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Introduction
The PSR6000-ACV is a built-in power module with AC input and DC output. It provides the device with both system power and PoE power, which can be controlled through separate switches.
Table 1 Features of the PSR6000-ACV
Item |
Description |
Protection functions |
Support input under-/over-voltage protection, output over-voltage protection, short-circuit protection, over-current protection, and overheat protection |
Hot swapping |
Support hot swapping with the power switch turned off while the device is in operation |
Redundancy backup |
Support 1 + 1 hot backup and current sharing |
CAUTION: PSR6000-ACV cannot work with power modules of other models on the same device. |
Physical View
Figure 1 Physical view of the PSR6000-ACV
(1) Captive screws |
(2) PoE power switch |
(3) Status LEDs |
(4) Holes for installing a cable retention clip |
(5) System power socket |
(6) System power switch |
(7) Power module handle |
(8) PoE input sockets |
As shown in Figure 1, each PSR6000-ACV has four independent AC input sockets, where,
· Callout (5) is the system power input socket (SYS IN);
· Callout (8) is the PoE power input sockets (PoE1, PoE2, and PoE3).
The PSR6000-ACV is designed with two switches, of which,
· Callout 6 is used to control the output of the entire power supply system;
· Callout (2) is used to control the PoE power output.
The PSR6000-ACV provides PoE power output on the premise that:
· The system power switch is on and the system power output is normal;
· The PoE power switch is on and PoE input is available on at least one of the three PoE sockets.
PoE output power of the PSR6000-ACV varies with number of PoE power input lines. You can add or remove lines of PoE power supplies as needed. For details, see Table 2.
In addition to providing dedicated PoE power supplies for devices supporting PoE, PoE power output can also be used as supplementary power supply for devices that do not support PoE:
· With only the system power switch turned on, the maximum power output of the system is 1150 W (110 VAC) or 1400 W (220 VAC).
· If the power requirements of the entire system exceed the maximum system power provided by the PSR6000-ACV, PoE power output can be used as supplements. To do this, turn on the PoE power switch and select lines of PoE power supplies as needed. For details, refer to the installation manual of related devices.
CAUTION: · Input voltage for the system power input, PoE 1, PoE 2, and PoE 3 must be the same. It can be either 110 VAC or 220 VAC for power supplies of the power module. · Turn off the PoE power switch if PoE power supply is not required by the device. For more information, see the installation guide or hardware information and specifications for the device. |
Technical Specifications
Table 2 Technical specifications
Item |
Description |
|
Rated voltage range |
100 VAC to 240 VAC; 50 Hz or 60 Hz |
|
Maximum input current per line |
16 A |
|
Maximum output current |
117 A |
|
Maximum PoE output current |
100 A |
|
Max system power output |
1150 W (110 VAC) 1400 W (220 VAC) |
|
Max PoE power output |
One line of PoE input |
1200 W (110 VAC) 1800 W (220 VAC) |
Two lines of PoE input |
2400 W (110 VAC) 3600 W (220 VAC) |
|
Three lines of PoE input |
3600 W (110 VAC) 5300 W (220 VAC) |
|
Physical dimensions |
128 × 196 × 380 mm |
|
Temperature requirements |
Operating temperature |
0°C to 45°C (32°F to 113°F) |
Storage temperature |
–40°C to +70°C (–40°F to +158°F) |
LEDs
Each PSR6000-ACV provides eight red/green bi-color LEDs. Table 3 describes the LEDs of the power module.
Table 3 Description of the LEDs
LED |
State |
Description |
System power input (SYS IN) |
Off |
No system power input is present. |
Green |
The system power input is normal. |
|
Red |
The system power input is abnormal. |
|
System power output (SYS OUT) |
Off |
No system power input is present. |
Green |
The system power output is normal. |
|
Red |
The power switch is in the off position. |
|
Power alarm (output short circuit, output over-current, output over-voltage, or overheat occurs on the power module, and the power module takes a self-protection action) |
||
System fan (SYS FAN) |
Off |
No system power input is present. |
Green |
The power module fan works normally. |
|
Red |
The system switch is in the off position. |
|
The power module fan is faulty (the power module takes a self-protection action and stops power output two seconds after the fan fails.) |
||
PoE power input (PoE IN1*) |
Off |
No PoE power input is present. |
Green |
The PoE power input is normal. |
|
Red |
The PoE power input is abnormal. |
|
PoE power output (PoE OUT) |
Off |
No PoE power input is present. |
Green |
The power output is normal. |
|
Red |
The power switch is in the OFF position. |
|
Power alarm (output short circuit, output over-current, output over-voltage, or overheat occurs to the power module, and the power module takes a self-protection action). |
||
PoE fan (PoE FAN) |
Off |
No PoE power input is present. |
Green |
The PoE fan works normally. |
|
Red |
The PoE switch is in the off position. |
|
The PoE fan is faulty (the PoE module takes a self-protection action and stops power output two seconds after the fan fails.) |
||
Note*: Description for PoE IN1, PoE IN2, and PoE IN3 is the same. |
CAUTION: · The power module provides PoE power output only if the system power output is normal. · It would be normal that the power LED remains on for a period of time after you turn off the power switch. · Avoid turning on and off the power switch frequently. After turning off the power switch, wait at least 30 seconds before turning it on again. |
Installing/Removing the PSR6000-ACV
Follow the procedures shown in Figure 2 and Figure 3 to install or remove the power module.
Figure 2 Flow chart for installing the power module
Figure 3 Flow chart for removing the power module
Preparations
Before installing the power module, you need to prepare an ESD-preventive wrist strap and a No. 1 Phillips screwdriver.
Installing the Power Module
Follow these steps to install the power module:
1. Put on an ESD-preventive wrist strap and make sure it has a good skin contact and is well grounded.
2. Supporting the bottom of the power module with one hand and holding the handle with the other hand, slowly push the power module along the guide rails into the chassis until it well touches the interface on the backplane of the chassis.
3. Fasten the captive screws with a No. 1 Phillips screwdriver to fix the power module to the chassis of the switch.
Figure 4 Install the power module
CAUTION: · Avoid excessive force when inserting the power module into the chassis. · To protect the interfaces of the power module and the backplane, pull out the power module and then insert it again in the case of any misalignment. · If the captive screws cannot be tightened, check whether the power module is properly installed. |
Removing the Power Module
Remove the power module in the reverse process of installation:
1. Put on an ESD-preventive wrist strap and loosen the captive screws of the power module.
2. Supporting the bottom of the power module with one hand and holding the handle with the other hand, slowly pull the power module out along the guide rails.
CAUTION: The power module is heavy. Pull the power module out slowly with one hand holding its handle and the other hand supporting its bottom. |
Connecting the Power Cord
Turn off the switch of the busbar before connecting or removing the power cord.
Installing the Cable Retention Clip
(1) Screw Holes for fixing the clip on the connector of the power cord |
(2) Screw holes for fixing the clip on the power module |
The cable retention clip is supplied with the power module. Before connecting the power cord, install the clip on the power cord first.
|
NOTE: The cable retention clip is designed for the power cords provided by H3C only. For other power cords, omit the information in this section. |
Follow these steps to install a cable retention clip:
1. Place two parts of the clip around the connector and align the holes on two parts of the clip.
2. Fix the clip on the power connector with screws using the No. 1 Phillips screwdriver, as shown in Figure 5.
Connecting the Power Cord
Connect the power cord to the power module after installing the cable retention clip on the connector. The procedures for connecting power cords to the four power input sockets on the PSR6000-ACV are the same.
Figure 6 Connect an AC power cord
Follow these steps to connect the power cord:
1. Plug the power connector in the power socket of the PSR6000-ACV. The holes on the cable retention clip and the power module should be aligned.
|
NOTE: When connecting the power cord, if the holes on the clip are not aligned with that on the power module, the clip cannot be correctly installed. In this case, rotate the clip and try again. |
2. Fix the clip on the power connector with screws using the No. 1 Phillips screwdriver.
3. Connect the other end of the power cord to the AC power input.