AT-RPS3000
Redundant Power Supply
AT-RPS3000
AT-PWR250
AT-PWR800
AT-PWR1200
2179
Installation Guide
613-001498 Rev. B
Download from Www.Somanuals.com. All Manuals Search And Download.
Electrical Safety and Emissions Standards
This product meets the following standards.
U.S. Federal Communications Commission
Radiated Energy
Note: This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15
of FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the
equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency
energy and, if not installed and used in accordance with this instruction manual, may cause harmful interference to radio
communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case
the user will be required to correct the interference at his own expense.
Note: Modifications or changes not expressly approved of by the manufacturer or the FCC, can void your right to operate
this equipment.
Industry Canada
This Class A digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.
RFI Emissions
FCC Class A, EN55022 Class A, EN61000-3-2, EN61000-3-3, VCCI
Class A, C-TICK, CE
Warning: In a domestic environment this product may cause radio interference in
which case the user may be required to take adequate measures.
EMC (Immunity) EN55024
Electrical Safety
Laser Safety
EN60950-1 (TUV), UL 60950-1 (CULUS
EN60825
)
3
Download from Www.Somanuals.com. All Manuals Search And Download.
Translated Safety Statements
Important: The indicates that translations of the safety statement are available in the PDF
document “Translated Safety Statements” posted on the Allied Telesis website at
4
Download from Www.Somanuals.com. All Manuals Search And Download.
Contents
Preface ............................................................................................................................................................ 11
Sales or Corporate Information.................................................................................................................. 14
Chapter 1: Overview ...................................................................................................................................... 15
LED Panel.................................................................................................................................................. 16
Power Supply Slots.................................................................................................................................... 17
System Power............................................................................................................................................ 21
PoE+ Power............................................................................................................................................... 22
Non-PoE+ Switches................................................................................................................................... 36
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules ........................................... 49
Selecting a Location for the AT-RPS3000 Chassis in the Equipment Rack..................................................... 57
5
Download from Www.Somanuals.com. All Manuals Search And Download.
Contents
Installing the AT-RPS3000 Chassis in an Equipment Rack..............................................................................58
Installing a Power Supply Module.....................................................................................................................61
Connecting the AT-RPS3000 Chassis to the x610 Series Switch ....................................................................65
Powering On the Power Supply Modules .........................................................................................................69
Chapter 3: Removing Power Supply Modules .............................................................................................75
Removing the AT-RPS-CBL1.0 Cable ..............................................................................................................76
Removing an AC Power Supply Module...........................................................................................................78
Chapter 4: Troubleshooting ..........................................................................................................................83
Appendix A: Technical Specifications .........................................................................................................87
Physical Specifications .....................................................................................................................................87
Environmental Specifications............................................................................................................................87
Power Specifications.........................................................................................................................................88
Certifications .....................................................................................................................................................88
Port Pin-outs .....................................................................................................................................................89
6
Download from Www.Somanuals.com. All Manuals Search And Download.
Figures
Figure 1: LED Panel .............................................................................................................................................................16
Figure 2: Slots A and B for the Power Supply Modules........................................................................................................17
Figure 3: Slot A and RPS 1 and 2 Ports ...............................................................................................................................17
Figure 4: Slot B and RPS 3 and 4 Ports ...............................................................................................................................18
Figure 5: RPS Ports..............................................................................................................................................................18
Figure 6: Removable and Non-removable Power Supply Modules in x610 Switches..........................................................22
Figure 7: Example of a Single Low-power Switch Connected to an RPS System Port........................................................25
Figure 8: Example of a Non-PoE+, Low-power Switch Connected to an RPS PoE+/System Port ......................................26
Figure 9: Example of Two Low-power Switches...................................................................................................................26
Figure 10: Example of Four Low-power Switches ................................................................................................................27
Figure 11: Example of Low-power and High-power Switches ..............................................................................................28
Figure 12: Example of Two High-power Switches on the System Ports...............................................................................29
Figure 13: Example of Two High-power, Non-PoE+ Switches on the PoE+/System Ports..................................................29
Figure 14: Example of One PoE+ Switch .............................................................................................................................30
Figure 15: Example of Two PoE+ Switches .........................................................................................................................31
Figure 16: Example of Low-power PoE+ and Non-PoE+ Switches......................................................................................32
Figure 17: Example of Low-power PoE+ and Non-PoE+ Switches......................................................................................33
Figure 18: Example of an Invalid Configuration - A..............................................................................................................34
Figure 19: Example of an Invalid Configuration - B..............................................................................................................35
Figure 20: Example of Power Modules and Non-PoE+ Switches.........................................................................................36
Figure 21: Two AT-PWR800 Modules Providing Up to 480 Watts, with Full Redundancy...................................................37
Figure 22: Two AT-PWR800 Modules for 480 to 960 Watts, with Limited Redundancy ......................................................38
Figure 23: Two AT-PWR1200 Modules Providing Up to 780 Watts, with Full Redundancy.................................................38
Figure 25: Example of x610 Series Switches and AT-RPS3000 Chassis with Different Power Supply Modules ................40
Figure 26: LED Panel ...........................................................................................................................................................42
Figure 27: Module A Ports LEDs ..........................................................................................................................................42
Figure 28: Module B Ports LEDs ..........................................................................................................................................43
Figure 29: Power Module Status LEDs.................................................................................................................................44
Figure 30: Power Module LED..............................................................................................................................................46
Figure 31: RPS Port On/Off Switches...................................................................................................................................47
Figure 32: 100 - 125 VAC 125 V NMA 5-20 Plug and Receptacle .......................................................................................52
Figure 33: Positioning the AT-RPS3000 Chassis in the Equipment Rack............................................................................57
Figure 34: Unauthorized AT-RPS3000 Chassis and x610 Series Switch Installations.........................................................57
Figure 35: Turning the Switch Upside Down ........................................................................................................................58
Figure 36: Removing the Plastic Feet...................................................................................................................................58
Figure 37: Attaching the Equipment Rack Brackets .............................................................................................................59
Figure 38: Mounting the AT-RPS3000 Redundant Power Supply in an Equipment Rack....................................................59
Figure 39: Removing the Blank Shipping Panel from the Back Panel..................................................................................61
Figure 40: Installing a Power Supply Module .......................................................................................................................62
Figure 41: Securing a Power Supply Module .......................................................................................................................63
Figure 42: Installing a Power Cord Retaining Clip................................................................................................................63
Figure 43: Installing the Slot Cover.......................................................................................................................................64
Figure 44: Securing the Slot Cover.......................................................................................................................................64
Figure 45: Connecting the AT-RPS-CBL1.0 Cable to the x610 Series Switch.....................................................................65
Figure 46: Securing the AT-RPS-CBL1.0 Cable to the Switch.............................................................................................66
Figure 47: RPS Port On/Off Buttons and CABLE LEDs .......................................................................................................66
Figure 48: Connecting the AT-RPS-CBL1.0 Cable to the AT-RPS3000 Chassis.................................................................67
Figure 49: Securing the AT-RPS-CBL1.0 Cable to the AT-RPS3000 Chassis.....................................................................68
7
Download from Www.Somanuals.com. All Manuals Search And Download.
Figures
Figure 54: Checking the FAN and DC OUT LEDs in the LED Panel....................................................................................72
Figure 64: Port Pin-outs for the RSP System and PoE+/System Ports................................................................................89
8
Download from Www.Somanuals.com. All Manuals Search And Download.
Tables
Table 1: Power Supply Modules ..........................................................................................................................................19
Table 2: Valid and Invalid Power Supply Combinations in the AT-RPS3000 Chassis ........................................................20
Table 3: Low-power and High-power Switches ..................................................................................................................24
Table 4: Valid and Invalid Configurations of Low- and High-power Switches for a Power Supply Module ........................24
Table 5: Power Supply Module Combinations for PoE+ Switches ......................................................................................40
Table 6: Module A and B Ports LEDs .................................................................................................................................43
Table 7: Power Module Status LEDs ..................................................................................................................................45
Table 8: Power Module LED ...............................................................................................................................................46
Table 9: AT-RPS3000 Chassis Components ......................................................................................................................54
Table 10: Power Supply Module Components ....................................................................................................................55
Table 11: RPS 1 and 3 System Ports ..................................................................................................................................89
Table 12: RPS 2 and 4 PoE+/System Ports ........................................................................................................................90
9
Download from Www.Somanuals.com. All Manuals Search And Download.
Tables
10
Download from Www.Somanuals.com. All Manuals Search And Download.
Preface
This guide contains the installation instructions for the AT-RPS3000
Chassis. The chassis is a modular power supply system for the x610
Series of Layer 3 Gigabit Ethernet switches. This preface contains the
following sections:
11
Download from Www.Somanuals.com. All Manuals Search And Download.
Preface
Document Conventions
This document uses the following conventions:
Note
Notes provide additional information.
Caution
Cautions inform you that performing or omitting a specific action
may result in equipment damage or loss of data.
Warning
Warnings inform you that performing or omitting a specific action
may result in bodily injury.
12
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Where to Find Web-based Guides
The installation and user guides for all of the Allied Telesis products are
available for viewing in portable document format (PDF) from our web site
13
Download from Www.Somanuals.com. All Manuals Search And Download.
Preface
Contacting Allied Telesis
This section provides Allied Telesis contact information for technical
support and for sales and corporate information.
Online Support You may request technical support online by accessing the Allied Telesis
Knowledge Base to submit questions to our technical support staff and
review answers to previously asked questions.
Email and For Technical Support via email or telephone, refer to the Support &
Services section of the Allied Telesis web site: www.alliedtelesis.com/
support. Select your country from the list displayed on the website and
then select the appropriate menu tab.
Telephone
Support
Warranty For hardware warranty information, refer to the Allied Telesis web site at
Returning Products for return or repair must first be assigned a return materials
authorization (RMA) number. A product sent to Allied Telesis without an
RMA number will be returned to the sender at the sender’s expense.
Products
To obtain an RMA number, contact the Allied Telesis Technical Support
country from the list displayed on the website. Then select the appropriate
menu tab.
Sales or You can contact Allied Telesis for sales or corporate information through
your country, select Contact Us.
Corporate
Information
Management New releases of management software for our managed products are
available on our Allied Telesis web site at http://www.alliedtelesis.com/
support.
Software Updates
14
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
Features
The AT-RPS3000 Chassis is a modular power supply system for the x610
Series of Layer 3 Gigabit Ethernet switches. It protects the switches from
power supply failures and provides additional PoE+ power.
The chassis can support two or four x610 Series switches, depending on
the switch model. It has two slots for power supply modules, an LED panel
for viewing the status of the power modules, and four RPS connectors.
As explained in this overview, the power supply modules in the chassis
function in either a redundant or an active state, depending on the switch
model. For non-PoE+ x610 Series switches, the chassis acts as the active
power source for the switches, whose own internal, non-removable power
supplies function as backup modules. For PoE+ switches, the chassis acts
as a redundant power supply for system power and in a load-sharing
mode for PoE+ power.
Warning
The AT-RPS3000 Chassis is designed specifically for the x610
Series of Layer 3 Gigabit Ethernet switches and should not be used
with any other product.
Note
The AT-RPS3000 Chassis is not a battery backup unit. The power
supply modules in the chassis have to be connected to active power
sources to deliver power to the switches.
LED Panel The front panel of the AT-RPS3000 Chassis has an LED panel that
displays status information about the power supply modules and RPS
ports. The LEDs are described in “LEDs” on page 42.
2148
LED Panel
Figure 1. LED Panel
16
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Power Supply The slots on the back panel of the chassis are for two power supply
modules. The slots are labeled A and B.
Slots
A
A
1
2
3
4
B
B
SYSTEM
SYSTEM
PoE+
/
SYSTEM
PoE+
/
SYSTEM
MODULE
A
MODULE
B
2166
Slot A
Slot B
Figure 2. Slots A and B for the Power Supply Modules
Note
The chassis is shipped from the factory with a blank panel over the
power supply slots.
RPS Connectors The four RPS connectors, which connect the chassis to up to four x610
Series switches, are paired with the power supply slots. RPS 1 and 2 ports
receive power from the power supply module in slot A.
A
A
1
2
3
4
B
B
SYSTEM
SYSTEM
PoE+
/
SYSTEM
PoE+
/
SYSTEM
MODULE
A
MODULE
B
2166
Slot A
RPS 1 and 2 ports
Figure 3. Slot A and RPS 1 and 2 Ports
17
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
RPS 3 and 4 ports obtain power from the power supply module in slot B.
A
A
1
2
3
4
B
B
SYSTEM
SYSTEM
PoE+
/
SYSTEM
PoE+
/
SYSTEM
MODULE
A
MODULE
B
2166
RPS 3 and 4 ports
Slot B
Figure 4. Slot B and RPS 3 and 4 Ports
The ports are labeled System and PoE+/System ports. The System ports
provide system power to x610 Series switches, but not PoE+ power. You
may use these ports to deliver system power to PoE+ and non-PoE+
switches.
1
2
3
4
B
B
SYSTEM
SYSTEM
PoE+ / SYSTEM
MODULE A
PoE+ / SYSTEM
MODULE B
2206
Figure 5. RPS Ports
The PoE+/System ports provide PoE+ power and system power, provided
that the power modules and the switches support PoE+. For more
information on the System and POE+/System ports, refer to “System
18
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Power Supply Modules
This table lists the power supply modules that are currently available for
the AT-RPS3000 Chassis and PoE+ x610 Series switches. One module
supplies only system power to the x610 Series switches and two modules
provide system power and PoE+ power.
Table 1. Power Supply Modules
Power
Source
Power Supply Module
Description
AC
System power only.
DC OUT
FAULT
100-240VAC~ 5A MAX
AT-PWR250
AT-PWR800
2185
AC
AC
System power plus
480W for PoE+.
DC OUT
FAULT
100-240VAC~ 12A MAX
2186
System power plus
780W for PoE+.
AT-PWR1200
DC OUT
FAULT
100-240VAC~ 16A MAX
2187
Note
There are AC and DC versions of the AT-PWR250 Module. The AC
module is supported in the PoE+ x610 Switches and AT-RPS3000
Chassis. The DC module is only supported in the PoE+ x610
Switches. It is not supported in the AT-RPS3000 Chassis.
19
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
The power supply modules for the AT-RPS3000 Chassis and PoE+ x610
Series switches must be purchased separately. Non-PoE+ x610 Series
switches come with non-removable power supply modules.
Note
The AT-PWR800 and AT-PWR1200 Modules are compatible with
non-PoE+ x610 Series switches. They may be used in the
AT-RPS3000 Chassis to provide active system power to non-PoE+
switches.
The chassis has slots for two power supply modules. You may install one
or two modules. The power supply modules may be the same model or
different models. There are some combinations of power supply modules,
combinations of modules for the chassis.
Table 2. Valid and Invalid Power Supply Combinations in the AT-RPS3000
Chassis
Valid Combinations
Invalid Combinations
One AT-PWR800 Module and one
AT-PWR250 Module
Two power supply modules of the
same model (for instance, two
AT-PWR800 Modules)
One AT-PWR1200 Module and
one AT-PWR250 Module
One AT-PWR800 Module and one
AT-PWR1200 Module
20
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
System Power and Power for PoE+
Although the product name contains the acronym “RPS,” which stands for
“redundant power supply,” the AT-RPS3000 Chassis actually functions as
the active, primary source of system power for some of the switches in the
x610 Series. For others it functions both as a redundant source of system
power and as an active source of additional PoE+ power.
The easiest way to explain how and when the chassis supplies power to
the x610 Series switch is to divide the discussion into the two types of
power the switch may require:
System Power The switch uses system power to operate its switching, CPU, LEDs, fans,
and management functions. The only function not supported by system
power is PoE+.
The switch may obtain its system power either from its own internal power
supply module or from a module in the AT-RPS3000 Chassis. There is no
load-sharing of system power. Consequently, one of the sources is going
to be actively providing system power to the switch while the other source
is held in a redundant state.
The active source of system power is different for non-PoE+ and PoE+
x610 Series switches. Non-PoE+ switches use the power modules in the
AT-RPS3000 Chassis as their primary, active power source for system
power, and place their internal power modules in a redundant state. Thus,
a non-PoE+ switch relies upon the AT-RPS3000 Chassis to provide all of
its system power, and activates its internal power supply only if it stops
receiving system power from the chassis.
For PoE+ switches, the opposite is true. They use their internal power
supply modules as the active source for system power, and the power
module in the AT-RPS3000 Chassis as the redundant power source.
Should there be a failure of the internal power supply in the switch or an
interrupt in the AC power to it, the switch immediately begins to draw
system power from the AT-RPS3000 Chassis to prevent any interruption
to its network operations.
The easiest way to determine whether the switch is a PoE+ or non-PoE+
x610 Series switch is to examine its model name on the front panel. PoE+
switches have “POE+” in their product names. Another way is to look at
the back panel to see if the power supply is removable or non-removable.
PoE+ switches have removable power modules while non-PoE+ switches
21
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
DC OUT
FAULT
WARNING
WARNING
This unit ma
electric shoc
unit.
This unit
electric sho
unit.
m
100-240 VAC~12A MAX
100-240 VAC~5A MAX
2158
Removable Power Supply
(PoE+ Switches)
Non-removable Power Supply
(non-PoE+ Switches)
Figure 6. Removable and Non-removable Power Supply Modules in x610
Switches
To summarize, a non-PoE+ x610 Series switch uses the AT-RPS3000
Chassis as its active source of system power and its internal, non-
removable module as a redundant source. For a PoE+ x610 Series switch
the reverse is true because its primary source of system power is its
removable internal module and the redundant source is the power module
in the AT-RPS3000 Chassis.
System power for PoE+ and non-PoE+ x610 Series switches is provided
by all four RPS ports on the AT-RPS3000 Chassis. RPS 1 and 3 System
ports provide only system power, and RPS 2 and 4 PoE+/System ports
provide PoE+ power in addition to system power.
You may use any of the available power supply modules, listed in Table 1
on page 19, to provide system power to the x610 Series switches. In fact,
the modules, when installed in the AT-RPS3000 Chassis, can provide
system power to two low-power switches at the same time, as explained in
The switch and chassis do not display the active or redundant status of a
power supply module. You may use the LEDs and switch’s management
software to determine whether a power module is operating correctly, but
not whether it is the active or redundant system power for the switch.
PoE+ Power The four x610 Series switches that support PoE+ on the twisted pair ports
do not come with power supply modules. The modules have to be
purchased separately. You may use any of the three modules in a PoE+
switch, although the AC AT-PWR250 Module does not provide PoE+
power, only system power. The AT-PWR800 and AT-PWR1200 Power
Supply Modules provide 480 and 780 watts, respectively, of PoE+ power,
in addition to system power.
As explained earlier in this Overview, there is no load sharing of system
power between the power supplies in the switch and AT-RPS3000
Chassis. Only one source is active while the other is held in a redundant
state.
22
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
PoE+ power is different in that the power supplies in the switch and
chassis do use load-sharing to provide power to the powered devices. This
assumes, of course, that both supplies have PoE+ power. So, in essence,
the AT-RPS3000 Chassis performs two roles for PoE+ switches. It acts as
a redundant source of system power for the switches and, assuming the
chassis has PoE+ power supplies, actively provides them with additional
power for PoE+ so that they can support more powered devices.
Of the three available power supply modules for the chassis, two modules
provide PoE+ power along with system power to the PoE+ switches. They
are the AT-PWR800 and AT-PWR1200 Modules. These modules can
provide PoE+ power to just one switch at a time, meaning that each PoE+
switch has to have a separate power module in the AT-RPS3000 Chassis,
that is, if you want the switches to receive additional PoE+ power from the
chassis.
All four RPS ports on the chassis may be used to provide system power to
the switches. But only RPS 2 and 4 ports, labeled PoE+/System, may be
used to supply PoE+ power. Thus, for a PoE+ switch to receive PoE+
power from a power supply in the chassis, it has to be connected to one of
those ports. PoE+ switches that are connected to RPS 1 or 3 port will not
receive extra PoE+ power, only redundant system power.
23
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
Low-power and High-power Switches
The x610 Series switches are grouped into two categories of system
power, which, as explained earlier, refers to the power required to run all
switching and hardware functions, except for PoE+. The switch categories
are low-power and high-power. The basic rule is that switches that have
24 ports are low-power devices while units that have 48 ports are high-
power units. An exception is the 24-port AT-x610-24SPs/X Switch, which
is a high-power device. The table shown here lists the two switch
categories.
Table 3. Low-power and High-power Switches
Low-power Switches
High-power Switches
AT-x610-24Ts
AT-x610-48Ts
AT-x610-24Ts/X
AT-x610-48Ts/X
AT-x610-24Ts-POE+
AT-x610-24Ts/X-POE+
AT-x610-48Ts-POE+
AT-x610-48Ts/X-POE+
AT-x610-24SPs/X
The two categories are important because the power supply modules can
support two low-power switches or one high-power switch at the same
time. This table lists the valid and invalid configurations of low- and high-
power switches for the power modules.
Table 4. Valid and Invalid Configurations of Low- and High-power
Switches for a Power Supply Module
Valid Configurations
Invalid Configurations
One low-power switch
One low-power switch and one
high-power switch
Two low-power switches
One high-power switch
Two high power switches
Caution
A power supply module that is connected to an invalid configuration
may overload and fail. The responsibility for adhering to the rule
belongs to the installer because the AT-RPS3000 Chassis cannot
determine the low- or high-power status of the switches connected
to its ports.
24
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Configuration Examples
The following examples illustrate different configurations of the chassis,
switches, and power supply modules.
Low-power In the first example, the AT-RPS3000 Chassis, with one power supply
module in slot A, is supporting a single low-power switch, connected to the
Switches
RPS 1 System port. (The RPS 3 System and RPS 4 PoE+/System ports
do not have power because slot B is empty.) The non-PoE+ AT-x610-24Ts
Switch places its non-removable, internal power supply module in a
redundant state, and receives all of its system power from the
AT-RPS3000 Chassis and the power module in slot A. If there is an
interruption of system power from the chassis, the switch automatically
activates its internal power supply to maintain network operations.
DC OUT
A
AT-PNL800/1200
1
2
3
4
B
FAULT
AT-RPS3000 Chassis
with One Power Supply
100-240 VAC~12A MAX
SYSTEM
PoE+
/
SYSTEM
MODULE
B
Slot A
Slot B
RPS 1
System Port
AT-x610-24Ts Switch
(Low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2140
Figure 7. Example of a Single Low-power Switch Connected to an RPS
System Port
It should be noted that even though the switch in the example is a non-
PoE+ model, the power supply module in slot A can be any of the three
available power modules, including the AT-PWR800 and AT-PWR1200
Modules. The three modules may be used to provide system power to
PoE+ and non-PoE+ switches.
Non-PoE+ switches may be connected to either the RPS System or PoE+/
System port on the chassis. Non-PoE+ switches connected to an RPS
PoE+/System port receive system power, but no power for PoE+, even if
the power supply in the corresponding slot in the chassis contains a PoE+
low-power, non-PoE+ switch from the previous example is now connected
to the RPS 2 PoE+/System port, from which it receives just system power.
25
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
DC OUT
FAULT
A
A
AT-PNL800/1200
1
2
3
4
B
100-240 VAC~12A MAX
AT-RPS3000 Chassis
with One Power Supply
SYSTEM
SYSTEM
PoE+
/
SYSTEM
MODULE
B
Slot A
Slot B
RPS 2
PoE+/System Port
AT-x610-24Ts Switch
(Low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2141
Figure 8. Example of a Non-PoE+, Low-power Switch Connected to an
RPS PoE+/System Port
This example illustrates how a power supply module can provide system
power to two low-power switches at the same time. The power supply
module in slot A is actively supporting the low-power AT-x610-24Ts and
AT-x610-24Ts/X Switches, which are connected to the RPS 1 System and
RPS 2 PoE+/System ports, respectively. The power supply module in the
chassis actively delivers system power to both switches, whose own non-
removable internal power supplies operate in redundant states. Again, as
in the previous example, the power module in slot A can be any of the
available models because they are all capable of supporting up to two low-
power switches.
RPS 1
System Port
DC OUT
A
AT-PNL800/1200
1
2
3
4
B
AT-RPS3000 Chassis
with One Power Supply
FAULT
100-240 VAC~12A MAX
SYSTEM
PoE+
/
SYSTEM
MODULE
B
RPS 2
PoE+/System
Port
Slot A
Slot B
AT-x610-24Ts Switch
(Low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
AT-x610-24Ts/X Switch
(Low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2135
Figure 9. Example of Two Low-power Switches
26
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
The chassis must have a second power supply to support three or four
low-power switches, as illustrated in the following example. The power
module in slot A supports switches 1 and 2, and the module in slot B
powers switches 3 and 4.
The power supply modules in the chassis may be the same or different
models. For instance, you might install two AT-PWR250 Modules or
perhaps two AT-PWR1200 Modules. You may also combine the
AT-PWR800 and AT-PWR1200 Modules in the chassis, installing one of
each model in the slots. However, you may not combine the AT-PWR250
Module with the AT-PWR800 or AT-PWR1200 Module in the chassis, as
AT-RPS3000 Chassis
with Two Power Supplies
DC POWER
FAULT
DC OUT
FAULT
A
A
1
2
3
4
B
100-240 VAC~12A MAX
100-240 VAC~12A MAX
Slot A
Slot B
Low-power, Non-PoE+ Switches
Powered by the Module in Slot A
1. AT-x610-24Ts Switch
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2. AT-x610-24Ts Switch
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
100-240 VAC~12A MAX
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
Low-power, Non-PoE+ Switches
Powered by the Module in Slot B
WARNING
3. AT-x610-24Ts Switch
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
RPS INPUT
RPS
READY
4. AT-x610-24Ts/X Switch
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
RPS INPUT
RPS
READY
2138
Figure 10. Example of Four Low-power Switches
27
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
High-power The power supply modules can support just one high-power switch at a
AT-x610-24Ts and AT-x610-48Ts Switches, with two power supply
modules, one for each switch. Even though the AT-x610-24Ts Switch is a
low-power unit, the AT-x610-48Ts Switch must have its own dedicated
power supply module because it is a high-power device.
Switches
DC OUT
FAULT
DC POWER
FAULT
A
1
2
3
4
B
AT-RPS3000 Chassis
with Two Power Supplies
100-240 VAC~12A MAX
100-240 VAC~12A MAX
Slot A
Slot B
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
AT-x610-24Ts Switch
(Low-power)
RPS INPUT
RPS
READY
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
AT-x610-48Ts Switch
(High-power)
RPS INPUT
RPS
READY
2136
Figure 11. Example of Low-power and High-power Switches
When a high-power, non-PoE+ switch is connected to the AT-RPS3000
Chassis, it responds just like a low-power switch. It places its internal
power supply in the redundant state and draws its system power from the
chassis.
In Figure 12 on page 29, the high-power, non-PoE+ AT-x610-48Ts and
AT-x610-48Ts/X Switches are supported by separate power supply
modules, with the AT-x610-48Ts Switch supported by the module in slot A
and the AT-x610-48Ts/XSwitch powered by the module in slot B. If the
chassis stops supplying system power to the switches, they activate their
internal power supplies.
28
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
DC OUT
FAULT
DC POWER
A
1
2
3
4
AT-RPS3000 Chassis
with Two Power Supplies
B
FAULT
100-240 VAC~12A MAX
100-240 VAC~12A MAX
Slot A
Slot B
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
AT-x610-48Ts Switch
(High-power)
RPS INPUT
RPS
READY
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
AT-x610-48Ts/X Switch
(High-power)
RPS INPUT
RPS
READY
2136
Figure 12. Example of Two High-power Switches on the System Ports
You may use either the System or PoE+/System port to connect high-
power, non-PoE+ switches to the chassis. To illustrate this point, the two
high-power, non-PoE+ switches in the previous example may be
connected to the PoE+/System ports, as shown here.
DC OUT
FAULT
DC OUT
FAULT
AT-RPS3000 Chassis
with Two Power Supplies
A
A
1
2
3
4
B
100-240 VAC~12A MAX
100-240 VAC~12A MAX
SYSTEM
SYSTEM
Slot A
Slot B
AT-x610-48Ts Switch
(High-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
1
AT-x610-48Ts/X Switch
(High-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2139
Figure 13. Example of Two High-power, Non-PoE+ Switches on the PoE+/
System Ports
29
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
PoE+ Switches Here is an example of the AT-RPS3000 Chassis supporting a single PoE+
switch, the AT-x610-24Ts/X-POE+ Switch. Notice that the switch is
connected to RPS 2 PoE+/System port on the chassis so that it receives
both system and PoE+ power from the power module in slot A. It would
receive only system power if it was connected to RPS 1 System port.
AT-RPS3000 Chassis
with One Power Supply
DC OUT
A
A
AT-PNL800/1200
1
2
3
4
B
FAULT
100-240 VAC~12A MAX
SYSTEM
SYSTEM
PoE+
/
SYSTEM
MODULE
B
RPS 2
PoE+/System
Port
Slot A
Slot B
AT-x610-24Ts/X-POE+ Switch
(Low-power)
DC OUT
FAULT
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2142
Figure 14. Example of One PoE+ Switch
The active source of system power for the switch is its internal, removable
power supply. This is in keeping with the rule that PoE+ switches gain their
system power from their internal power supply, and use the power supply
in the AT-RPS3000 Chassis as a redundant supply for system power.
It is important to note, however, that the principal of active and redundant
system power does not apply to PoE+ power because the AT-RPS3000
Chassis supplements the PoE+ power from the switch’s internal power
supply, thus allowing for more powered devices on the switch.
The AT-PWR800 and AT-PWR1200 Modules can provide PoE+ power to
just one switch at a time. Consequently, the chassis must have a second
AT-x610-24Ts/X-POE+ and AT-x610-48Ts/X-POE+ Switches receive
redundant system power and additional PoE+ power from the modules in
slot A and B, respectively.
30
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
RPS 2
PoE+/System
Port
DC OUT
FAULT
DC POWER
FAULT
AT-RPS3000 Chassis
with Two Power Supplies
A
A
B
1
2
3
4
100-240 VAC~12A MAX
100-240 VAC~12A MAX
SYSTEM
SYSTEM
RPS 4
PoE+/System
Port
Slot A
Slot B
DC OUT
FAULT
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
AT-x610-24Ts/X-POE+ Switch
(Low-power)
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
DC OUT
FAULT
AT-x610-48Ts/X-POE+ Switch
(High-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2143
Figure 15. Example of Two PoE+ Switches
In Figure 16 on page 32, two low-power switches are supported by a
single power supply module, in slot A of the chassis. One switch supports
PoE+ while the other does not. (Remember, the terms low- and high-
power do not refer to the PoE+ feature. A switch that supports the PoE+
feature may be a low- or high-power device.) Because it is a non-PoE+
switch, the AT-x610-24Ts Switch is connected to RPS 1 System port, from
which it receives system power for its switching functions. In contrast, the
AT-x610-24Ts/X-POE+ Switch is connected to the RPS 2 System/PoE+ to
receive redundant system power and active PoE+ power.
31
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
AT-RPS3000 Chassis
with One Power Supply
DC OUT
FAULT
A
A
AT-PNL800/1200
1
2
3
4
B
100-240 VAC~12A MAX
SYSTEM
PoE+
/
SYSTEM
MODULE
B
Slot A
Slot B
AT-x610-24Ts Switch
(Low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
AT-x610-24Ts/X-POE+ Switch
(Low-power)
DC OUT
FAULT
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2144
Figure 16. Example of Low-power PoE+ and Non-PoE+ Switches
The AT-PWR800 or AT-PWR1200 Module in slot A is performing three
functions for the two switches. It is acting as the active source of system
power for the AT-x610-24Ts Switch connected to RPS 1 System port, as a
redundant source of system power for the AT-x610-24Ts-POE+
connected to the RPS 2 PoE+/System port, and as an active source of
addition PoE+ power for the PoE+ switch.
The example in Figure 17 on page 33 builds on the previous example,
adding a power supply module to slot B and two more low power PoE+
and non-PoE+ switches.
32
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
AT-RPS3000 Chassis
with Two Power Supplies
DC OUT
DC OUT
FAULT
A
1
2
3
4
B
FAULT
100-240 VAC~12A MAX
100-240 VAC~12A MAX
Switches supported by the Power
Module in Slot A.
Slot A
Slot B
AT-x610-24Ts Switch
(Low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
AT-x610-24Ts-POE+ Switch
(Low-power)
DC OUT
FAULT
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
Switches supported by the Power
Module in Slot B.
AT-x610-24Ts/X Switch
(Low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
AT-x610-24Ts/X-POE+ Switch
(Low-power)
DC OUT
FAULT
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2211
Figure 17. Example of Low-power PoE+ and Non-PoE+ Switches
18 on page 34, two low-power, non-PoE+ switches are connected to RPS
Configurations
1 and 3 System ports on a chassis that has one power module in slot A.
While it is true that you may use one power supply module to supply
system power to two low-power switches, you have to be sure to connect
the switches to the correct ports. The power supply module in slot A
delivers power to RPS 1 and 2 ports. RPS 3 and 4 ports are not receiving
any power because slot B is empty. To correct the problem, you could
connect the AT-x610-24Ts/X Switch to RPS 2 PoE+/System port on the
chassis or install another power supply module.
33
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
AT-RPS3000 Chassis
with One Power Supply
DC OUT
FAULT
A
1
2
3
4
B
AT-PNL800/1200
100-240 VAC~12A MAX
Slot A
Slot B
AT-x610-24Ts Switch
(Low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
AT-x610-24Ts/X Switch
(Low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2211
Figure 18. Example of an Invalid Configuration - A
supporting a low-power switch and a high-power switch. This configuration
is invalid because the power supply modules can support only one switch
if it is a high-power switch. You could resolve the problem by installing a
power supply module in slot B and connecting one of the switches to RPS
34
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
AT-RPS3000 Chassis
with One Power Supply
DC OUT
FAULT
A
AT-PNL800/1200
1
2
3
4
B
100-240 VAC~12A MAX
SYSTEM
PoE+
/
SYSTEM
MODULE
B
Slot A
Slot B
AT-x610-24Ts Switch
(Low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
AT-x610-48Ts Switch
(High-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
2135
Figure 19. Example of an Invalid Configuration - B
35
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
Choosing a Power Supply Module
Here are a few suggestions on how to choose the power supply modules
for the x610 Series switches and AT-RPS3000 Chassis.
Non-PoE+ You may use any of the three available power supply modules listed in
Table 1 on page 19, even the two PoE+ modules, in the AT-RPS3000
Switches
Chassis to provide active system power to non-PoE+ switches. The
switches may be connected to any of the four RPS connectors on the
chassis.
A power module can support two low-power switches or one high-power
switch. For more information, refer to “Low-power and High-power
Here is an example. If you have five low-power and two high-power non-
PoE+ x610 Series switches, you would need five power modules, of any
model, and three chassis. The five low-power switches would need three
modules and the high-power switches two modules. The power modules
can be the same model, such as all AT-PWR800 Modules, or different
models.
DC OUT
A
AT-PNL800/1200
B
1
2
3
FAULT
DC OUT
AUL
DC OUT
AUL
DC OUT
AUL
A
A
1
2
3
DC OUT
AUL
B
A
A
B
1
2
3
100-240 VAC~12A MAX
F
T
F
T
F
T
F
T
SYSTEM
100-240 VAC~12A MAX
100-240 VAC~12A MAX
100-240
VAC~12A MAX
100-240 VAC~12A MAX
4
4
4
/
PoE+
/
SYSTEM
MODULE
B
/
/
/
WARNING
This unit may have more than one power input.
To
reduce the risk of
100-240
VAC~12A MAX
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
WARNING
This unit may have more than one power input.
To
reduce the risk of
WARNING
100-240
VAC~12A MAX
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
This unit may have more than one power input.
electric shock, disconnect both A/C and RPS inputs before servicing
To
reduce the risk of
RPS INPUT
100-240
VAC~12A MAX
unit.
RPS INPUT
RPS INPUT
RPS
READ
Y
RPS
READ
1
Y
RPS
READ
1
Y
2211
WARNING
This unit may have more than one power input.
electric shock, disconnect both A/C and RPS inputs before servicing
To
reduce the risk of
WARNING
This unit may have more than one power input.
electric shock, disconnect both A/C and RPS inputs before servicing
100-240
VAC~12A MAX
To
reduce the risk of
100-240
VAC~12A MAX
unit.
unit.
RPS INPUT
RPS INPUT
RPS
READ
1
Y
RPS
READ
1
Y
High-power, non-PoE+
switch powered by
WARNING
This unit may have more than one power input.
electric shock, disconnect both A/C and RPS inputs before servicing
To
reduce the risk of
100-240
VAC~12A MAX
unit.
RPS INPUT
RPS
READ
/
Y
the module in slot A.
High-power, non-PoE+
switch powered by
WARNING
This unit may have more than one power input.
electric shock, disconnect both A/C and RPS inputs before servicing
To
reduce the risk of
100-240
VAC~12A MAX
unit.
RPS INPUT
RPS
READ
1
Y
the module in slot B.
Low-power, non-PoE+
switch powered by
the module in slot A.
Low-power, non-PoE+
switches powered by
the module in slot B.
Low-power, non-PoE+
switches powered by
the module in slot A.
Figure 20. Example of Power Modules and Non-PoE+ Switches
36
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
PoE+ Switches The PoE+ switches do not come with power supplies. You must purchase
them separately and install them as part of the switch’s installation
procedure.
The only way to determine which power module is appropriate for a PoE+
switch is to determine the amount of power the powered devices
connected to the switch will require. The powered requirements of the
devices can be found in their documentation.
If the power requirements of the power devices of the switch are below
480 watts, you may use the AT-PWR800 Module. If you want PoE+
redundancy, you would also install an AT-PWR800 Module in the
AT-RPS3000 Chassis.
DC OUT
A
A
AT-PNL800/1200
1
2
3
4
B
FAULT
100-240 VAC~12A MAX
SYSTEM
SYSTEM
AT-RPS3000 Chassis
PoE+
/
SYSTEM
MODULE
B
AT-PWR800 Module
DC OUT
FAULT
AT-x610-24Ts/X-POE+
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
Switch with powered devices
requiring up to 480 watts
RPS
READY
2142
AT-PWR800 Module
Figure 21. Two AT-PWR800 Modules Providing Up to 480 Watts, with Full
Redundancy
If the total power requirements of the devices on a PoE+ switch are
greater than 480 watts, you have two possible solutions to providing the
necessary power. If the power requirement is between 480 and 960 watts,
you could use the load-sharing property of two AT-PWR800 Modules to
to this approach is that PoE+ redundancy extends only to 480 watts, the
power supplied by a single power module. If one of the power supplies
were to stop functioning, the switch would have to deny power to some
powered devices.
For example, if the powered devices on the AT-x610-24Ts/X-POE+ Switch
required 550 watts, the two AT-PWR800 Modules would each provide half,
or 275 watts, of the power requirements of the devices. If power is lost on
one of the power supplies, the remaining power module will supply up to
480 watts of power to the switch, which, being short 70 watts, will have to
deny power to some of the devices.
37
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
DC OUT
FAULT
A
A
AT-PNL800/1200
1
2
3
4
B
100-240 VAC~12A MAX
SYSTEM
SYSTEM
AT-RPS3000 Chassis
PoE+
/
SYSTEM
MODULE
B
AT-PWR800 Module
DC OUT
FAULT
AT-x610-24Ts/X-POE+
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
Switch with powered devices
requiring 480 to 960 watts
RPS
READY
2142
AT-PWR800 Module
Figure 22. Two AT-PWR800 Modules for 480 to 960 Watts, with Limited
Redundancy
Another approach to dealing with a PoE+ switch that needs more than 480
watts for its powered devices is with the AT-PWR1200 Module. This
module can provide 780 watts. If you install this module in both the switch
and chassis, the switch will have PoE+ power redundancy up to 780 watts.
DC OUT
A
A
AT-PNL800/1200
1
2
3
4
B
FAULT
AT-RPS3000 Chassis
100-240 VAC~16A MAX
SYSTEM
SYSTEM
PoE+
/
SYSTEM
MODULE
B
AT-PWR1200 Module
AT-x610-24Ts/X-POE+
DC OUT
WARNING
FAULT
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~16A MAX
RPS INPUT
Switch with powered devices
requiring up to 780 watts
RPS
READY
2165
AT-PWR1200 Module
Figure 23. Two AT-PWR1200 Modules Providing Up to 780 Watts, with
Full Redundancy
For example, if the total power requirements of the devices connected to
the switch is 720 watts, each AT-PWR1200 Module would be responsible
for providing 360 watts. A failure of one power supplies will not affect the
ability of the switch to support all of the powered devices, because the
power capacity of the remaining AT-PWR1200 Module will be adequate to
meet the needs of all the devices.
38
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Two AT-PWR1200 Modules may be used for amounts above 780 watts,
up to 1560 watts, but there is no redundancy for power requirements
above 780 watts.
DC OUT
A
AT-PNL800/1200
1
2
3
4
B
FAULT
100-240 VAC~16A MAX
SYSTEM
SYSTEM
AT-RPS3000 Chassis
PoE+
/
SYSTEM
MODULE
B
AT-PWR1200 Module
AT-x610-48Ts-POE+
DC OUT
WARNING
FAULT
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~16A MAX
RPS INPUT
Switch with powered devices
consuming 780 to 1560 watts
RPS
READY
2165
AT-PWR1200 Module
Figure 24. Two AT-PWR1200 Modules for 780 to 1560 Watts, with Limited
Redundancy
The power modules in the switches and chassis in the examples up to this
they can be different. The example shows a chassis that is supporting
three switches, two of which are low-power and one is high-power.
39
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
DC OUT
FAULT
DC OUT
FAULT
A
A
1
2
3
4
B
100-240 VAC~12A MAX
100-240 VAC~12A MAX
AT-RPS3000 Chassis
SYSTEM
AT-PWR800
Module
AT-PWR1200
Module
AT-x610-24Ts Switch
(low-power)
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~12A MAX
RPS INPUT
RPS
READY
AT-x610-24Ts/X-POE+ Switch
(low-power) with the AT-PWR1200
Module and powered devices
requiring 420 watts.
DC OUT
FAULT
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~16A MAX
RPS INPUT
RPS
READY
AT-x610-48Ts-POE+ Switch
(high-power) with the AT-PWR250
Module and powered devices
requiring 710 watts.
DC OUT
FAULT
WARNING
This unit may have more than one power input. To reduce the risk of
electric shock, disconnect both A/C and RPS inputs before servicing
unit.
100-240 VAC~5A MAX
RPS INPUT
RPS
READY
2154
Figure 25. Example of x610 Series Switches and AT-RPS3000 Chassis
with Different Power Supply Modules
Power Module The following table may be of assistance to you in selecting power supply
modules for PoE+ switches. It lists the various combinations of power
modules for the switch and AT-RPS3000 Chassis, and the available PoE+
power. It should be noted that it does not matter which module is in the
Combinations for
PoE+ Switches
switch and which is in the chassis. For example, in option 4, the
AT-PWR800 Module could be in the AT-RPS3000 Chassis and the
AT-PWR250 Module in the switch. Or it could be the other way around,
with the AT-PWR250 Module in the chassis and the AT-PWR800 Module
in the switch.
Table 5. Power Supply Module Combinations for PoE+ Switches
Range of PoE+ Range of PoE+
Power Supply
Module 1
Power Supply
Module 2
System Power
Redundancy
Power with
Power without
Redundancy
Redundancy
1
2
AT-PWR250
AT-PWR250
--
AT-PWR250
None
None
None
None
No
Yes
40
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Table 5. Power Supply Module Combinations for PoE+ Switches
Range of PoE+ Range of PoE+
Power Supply
Module 1
Power Supply
Module 2
System Power
Redundancy
Power with
Power without
Redundancy
Redundancy
3
4
5
AT-PWR800
AT-PWR800
AT-PWR800
--
None
0 to 480 watts
0 to 480 watts
No
AT-PWR250
AT-PWR800
None
Yes
Yes
0 to 480 watts
481 to 960
watts
6
AT-PWR1200
None
0 to 780 watts
0 to 780 watts
No
--
7
8
AT-PWR1200
AT-PWR1200
AT-PWR250
AT-PWR800
None
Yes
Yes
0 to 480 watts
481 to 1260
watts
9
AT-PWR1200
AT-PWR1200
0 to 780 watts
781 to 1440
watts
Yes
41
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
LEDs
On the front panel of the AT-RPS3000 Chassis is an LED panel that
displays status information about the power supply modules and RPS
ports.
2148
LED Panel
Figure 26. LED Panel
Module A/B Ports The LEDs in the Module A Ports section of the LED panel provide
information about the status of RPS ports 1 and 2, which receive their
power from the power supply module in slot A.
LEDs
DC OUT
FAULT
DC OUT
FAULT
A
A
1
2
3
4
B
100-240 VAC~12A MAX
100-240 VAC~12A MAX
SYSTEM
SYSTEM
PoE+
/
SYSTEM
PoE+
/
SYSTEM
MODULE
A
MODULE
B
2156
Figure 27. Module A Ports LEDs
42
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
The LEDs in the Module B Ports section provide information you may use
to monitor RPS ports 3 and 4, whose power is provided by the power
supply module in slot B.
DC OUT
FAULT
DC OUT
FAULT
A
1
2
3
4
B
100-240 VAC~12A MAX
100-240 VAC~12A MAX
SYSTEM
SYSTEM
PoE+
/
SYSTEM
PoE+
/
SYSTEM
MODULE
A
MODULE
B
2157
Figure 28. Module B Ports LEDs
The LEDs are described in this table.
Table 6. Module A and B Ports LEDs
LED
State
Description
LOAD
Green
Amber
Off
The port is operating normally.
The port has encountered a problem.
This LED state indicates one of the
following:
The port is disabled.
There is no power supply in the power
supply slot.
The power supply is powered off.
43
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
Table 6. Module A and B Ports LEDs (Continued)
LED
State
Description
CABLE
Green
The RPS port is enabled and connected
to an x610 Series switch, and the power
supply module is powered on.
Amber
Off
The RPS port is not connected to an x610
Series switch.
This LED state indicates one of the
following:
The RPS port is disabled.
The power supply slot is empty.
The power supply module is not
powered on.
The power supply module has failed.
Power Module
For general status information about the power supply modules, refer to
the FAN and DC OUT LEDs in the Power Module Status section of the
LED panel.
Status LEDs
DC OUT
FAULT
DC OUT
A
1
2
3
4
B
FAULT
100-240 VAC~12A MAX
100-240 VAC~12A MAX
SYSTEM
SYSTEM
PoE+
/
SYSTEM
PoE+
/
SYSTEM
MODULE
A
MODULE
B
Figure 29. Power Module Status LEDs
44
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Table 7 describes the Power Module Status LEDs.
Table 7. Power Module Status LEDs
LED
State
Description
FAN
Green
Amber
The power module’s fans are operating
normally.
One or both fans in the module have
stopped or are operating below their
normal operating speed.
Off
No power supply module is installed in the
module slot.
DC OUT
Green
The DC output from the power supply
module to the RPS ports is within the
normal operating range.
Amber
The DC output from the power supply
module is below the normal operating
range, either because the module is
failing or the input voltage from the AC
power source is below the normal
operating range.
Off
The module is not receiving any AC
power or the slot is empty.
TEMP
Green
The temperatures inside the power supply
modules are in the normal operating
range.
Amber
One of the power supply modules is
experiencing an increase in temperature
that exceeds the normal operating range.
The affected module is continuing to
provide system power to its two RPS
ports, but has stopped providing PoE+
power to the PoE+/System port. To
determine which power supply in the
chassis is overheating, use the SHOW
SYSTEM ENVIRONMENT command in
the management software on the x610
Series switch.
45
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
Power Module
The power modules have a DC OUT/FAULT LED, shown in Figure 30 on
page 46, that displays the same information as the DC OUT LEDs on the
front panel.
LED
DC OUT
FAULT
100-240 VAC~12A MAX
DC OUT
FAULT
DC OUT
FAULT
A
1
2
3
4
B
100-240 VAC~12A MAX
100-240 VAC~12A MAX
SYSTEM
SYSTEM
PoE+
/
SYSTEM
PoE+
/
SYSTEM
MODULE
A
MODULE
B
2162
Figure 30. Power Module LED
Table 8 describes the Power Module LED.
Table 8. Power Module LED
LED
State
Description
DC OUT/
FAULT
Green
The DC output from the power supply
module is within the normal operating
range.
Amber
The DC output from the power supply
module is below the normal operating
range, either because the module is
failing or the input voltage from the AC
power source is below the normal
operating range.
Off
The module is not receiving any AC
power.
46
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
On/Off Power Switches
The LED panel has On/Off switches that control the RPS ports. You may
use the buttons to turn the ports on or off. When the chassis is operational,
you should always turn off a port before connecting or disconnecting its
RPS cable.
2207
RPS Port 1
Switch
RPS Port 2 RPS Port 3 RPS Port 4
Switch Switch Switch
Figure 31. RPS Port On/Off Switches
Caution
The electronic circuitry inside the chassis may be damaged if you do
not turn off an RPS port before connecting or disconnecting the RPS
cable.
Review the following before turning off an RPS port on the chassis:
Turning off an RPS port stops the transmission of system power. The
switch that is connected to the RPS port will stop functioning if it is
completely dependent on the AT-RPS3000 Chassis for its system
power, either because its internal power supply has failed or been
removed.
Turning off an PoE+/System port also stops the transmission of PoE+
power. A PoE+ switch may support fewer powered devices or stop
supporting all devices, depending on whether its internal power
module supports PoE+.
47
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 1: Overview
Guidelines
Here is a summary of the rules and guidelines discussed in this chapter:
Caution
The AT-RPS3000 Chassis is designed specifically for the x610
Series of Layer 3 Gigabit Ethernet switches. It should not be used
with any other product.
You may install up to two power supply modules in the chassis.
The power supply module in slot A (left-hand slot as you face the rear
panel) provides power to the RPS 1 System and RPS 2 PoE+/System
ports.
The power supply module in slot B (right-hand slot) provides power to
the RPS 3 System and RPS 4 PoE+/System ports.
The AT-RPS3000 Chassis can support two power modules of the
same type, such as two AT-PWR800 Modules, or one AT-PWR800
Module and one AT-PWR1200 Module. All other combinations are not
The AT-PWR250 Power Supply Module may be used to provide
system power to two low-power switches or one high-power switch.
The module does not provide PoE+ power,
The AT-PWR800 and AT-PWR1200 Modules may be used to supply
system power to two low-power switches or one high-power switch.
They may also be used to provide 480W or 780W, respectively, of
additional PoE+ power to one PoE+ switch.
You may use the AT-PWR800 and AT-PWR1200 Modules in the
AT-RPS3000 Chassis to provide redundant system power to non-
PoE+ switches. The modules provide redundant system power but no
power for PoE+ for non-PoE+ switches.
You may connect a non-PoE+ switch to either an RPS System or RPS
PoE+/System port on the chassis.
The AT-PWR800 and AT-PWR1200 Modules can supply PoE+ power
to just one switch at a time.
A PoE+ switch has to be connected to the RPS 2 or 4 PoE+/System
port to receive PoE+ power from the chassis.
The power supply in the switch does not have to be the same type as
the power supply in the AT-RPS3000 Chassis. For example, a switch
that contains the AT-PWR250 Module may be connected to an
AT-PWR1200 Module in the AT-RPS3000 Chassis.
If the chassis is operational, you should always turn off an RPS port
with the appropriate On/Off port switch, in the LED panel, before
connecting or disconnecting an RPS cable.
48
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
Reviewing Safety Precautions
Please review the following safety precautions before installing the unit.
Note
The indicates that a translation of the safety statement is available
in a PDF document titled “Translated Safety Statements” (613-
000405) posted on the Allied Telesis website at
Warning: To prevent electric shock, do not remove the cover. No
user-serviceable parts inside. This unit contains hazardous
voltages and should only be opened by a trained and qualified
technician. To avoid the possibility of electric shock, disconnect
electric power to the product before connecting or disconnecting
the LAN cables. E1
Warning: Do not work on equipment or cables during periods of
lightning activity. E2
Warning: Power cord is used as a disconnection device. To de-
energize equipment, disconnect the power cord. E3
Warning: Class I Equipment. This equipment must be earthed.
The power plug must be connected to a properly wired earth
ground socket outlet. An improperly wired socket outlet could
place hazardous voltages on accessible metal parts. E4
Pluggable Equipment. The socket outlet shall be installed near
the equipment and shall be easily accessible. E5
Caution: Air vents must not be blocked and must have free
access to the room ambient air for cooling. E6
Warning: Operating Temperature. This product is designed for a
maximum ambient temperature of 40° degrees C. E7
All Countries: Install product in accordance with local and
National Electrical Codes. E8
50
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Circuit Overloading: Consideration should be given to the
connection of the equipment to the supply circuit and the effect
that overloading of circuits might have on overcurrent protection
and supply wiring. Appropriate consideration of equipment
nameplate ratings should be used when addressing this
concern. E21
Warning: Mounting of the equipment in the rack should be such
that a hazardous condition is not created due to uneven
mechanical loading. E25
Warning: This unit might have more than one power cord. To
reduce the risk of electric shock, disconnect all power cords
before servicing the unit. E30
If installed in a closed or multi-unit rack assembly, the operating
ambient temperature of the rack environment may be greater
than the room ambient temperature. Therefore, consideration
should be given to installing the equipment in an environment
compatible with the manufacturer’s maximum rated ambient
temperature (Tmra). E35
Caution: Installation of the equipment in a rack should be such
that the amount of air flow required for safe operation of the
equipment is not compromised. E36
Warning: Reliable earthing of rack-mounted equipment should
be maintained. Particular attention should be given to supply
connections other than direct connections to the branch circuits
(e.g., use of power strips). E37
Caution: This unit does not contain serviceable components.
Please return damaged units for servicing E42
Caution: An Energy Hazard exists inside this equipment. Do not
insert hands or tools into open chassis slots or sockets. E44
Warning: This equipment shall be installed in a Restricted
Access location. E45
51
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
Planning the Installation
Observe these requirements when planning the installation:
Verify that the equipment rack containing the x610 Series switches has
adequate space for the AT-RPS3000 Chassis. For further information,
Check that the rack is safely secured and will not tip over. Devices in a
rack should be installed starting at the bottom, with the heavier devices
near the bottom of the rack.
Check that the power outlets are located near the chassis and are
easily accessible.
If you are installing the AT-PWR1200 Power Supply Module in North
America, verify that the AC power source has an NEMA 5-20R
receptacle. The power cord that comes with the AT-PWR1200 Power
Supply Module for installations in North America has a 20 Amp, 125 V
NEMA 5-20P plug that is only compatible with an NEMA 5-20R
receptacle.
G
W
1965
Figure 32. 100 - 125 VAC 125 V NMA 5-20 Plug and Receptacle
Verify that the site provides easy access to the front and rear panels of
the chassis. This will make it easy for you to install the power modules,
view the LEDs, and connect and disconnect the power and RPS
cables.
Check that the site allows for adequate air flow around the units and
through the cooling vents on the front and rear panels. (The ventilation
flow is from front to back, with the fans on the power supply modules
drawing air out of the unit.)
Do not place objects on top of the chassis.
52
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Do not expose the chassis to moisture or water.
Make sure the site is a dust-free environment.
Use dedicated power circuits or power conditioners to supply reliable
electrical power to the network devices.
Do not install the device in a wiring or utility box. The device will
overheat and fail from inadequate airflow.
53
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
Unpacking the AT-RPS3000 Chassis and Power Supply Modules
Refer to the tables in this section to verify the contents of the shipping
containers of the AT-RPS3000 Chassis and power supply modules.
Note
You should retain the original packaging material in the event you
need to return the unit to Allied Telesis.
AT-RPS3000 The shipping container for the AT-RPS3000 Chassis should contain the
components listed in this table.
Chassis
Table 9. AT-RPS3000 Chassis Components
Component
Description
One AT-RPS3000
Redundant Power Supply
Chassis
2131
Two rack mounting
brackets
2181
Twelve bracket screws
2047
One AT-PNL250 Blank
Panel
A
T
-PNL250
2159
54
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Table 9. AT-RPS3000 Chassis Components
Component
Description
One AT-PNL800/1200
Blank Panel
A
T
-PNL800/
1200
2160
Blank shipping panel (pre-
installed on the power
supply slots on the back
panel)
2189
Note
The AT-RPS3000 Chassis is connected to an x610 Series switch
with the AT-RPS-CBL1.0 cable. The cable must be purchased
separately. You will need one cable for each x610 Series switch.
Power Supply Refer to this table to verify the items in the shipping containers of the
power supply modules.
Modules
Table 10. Power Supply Module Components
Power Supply
Module
Power Cord
Retaining Clip
Regional Power
Cord
Module
AT-PWR250
AT-PWR800
DC OUT
FAULT
100-240VAC~ 5A MAX
2184
157
2185
DC OUT
FAULT
100-240VAC~ 12A MAX
2184
157
2186
55
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
Table 10. Power Supply Module Components (Continued)
Power Supply
Module
Power Cord
Retaining Clip
Regional Power
Cord
Module
AT-PWR1200
None.
DC OUT
FAULT
100-240VAC~ 16A MAX
157
2187
Note
The power cord that comes with the AT-PWR1200 Power Supply
Module for installations in North America has a 20 Amp, 125 V
NEMA 5-20P plug that is only compatible with an NEMA 5-20R
receptacle.
Note
There are AC and DC versions of the AT-PWR250 Module. The AC
module is supported in the PoE+ x610 Switches and the
AT-RPS3000 Chassis. The DC module is only supported in the
PoE+ x610 Switches. It is not supported in the AT-RPS3000
Chassis.
56
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Selecting a Location for the AT-RPS3000 Chassis in the Equipment
Rack
The AT-RPS3000 Chassis has to be installed in the same equipment rack
as the x610 Series switches. You may install it above, below, or between
the switches. This may require relocating networking equipment to other
equipment racks if there is currently no available space for the chassis in
the rack.
1
3
5
7
9
11
13
15
17
19
21R
23R
READY
BUSY
FAULT
1
3
5
7
9
11
13
15
17
19
21R
23R
READY
BUSY
FAULT
21
SFP
23
21
SFP
23
SD
SD
C
L
A
S
S
1
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
L
A
S
E
R
P
R
ODU
C
T
STACK
STR
1
ST
A
TUS
T
STACK
MSTR
1
ST
A
TUS
T
FAUL
FAUL
L/A
MASTER
RPS
L/A
MASTER
RPS
L/A
2
L/A
2
RES
PWR
PRES
PWR
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
1
3
5
7
9
11
13
15
17
19
21R
23R
READY
BUSY
FAULT
21
SFP
23
1
3
5
7
9
11
13
15
17
19
21R
23R
1
3
5
7
9
11
13
15
17
19
21R
23R
READY
BUSY
FAULT
21
SFP
23
READY
BUSY
FAULT
21
SFP
23
SD
SD
SD
C
L
A
S
S
1
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
C
L
A
S
S
1
L
A
S
E
R
P
R
ODU
C
T
L
A
S
E
R
P
R
ODU
C
T
STACK
STATUS
ST
A
CK
ST
A
TUS
T
STACK
ST
A
TUS
T
MSTR
L/A
F
A
UL
T
FAUL
STR
L/A
STR
L/A
FAUL
1
MASTER
RPS
1
2
MASTER
RPS
1
2
MASTER
RPS
L/A
2
L/A
L/A
PRES
PWR
RES
PWR
ES
PWR
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
22
1000
/
100
24
2
4
6
8
10
12
14
16
18
20
22R
24R
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
1
3
5
7
9
11
13
15
17
19
21R
23R
S
F
P
+
2
5
1
3
5
7
9
11
13
15
17
19
21R
23R
READY
BUSY
SD
AULT
21
SFP
23
21
SFP
23
READY
BUSY
SD
FAULT
C
L
A
S
S
1
L
A
S
E
R
P
R
ODU
C
T
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
ST
A
CK
ST
A
TUS
T
STACK
STR
ST
A
TUS
MSTR
L/A
FAUL
FAUL
T
1
MASTER
RPS
L/A
1
MASTER
RPS
L/A
2
L/A
2
PRES
PWR
RES
PWR
2
4
6
8
10
12
14
16
18
COL
20
22R
24R
22
1000
/
100
24
10G
26
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
FDX
HDX
1
3
5
7
9
11
13
15
17
19
21R
23R
1
3
5
7
9
11
13
15
17
19
21R
23R
21
SFP
23
S
F
P
+
2
5
21
23
S
F
P
+
2
5
1
3
5
7
9
11
13
15
17
19
21R
23R
SFP
21
SFP
23
READY
BUSY
SD
FAULT
READY
BUSY
SD
FAULT
READY
BUSY
SD
FAULT
C
L
A
S
S
1
C
L
A
S
S
1
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
CT
L
A
S
E
R
P
R
O
D
U
C
T
L
A
S
E
R
P
R
O
D
U
C
T
STACK
MSTR
ST
A
TUS
STACK
ST
A
TUS
STACK
MSTR
ST
A
TUS
FAUL
T
STR
FAUL
T
FAUL
T
L/A
1
MASTER
RPS
L/A
1
2
MASTER
RPS
L/A
1
MASTER
RPS
L/A
2
L/A
L/A
2
PRES
PWR
PRES
PWR
PRES
PWR
2
4
6
8
10
12
14
16
18
COL
20
22R
24R
22
1000
/
100
24
10G
26
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
10G
26
2
4
6
8
10
12
4
16
18
COL
20
22R
24R
22
1000
/
100
24
FDX
HDX
FDX
HDX
COL
FDX
HDX
1
3
5
7
9
11
13
15
17
19
21R
23R
1
3
5
7
9
11
13
15
17
19
21R
23R
21
23
21
SFP
23
SFP
READY
BUSY
SD
FAULT
READY
BUSY
FAULT
SD
C
L
A
S
S
1
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
L
A
S
E
R
P
R
ODU
C
T
STACK
MSTR
ST
A
TUS
STACK
STATUS
F
A
UL
T
MSTR
FAULT
L/A
1
MASTER
RPS
L/A
1
2
MASTER
RPS
L/A
2
L/A
RES
PWR
PRES
PWR
2
4
6
8
10
12
14
16
18
COL
20
22R
24R
22
1000
/
100
24
2
4
6
8
10
12
14
16
18
COL
20
22R
24R
22
1000
/
100
24
FDX
HDX
FDX
HDX
2190
Figure 33. Positioning the AT-RPS3000 Chassis in the Equipment Rack
This figure illustrates three arrangements that are not recommended for
the chassis and switches. You should not install the devices in adjacent
equipment racks or alongside each other on a tabletop because that would
require twisting the AT-RPS-CBL1.0 Cables, which may damage them. In
addition Allied Telesis does not recommend stacking the chassis and
switches on a table because that could create an unsafe workplace.
1
3
5
7
9
11
13
15
17
19
21R
23R
21
SFP
23
READY
BUSY
F
A
U
L
T
SD
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
STACK
STATUS
MSTR
L/A
F
A
UL
T
1
MASTER
RPS
L/A
2
PRES
PWR
1
3
5
7
9
11
13
15
17
19
21R
23R
21
SFP
23
READY
BUSY
F
A
U
L
T
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
SD
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
STACK
STATUS
MR
L
F
A
UL
T
1
MASTER
RPS
L
2
PWR
1
3
5
7
9
11
13
15
17
19
21R
23R
21
SFP
23
READY
BUSY
SD
F
A
U
L
T
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
STACK
STATUS
MSTR
L/A
F
A
UL
T
1
2
MASTER
RPS
L/A
PRES
PWR
1
3
5
7
9
11
13
15
17
19
21R
23R
21
SFP
23
READY
BUSY
SD
F
A
U
L
T
2
4
6
8
10
12
1
16
18
20
22R
24R
22
1000
/
100
24
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
STACK
STATUS
MR
LA
F
A
UL
T
1
2
MASTER
RPS
LA
S
PWR
1
3
5
7
9
11
13
15
17
19
21R
23R
21
SFP
23
S
F
P
+
2
5
READY
BUSY
SD
F
A
U
L
T
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
STACK
STATUS
S
F
A
U
L
T
/
/
1
MASTER
RPS
2
PWR
1
3
5
7
9
11
13
15
17
19
21R
23R
21
SFP
23
S
F
P
+
2
5
READY
BUSY
SD
F
A
U
L
T
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
10G
26
FDX
HDX
COL
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
S
T
A
C
K
STATUS
MST
F
A
U
L
T
LA
A
1
MASTER
RPS
2
S
PWR
1
3
5
7
9
11
13
15
17
19
21R
23R
21
SFP
23
READY
BUSY
SD
F
A
U
L
T
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
10G
26
FDX
HDX
COL
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
S
T
A
C
K
STATUS
MSTR
F
A
U
L
T
1
2
MASTER
RPS
PWR
1
3
5
7
9
11
13
15
17
19
21R
23R
21
SFP
23
READY
BUSY
SD
F
A
U
L
T
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
FDX
HDX
COL
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
S
T
A
C
K
STATUS
R
F
A
U
L
T
A
1
2
MASTER
RPS
A
S
PWR
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
FDX
HDX
COL
1
3
5
7
9
11
13
15
17
19
21R
23R
21
SFP
23
S
F
P
+
2
5
1
3
5
7
9
11
13
15
17
19
21R
23R
21
23
SFP
READY
BUSY
SD
F
A
U
L
T
READY
BUSY
SD
F
A
U
L
T
C
L
A
S
S
1
C
L
A
S
S
1
L
A
S
E
R
P
R
O
D
U
C
T
L
A
S
E
R
PRODUCT
S
T
A
C
K
STATUS
S
T
A
C
K
STATUS
MSTR
F
A
U
L
T
MSTR
F
A
U
L
T
/
1
MASTER
RPS
L/A
1
MASTER
RPS
/
2
L/A
2
S
PWR
PRES
PWR
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
10G
26
2
4
6
8
10
12
14
16
18
20
22R
24R
22
1000
/
100
24
FDX
HDX
COL
FDX
HDX
COL
2191
Figure 34. Unauthorized AT-RPS3000 Chassis and x610 Series Switch
Installations
57
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
Installing the AT-RPS3000 Chassis in an Equipment Rack
Perform this procedure to install the chassis in a 19-inch equipment rack.
The procedure requires the following items:
Twelve bracket screws (included with chassis)
Two equipment rack brackets (included with chassis)
Flat-head screwdriver (not provided)
Cross-head screwdriver (not provided)
Four standard equipment rack screws (not provided)
Warning
The chassis may be heavy and awkward to lift. Allied Telesis
recommends that you get assistance when mounting the chassis in
an equipment rack. E28
1. Place the unit upside down on a level, secure surface.
2180
Figure 35. Turning the Switch Upside Down
2. Using a flat-head screwdriver, pry the six plastic feet from the bottom
of the switch.
2168
Figure 36. Removing the Plastic Feet
58
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
3. Turn the chassis over.
4. Using a cross-head screwdriver, secure the two rack mount brackets
to the sides of the unit using the twelve bracket screws included with
the unit. The illustration shows the only way in which the brackets may
be positioned on the chassis.
2182
Figure 37. Attaching the Equipment Rack Brackets
5. Have another person hold the unit in the equipment rack while you
secure it using standard screws (not provided).
2151
Figure 38. Mounting the AT-RPS3000 Redundant Power Supply in an
Equipment Rack
59
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
Note
The chassis and x610 Series switches must be within one meter of
each other in the equipment rack to accommodate the
AT-RPS-CBL1.0 cables.
60
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Installing a Power Supply Module
To install a power supply unit module in the chassis, perform this
procedure:
1. Using a cross-head screwdriver, remove the three screws that secure
the blank shipping panel, from the back panel of the chassis.
A
B
1
2
S
Y
S
TEM
B
3
Po
E
+
/
S
SY
S
TEM
Y
S
TEM
M
O
D
U
L
E
A
4
Po
E
+
/
S
Y
S
TEM
B
M
O
D
U
L
E
2167
Figure 39. Removing the Blank Shipping Panel from the Back Panel
62 and slide it into the slot until the tabs with the captive screws are
flush with the back panel of the chassis. (If you are installing only one
power supply module, you may install it in either slot.) Light pressure
may be required to properly seat the module on the power connector
inside the chassis.
Caution
Do not use excessive force when seating the module, because this
may damage the system or the module. If the module resists
seating, remove it from the system, realign it, and try again. E47
Note
When installed, the AT-PWR1200 Module extends 5.6 cm (2.2 in.)
from the back panel of the chassis.
61
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
A
A
0
8
0
5
2
R
-WPR
T
A
10
DC
10
0-
24
W
0
DC
-2
40
O
UT
UL
0
O
V
AC
VA
C
~1
2A
U
T
T
P
-
~
5A
FA
FA
M
M
UL
A
X
T
A
X
AT
AT-PWR250 Module
AT-PWR800 Module
A
-WPR120
T
A
100-
240
DC
V
A
O
U
T
C
~1
6A
M
FA
UL
A
X
T
2152
AT-PWR1200 Module
Figure 40. Installing a Power Supply Module
Caution
Do not connect the power cord to the module until after you have
installed the module in the chassis. The unit is not hot-swappable
and may be damaged if it is installed while it is powered on.
A
0
8
R
W
P
-
DC
FA
100-240
O
A
UT
T
VA
C~
12A MAX
UL
2149
62
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
3. Secure the module to the chassis by tightening the two captive screws.
A
0
8
R
W
P
-
100-240
D
C
O
T
U
T
VA
T
C
~12A
F
A
U
L
MAX
B
1
2
S
Y
S
TEM
B
3
Po
E
+
/
S
SY
S
TEM
Y
S
TEM
MODULE
A
4
Po
E
+
/
S
Y
S
TEM
MODULE
B
2176
Figure 41. Securing a Power Supply Module
4. For the AT-PWR250 or AT-PWR800 Module, install the power cord
retaining clip on the AC power socket by pressing the sides of the clip
inward and inserting the two ends into the holes on the power socket.
(The AT-PWR1200 Module does not come with a power cord retaining
clip.)
A
0
8
-PWR
T
A
10
D
C
0-
O
24
UT
0
V
A
C
~
12
F
A
A
U
L
M
T
A
X
B
1
2
S
Y
S
T
E
M
B
3
P
o
E
+
/
S
SY
S
Y
S
T
E
T
E
M
M
MODULE
A
4
P
o
E
+
/
S
Y
S
T
E
M
MODULE
B
2153
DC
O
100-240
UT
LT
VA
C
~
12
FAU
A
MAX
Figure 42. Installing a Power Cord Retaining Clip
5. To install a second power supply module, repeat steps 2 through 4.
63
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
6. If the unit is to have only one power supply module, cover the empty
slot with one of the slot covers, labelled AT-PNL250 and AT-PNL800/
1200, provided with the unit, as shown in Figure 43 on page 64.
The faceplates of the power supply modules and slot covers are keyed
so that the slot cover has to correspond to the power supply module
you installed in the unit. Use the AT-PNL250 Blank Panel if the chassis
has either of the AT-PWR250 Power Supply Modules, or the
AT-PNL800/1200 Blank Panel if the chassis contains the AT-PWR800
or AT-PWR1200 Power Supply Module.
A
0
8
-PWR
T
A
100-240
D
C
O
U
T
VA
C
~12A
F
A
MAX
U
L
T
B
1
2
S
Y
S
T
E
M
B
3
A
T
P
o
E
+
-PNL800/
/
S
SY
S
Y
S
T
E
T
E
M
M
MODULE
1200
A
4
P
o
E
+
/
S
Y
S
T
E
M
MODULE
B
2150
Figure 43. Installing the Slot Cover
7. Secure the slot cover to the chassis by tightening the two captive
screws.
A
0
8
T-PWR
100-240
D
C
O
A
UT
VA
C
~12A
F
MAX
A
U
L
T
AT
-
PNL800/1200
B
B
1
2
S
Y
S
T
E
M
3
P
o
E
+
/
S
SY
S
Y
S
T
E
T
E
M
M
MODULE
A
4
P
o
E
+
/
S
Y
S
T
E
M
MODULE
B
2175
Figure 44. Securing the Slot Cover
64
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Connecting the AT-RPS3000 Chassis to the x610 Series Switch
Perform this procedure to connect the AT-RPS3000 Chassis to the x610
Series switch, with the AT-RPS-CBL1.0 cable:
Note
The AT-RPS-CBL1.0 cables must be purchased separately.
1. Connect one end of the RPS cable to the RPS Input connector on the
back panel of the switch.
Caution
Be sure to connect the RPS cable squarely and evenly on the
connector on the switch. Attaching the connector at an angle may
cause an electrical short that might damage the device.
A
0
8
-WPR
T
A
100-240
D
C
O
UT
VA
C
~
FA
U
LT
12A
MAX
WA
R
N
u
ni
ri
IN
G
m
Th
is
Y
t
ele
ct
ay
k,
ha
ve
c
sh
m
or
un
it
oc
e
t
t
P
.
d
ha
ot
is
n
co
nn
ec
one
po
an
b
w
er
R
h
in
pu
t.
A
/C
To
d
re
du
c
e
e
P
R
RP
S
S
IN
PU
inp
ut
th
se
s
e
rv
r
T
be
for
isk
in
P
of
ic
g
12
V/21
A
M
A
X
R
EA
PS
R
DY
S
TA
C
KING
2132
W
A
is
c
it
A
is
c
it
A
R
N
R
u
tr
ic
.
R
u
N
n
N
n
IN
it
s
IN
it
s
IN
G
is
G
G
T
e
u
h
le
n
Y
Y
Y
u
n
m
o
m
it
m
a
a
ck
a
ck
y
y
h
,
y
k
h
d
tr
ic
c
tr
ic
h
a
is
co
a
d
a
d
ve
ve
ve
h
m
n
h
o
m
n
sh
m
n
o
n
o
n
oc
or
e
re
ct
re
ct
e
U
,
th
b
P
.
th
b
U
it
.
,
th
an
ct
an
is
co
an
is
co
o
o
o
n
S
n
n
e
/C
e
/C
n
e
e
p
e
p
p
o
a
o
a
o
we
a
n
d
b
o
e
r
R
o
e
r
R
o
r
R
th
in
th
in
th
in
pu
A
A
A
/C
p
p
u
in
u
t.
p
t.
p
t. To
re
in
To
To
re
b
re
b
P
d
e
P
d
e
P
d
uc
E
RP
S
uce
e
W
RP
S
uce
e
W
RP
S
S
S
in
S
e
INP
UT
th
INP
UT
th
se
INP
UT
p
th
e
ris
for
e
se
u
e
u
e
rv
ic
u
ts
ts
ts
risk
ris
b
e
k
P
for
o
g
P
for
k
in
o
g
P
o
f
f
f
se
rv
ic
in
rv
ic
in
g
RP
RP
RP
S
REA
S
S
REA
REA
D
Y
D
Y
D
Y
Figure 45. Connecting the AT-RPS-CBL1.0 Cable to the x610 Series
Switch
65
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
2. Secure the cable to the switch by tightening the two thumbscrews.
0
8
R
W
P
-
100
D
C
P
OW
E
T
A
-240
VA
R
C
F
A
~
12A
M
U
L
AX
W
A
is
R
NIN
u
nit
sh
G
may
Th
Y
elec
h
tr
ic
.
ave
d
m
or
un
oc
k,
it
e
tha
n
ect
P
is
con
o
ne
/C
n
p
ow
and
both
er
in
pu
inpu
A
t.
To
ts
R
re
duc
PS
WRE
RP
S
e
e
IN
th
e
ri
sk
of
rvicin
P
U
T
b
e
for
O
se
g
R
P
S
E
A
R
D
Y
S
T
A
C
K
IN
G
2133
Figure 46. Securing the AT-RPS-CBL1.0 Cable to the Switch
If the AT-RPS3000 Chassis is already operational, perform step 3 to
turn off the RPS port before connecting the RPS cable. Otherwise, go
to step 4.
Caution
Never connect or disconnect an RPS cable from an RPS port on an
operational AT-RPS3000 Chassis without first turning off the port.
Failure to disable an RPS port may damage the redundant power
supply system.
3. On the front panel of the AT-RPS3000 Chassis, examine the CABLE
LED that corresponds to the port to which you will connect the cable. If
the LED is off, go to the next step. If the LED is green, press the On/
Off button to turn off the port. The LED should turn off.
For example, if you intend to connect the DC RPS cable to port 3 on
the AT-RPS3000 Chassis, check the CABLE LED for port 3. If the LED
is on, press the port’s On/Off button to disable the port.
Port On/Off Button
CABLE LED
2161
Figure 47. RPS Port On/Off Buttons and CABLE LEDs
66
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
4. Connect the AT-RPS-CBL1.0 cable to the designated RPS port on the
back panel of the AT-RPS3000 Chassis.
Caution
Be sure to connect the RPS cable squarely and evenly on the
connector on the chassis. Attaching the connector at an angle may
cause an electrical short that might damage the device.
A
0
8
-WPR
T
A
100-240
DC
O
UT
FAU
LT
VA
C
~
12A
MAX
0
8
-WPR
T
A
100-240
V
A
DC
O
U
T
C
~
12A
FAU
MAX
LT
B
B
1
2
S
Y
S
TEM
P
3
oE+
/
S
SY
S
TEM
Y
S
TEM
A
MODULE
4
P
oE
+
/
S
Y
S
TEM
MODULE
B
2145
B
B
B
1
1
1
E
E
M
M
U
L
LE
E
A
A
P
o
P
o
P
o
M
M
M
Figure 48. Connecting the AT-RPS-CBL1.0 Cable to the AT-RPS3000
Chassis
67
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
5. Secure the cable to the port by tightening the two thumbscrews.
A
0
8
-PWR
T
A
10
0-24
D
C
O
UT
0
VA
C
~12A
F
A
U
L
MAX
T
0
8
-WPR
T
A
100-240
V
A
D
C
O
U
T
C
~12A
F
A
MAX
U
L
T
B
1
3
S
SY
S
Y
S
T
E
T
E
M
M
MO
DULE
A
4
P
o
E
+
/
S
Y
S
T
E
M
MODULE
B
2146
Figure 49. Securing the AT-RPS-CBL1.0 Cable to the AT-RPS3000
Chassis
6. Repeat this procedure to connect additional x610 Series switches to
the AT-RPS3000 Chassis.
68
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Powering On the Power Supply Modules
Perform this procedure to power on the power supply modules in the
AT-RPS3000 Chassis:
1. For the AT-PWR250 or AT-PWR800 Module, raise the power cord
retaining clip on the power supply module.
A
0
8
R
W
P
-
DC
O
UT
10
0-2
40
T
V
A
C
FAULT
~1
2A
A
X
0
8
R
W
P
-
10
0-2
40
DC
O
UT
A
V
A
C
~1
2A
FAULT
M
A
X
B
1
3
4
2164
00-240
V
AC
D
C
O
U
T
~
12A
AX
F
A
U
L
T
Figure 50. Raising the Power Cord Retaining Clip
2. Connect the AC power cord to the AC socket on the power supply
module, as shown in Figure 51 on page 70.
69
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
A
0
8
-PWR
T
A
10
0-
D
C
24
0
O
T
V
A
U
T
C
12
F
A
A
U
L
M
A
X
0
8
-WPR
T
A
10
0-
D
C
24
O
T
0
U
T
V
A
C
~
12
F
A
A
U
L
M
A
X
B
1
3
4
2134
Figure 51. Connecting the AC Power Cord
3. For the AT-PWR250 or AT-PWR800 Module, lower the power cord
retaining clip to secure the power cord to the unit.
A
0
8
-PWR
T
A
100-240
D
C
O
UT
VA
C
~12A
F
AX
A
U
L
T
0
8
-WPR
T
A
100-240
D
C
O
VA
U
T
C
~12A
F
A
U
MAX
L
T
B
1
3
4
2155
A
0
8
-PWR
T
A
100-240
V
AC
D
C
O
U
T
~
12A MX
F
A
U
L
T
Figure 52. Lowering the Power Cord Retaining Clip
4. Connect the other end of the power cord to an appropriate power
the power specifications of the power supply modules.
70
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
5. Examine the DC OUT/FAULT LED on the power supply module. The
module is operating normally if the LED is green. If the LED is amber
or off, refer to Chapter 4, “Troubleshooting” on page 83 for
troubleshooting suggestions.
D
C
1
O
U
0
0
-2
T
4
0
V
A
C
F
A
~
1
2
U
L
A
M
T
A
X
A
0
8
-PWR
T
A
100-240
DC OUT
FAULT
VA
C
~12A
MAX
0
8
-WPR
T
A
100-240
V
A
DC OUT
FAULT
C
~12A
MAX
B
1
3
4
2147
Figure 53. Lowering the Power Cord Retaining Clip
6. In the POWER MODULE STATUS section of the LED panel shown in
Figure 54 on page 72, examine the FAN and DC OUT LEDs of the
power supply module you just powered on. Both LEDs should be
green. If the LEDs are amber or off, refer to Chapter 4,
“Troubleshooting” on page 83 for troubleshooting suggestions.
71
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
DC OUT
DC OUT
FAULT
A
1
2
3
4
B
FAULT
100-240 VAC~12A MAX
100-240 VAC~12A MAX
SYSTEM
SYSTEM
PoE+
/
SYSTEM
PoE+
/
SYSTEM
MODULE
A
MODULE
B
Figure 54. Checking the FAN and DC OUT LEDs in the LED Panel
55 on page 73, examine the LOAD and CABLE LEDs of the two ports
that receive power from the power supply module. The LOAD and
CABLE LEDs of RPS ports that are connected to x610 Series switches
should be green. If the LEDs are off, press the On/Off buttons to active
the ports.
72
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
DC OUT
FAULT
DC OUT
FAULT
A
1
2
3
4
B
100-240 VAC~12A MAX
100-240 VAC~12A MAX
SYSTEM
SYSTEM
PoE+
/
SYSTEM
PoE+
/
SYSTEM
MODULE
A
MODULE
B
2156
DC OUT
FAULT
DC OUT
FAULT
A
1
3
4
100-240 VAC~12A MAX
100-240 VAC~12A MAX
SYSTEM
SYSTEM
2
PoE+
/
SYSTEM
PoE+
/
SYSTEM
B
MODULE
A
MODULE
B
2157
Figure 55. Checking the LOAD and CABLE LEDs in the LED Panel
73
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 2: Installing the AT-RPS3000 Chassis and Power Supply Modules
8. If the chassis has two power supply modules, repeat this procedure to
power on the second module.
Warning
This unit might have more than one power source. To reduce the
risk of electric shock, disconnect all power cords before servicing the
unit. E30
This completes the installation procedure for the AT-RPS3000 Redundant
Power Supply.
74
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 3: Removing Power Supply Modules
Removing the AT-RPS-CBL1.0 Cable
Here are the steps to removing the AT-RPS-CBL1.0 cable from an RPS
port on the AT-RPS3000 Chassis and switch:
1. On the front panel of the AT-RPS3000 Chassis, examine the CABLE
LED of the RPS port to which the AT-RPS-CBL1.0 cable is connected.
If the LED is off, go to the next step. If the LED is green, press the On/
Off button to turn off the port. The LED should turn off.
For example, if you want to disconnect the cable from RPS port 3 on
the AT-RPS3000 Chassis, check the CABLE LED for port 3. If the LED
is on, press the port’s On/Off button to disable the port.
Caution
Never connect or disconnect an RPS cable from an RPS port on an
operational AT-RPS3000 Chassis without first turning off the port.
Failure to disable an RPS port may damage the redundant power
supply system.
2. Loosen the two thumbscrews that secure the cable to the RPS port on
the AT-RPS3000 Chassis.
0
8
TP-WR
DC OUT
FAULT
1
0
0
-2
A
4
0
V
A
C
~
1
2
A
M
A
X
B
1
S
TEM
B
E
2211
Figure 56. Loosening the Thumbscrews that Secure the AT-RPS-CBL1.0
Cable to the AT-RPS3000 Chassis
76
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
3. Remove the cable from the RPS port.
Caution
Be sure to remove the RPS cable squarely and evenly from the
connector on the chassis. Removing the connector at an angle may
cause an electrical short that might damage the device.
0
8
-PWR
T
A
100
-240
D
C OUT
FAULT
V
A
C
~12A
MAX
0
8
-WPR
T
A
100-240
V
DC OUT
A
C
~12A
FA
MAX
ULT
B
B
1
2
S
Y
S
TEM
3
4
2211
B
B
B
1
1
1
P
o
P
o
P
o
M
M
M
Figure 57. Removing the AT-RPS-CBL1.0 Cable from the AT-RPS3000
Chassis
4. Loosen the two thumbscrews that secure the cable to the RPS port on
the x610 Series switch.
5. Remove the cable from the RPS port on the switch.
Caution
Be sure to remove the RPS cable squarely and evenly from the
connector on the switch. Removing the connector at an angle may
cause an electrical short that might damage the device.
77
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 3: Removing Power Supply Modules
Removing an AC Power Supply Module
To remove an AC power supply module from the chassis, perform this
procedure:
1. For the AT-PWR250 or AT-PWR800 Module, raise the power cord
retaining clip on the power supply module.
A
0
8
-PWR
T
A
100-240
V
A
D
C
OU
T
C
~12A
F
A
U
MX
L
T
0
8
-WPR
T
A
100-240
V
A
D
C
O
U
T
C
~12A
F
A
MAX
U
L
T
B
1
3
4
2169
A
0
8
-PWR
T
A
100-240
V
AC
DC
OUT
FAU
~
12A
AX
LT
Figure 58. Raising the Power Cord Retaining Clip
78
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
2. Disconnect the power cord from the power supply module.
A
0
8
-PWR
T
A
100
-24
D
C
V
O
UT
A
~12A
F
A
U
L
M
AX
T
0
8
-WPR
T
A
100-240
D
C
O
UT
VA
C
~12A
F
A
MAX
U
L
T
B
1
3
4
2170
Figure 59. Removing the Power Cord
Caution
The power module is not hot-swappable. It may be damaged if you
remove it from the chassis while it is powered on. If the chassis has
two power modules, you do not have to power off the second
module, unless you are planning to remove it.
A
0
8
TP-WR
10
0-2
40
D
C
A
V
AC
OU
T
FA
0
~12A
M
AX
U
LT
8
TP-WR
100-240
D
C
O
A
UT
V
AC
~12
A
FA
U
LT
M
AX
2188
79
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 3: Removing Power Supply Modules
3. Loosen the two captive screws securing the power module to the
chassis.
A
0
8
-WPR
T
A
DC
10
O
0-2
UT
FA
ULT
40
V
A
12
A
M
A
X
0
8
-WPR
T
A
D
10
C
OUT
0-2
4
0
V
A
C
~1
FA
ULT
2A
M
A
X
B
1
3
4
2171
Figure 60. Loosening the Two Captive Screws
4. Slide the module from the chassis.
A
0
8
-WPR
T
A
10
DC
FA
0-
OU
T
ULT
0
24
0
V
A
C
~12
8
A
M
A
X
-PWR
T
A
B
D
C
OUT
10
0-
24
0
V
A
C
FAU
LT
~12
1
A
M
A
X
3
4
2172
Figure 61. Removing the Power Supply from the Chassis
Note
Use care when pulling the power supply module from the chassis.
You might bend the power and control pins on the backplane
connectors if you roughly pull the module from the unit.
5. To install a new power supply module, perform the procedure
80
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
6. If you are not replacing the module, cover the empty slot with one of
the slot covers, labeled AT-PNL250 and AT-PNL800/1200, provided
with the unit.
The faceplates of the power supply modules and the slot covers are
keyed so that the slot cover has to correspond to the power supply
module you installed in the unit. Use the AT-PNL250 Blank Panel if the
chassis contains the AT-PWR250 Power Supply Module, or the
AT-PNL800/1200 Blank Panel if it has the AT-PWR800 or
AT-PWR1200 Power Supply Module.
A
A
0
8
-WPR
T
A
100-240
V
A
D
C
O
U
T
C
~12A
F
A
MAX
U
L
T
A
T
-PNL800/
1200
B
1
3
4
2173
Figure 62. Installing the Slot Cover
7. Secure the slot cover to the chassis by tightening the two captive
screws.
A
A
T
-
P
N
L
8
0
0
/
1
2
0
0
0
8
-WPR
T
A
10
DC OU
T
0-2
40
V
A
C
~1
2A
FAULT
M
A
X
B
1
3
4
2174
Figure 63. Securing the Slot Cover
81
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 3: Removing Power Supply Modules
82
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 4
Troubleshooting
If you encounter a problem with the product, you may be able to resolve it
with the information in this chapter:
Problem 1: A power supply module does not seem to be receiving power
because its DC OUT/FAULT LED on its faceplate is off, as well as its FAN
and DC OUT LEDs in the LED panel.
Solution: Try the following:
❒
❒
❒
❒
Verify that the module is fully seated in the power supply slot in the
chassis.
Verify that the power cord is firmly connected to the power supply
module and the power source.
Try connecting the power module to another power source, preferably
located on a different circuit.
Verify that the power source is operating properly by plugging a
different device into it.
❒
❒
Try replacing the power cord.
Verify that the power from the power source meets the operating
specifications of the power supply module, listed in “Power
❒
Replace the power supply module.
Problem 2: The LOAD and CABLE LEDs for an RPS port are off, but the
module’s FAN and DC OUT LEDs in the LED panel are on, indicating that
the module is receiving power.
Solution: The RPS port may have been turned off. Try pressing the port’s
On/Off button.
Problem 3: The DC OUT/FAULT LED on the faceplate of the power
supply module and the DC OUT LED in the LED panel are amber.
Solution: The power supply module is failing or the power from the power
source is not in the range of the operating specifications of the module. Try
the following:
❒
Try connecting the power module to another power source, preferably
located on a different circuit.
83
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 4: Troubleshooting
❒
❒
Verify that the power from the power source is within the operating
specifications of the power supply module, listed in “Power
Replace the power supply module.
Problem 4: The FAN LED in the LED panel is amber.
Solution: A fan in the power supply module has failed. Replace the
module.
Problem 5: One or both power supply modules shutdown.
Solution: Try the following:
❒
❒
Check to be sure that the chassis is not overheating. Verify that it has
adequate ventilation and that the fans on the power supply modules
and the ventilation vents on the front panel of the chassis are
unobstructed.
Verify that the module is not connected to two high-power x610
Switches or one low-power and one high-power switch. It may have
shutdown because the power requirements of the switches exceeded
its power reserves. A power supply module can support two low-power
switches or one high-power switch at a time.
Problem 6: You are unable to install a second module in the chassis
because the faceplates of the new and existing modules do not align.
Solution: The faceplates of the power supply modules are keyed to
prevent the installation of incompatible modules in the chassis. You may
not install the AT-PWR250 Power Supply Module in the same chassis as
the AT-PWR800 or AT-PWR1200 Module. For more information, refer to
Problem 7: The chassis is not providing PoE+ power to an PoE+ x610
Series switch.
Solution: Try the following:
❒
Verify that the x610 Series switch supports the PoE+ feature. The
model name on the front panel of the switch should contain the letters
“POE+.” Switches whose model names do not include the letters do
not support PoE+.
❒
❒
Verify that the AT-RPS-CBL1.0 cable from the x610 Series switch is
securely connected to RPS port 2 or 4, PoE+/System, on the chassis.
Verify that the chassis has a power supply for the RPS port to which
the switch is connected. For example, if the switch is connected to
RPS port 4, slot B of the chassis has to contain either an AT-PWR800
or AT-PWR1200 Module.
84
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
❒
❒
Verify that the power supply module that is suppose to be delivering
the PoE+ power from the chassis is either the AT-PWR800 or
AT-PWR1200 Module. The AT-PWR250 Module do not support PoE+
power.
Check the FAN LED for the power supply module, in the LED panel. If
the LED is amber, one or both fans in the module are not functioning
properly. If this occurs, the module continues to provide system power
on both of its RPS ports, but stops providing PoE+ power on the RPS
PoE+/System port.
❒
Check the TEMP LED in the LED panel. If the LED is amber, the power
module may be overheating. When this occurs, the module continues
to provide system power on both of its RPS ports, but stops providing
PoE+ power on the RPS PoE+/System port.
85
Download from Www.Somanuals.com. All Manuals Search And Download.
Chapter 4: Troubleshooting
86
Download from Www.Somanuals.com. All Manuals Search And Download.
Appendix A
Technical Specifications
Physical Specifications
Dimensions (H x W x D):
AT-RPS3000 Chassis
4.4 cm x 44.1 cm x 36.3 cm
(1.7 in. x 17.4 in. x 14.3 in.)
AT-PWR250 and
4.2 cm x 14.8 cm x 25,2 cm
AT-PWR800 Power Supply (1.7 in. x 5.8 in. x 9.8 in.)
Modules
AT-PWR1200 Power Supply 4.2 cm x 14.8 cm x 30.7 cm
Module
(1.7 in. x 5.8 in. x 12.1 in.)
Weight:
AT-RPS3000 Chassis
AT-PWR250 Module (AC)
AT-PWR800 Module
AT-PWR1200 Module
4.2 kg (9.3 lb.)
1.5 kg (3.3 lb.)
1.8 kg (3.9 lb.)
2.2 kg (4.8 lb.)
Recommended Minimum
Ventilation on All Sides:
10 cm (4.0 in)
Environmental Specifications
Operating Temperature:
Storage Temperature:
Operating Humidity:
0° C to 40° C (32° F to 104° F)
-20° C to 60° C (-4° F to 140° F)
5% to 90% noncondensing
5% to 95% noncondensing
3,048 m (10,000 ft)
Storage Humidity:
Maximum Operating Altitude:
Maximum Nonoperating
Altitude:
4,000 m (13,100 ft)
87
Download from Www.Somanuals.com. All Manuals Search And Download.
Appendix A: Technical Specifications
Power Specifications
Maximum Power Consumption:
AT-PWR250 Module (AC)
AT-PWR800 Module (AC)
250 watts
800 watts
AT-PWR1200 Module (AC) 1200 watts
Input Voltage:
AT-PWR250 Module (AC)
AT-PWR800 Module (AC)
100-240 VAC, 5 A maximum, 50/60 Hz
100-240 VAC, 12 A maximum, 50/60 Hz
AT-PWR1200 Module (AC) 100-240 VAC, 16 A maximum, 50/60 Hz
Certifications
EMI (Emissions):
FCC Class A, EN55022 Class A,
EN61000-3-2, EN61000-3-3, VCCI
Class A, CISPR Class A, C-TICK, CE
EMC (Immunity):
EN55024
Electrical and Laser Safety:
EN60950-1 (TUV), UL 60950-1 (CULUS
EN60825
)
Quality and Reliability (MTBF):
AT-RPS3000 Chassis
AT-PWR250 Module (AC)
AT-PWR800 Module (AC)
440,000 hrs.
100,000 hrs.
100,000 hrs.
AT-PWR1200 Module (AC) 80,000 hrs.
Compliance Marks:
CE, CULUS, TUV, C-Tick
88
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Port Pin-outs
Figure 64 identifies the pins on the RPS ports.
P4 P3
P2 P1
9
1
17
10
Figure 64. Port Pin-outs for the RSP System and PoE+/System Ports
Table 11 lists the pin signals for the RPS 1 and 3 System ports.
Table 11. RPS 1 and 3 System Ports
Pin
Description
P1
P2
P3
P4
1
Ground (12V return)
+12V
Reserved
Reserved
+12V remote sense
Reserved
2
3
RPS status
4
Reserved
5
-12V remote sense
RPS power good
Reserved
6
7
8
Reserved
9
Reserved
10
11
12
RPS present
Switch power good
Reserved
89
Download from Www.Somanuals.com. All Manuals Search And Download.
Appendix A: Technical Specifications
Table 11. RPS 1 and 3 System Ports
Pin
Description
13
14
15
16
17
Reserved
Reserved
Switch present
Reserved
Reserved
Table 12 lists the pin signals for the RPS 2 and 4 PoE+/System ports.
Table 12. RPS 2 and 4 PoE+/System Ports
Pin
Description
P1
P2
P3
P4
1
-12V return
+12V
+56V
56V return
+12V remote sense
Reserved
2
3
RPS status
Reserved
4
5
-12V remote sense
RPS power good
Reserved
6
7
8
56V load share
9
PoE+ positive remote sense
RPS present
10
11
12
13
14
15
16
Switch power good
Reserved
PoE+ ready
Reserved
Switch present
Reserved
90
Download from Www.Somanuals.com. All Manuals Search And Download.
AT-RPS3000 Redundant Power Supply Installation Guide
Table 12. RPS 2 and 4 PoE+/System Ports
Pin
Description
PoE+ negative remote sense
17
91
Download from Www.Somanuals.com. All Manuals Search And Download.
Appendix A: Technical Specifications
92
Download from Www.Somanuals.com. All Manuals Search And Download.
|