to remove and reinsert the

unit.

•

The fourth way is to turn OFF and then turn ON ac

power to the unit.

A successful restart clears all STATUS and ALARM registers.
A power system that is comprised of a number of power

supplies could have difficulty restarting after a shutdown

event because of the non-synchronized behavior of the

individual power supplies. Implementing the latch-off

mechanism permits a synchronized restart that guarantees

the simultaneous restart of the entire system.
A synchronous restart can be implemented by;
•

Issuing a GLOBAL OFF and then a GLOBAL ON command

to all power supplies

•

Toggling Off and then ON the Remote ON/OFF signal, if

this signal is paralleled among the power supplies.

•

Removing and reapplying input commercial power to the

entire system.

The power supplies should be OFF for at least 20 – 30

seconds in order to discharge all internal bias supplies and

reset the soft start circuitry of the individual power supplies.

Vout_OV_warn_limit (0x42):

Sets the value at which a

warning will be issued that the output voltage is too high. The

default OV_warn limit is set at 56Vdc. Exceeding the warning

value will set the Alert# signal. This level can be permanently

changed and stored in non-volatile memory.

Vout_UV_warn_limit (0x43):

Sets the value at which a

warning will be issued that the output voltage is too low. The

default UV_warning limit is set at 41Vdc. Reduction below the

warning value will set the Alert# signal. This level can be

permanently changed and stored in non-volatile memory.

Vout_UV_fault_limit (0x44):

Sets the value at which the

power supply will shut down if the output gets below this

level. The default UV_fault limit is set at 39Vdc. This register is

masked if the UV is caused by interruption of the input

voltage to the power supply. This level can be permanently

changed and stored in non-volatile memory.

Vout_UV_fault_response (0x45):

Sets the response if the

output voltage falls below the UV_fault_limit. The default

UV_fault_response is restart (0xC0). The only two allowable

states are latched (0x80) and restart (0xC0). The default

response state can be permanently changed and stored in

non-volatile memory.