PAC3000S12-CE PSU Technical Manual V1.1 90 V AC - 264 V AC

PAC3000S12-CE
PSU Technical Manual V1.1
AC-DC PSU
90 V AC - 264 V AC
Input
12 V DC Output
P
1
AC
2
3000
3
S
4
3000 W Power
12 - C
5
6
E
7
1 — Embedded Power
2 — AC/DC
3 — Output power: 3000 W
4 — Single output
5 — Output voltage: 12 V DC
6 — With case
7 — Extractor fan
Features

1. EPW3000-12A on the label of the module is the internal
model used by the manufacturer.
2. The figures provided in this document are for reference
only.



Description
The PAC3000S12-CE converts an AC input of 90 V
to 264 V into a 12 V DC, 3000 W output. It provides
PMBus communication ports, communicates with
and sends the electronic serial numbers to the host
to facilitate the monitoring and management. Up to
eight PAC3000S12-CEs can be paralleled for
redundant configurations.






Applications





Routers/Switches
Servers/Storages
Telecommunications equipment
Enterprise networks
Advanced workstations





GLOBAL ENERGY EFFICIENCY SPECIALIST
Input voltage range: 90 V AC - 264 V AC
Output power: 3000 W
80 PLUS certified “Platinum” efficiency: 94.6%
(Vin = 220 V AC; Pout = 1500 W)
Depth x Width x Height: 285.0 mm x 126.0 mm x
40.5 mm (11.22 in. x 4.96 in. x 1.59 in.)
Weight: < 2.5 kg
Hot-plug capable
Power grid: 220 V AC single-phase, 100 V
AC/110 V AC dual-live wire
Load share with up to 8 power supplies in
parallel
With speed-controllable fans
Support input undervoltage, overvoltage
protection
Support output overcurrent, overvoltage, short
protection
Support under/overtemperature protection
PMBus communication interface for controlling,
programming and monitoring
TUV, CE, UL certification
Meet RoHS 6 requirement
1
Copyright©2014 Huawei Technologies Co., Ltd. All Rights Reserved.
THIS DOCUMENT IS FOR INFORMATION PURPOSE ONLY, AND DOES NOT CONSTITUTE ANY KIND OF WARRANTIES.
PAC3000S12-CE
PSU Technical Manual V1.1
Electrical Specifications
Conditions: TA = 25°C [77°F], Vin = 220 V AC, unless otherwise notes.
Parameter
Min.
Typ.
Max.
Units
Notes & Conditions
Environmental characteristics
Operating temperature
-5
-
+50
°C
-
Storage temperature
-40
-
+85
°C
-
Relative humidity
5
-
95
%
Non-condensing
Altitude range
-60
-
3000
m
If the altitude is between 2000 m and 3000
m, the temperature decrease by 1°C for
each additional 200 m.
Rated AC input voltage
100
110/220
240
V AC
-
AC input voltage range
90
220
264
V AC
-
Frequency
47
50/60
63
Hz
-
Maximum input current
-
-
16
A
Vin = 220 V AC, Pout = 3000 W
Standby power consumption
-
-
10
W
Vin = 220 V AC, Iout = 0 A;
The internal cooling fan is not working
Power factor
0.98
-
-
-
Vin = 220 V AC, 100% load
Input inrush current
-
-
60
A
-
Input leakage current
-
-
3
mA
Vin = 240 V AC
12.1
12.3
12.5
V DC
Vin = 220 V AC; 50% load
AC input characteristics
Output characteristics
Output voltage set point
Output voltage range
12.0
12.3
12.8
V DC
1.When Vout is greater than 12.3 V DC, the
maximum output power is 3000 W.
2.When Vout is less than 12.3 V DC, the
maximum output current is 244 A.
3.12.8 V DC is the maximum allowed voltage
at the output terminal after the remote sense
is applied.
Minimum step of output
Voltage
-
-
0.1
V DC
-
Output power
-
-
3000
W
For details, see Figure 2
Output current
10
-
244
A
Rating current: 244 A@12.3 V DC
Line regulation
-1
-
1
%
Vin = 90 V AC - 264 V AC; Pout = 3000 W
Load regulation
-2.4
-
1.2
%
Vin = 220 V AC; Pout = 0 - 3000 W
Temperature coefficient
-0.02
-
0.02
%/°C
Vout = 12.3 V DC; Pout = 3000 W; TA = -5°C to
+50°C (23°F to 122°F)
External capacitance
-
-
22000
µF
-
GLOBAL ENERGY EFFICIENCY SPECIALIST
2
PAC3000S12-CE
PSU Technical Manual V1.1
Electrical Specifications
Conditions: TA = 25°C [77°F], Vin = 220 V AC, unless otherwise notes.
Parameter
Min.
Typ.
Max.
Units
Notes & Conditions
Oscilloscope bandwidth: 20 MHz; Vin = 220 V
AC, Pout = 0 - 3000 W; Connect a 0.1 µF
ceramic capacitor and 33 µF tantalum
capacitor in parallel at output terminal
Output characteristics
Output ripple and noise
(peak to peak)
-
-
150
mV
Overshoot at turn on/turn off
-5
-
5
%
-
Output voltage rise time
-
-
50
ms
From 10%Vout to 90%Vout
Start-up time from AC input
-
-
5
s
From Vin connection to 90%Vout
Current share unbalance
-5
-
5
%
Every module should be loaded at 50% of its
maximum load.
Hold up time
10
-
-
ms
Time used for the voltage to drop from 12.3 V
DC to 11.8 V DC when Pout ≤ 1500 W.
Dynamic
overshoot amplitude
Recovery time
-5
-
-
5
400
%
µs
0.8
3.3
V
V
Low level effective
Current change rate: 0.1 A/µs
Load : 10% - 50% - 10%; 50% - 100% - 50%;
with 2200 µF capacitor at output terminal
Control Signal Characteristic
PSON voltage
Low level
High level
0
2.0
PSON current
Low level
High level
-
-
1.0
-
mA
mA
-
PSON timing
Rising time
Falling time
-
-
200
200
µs
µs
-
PS_KILL voltage
Low level
High level
0
2.0
0.8
3.3
V
V
Low level effective
PS_KILL current
Low level
High level
-
-
1.0
-
mA
mA
-
PS_KILL time
Rising time
Falling time
-
-
200
200
µs
µs
GLOBAL ENERGY EFFICIENCY SPECIALIST
Time used to transfer between the high level
and low level when the PS_KILL pin connects to
or disconnects from the system.
3
PAC3000S12-CE
PSU Technical Manual V1.1
Electrical Specifications
Conditions: TA = 25°C [77°F], Vin = 220 V AC, unless otherwise notes.
Parameter
Min.
Typ.
Max.
Units Notes & Conditions
0.8
3.3
V
V
High level effective
Control Signal Characteristic
DCOK voltage
Low level
High level
0
2.0
DCOK current
Low level
High level
-
-
1.0
1.0
mA
mA
-
DCOK timing
Rising time
Falling time
-
-
200
200
µs
µs
-
ACOK voltage
Low level
High level
0
2.0
-
0.8
3.3
V
V
High level effective
ACOK current
Low level
High level
-
-
1.0
1.0
mA
mA
-
ACOK timing
Rising time
Falling time
-
-
200
200
µs
µs
-
PS_INTERRUPT voltage
Low level
High level
0
2.0
-
0.8
3.3
V
V
PS_INTERRUPT current
Low level
High level
-
-
1.0
1.0
mA
mA
PS_INTERRUPT timing
Rising time
Falling time
-
-
200
200
µs
µs
100% load
-
92.7
-
%
50% load
-
94.6
-
%
20% load
-
92.6
-
%
Low level effective
-
-
Efficiency
GLOBAL ENERGY EFFICIENCY SPECIALIST
Vin = 220 V AC;
Reference: 80PLUS
4
PAC3000S12-CE
PSU Technical Manual V1.1
Electrical Specifications
Conditions: TA = 25°C [77°F], Vin = 220 V AC, unless otherwise notes.
Parameter
Min.
Typ.
Max.
Units
Notes & Conditions
Input undervoltage protection
Startup threshold
Shutdown threshold
-
-
89
84
V AC
V AC
Hysteresis ≥ 5 V; Self-recovery
Input overvoltage protection
Startup threshold
Shutdown threshold
275
280
-
-
V AC
V AC
Hysteresis ≥ 5 V; Self-recovery
Output overvoltage protection
13.5
-
15.0
V
Latch off
Output overcurrent protection
256
-
300
A
Latch off
Output short circuit protection
-
-
-
-
Latch off
Overtemperature protection
51
-
-
°C
No output; Self-recovery
-
500,000 -
hours
Telcordia SR332; Vin = 220 V AC; 100% load;
TA = 25°C [77°F]
-
51.4
61
dB
Meet YD/T 731; 50% load; TA = 25°C [77°F]
-
60.1
65
dB
Meet YD/T 731; 100% load; TA = 25°C [77°F]
Protection characteristics
Reliability characteristics
Mean time between failures
(MTBF)
Emission
Acoustical Noise
Specifications are subject to change without notice.
Characteristic Curves
Figure 1: Efficiency (TA = 25°C [77°F])
GLOBAL ENERGY EFFICIENCY SPECIALIST
Figure 2: Input voltage vs. output power
5
PAC3000S12-CE
PSU Technical Manual V1.1
Characteristic Curves
PSON
The PSON is an internally pulled-up (3.3 V) input
signal to enable/disable the 12 V DC output. This
active-low pin is also used to clear any latched fault
condition. The configuration diagram of PSON
is shown in Figure 5:
PSON
Output Voltage 12 V DC
Low level
On
High level
Off
System
PAC3000S12-CE
Figure 3: Temperature vs. output power
Control Signal
PS_KILL
The PS_KILL pin help to implement the PSU
hot-plug. The PS_KILL input is active-low and is
located on a recessed pin on the connector and is
used to disconnect the main output as soon as
the power supply is being plugged out. This pin
should be connected to signal GND in the system.
PSON
10 KΩ
Figure 5: Configuration diagram of PSON
PS_KILL
Connect to the system
Low level
YES
PRESENT
High level
NO
The PRESENT is used to indicate to a power
distribution unit controller that a supply is plugged
in. The configuration diagram of PRESENT is
shown in Figure 6:
Typical configuration diagram of PS_KILL is as
following:
PAC3000S12-CE
System
System
PAC3000S12-CE
PRESENT
PS_KILL
Figure 6: Configuration diagram of PRESENT
Figure 4: Configuration diagram of PS_KILL
GLOBAL ENERGY EFFICIENCY SPECIALIST
6
PAC3000S12-CE
PSU Technical Manual V1.1
Control Signal
The logic of PRESENT is as following:
PRESENT
Connect to the system
Low level
YES
High level
NO
DCOK
DCOK is an open collector signal to indicate that
the output is within the regulation limits of the power
supply. When the output voltage falls below
regulation limits, DCOK is asserted to a low state.
About the detail of regulation limits is as following:
PS_INTERRUPT
DCOK
Output Voltage regulation limits
The low active open collector signal indicates that
the power supply is experiencing a problem,
warning or fault that the system agent should
investigate.
High level
11.8 V DC ≤ Vout ≤ output
overvoltage protection
Low level
Vout < 11.8 V DC or
Vout > output overvoltage
protection threshold
PS_INTERRUPT will be low if one of the following
situations occurs:
• Input undervoltage (Delay time from ACOK low
to PS_INTERRUPT high will be less than 100
μs.)
• Input overvoltage (Delay time from ACOK low to
PS_INTERRUPT high will be less than 100 μs.)
• Output overvoltage
• Output overcurrent
ACOK
ACOK is an open collector signal to indicate that
the AC input has been removed for a time
sufficiently long, or when the AC input voltage falls
below regulation limits, ACOK is asserted to a low
state. About the detail of regulation limits is as
following:
• Overtemperature or undertemperature
• Fan fault
The logic of PS_INTERRUPT is as following:
PS_INTERRUPT
PSU (PAC3000S12-CE)
Low level
abnormal
High level
normal
GLOBAL ENERGY EFFICIENCY SPECIALIST
ACOK
Input Voltage
High level
AC power is normal
Low level
AC power is abnormal
7
PAC3000S12-CE
PSU Technical Manual V1.1
Turn on/turn off timing
Figure 7: Turn on/turn off timing
Label
Description
Min.
T1
Vout rising time (10%Vout to 90%Vout).
T2
Hold up time (AC input off to Vout =11.8 V DC).
Condition: Vin = 220 V AC, Pout = 1500W
T3
Max.
Unit
/
5
ms
10
/
ms
Vout falling time (90%Vout to 10%Vout).
Condition: Vin off
/
500
ms
T4
Vout delay time (Vin on to 90%Vout).
Condition: PSON = 0 V
/
5000
ms
T5
Vout at 100% of final value to DCOK high.
Condition: rated output
/
100
ms
T7
PSON low to Vout at 100% of final value when AC has been
present for more than 5 s.
/
5
ms
T8
Delay time from PSON high to DCOK low.
Condition: rated output
/
50
ms
T10
Delay time from AC off to ACOK low.
/
12
ms
T11
Delay time from Vout =11.8 V DC to DCOK low.
0
5
ms
Table 1: Turn on/turn off timing demands
GLOBAL ENERGY EFFICIENCY SPECIALIST
8
PAC3000S12-CE
PSU Technical Manual V1.1
Typical waveforms
Vout
Vout
Vin
Vin
Figure 8: Turn-On AC line (no load, 500 ms/div)
Figure 9: Turn-On AC line (no load, 20 ms/div)
Vout
Vout
Vin
Vin
Figure 10: AC drop out (50% load, 10 ms/div)
Figure 11: AC drop out (50% load, 2 ms/div)
Iout
Iout
Vout
Figure 12: Output voltage dynamic response
(Load: 50% - 10% - 50%, 1 ms/div)
GLOBAL ENERGY EFFICIENCY SPECIALIST
Vout
Figure 13: Output voltage dynamic response
(Load: 100% - 50% - 100%, 1 ms/div)
9
PAC3000S12-CE
PSU Technical Manual V1.1
Remote sense
Load sharing
12 V DC output has sense lines implemented to
compensate for voltage drop on load wires. The
maximum allowed voltage drop is 0.2 V.
Up to eight PAC3000S12-CEs can be paralleled
for redundant configurations. All the I_Monitor pins
need to be interconneted in order to activate the
sharing function.
12 V
Protection Characteristic
Sense+
Output Overvoltage Protection
When the output voltage exceeds the output
overvoltage protection threshold, the PSU will
enter a latch off mode. The latch can be cleared
by toggling the PSON signal or by an AC input recycle. The delay time from PSON high to PSON
low should be more than 1 s. The delay time from
AC off to AC on should be more than 15 s.
Load
SenseGND
Figure 14: Configuration diagram for remote sense
Output Overcurrent Protection
1.After the remote sense is applied, the volt at the output
terminal is less than 12.8 V DC.
2. If the sense pin is not used, it should be left open.
Internal Cooling Fans
Power supply will power for the internal fans. It
contains fan speed control circuits to vary the fan
speed. If one of the paralleled PAC3000S12-CEs
has no output while the communication remains
normal, the fan can operate at minimum speed.
Figure 15 shows the detail about the wind tunnel.
Fan
When the output current exceeds the output
overcurrent protection threshold, the PSU will enter
a latch off mode. Output overcurrent shall be
maintained for a period of 1s before the PSU enter
a latch off mode. The latch can be cleared by
toggling the PSON signal or by an AC input recycle. The delay time from PSON high to PSON
low should be more than 1 s. The delay time from
AC off to AC on should be more than 15 s.
Overtemperature Protection
The power supply is protected against over
temperature conditions caused by loss of fan
cooling or excessively high ambient temperature.
In an overtemperature condition, the PSU shuts
down, the DCOK goes low and the bi-color LED
changes from green to red. When the fault
condition is removed, the PSU will automatically
restart.
Figure 15: Wind tunnel
GLOBAL ENERGY EFFICIENCY SPECIALIST
10
PAC3000S12-CE
PSU Technical Manual V1.1
Mechanical dimension
Unit of measurement: mm (in.)
Figure 16: Mechanical dimension
GLOBAL ENERGY EFFICIENCY SPECIALIST
11
PAC3000S12-CE
PSU Technical Manual V1.1
Interface Description
The output connector connects the power as well as the signal to the system or the power backplane board.
Figure 17: Rear panel
DC output connector pinout assignment
Manufacturer:
Tyco
Part number:
1-6450831-8
D1
D2
D3
D4
C1
C2
C3
C4
B1
B2
B3
B4
A1
A2
A3
A4
P1
P2
P3
GLOBAL ENERGY EFFICIENCY SPECIALIST
P4
P5
P6
P7 P8
12
P9
P10
P11 P12
PAC3000S12-CE
PSU Technical Manual V1.1
Pin definition of output socket
Pin
Definition
Description
P1-P6
12 V
Output: 12 V DC
P7-P12
GND
Power GND
A1
A0
Address pin
B1
A1
Address pin
C1
A2
Address pin
D1
PS_KILL
Power supply kill
A2
SCL
PMBus clock signal
B2
SDA
PMBus data signal
C2
GND
Signal GND
D2
PRESENT
Power supply present (lagging pin)
A3
DCOK
Indicator whether the DC output voltage is normal.
B3
ACOK
Indicator whether the AC output voltage is normal.
C3
PS_INTERRUPT
Power supply interruption signal
D3
PSON
Power supply on/off control signal
A4
NA
-
B4
I_Monitor
12 V DC load sharing
C4
Sense+
12 V DC remote sense+
D4
Sense-
12 V DC remote sense-
Indicator and Alarm
LED status
Green
LED
Red LED
Off
Description
Steady On
Input voltage, output voltage are normal.
Blinking at 0.5 Hz
Standby mode
Blinking at 4 Hz
Uploads software
Steady On
Reports alarms for input over/undervoltage protection, output
overvoltage, fan faults, over/undertemperature, output overcurrent, and
short circuits.
Indicates that no input voltage is available.
GLOBAL ENERGY EFFICIENCY SPECIALIST
13
PAC3000S12-CE
PSU Technical Manual V1.1
PMBus Communication
The PSU contains internal EEPROM device accessible through PMBus communication. As long as the unit is
connected to system backplane which is providing 12 V DC power, unit FRU data shall be accessible without
AC inputs.
Pins A0, A1, and A2 are also allocated at the power supply connector for selecting the PMBus address of
communication devices inside the power supply. The PSU address capability is as following table:
PSU
1#
2#
3#
4#
5#
6#
7#
8#
A2/A1/A0
000
001
010
011
100
101
110
111
FRU address
0xA0
0xA2
0xA4
0xA6
0xA8
0xAA
0xAC
0xAE
The PAC3000S12-CE develops the following monitoring functions and faults detection functions.
Monitoring functions:
• Input voltage
• Input current
• Input power
• Output voltage
• Output current
• output power
• output voltage setpoint
Faults detection functions:
• Reports alarms for input under/overvoltage
protection
• Reports alarms for output under/overvoltage
• Reports alarms for fan faults
• Reports alarms for under/overtemperature
• Reports alarms for output overcurrent, and short
circuits
Appendix B describe the FRU data to be stored in power supply EEPROM by vendor. For more information,
please refer to PMBus_Specification_Part_I_Rev_1-2, PMBus_Specification_Part_II_Rev_1-2, Appendix A.
Safety Precautions
You are advised to provide two power inputs for the system. Power configuration in N+N mode is preferred.
The following figure shows the power configuration in 3+3 mode.
• Configure a circuit breaker (with a rated current not less than 16 A) for each PSU.
• The rated current of the upstream circuit breaker for each power input is recommended to be not less
than 50 A.
• The PSU should be properly grounded. Otherwise, it will be damaged due to a lightning strike.
Figure 18: Application configuration in system
GLOBAL ENERGY EFFICIENCY SPECIALIST
14
PAC3000S12-CE
PSU Technical Manual V1.1
Appendix A PMBus Command
Command
(hex)
Command name
PMBUS
Transaction
Type
Data format
Description
Control commands
01h
OPERATION
R/W Byte
Unsigned binary integer Enable or disable outputs.
03h
CLEAR_FAULTS
Send Byte
Unsigned binary integer Clear any fault bits that have been set.
11h
STORE_DEFAUL
T_ALL
Send Byte
Unsigned binary integer
Copy the entire contents from the operating memory
to the default store.
12h
RESTORE_DEFA
ULT_ALL
Send Byte
Unsigned binary integer
Copy the entire contents from the default store to the
operating memory.
19h
CAPABILITY
Read Byte
Unsigned binary integer Determine some key capabilities of the PMBUS device.
Output commands
20h
VOUT_MODE
Read Byte
Unsigned binary integer
Determine the data type and parameters used by the
PMBUS command.
21h
VOUT_COMMAN
D
R/W Word
LINEAR16, unsigned
int number
Specify the output voltage.
22h
VOUT_TRIM
R/W Word
LINEAR16, Two’s
complement number
Command value used to apply a fixed offset voltage to
the output voltage.
24h
VOUT_MAX
R/W Word
LINEAR16, unsigned
int number
Maximum allowed output voltage.
31h
POUT_MAX
R/W Word
LINEAR11
Maximum output power (for batteries)
3Ah
FAN_CONFIG_1_
2
R/W Byte
Unsigned binary integer Fan 1 and Fan 2 configuration
3Bh
FAN_COMMAND
_1
R/W Word
Unsigned binary integer Fan 1 control
Identification commands
98h
PMBUS_REVISIO
Read Byte
N
Unsigned binary integer PMBus version number
Monitor commands
88h
READ_VIN
Read Word
LINEAR11
Read the input voltage value
89h
READ_IIN
Read Word
LINEAR11
Read the input current value
8Bh
READ_VOUT
Read Word
LINEAR16, unsigned
int number
Read the measured output voltage value
8Ch
READ_IOUT
Read Word
LINEAR11
Read the measured output current
96h
READ_POUT
Read Word
LINEAR11
Read the output power
97h
READ_PIN
Read Word
LINEAR11
Read the input power
GLOBAL ENERGY EFFICIENCY SPECIALIST
15
PAC3000S12-CE
PSU Technical Manual V1.1
Appendix B FRU Descriptions
Offset
(Bytes)
Value
(Decimal)
Definition
(Remarks)
0 to 7
Offset
(Bytes)
Common Header, 8 Bytes
Value
(Decimal)
Definition
(Remarks)
50
1 Format Version Number
53
0 Internal Use Area Offset
48
0 Chassis Info Area Offset
48
0 Board Info Area Offset
87
1 Product Info Area Offset
32
11 Multi Record Area Offset
83
0 to 7
0 PAD (reserved)
69
243 Zero Check Sum
82
8 to 87
Product Info Area, 72 Bytes
8
9
10
11
12 to 17
Product Area Format Version
7:4 - reserved, write as 0000b
1
3:0 - format version number = 1h for
this specification
8
86
69
82
19 to 48
32
80
Product Area Length(in multiples of 8
bytes)
83
25 Language Code(English)
32
Manufacturer Name Type/Length
198 (0C6H) = Type “ASCII+LATIN1” 6
Bytes
32
32
72
32
85 Manufacturer Name 6 byte sequence
Vendor Name: HUAWEI
65 In Decimal = 072, 085, 065, 087, 069,
073
87
In Hex = 48H, 55H, 41H, 57H, 45H,
69 49H
32
32
32
32
73
49
18
Product Name Type/Length (DEH) =
222
Type “ASCII+LATIN1” 30 Bytes
200
72
50
85
51
87 “EPW3000-12A”30 Byte sequence.
Product Part/Model Number type/length
(0C8H) = Type “ASCII+LATIN1” 8 Bytes.
48
65
19 to 48
“EPW3000-12A”30 Byte sequence.
50 to 57
49 Huawei part number format, e.g. OSCA48 3000W:02310LKL
69
74
73
70
32
71
GLOBAL ENERGY EFFICIENCY SPECIALIST
16
PAC3000S12-CE
PSU Technical Manual V1.1
Appendix B FRU Descriptions
Offset
(Bytes)
Value
Definition
(Decimal) (Remarks)
58
196
Product Version Type/Length (0C4H) =
Type “ASCII+LATIN1” 4 Bytes.
Offset
(Bytes)
88 to 116
48
59 to 62
Value
Definition
(Decimal) (Remarks)
49 software version,e.g.V100, the big
version is 01 and the small version is 00
48 In Decimal: 48, 49, 48, 48
0
89
7:7 – End of list
6:4 – Reserved, write as 000b
2
3:0 – Record Format version (=2h unless
otherwise specified)
90
Product Serial Number Type/Length
212 (0D4H) = Type “ASCII+LATIN1” 20
Bytes.
50
142 Record Checksum
92
90 Header Checksum
93 to 94
196 15:12 – Reserved, write as 0000b
11:0 - Overall capacity (watts) (LSB First),
9 default:2500W
95 to 96
255 default:0xffff
255 no define
48
48
51
50
51
57
97
255
98
0
Huawei barcode number format, e.g.
2102310LKLD0D3000054
101 to 102
144 High end Input voltage range 1 (10mV,
101 LSB First )
103 to 104
64 Low end Input voltage range 2 (10mV,
31 LSB First )
105 to 106
72 High end Input voltage range 2 (10mV,
113 LSB First )
48
66
52
48
48
48
107
45 Low end input frequency range
48
108
60 High end input frequency range
109
10
110
Binary flags,default:0x0f
7:5 – Reserved, write as 0000b
4:4 – Tachometer pulses per
rotation/Predictive fail
15 polarity
3:3 – Hot Swap Support
2:2 – Autoswitch
1:1 - Power factor correction
0:0 - Predictive fail support
48
49
84
0
Asset Tag Default Value is 0
85
0
FRU File ID type/Length [not used]
87
default:0x00
no define
40 Low end Input voltage range 1 (10mV,
35 LSB First )
68
86
default:0xff
no define
99 to 100
54
49
24 Record Length
91
49
64 to 83
Record Type, 0-Power Supply
information
88
48
63
MultiRecord Area
End Tag
193 In Decimal: 193
In Hex: 0C1H
59
Zero Check Sum Shall be calculated at
the time of manufacturing.
GLOBAL ENERGY EFFICIENCY SPECIALIST
A/C dropout tolerance in ms; default
10ms
17
PAC3000S12-CE
PSU Technical Manual V1.1
Appendix B FRU Descriptions
Offset
(Bytes)
Value
(Decimal)
184
111 to
112
11
0
113 to
115
0
0
116
117
118
10
1
2
Definition
(Remarks)
Offset
(Bytes)
Peak Wattage.
15:12 – Hold up time in seconds
11:0 – Peak capacity (watts) (LSB
First)
default: 0x5bb8
Combined Wattage,default:0x00
0x00 0x00
Byte 1:
7:4 – Voltage 1
3:0 – Voltage 2
Byte 2:3
Total Combined Wattage (LSB
First)
122
123 to 124
13 Record Length
120
38 Record Checksum
121
202 Header Checksum
0
Output information
7:7 – Standby
6:4 – Reserved, write as 000b
3:0 – Output number
206 Nominal voltage (10 mV), default:
4 12300mv
3 Maximum negative voltage deviation
0 (10mV), default: 30mv
127 to 128
3 Maximum positive voltage deviation
0 (10mV), default: 30mv
129 to 130
78 Ripple and Noise pk-pk 10Hz to 30 MHz
0 (mV), default: 120mv
131 to 132
0 Minimum current draw (10mA), default:
0 0x0
133 to 134
101 Maximum current draw (10mA),default:
79 203252mA
Record Type, 1-DC Output
119
Definition
(Remarks)
125 to 126
Predictive fail tachometer lower
threshold (RPS), default:0x0a
7:7 – End of list
6:4 – Reserved, write as 000b
3:0 – Record Format version (=2h
unless
otherwise specified)
Value
(Decimal)
HUAWEI TECHNOLOGIES CO., LTD.
Huawei Industrial Base Bantian Longgang
Shenzhen 518129
People's Republic of China
www.huawei.com
GLOBAL ENERGY EFFICIENCY SPECIALIST
18