Car2512fp series rectifier, Data sheet, Input: 90v – GE Industrial Solutions CAR2512FP Front-End User Manual

GE

Data Sheet

CAR2512FP series rectifier

Input: 90V

AC

to 264V

AC

; Output: 12 V

DC

@ 2500W; 3.3V

DC

or 5 V

DC

@ 1A

April 23, 2013

©2013 General Electric Company. All rights reserved.

Page 11

Register

Code

Bit

Function

Status_cml 7E

7 Invalid/Unsupported

Command

6 Invalid/Unsupported

Data

5

Packet Error Check Failed

4

Memory Fault Detected

3 Processor

Fault

Detected

2 Reserved
1

Other Communications Fault

0

Other Memory or Logic Fault

Status_fan_1_2 81

7

Fan 1 Fault

6

Fan 2 Fault

5 N/A
4 N/A
3

Fan 1 Speed Overridden

2

Fan 2 Speed Overridden

1 N/A
0 N/A

Status_mfr_specif

ic

80

7 3.3V_fault
6 N/A
5 Interrupt
4 Fault

detected

3 PS_remote_OFF
2 DC_fault
1 INPUT_fault
0

0 – AC high line,
1 – AC low line

Command Descriptions

Operation (01) :

By default the Power supply is turned ON at

power up as long as Power ON/OFF signal pin is active HI. The

Operation command is used to turn the Power Supply ON or
OFF via the PMBus. The data byte below follows the
OPERATION command.

FUNCTION

DATA BYTE

Unit ON

80

Unit OFF

00

To RESET the power supply cycle the power supply OFF, wait at
least 2 seconds, and then turn back ON. All alarms and

shutdowns are cleared during a restart.

Clear_faults (03):

This command clears all STATUS and FAULT

registers and resets the SMBAlert# line.
If a fault still persists after the issuance of the clear_faults
command the specific registers indicating the fault are reset

and the SMBAlert# line is activated again.

WRITE_PROTECT register (10):

Used to control writing to the

PMBus device. The intent of this command is to provide

protection against accidental changes. All supported
command parameters may have their parameters read,
regardless of the write_protect settings. The contents of this

register can be stored to non-volatile memory using the
Store_default_code command. The default setting of this
register is disable_all_writes except write_protect 0x80h.

FUNCTION

DATA BYTE

Enable all writes

00

Disable all writes except write_protect

80

Disable all writes except write_protect and

OPERATION

40

Vout_Command (21) :

This command is used to change the

output voltage of the power supply. Changing the output
voltage should be performed simultaneously to all power
supplies operating in parallel using the Global Address
(Broadcast) feature. If only a single power supply is instructed
to change its output, it may attempt to source all the required
power which can cause either a power limit or shutdown
condition.
Software programming of output voltage permanently

overrides the set point voltage configured by the Vprog signal
pin. The program no longer looks at the ‘Vprog pin’ and will not
respond to any hardware voltage settings. If power is removed
from the µController it will reset itself into its default

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 margin pin. Otherwise, the voltage state

of the plugged in power supply could be significantly different
than the powered system.

Vout_OV_warn_limit (42):

OV_warning is extremely useful

because it gives the system controller a heads up that the
output voltage is drifting out of regulation and the power
supply is close to shutting down. Pre-amative action may be

taken before the power supply would shut down and
potentially disable the system.

OC and OT_fault_ response (47, 50):

The default response for

both OC and OT is auto_restart (hiccup). Each register,
individually, can be reconfigured into a latched state. Latched

and hiccup are the only supported states.

Restart after a latch off:

Either of four restart possibilities are

available. The hardware pin Remote ON/OFF may be turned

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. The fifth way is by changing firmware from

latch off to restart. Each of these commands must keep the
power supply in the OFF state for at least 2 seconds, with the

exception of changing to restart.
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;
1. Issuing a GLOBAL OFF and then ON command to all power

supplies,

2. Toggling Off and then ON the Remote ON/OFF signal
3. Removing and reapplying input commercial power to the

entire system.
The power supplies should be turned 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.