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 12

Auto_restart:

Auto-restart is the default configuration for

recovering from over-current and over-temperature
shutdowns.
An overvoltage shutdown is followed by three attempted
restarts, each restart delayed 1 second, within a 1 minute
window. If within the 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.

Vin_UV_warn_limit (58):

This is another warning flag

indicating that the input voltage is decreasing dangerously
close to the low input voltage shutdown level.

Status_word (79):

returns two bytes of information. The upper

byte bit functionality is tabulated in the Status_word section.
The lower byte bit functionality is identical to Status_byte.

Fan_speed (D7):

This register can be used to ‘read’ the fan

speed in adjustment percent (0 – 100%) or set the fan speed in

adjustment percent (0 – 100%). The speed of the fan cannot
be reduced below what the power supply requires for its
operation. The register value is the percent number, it is not in
linear format.

Invalid commands or data:

The power supply notifies the

MASTER if a non-supported command has been sent or invalid
data has been received. Notification is implemented by setting
the appropriate STATUS and ALARM registers and setting the
SMBAlert# flag.

If a non-supported read is requested the power supply will
return all 0x00h.

Restart after a lachoff:

To restart after a latch_off either of

four restart mechanisms 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 successful restart shall clear all 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;
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.
It is good practice to turn OFF the power supplies for about 20
– 30 seconds in order to discharge all internal bias supplies
and reset the soft start circuitry of the individual power
supplies.

Control and Read accuracy:

The estimates below are believed to be reasonable under most
operating conditions. However, these are typical numbers and
not hard bound values that cannot be exceeded. In most
nominal operating conditions the returned values are
significantly better than these estimates.

FUNCTION

ACCURACY

Vout_command ±

2%

Vout_OV_fault_limit ±

3%

Iout_OC_warn_limit

± 4% of FL

OT_warn_limit

± 5C

Vin_UV_warn_limit

± 3%

Vin_UV_fault_limit

± 3%

Read_Vin

± 3%

Read_Vout

± 2%

Read_Iout

± 4% of FL

Read_temperature

± 5C

Read_Pin

±10%

Read_Pout

±5%

EEPROM

The microcontroller has 96 bytes of EEPROM memory available
for the system host.

A separate EEPROM IC, with write protect features, provides
another 128 bytes of memory. Minimum information to be
included in this separate EEPROM: model number, revision,
date code, serial number etc.

LEDs

Two LEDs are located on the front faceplate. The INPUT OK LED
provides visual indication of the INPUT signal function. When
the LED is ON GREEN the power supply input is within normal
design limits.

The second LED DC/FLT provides visual indication of three
different states of the power supply. When the LED is GREEN
then there are no faults and the DC output is present. When
the LED is AMBER then a fault condition exists but the power
supply still provides output power. When the LED is RED then a
fault condition exists and the power supply does not provide

output power.