GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 1
Features
• Conduction cooling for fan less operation
• Compact 0.5U Profile
• Overall Dimensions:
0.877 in. x 3.35 in. x 8.790 in.
• 12Vdc, 500W Output
• 10.8 to 13.2Vdc Output Voltage Programmability
• Universal AC input with Active PFC
• Hot Plugability
• Redundant Parallel Operation
• Active Load Sharing (Single Wire)
• Analog, I²C or PMBus^ means of control and monitoring
• Remote On/Off
• Remote Sense (up to 0.25V of total compensation)
• No Minimum Load Requirements
• Three visual LED Indicators; Input, Output and Fault status
• 3.3Vdc or 5.0 Vdc 2A Standby Output
• UL*Recognized to UL60950-1, CAN/CSA† C22.2
No.60950-1, and EN60950-1(VDE‡ 0805-1) Licensed
• CE mark meets 2006/95/EC directive§
• ISO** 9001 and ISO 14001 certified manufacturing facility
• Compliant to RoHS EU Directive 2011/65/EU
Applications
• Test Equipment
• Network Support Equipment
• Storage Area Networks (SAN)
• Network Attached Storage (NAS)
• Servers
Description
The CCR0512FP power supply is a universal ac input, 12Vdc, 500W output fan-less conduction cooled, 0.5U thick product designed
for environments, where conduction or system airflow is available for cooling. The 0.5U form factor makes locating the supply
very flexible and space efficient. The supply includes capability for hot plug and redundant load sharing applications. Standard
features include remote sense, output voltage programmability, active load sharing, status LEDs, 3.3Vdc or 5.0Vdc standby output,
and analog, I2C and PMBus control and communication interfaces.
^PMBus name and logo are registered trademarks of SMIF, Inc.
* UL is a registered trademark of Underwriters Laboratories, Inc.
† CSA is a registered trademark of Canadian Standards Association.
‡ VDE is a trademark of Verband Deutscher Elektrotechniker e.V
§ This product is intended for integration into end-user equipment. All of the required procedures of end-use equipment should be followed.
** ISO is a registered trademark of the International Organization of Standards
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 2
Absolute Maximum Ratings
Stresses in excess of the absolute maximum ratings can cause permanent damage. These conditions are absolute stress ratings
only. Functional operation of the device is not implied at these or any other conditions in excess of those given in the data sheet’s
specifications sections. Exposure to absolute maximum ratings for extended periods can adversely affect the device reliability.
Parameter
Min
Max
Unit
Input Voltage - Continuous
90
264
Vac
Operating Ambient Temperature (see Thermal Considerations section)
Operating Case Temperature (Cold Plate)
(*See exceptions for spec variations between -10C to -20C)
-20*
-20*
55
85
oC
oC
Storage Temperature
-40
90
oC
Humidity (non-condensing)
30
95
%
Altitude
2250
m
Isolation Voltage – Input to Output
3000
Vac
Input to Chassis
1500
V
dc
Output and Signal/Comm pin to Chassis
100
Vdc
Electrical Specifications
Unless otherwise indicated, specifications apply over all operating input voltage, resistive load, and temperature conditions.
Parameter
Input
Min
Typ
Max
Unit
Operating Voltage
90
115/230
264
Vac
Source Frequency
47
50/60
63
Hz
Turn On Voltage (*Turn On Max may increase to 95 Vac at -20C)
78
85
90*
Vac
Turn Off Voltage (*Turn Off Max may increase to 90 Vac at -20C)
73
80
85*
Vac
Turn On/Turn Off Hysteresis
3
4
Vac
Current, VIN = 90Vac
6.8
ARMS
Fuse Rating, 250Vac
15
A
Power Factor, 230Vac, 100% Load
0.96
%
Inrush Transient Current, VIN = 264Vac, TA = 25ºC
50
APEAK
Efficiency: VIN = 115Vac, 20% load
87.0
%
50% load
90.0
%
100% load
89.0
%
VIN = 230Vac, 20% load
87.8
%
50% load
91.8
%
100% load
91.4
%
Holdup Time, VIN = 90Vac to 264Vac 80% load, COUT = 2,200 µF, VOUT≥ 10.8Vdc
12
ms
Leakage Current to earth ground, VIN = 264Vac
3.5
mA
Output 1 – Main Output
Min
Typ
Max
Unit
Voltage Set-point (50% load)
11.98
12.00
12.02
Vdc
Voltage Programming Limits
10.8
13.2
Vdc
Voltage Tolerance (due to set point, temperature, load, and line regulation)
-2
2
%VOUT, set
Load Regulation
-100
100
mVdc
Line Regulation
-40
+40
mVdc
Ripple and Noise (C
OUT
= 0.1µF ceramic || with 10µF tantalum capacitor)
Peak-to-peak (20MHz Bandwidth)
120
mVp-p
Dynamic Load Response (50% to 100% load transient, 1A/µs slew rate)
Voltage deviation
Settling Time
5
1.5
%VOUT, set
ms
Current Range
0
42
Adc
Current Limit Inception
110
135
%IO,max
Current Sharing Accuracy, >20% load
-5
5
%IO,max
External Capacitance Range
0
10,000
µF
Turn On Delay Time from AC Input (*Delay Time Max may increase to 3s at -20C)
2*
s
Turn On Delay Time from Remote On, VIN within limits
40
ms
Rise Time (from 10% to 90% of final value)
50
ms
Voltage Overshoot
5
%VOUT, set
Turn Off Delay Time from Remote On, VIN within limits
40
ms
Over Voltage Protection
13.8
14.8
15.8
Vdc
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 3
Electrical Specifications (continued)
Output 2 – Standby (VSB) Output
Parameter
Min
Typ
Max
Unit
Voltage Set-point (50% load) Model: CCR0512FPHXXZ01A [VOUT,set]
3.23
3.3
3.37
Vdc
Voltage Set-point (50% load) Model: CCR0512FPHX5Z01A [VOUT,set]
4.90
5.0
5.10
Vdc
Voltage Tolerance (due to set point, temperature, load, and line regulation)
-5
5
%VOUT, set
Load Regulation
-0.17
+0.17
Vdc
Line Regulation
-0.17
+0.17
Vdc
Ripple and Noise (C
OUT
= 0.1µF ceramic || with 10µF tantalum capacitor)
Peak-to-peak (20MHz Bandwidth)
100
mVp-p
Dynamic Load Response (50% to 100% load transient, 1A/µs slew rate)
Voltage deviation
Settling Time
5
1.5
%VOUT, set
ms
Current Range
0
2.0
Adc
Current Limit Inception
110
150
%IO,max
General Specifications
Feature Specification
Parameter
Min
Typ
Max
Unit
Remote On Signal, High turns supply on
2.0
12.0
Vdc
Remote Off Signal, Low turns supply off
0.0
0.8
Vdc
Maximum Remote On/Off Sink Current
4
mA
Output Current Monitoring Signal ±250mV
0.1
V/A
Environmental Specifications
Parameter
Specification
IPC-9592A
Category 1, Class II Product Classification
Radiated Emissions
FCC and CISPR22 (EN55022) Class A with 3dB margin
Conducted Emissions
FCC and CISPR22 (EN55022) Class A with 3dB margin
Shock & Vibration Operational Test
IPC-9592A, section 5.2.8- 5.2.13
Conducted Continuous Wave
IPC-9592A, section 5.3.1
Radiated Immunity
IPC-9592A, section 5.3.2
Conducted Electrical Fast Transient (EFT)
IPC-9592A, section 5.3.3
Conducted Surges
IPC-9592A, section 5.3.4
Ring Waves
IPC-9592A, section 5.3.5
Electrostatic Discharge –Packaged Power
IPC-9592A, section 5.3.6
Power Line Disturbance Immunity
IPC-9592A, section 5.3.8
Input Harmonics
EN61000-3-2
Safety Specifications
Parameter
Specification
Isolation Voltage Input to Output
3000Vac (1 minute)
Isolation Voltage Input to Chassis
1500Vdc
Isolation Output/Signal GND to Chassis
100Vdc
Insulation Resistance Input to Output
>10MΩ
Safety Certifications
UL, CSA, VDE
Parameter
Symbol
Typ
Unit
Calculated Reliability based on Telcordia SR-332 Issue 2: Method 1 Case 3
(VIN=230Vac, Io1 = 42A, Io2 = 2.0A, TA = 30ºC, airflow 200LFM, 90% confidence)
FIT
MTBF
602.8
1,659,038
109/Hours
Hours
Weight
825
29.1
g
oz.
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 4
Characteristic Curves
The following figures provide typical characteristics for the CCR0515FP (12.0V, 42.0A) at 25ºC (unless otherwise noted).
EFFICIENCY, η (%)
OUTPUT CURRENT, Io (A)
OUTPUT LOAD, %
COLD PLATE TEMPERATURE, T
C
(
O
C)
Figure 1. Converter Efficiency versus % Load.
Figure 2. Output Power Derating in Conduction cooling (cold
plate) applications; Ta <70ºC adjacent to module.
OUTPUT CURRENT, Io (A)
OUTPUT CURRENT, Io (A)
AMBIENT TEMPERATURE, T
A
(
O
C)
AMBIENT TEMPERATURE, T
A
(
O
C)
Figure 3. Derating Output Current versus Airflow and
Ambient Temperature, 0.6” horizontal heat sink, front to
back airflow. See Mechanical Figures for airflow direction.
Figure 4. Derating Output Current versus Airflow and
Ambient Temperature, no heat sink, front to back airflow.
See Mechanical Figures for airflow direction.
OUTPUT CURRENT, Io (A)
OUTPUT CURRENT, Io (A)
AMBIENT TEMPERATURE, T
A
(
O
C)
AMBIENT TEMPERATURE, T
A
(
O
C)
Figure 5. Derating Output Current versus Airflow and
Ambient Temperature, 0.6” vertical heat sink, bottom to top
airflow. See Mechanical Figures for airflow direction.
Figure 6. Derating Output Current versus Airflow and
Ambient Temperature, no heat sink, bottom to top airflow.
See Mechanical Figures for airflow direction.
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 5
Characteristic Curves (continued)
The following figures provide typical characteristics for the CCR0515FP (12.0V, 42.0A) at 25ºC (unless otherwise noted).
OUTPUT VOLTAGE INPUT VOLTAGE
VO (V) (2V/div) VIN(V) (350V/div)
OUTPUT VOLTAGE INPUT VOLTAGE
VO (V) (2V/div) VIN(V) (350V/div)
TIME, t (200ms/div)
TIME, t (200ms/div)
Figure 7. Start-up (V
IN
= 90V, I
o
= I
o,max
).
Figure 8. Start-up (V
IN
= 264V, I
o
= I
o,max
).
INPUT VOLTAGE OUTPUT VOLTAGE
VIN (V) (100V/div) VOUT(V) (2V/div)
INPUT VOLTAGE OUTPUT VOLTAGE
VIN (V) (200V/div) VOUT(V) (2V/div)
TIME, t (5ms/div)
TIME, t (5ms/div)
Figure 9. Hold-up (V
IN
= 115V, I
o
= 80% I
o,max
).
Figure 10. Hold-up (V
IN
= 230V, I
o
= 80% I
o,max
).
OUTPUT VOLTAGE
VOUT(V) (50mV/div)
OUTPUT VOLTAGE OUTPUT CURRENT
VO (V) (200mV/div) IO (A) (20Adiv)
TIME, t (10µs /div) TIME, t (2ms /div)
Figure 11. Output ripple and noise (C
O
=22μF ceramic, V
IN
=
230V, Io = Io,max,).
Figure 12. Transient Response to Dynamic Load Change from
50% to 100% Io,max at VIN = 230V.
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 6
Safety Considerations
The CCR0512 power supply is intended for inclusion in other
equipment and the user must ensure that it is in compliance
with all the requirements of the end application.
This product is only for inclusion within other equipment and
must not be operated as a stand-alone product.
Thermal Considerations
The power supply can be operated in a variety of thermal
environments; however sufficient cooling should be provided
to ensure reliable operation.
Considerations include ambient temperature, airflow, power
supply dissipation and the need for increased reliability. A
reduction in the operating temperature of the power supply
will result in increased reliability. The thermal derating
presented in Figures 2-6 is based on measurements taken in
a wind tunnel.
Feature Descriptions
Standby Power Supply
A standby output, VSB, in the CCR0512 power supply comes
on when AC input in the operating range is applied.
Remote Sense
The power supply has both positive and negative remote
sense connections that can be connected to the positive and
negative rails of the main output near the load. Care should
be taken in routing the sense lines to ensure that noise is not
picked up or that additional filtering elements that affect the
stability of the power supply are not used. The power supply
will operate without the remote sense connections being
made, however if remote sense near the load is not used it is
recommended that the remote sense lines be connected
directly to the main output terminals.
Overcurrent Protection
To provide protection in a fault condition (output overload),
the power supply is equipped with internal current-limiting
circuitry and can endure current limiting continuously. At the
point of current-limit inception, the unit enters hiccup mode.
The power supply operates normally once the output current
is brought back into its specified range.
Overvoltage Protection
Overvoltage protection is a feature of the CCR0512 power
supply that protects both the load and the power supply from
an output overvoltage condition. When an overvoltage
occurs, the power supply shuts down and latches off. It is
necessary to recycle the input to restart the power supply
when this protection is activated.
Overtemperature Protection
The CCR0512 also features overtemperature protection in
order to provide additional protection in a fault condition. The
power supply is equipped with a thermal shutdown circuit
which detects excessive internal temperatures and shuts the
unit down. In the event of an over temperature condition, the
unit protects itself by providing a low warning signal for 10
seconds (typical) and then shutting off. Once the power
supply goes into overtemperature shutdown, it will cool
before attempting to restart.
Input Undervoltage Lockout
At input voltages below the input undervoltage lockout limit,
power supply operation is disabled. The power supply will
begin to operate at an input voltage above the undervoltage
lockout turn-on threshold.
DC OK
The CCR0512 provides a DC OK signal that indicates when
the output has come up and is in regulation. This is an open-
collector type signal that goes high when the output is
available and within regulation.
Paralleling/Load Share
This power supply can be paralleled to provide larger load
currents than can be delivered from a single power supply.
Up to four power supplies may be paralleled. Paralleling is
accomplished by connecting the Current Share signals of
multiple power supplies together. At load current levels
above 20%, the output currents of multiple power supplies
will be within ±5% of the full load value.
If remote sense is used when paralleling is employed, the
remote sense connection points should be common to both
power supplies.
The supply is equipped with internal Or-ring mosfets in the +
VOUT leg and designed for hot swap operation.
Signal Considerations (Pin Number)
Output Voltage Programming (D4))
Analog input signal - voltage determining the rectifier output
voltage.
VOUT = 10.8V+ (Vprog X 0.96)V, for Vprog from 0V to 2.5V
VOUT = 13.2V, for Vprog from 2.5V to 3.0V
VOUT = 12.0V, for Vprog higher than 3.0V or left open
Output Current Monitoring (B3)
Analog output signal. Voltage proportional to the power
supply output current (0.1V/AMP) +/- 250mv.
Load Share/Paralleling (C3)
Analog signal. Single wire connection. Unit will load share
within ±5% of full load.
Remote ON-OFF (E1)
TTL compatible. Open collector (High) for normal operation.
Sink current: 4mA. Max collector voltage: 12Vdc
Logic 1 (TTL High) or open enables unit (ON); Logic 0 (TTL Low)
or short shuts unit down (OFF). Cycling this signal resets the
over-voltage protection memory.
AC OK (E3)
TTL compatible. Open collector (High) for normal operation.
Sink current: 4mA. Max collector voltage: 12Vdc
AC OK indicates that AC is applied within the specified input
range for the rectifier.
DC OK (E2)
TTL compatible. Open collector (High) for normal operation.
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 7
Sink current: 4mA. Max collector voltage: 12Vdc
Over Temperature Warning (C5)
TTL compatible. Open collector (High) for normal operation.
Sink current: 4mA. Max collector voltage: 12Vdc. In the event
of an over temperature condition, the unit protects itself by
providing a low warning signal for 10 seconds (typical) and
then shutting off. Auto restart after the condition is cleared.
Fault Signal (B2)
TTL compatible. Open collector (High) for normal operation.
Sink current: 4mA. Max collector voltage: 12Vdc
This alarm is an opto-isolated open collector signal
referenced to +VOUT Return or chassis ground.
The signal indicates that a failure has been detected in the
unit (OTP, OVP, AC Fail or No Input).
Signal Return (A3)
The signal return is the referenced for all the signals and is
internally connected to the output return (+VOUT leg).
Missing Module (B5)
Binary signal delivered when the rectifier is present (active
low, strap to return signal)
Serial Bus Communications
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
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 internally. For logic LO connect to ‘Output Return’.
Global broadcast: This is a powerful command because it
instruct all power supplies to respond simultaneously. A read
instruction should never be accessed globally. The power
supply should issue an ‘invalid command’ state if a ‘read’ is
attempted globally.
For example, changing the ‘system’ output voltage requires
the global broadcast so that all paralleled power supplies
change their output simultaneously. This command can also
turn OFF the ‘main’ output or turn ON the ‘main’ output of all
power supplies simultaneously. Unfortunately, this
command does have a side effect. Only a single power
supply needs to pull down the ninth acknowledge bit. To be
certain that each power supply responded to the global
instruction, a READ instruction should be executed to each
power supply to verify that the command properly executed.
The GLOBAL BROADCAST command should only be executed
for write instructions to slave devices.
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.
Serial Clock (SCL): Clock pulses are host generated initiating
communications across the I²C Serial bus, and are 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 maximum sink current is in
compliance to the I²C specifications.
Serial Data (SDA): This is a bi-directional data line, 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 maximum sink current is in
compliance to the I²C specifications.
Basic Operation
PMBus™ compliance: The power supply is fully compliant to
the Power Management Bus (PMBus™) rev1.2 requirements.
Manufacturer specific commands located between
addresses 0xD0 to 0xEF provide instructions that either do
not exist in the general PMBus specification or make the
communication interface simpler and more efficient.
Master/Slave: The ‘host controller’ is always the MASTER.
Power supplies are always SLAVES. SLAVES cannot initiate
communications or toggle the Clock. SLAVES also must
respond expeditiously at the command of the MASTER as
required by the clock pulses generated by the MASTER.
Clock stretching: The ‘slave’ µController inside the power
supply may initiate clock stretching if it is busy and it desires
to delay the initiation of any further communications. During
the clock stretch the ‘slave’ may keep the clock LO until it is
ready to receive further instructions from the host controller.
The maximum clock stretch interval is 25ms.
The host controller needs to recognize this clock stretching,
and refrain from issuing the next clock signal, until the clock
line is released, or it needs to delay the next clock pulse
beyond the clock stretch interval of the power supply.
Note that clock stretching can only be performed after
completion of transmission of the 9th ACK bit, the exception
being the START command.
Figure 13. Example waveforms showing clock
stretching.
I²C Bus Lock-Up detection: The device will abort any
transaction and drop off the bus if it detects the bus being
held low for more than 35ms.
Communications speed: Both 100kHz and 400kHz clock
rates are supported. The power supplies default to the
100kHz clock rate. The minimum clock speed specified by
SMBus is 10 kHz.
Packet Error Checking (PEC): Although the power supply will
respond to commands with or without the trailing PEC, it is
highly recommended that PEC be used in all
Clock
Stretch
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 8
communications. The integrity of communications is
compromised if packet error correction is not employed.
There are many functional features, including turning OFF the
main output, which should require validation to ensure that
the correct command is executed.
PEC is a CRC-8 error-checking byte, based on the polynomial
C(x) = x8 + x2 + x + 1, in compliance with PMBus™
requirements. The calculation is based in all message bytes,
including the originating write address and command bytes
preceding read instructions. The PEC is appended to the
message by the device that supplied the last byte.
SMBAlert#: The µC driven SMBAlert# signal informs the
‘master/host’ controller that either a STATE or ALARM change
has occurred. Normally this signal is HI. The signal will
change to its LO level if the power supply has changed
states and the signal will be latched LO until the power
supply receives a ‘clear’ instruction as outlined below. If the
alarm state is still present after the ‘clear_faults’ command
has been received, then the signal will revert back into its LO
state again and will latch until a subsequent ‘clear_faults’
signal is received from the host controller.
The signal will be triggered for any state change, including
the following conditions;
• VIN under or over voltage
• Vout under or over voltage
• IOUT over current
• Over Temperature warning or fault
• Communication error
• PEC error
• Invalid command
• Detected internal faults
The power supply will clear the SMBusAlert# signal (release
the signal to its HI state) upon the following events:
• the STATUS_BYTE (0x78) or STATUS_WORD (0x79) are
read
• Receiving a CLEAR_FAULTS command
• The main output recycled (turned OFF and then ON) via
the REMOTE ON/OFF signal pin
• The main output recycled (turned OFF and then ON) by
the OPERATION command
Read back delay: The power supply issues the SMBAlert #
notification as soon as the first state change occurred.
During an event a number of different states can be
transitioned to before the final event occurs. If a read back is
implemented rapidly by the host a successive SMBAlert#
could be triggered by the transitioning state of the power
supply. In order to avoid successive SMBAlert# s and read
back and also to avoid reading a transitioning state, it is
prudent to wait more than 2 seconds after the receipt of an
SMBAlert# before executing a read back. This delay will
ensure that only the final state of the power supply is
captured.
Successive read backs: Successive read backs to the power
supply should not be attempted at intervals faster than every
one second. This time interval is sufficient for the internal
processors to update their data base so that successive
reads provide fresh data.
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.
PMBusTM Commands
Standard instruction: Up to two bytes of data may follow an
instruction depending on the required data content. Analog
data is always transmitted as LSB followed by MSB. PEC is
optional and includes the address and data fields.
1
8
1
8
1
S
Slave address
Wr
A
Command Code
A
8
1
8
1
8
1
1
Low data byte
A
High data byte
A
PEC
A
P
Master to Slave Slave to Master
SMBUS annotations; S – Start , Wr – Write, Sr – re-Start, Rd –
Read,
A – Acknowledge, NA – not-acknowledged, P – Stop
Standard READ: Up to two bytes of data may follow a READ
request depending on the required data content. Analog
data is always transmitted as LSB followed by MSB. PEC is
mandatory and includes the address and data fields. PEC is
optional and includes the address and data fields.
1
7
1
1
8
1
S
Slave address
Wr
A
Command Code
A
1
7
1
1
8
1
Sr
Slave Address
Rd
A
LSB
A
8
1
8
1
1
MSB
A
PEC
No-ack
P
Block communications: When writing or reading more than
two bytes of data at a time, BLOCK instructions for WRITE
and READ commands must be used instead of the Standard
Instructions
Block write format:
1
7
1
1
8
1
S
Slave address
Wr
A
Command Code
A
8
1
8
1
8
1
Byte count = N
A
Data 1
A
Data 2
A
8
1
8
1
8
1
1
……….
A
Data 48
A
PEC
A
P
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 9
Block read format:
1
7
1
1
8
1
S
Slave address
Wr
A
Command Code
A
1
7
1
1
Sr
Slave Address
Rd
A
8
1
8
1
8
1
Byte count = N
A
Data 1
A
Data 2
A
8
1
8
1
8
1
1
……….
A
Data 48
A
PEC
NoAck
P
Linear Data Format The definition is identical to Part II of the
PMBus Specification. All standard PMBus values, with the
exception of output voltage related functions, are
represented by the linear format described below. Output
voltage functions are represented by a 16 bit mantissa.
Output voltage has a E=-9 constant exponent.
The Linear Data Format is a two byte value with an 11-bit,
two’s complement mantissa and a 5-bit, two’s complement
exponent or scaling factor, its format is shown below.
Data Byte High
Data Byte Low
Bit
7
6
5
4
3
2
1
0
7
6
5
4
3
2
1
0
Exponent (E)
Mantissa (M)
The relationship between the Mantissa, Exponent, and Actual
Value (V) is given by the following equation:
E
MV 2∗=
Where: V is the value, M is the 11-bit, two’s
complement mantissa, E is the 5-bit, two’s
complement exponent
Notes: Settings and read backs above support the 12Vdc
main output. There are no adjustments or read backs of the
standby output. Failure of the standby output is reported by
the STATUS_MFR_SPECIFIC register. The code does not check
the validity of, or whether the data being changed is within the
expected boundary. The user is responsible to make sure that
data placed in the registers is within the monitored range.
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 I2C
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. Preemptive 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. 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;
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 10
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
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.
Status Register Bit Allocation:
Register
Code
Bit
Function
Status_Byte 78
7
N/A
6
N/A
5
Output OV Fault detected
4
Output OC Fault detected
3
Input UV Fault detected
2
Temperature Fault/warning detected
1
CML (communication fault) detected
0
N/A
Status_word
(includes
Status_byte)
79
7
OV Fault detected
6
OC Fault detected
5
Input Fault detected
4
N/A
3
N/A
2
N/A
1
N/A
0
N/A
Status_Vout 7A
7
Vout OV Fault
6
Vout OV Warning
5
Vout UV Warning
4
Vout UV Fault
3
N/A
2
N/A
1
N/A
0
N/A
Status_Iout 7B
7
IOUT OC Fault
6
N/A
5
IOUT OC Warning
4
N/A
3
N/A
2
N/A
1
N/A
0
N/A
Status_input 7C
7
Vin OV Fault
6
Vin OV Warning
5
Vin UV Warning
4
Vin UV Fault
3
N/A
2
N/A
1
N/A
0
N/A
Register
Code
Bit
Function
Status_temp
erature 7D
7
OT Fault
6
OT Warning
5
UT Fault
4
UT Warning
3
N/A
2
N/A
1
N/A
0
N /A
Status_cml 7E
7
Invalid Command
6
Invalid Data
5
ERROR PEC
4
N/A
3
N/A
2
N/A
1
Other Fault
0
N/A
Status_mfr_
specific 80
7
0 = VSB Fault, 1 = No VSB Fault
6
0 = OV Fault, 1 = No OV Fault
5
0 = Interrupt, 1 = No Interrupt
4
0 = Any Fault, 1 = No Fault
3
0 = OT Fault; 1 = Temperature OK
2
0 = DC Fault, 1 = DC OK
1
0 = Input AC Fault, 1 = Input AC OK
0
0 = AC high line, 1 = AC low line
Mfr_ID (99): Manufacturer in ASCII – 5 characters maximum,
General Electric – Critical Power represented as, ‘GECP_’
Mfr_Model (9A): Total 15 bytes: ‘CCR0512FPXXZ01A’
Mfr_Location (9C): Total 4 bytes: ‘CHN_‘
Mfr_Date (9D): Total 6 bytes: yymmdd
Mfr_Serial (9E): Total 15 bytes
Read_mfr_rev (D0): Total 1 bytes
Each byte is partitioned into high and low nibbles.
Example: FF (11111111) is read as 16.16
1A (00011010) is read as 1.10
EEPROM
The microcontroller has 96 bytes of EEPROM memory
available for the system host.
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 11
PMBusTM Command set:
Hex
Code
Command
Data
Byte
Read/
Write
Function Factory Default/Notes
01
OPERATION
1
R/W
Output ON/OFF
0x80/ Only 0x00 and 0x80 allowed
02
ON_OFF_CONFIG
1
R
On/Off Control Configuration
0x09/ Only 0x09 allowed
03
CLEAR_FAULTS
0
Clear Status
10
WRITE_PROTECT
1
R/W
Write control
0x80
11
STORE_DEFAULT_ALL
0
W
Store permanently
12
RESTORE_DEFAULT_ALL
0
W
Reset defaults
19
CAPABILITY
1
R
PEC support (data ≥ 2 byte); 400kHz; SMBAlert
0x30
20
VOUT_MODE
1
R
Vout constants, Exp=-9
0x17
21
VOUT_COMMAND
2
R/W
Set Output Vout
12.0V
40
VOUT_OV_FAULT_LIMIT
2
R/W
Set Output OV fault limit
14.0V
41
VOUT_OV_FAULT_RESPONSE
1
R/W
Set Response to Output OV fault
0xC0
42
VOUT_OV_WARN_LIMIT
2
R/W
Set Output OV warn limit
13.5V
43
VOUT_UV_WARN_LIMIT
2
R/W
Set Output UV warn limit
10.5V
44
VOUT_UV_FAULT_LIMIT
2
R/W
Set Output UV fault limit
10.0V
45
VOUT_UV_FAULT_RESPONSE
1
R/W
Set Response to Output UV fault
0xC0
46
IOUT_OC_FAULT_LIMIT
2
R/W
Set Output OC fault limit
48A
47
VOUT_OC_FAULT_RESPONSE
1
R/W
Set Response to Output OC fault
0xC0
4A
IOUT_OC_WARN_LIMIT
2
R/W
Set Output OC warn limit
45A
4F
OT_FAULT_LIMIT
2
R/W
Set OT fault limit
112C
50
OT_FAULT_RESPONSE
1
R/W
Set Response to OT fault
0xC0
51
OT_WARN_LIMIT
2
R/W
Set OT warn limit
100C
55
VIN_OV_FAULT_LIMIT
2
R/W
Set Input OV fault limit
270V
57
VIN_OV_WARN_LIMIT
2
R/W
Set Input OV warn limit
266V
58
VIN_UV_WARN_LIMIT
2
R/W
Set Input UV warn limit
90V
59
VIN_UV_FAULT_LIMIT
2
R/W
Set Input UV shutdown
83V
78
STATUS_BYTE
1
R
79
STATUS_WORD
2
R
7A
STATUS_VOUT
1
R
7B
STATUS_IOUT
1
R
7C
STATUS_INPUT
1
R
7D
STATUS_TEMPERATURE
1
R
7E
STATUS_CML
1
R
7F
STATUS_OTHER
1
R
80
STATUS_MFR_SPECIFIC
1
R
88
READ_VIN
2
R
Read input voltage
89
READ IIN
2
R
Read input current
8B
READ_VOUT
2
R
Read output voltage
8C
READ_IOUT
2
R
Read output current
8D
READ_TEMPERATURE
2
R
Read temperature
96
READ_POUT
2
R
Read output power
97
READ_PIN
2
R
Read input power
98
PMBUS REVISION
1
R
0x11
99
MFR_ID
5
R
FRU_ID
ASCII
9A
MFR_MODEL
15
R
ASCII
9C
MFR_LOCATION
4
R
ASCII
9D
MFR_DATE
6
R
ASCII
9E
MFR_SERIAL
15
R
ASCII
B0
USER_DATA_00
48
R/W
User memory space
B1
USER_DATA_01
48
R/W
User memory space
D0
READ_FRW_REVISION
1
R
1.10
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 12
Visual Indicators (LEDs)
AC OK (Green)
DC OK (Green)
FAULT (Red)
Connector Information
Connector On Power Supply
Mating Connector
Molex part # 46437-1154
Molex part # 46436-1154 (Right Angle Mounting)
Pin No.
Function
Pin No.
Function
Pin No.
Function
A1 +VSB C1 SDA (I2C bus) E1 Remote ON/OFF
A2 -VSB Return C2 SCL (I2C bus) E2 DC OK
A3 Signal Return C3 Ishare E3 AC OK
A4 Write Protect (WP) C4 N/C E4 Interrupt (/SMBALERT)
A5 Remote Sense (+) C5 Over Temperature Warning E5 RTN
B1 Remote Sense (-) D1 I2C Address (A0) P1 +VOUT
B2 Fault D2 I2C Address (A1) P2 VOUT RTN
B3 I Monitor (IMON) D3 I2C Address (A2) P3 SAFETY GND
B4 Module Enable D4 Vprog P4 AC NETURAL
B5 PSU Present D5 OVP Test Point P5 AC LINE
Yellow denotes short pins (last to make), Green denotes long pins (first to make).
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
August 12, 2014 ©2012 General Electric Company. All rights reserved. Page 13
Mechanical Outline
Dimensions are in inches.
Tolerances: x.xxx in. ± 0.02 in. [unless otherwise indicated]
GE
Data Sheet
CCR0512FP Power Supply
90 - 264V
ac
Input; 12V
dc
, 500W Output
Contact Us
For more information, call us at
USA/Canada:
+1 888 546 3243, or +1 972 244 9288
Asia-Pacific:
+86.021.54279977*808
Europe, Middle-East and Africa:
+49.89.878067-280
India:
+91.80.28411633
www.gecriticalpower.com
GE Critical Power reserves the right to make changes to the product(s) or information contained herein without notice, and no liability is assumed
as a result of their use or application. No rights under any patent accompany the sale of any such product(s) or information.
August 12, 2014 ©2012 General Electric Company. All International rights reserved. Version 1.5
Ordering Information
Please contact your GE Power Electronics’ Sales Representative for pricing, availability and optional features.
Device Codes
Product Code Input Voltage Output Power Output Ratings Comcode
CCR0512FPXXXZ01A 90-264Vac 500W 12Vdc/42A, 3.3Vdc/2.0A CCR0512FPXXXZ01A
Accessories
Item
Description
Product Code/Comcode
Source
Horizontal 0.6 in. Heatsink
plus screws (5) CCR0512FPKITZ01A GE
Vertical 0.6 in. Heatsink
plus screws (5) CCR0512FPKITZ02A GE
Interface Card 150036347 GE
