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

@ 208A; 3.3V

DC

or 5 V

DC

@ 1A

April 23, 2013

©2013 General Electric Company. All rights reserved.

Page 7

Control and Status

Control hierarchy:

Some features, such as output voltage,

can be controlled both through hardware and firmware. For
example, the output voltage is controlled both by the signal pin
(Vprog) and the PMBus command, (Vout_command) .

Using output voltage as an example; the Vprog signal pin has
ultimate control of the output voltage until the Vprog is either >
3V

DC

or a no connect. When the programming signal via Vprog

is either a no connect or > 3V

DC

, it is ignored, the output

voltage is set at its nominal 12V

DC

and the unit output voltage

can be controlled via the PMBus command, (Vout_command).

Analog controls:

Details of analog controls are provided in

this data sheet under Signal Definitions.

Common ground:

All signals and outputs are referenced to

Output return. These include ‘V

STDBY

return’ and ‘Signal return’.

Control Signals

Voltage programming (Vprog):

An analog voltage on this

signal can vary the output voltage ± 10% of nominal, from
10.8V

DC

to 13.2V

DC

. The equation of this signal is:

V

OUT

= 10.8  (Vprog * 0.96) where Vprog = 0 to 2.5V

DC

Between 2.5 and 3V the output stays at 13.2V

DC

. If Vprog is >

3V, or left open, the programming signal is ignored and the
unit output is set at the setpoint of 12V

DC

.

Load share (Ishare):

This is a single wire analog signal that is

generated and acted upon automatically by power supplies
connected in parallel. The Ishare pins should be tied together
for power supplies if active current share among the power
supplies is desired. No resistors or capacitors should get
connected to this pin.

Remote_ON/OFF:

Controls presence of the 12V

DC

output

voltage. This is an open collector, TTL level control signal that
needs to be pulled HI externally through a resistor.

A turn OFF command either through this signal (Remote
ON/OFF) or firmware commanded would turn OFF the 12V
output.

Enable:

This is a short signal pin that controls the presence of

the 12V

DC

main output. This pin should be connected to ‘output

return’ on the system side of the output connector. The
purpose of this pin is to ensure that the output turns ON after
engagement of the power blades and turns OFF prior to
disengagement of the power blades.

Write protect (WP):

This signal protects the contents of the

EEPROM from accidental over writing. When left open the
EEPROM is write protected. A LO (TTL compatible) permits
writing to the EEPROM. This signal is pulled HI internally by the
power supply.

Status Signals

Output current monitor (Imon):

A voltage level proportional to

the delivered output current is present on this pin. The signal
level is 0.04V per amp ± 0.25V.

Input_OK:

A TTL compatible status signal representing

whether the input voltage is within the anticipated range. This
signal needs to be pulled HI externally through a resistor.

DC_OK:

A TTL compatible status signal representing whether

the output voltage is present. This signal needs to be pulled HI
externally through a resistor.

Over_temp_warning:

A TTL compatible status signal

representing whether an over temperature exists. This signal
needs to be pulled HI externally through a resistor.

If an over temperature should occur, this signal would pull LO
approximately 10 seconds prior to shutting down the power
supply. The unit would restart if internal temperatures recover
within normal operational levels. At that time the signal reverts
back to its open collector (HI) state.

Fault:

A TTL compatible status signal representing whether a

Fault occurred. This signal needs to be pulled HI externally
through a resistor.

This signal activates for OTP, OVP, OCP, INPUT fault or No
output.

PS_Present:

This pin is connected to ‘output return’ within the

power supply. Its intent is to indicate to the system that a

power supply is present. This signal may need to be pulled HI
externally through a resistor.

Interrupt (SMBAlert#):

A TTL compatible status signal,

representing the SMBusAlert# feature of the PMBus compatible
i

2

C protocol in the power supply. This signal needs to be pulled

HI externally through a resistor.

Serial Bus Communications

The I²C interface facilitates the monitoring and control of
various operating parameters within the unit and transmits
these on demand over an industry standard I²C Serial bus.

All signals are referenced to ‘Signal Return’.

Device addressing:

The microcontroller (MCU) and the EEPROM

have the following addresses:

Device

Address

Address Bit Assignments

(Most to Least Significant)

MCU

0xBx 1 0 1 1 A2 A1 A0 R/W

Broadcast 0x00 0 0 0 0 0 0 0 0
EEPROM

0xAx 1 0 1 0 A2 A1 A0 R/W

The Global Broadcast instruction executes a simultaneous
write instruction to all power supplies. A read instruction
cannot be accessed globally. The three programmable address
bits are the same for all I

2

C accessible devices within the

power supply.

Address lines (A2, A1, A0):

These signal pins allow up to eight

(8) modules to be addressed on a single I²C bus. The pins are
pulled HI internal to the power supply. For a logic LO these pins
should be connected to ‘Output Return’

Serial Clock (SCL):

The clock pulses on this line are generated

by the host that initiates communications across the I²C Serial
bus. This signal is pulled up internally to 3.3V by a 10kΩ
resistor. The end user should add additional pull up resistance
as necessary to ensure that rise and fall time timing and the