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Cisco 8600 Series Manual
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Cisco 8600 Series Manual

Cisco 8600 Series Manual

Powering on the router
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Powering on the Router
This chapter describes how to connect the power modules in the chassis and to power on the router.
Power Supply Overview
You can install up to four 3.2KW AC or 3.2KW DC power supplies in the chassis. Ensure that all power
connection wiring conforms that to the rules and regulations in the National Electrical Code (NEC) and in
local codes.
Note
AC Power Module
• The AC power modules are single feed with 3.2KW capacity at 220V. They also support operation at
• AC power modules are rated at 3.2KW maximum at 230V AC high line input, and 1570W maximum at
• AC nominal range: 100—120V AC and 200—240V AC
• AC full range: 85—132 V AC and 180—264V AC; with extended range to 300V AC
DC Power Module
• The DC power modules are dual feed with 3.2KW capacity at any specified input voltage. DC power
• DC nominal range: -48 to -60VDC
• DC full range: -40 to -75VDC
Power Supply Overview, on page 1
Power Connection Guidelines for AC-Powered Systems, on page 2
Connect AC Power to the Chassis, on page 3
Connect a DC Power Supply to the Chassis, on page 14
The Cisco 8608 chassis doesn't support a mix of AC and DC Power Supply Units (PSUs).
110V with half the capacity of 1570W.
115V AC low line input.
modules with single feed at any specified input voltage provide up to 1.6KW maximum capacity.
Powering on the Router
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Summary of Contents for Cisco 8600 Series

  • Page 1 Note The Cisco 8608 chassis doesn't support a mix of AC and DC Power Supply Units (PSUs). AC Power Module • The AC power modules are single feed with 3.2KW capacity at 220V. They also support operation at 110V with half the capacity of 1570W.

  • Page 2: Power Connection Guidelines For Ac-Powered Systems

    Powering on the Router Power Connection Guidelines for AC-Powered Systems Power Connection Guidelines for AC-Powered Systems When connecting AC-input Power Supply Units (PSUs) to the site power source, observe the guidelines described here. Warning Statement 1028 More Than One Power Supply This unit might have more than one power supply connection.

  • Page 3: Connect Ac Power To The Chassis

    Powering on the Router Connect AC Power to the Chassis Warning Statement 1022 Disconnect Device To reduce risk of electric shock and fire, a readily accessible two-poled disconnect device must be incorporated in the fixed wiring. • The source AC outlet must be within 9.84 to 14 feet (3.0 to 4.293 meters) of the system - depending on the length of the power cord, and should be easily accessible.
  • Page 4 Powering on the Router Connect AC Power to the Chassis Warning Statement 1003 DC Power Disconnection To reduce risk of electric shock or personal injury, disconnect DC power before removing or replacing components or performing upgrades. Warning Statement 1046 Installing or Replacing the Unit To reduce risk of electric shock, when installing or replacing the unit, the ground connection must always be made first and disconnected last.
  • Page 5 Powering on the Router Connect AC Power to the Chassis Note We recommend that you occupy all power supply slots of the router with power supplies. In case a power module fails, it is recommended to retain the failed power module in its slot until it is replaced with a new power module.
  • Page 6 Powering on the Router Connect AC Power to the Chassis When correctly installed, the latch on the PSU locks-in the module, to avoid accidental removal of the module. Figure 2: Slide the PSU into the Power Supply Bay Power supply latch, which clicks into place Step 4 Verify that all site power and grounding requirements have been met.
  • Page 7 Powering on the Router Power Cord Retainer Mechanism Figure 3: Plug Power Cord Connector into AC-in Receptacle Power cord, plugged into the AC-in receptacle Step 6 Strap in the power cord retainer, to hold it in place and avoid accidental removal. For more information, see Power Cord Retainer Mechanism Step 7 Set the power switch to the on (|) position...
  • Page 8 Powering on the Router Power Cord Retainer Mechanism Figure 4: Parts of the Power Cord Retainer The end that is fixed to the power supply Flexible retainer strip unit Clamp which can move towards the power Retainer strip latch supply or away from it Clamp latch Installation and Removal Sequence Installation—After you have inserted the power supply unit into the bay, first position the clamp closest to...
  • Page 9 Powering on the Router Power Cord Retainer Mechanism Figure 6: Clamp Latch - Detail, provides a clearer view of the clamp latch and the direction in which you have to push the latch to move it in direction 3b. Figure 5: Positioning the Clamp The end that is fixed to the power 3a and 3b Directions in which the clamp can be moved,...
  • Page 10 Powering on the Router Power Cord Retainer Mechanism Figure 6: Clamp Latch - Detail Inserting and Tightening the Retainer Strip The flexible retainer strip inserts into the clamp hole and should be tightened around the power cord. To loosen or remove the flexible retainer strip, position a flathead screwdriver or similar device between the flexible retainer strip and the retainer strip latch and push the latch away from the flexible retainer strip.
  • Page 11 Powering on the Router 3.2KW Power Supply Unit AC Power Cords Figure 7: Flexible Retainer Strip The end that is fixed to the power Flexible retainer strip supply unit. Direction in which to push the retainer strip latch, to loosen or remove the strip from the power cord (away from the retainer strip that is behind it)
  • Page 12 Powering on the Router 3.2KW Power Supply Unit AC Power Cords Note All 3.2KW power supply power cord: • Lengths range from 9.84 – 14 feet (3.0 – 4.293 meters); with most cord lengths between 13 and 14 feet (4.013 and 4.293 meters) •...
  • Page 13 Powering on the Router 3.2KW Power Supply Unit AC Power Cords Locale Part Number Cordset Rating AC Source Plug Type Figure 14: CAB-I309-C19-INTL= (International) International CAB-I309-C19-INTL 20 A, 250 VAC Figure 15: CAB-S132-C19-ISRL= (Israel) Israel CAB-S132-C19-ISRL 16 A, 250 VAC Figure 16: CAB-C2316-C19-IT= (Italy) Italy CAB-C2316-C19-IT...
  • Page 14 Powering on the Router Connect a DC Power Supply to the Chassis Locale Part Number Cordset Rating AC Source Plug Type Figure 21: 130923 UPS 220V CAB-C19-CBN 20 A, 250 VAC Connect a DC Power Supply to the Chassis When installing a DC-input Power Supply Unit (PSU), you will need access to the terminal block of the PSU in order to connect the DC-input wires.
  • Page 15 Powering on the Router Install a DC Power Supply Unit in the Chassis Procedure Step 1 Remove the new or replacement unit from its packaging. Step 2 Grasp the module with one hand. With your other hand, push in the latch on the module. Figure 22: Push the Latch on the Module Position of the nut on the side of the release Position of the nut on the side of the release...
  • Page 16 Powering on the Router Install a DC Power Supply Unit in the Chassis Figure 23: PSU Slides into the Bay The following figure shows a PSU that is fully installed in the bay: Figure 24: PSU Installed in the Bay Powering on the Router...
  • Page 17 Powering on the Router Connecting the DC-Input Wires Connecting the DC-Input Wires To connect to the DC-input power source, follow the steps described here. Before you begin Warning Statement 1030 Equipment Installation Only trained and qualified personnel should be allowed to install, replace, or service this equipment. Warning Statement 1073 No User-Serviceable Parts There are no serviceable parts inside.
  • Page 18 Powering on the Router Connecting the DC-Input Wires Figure 25: Remove the Nuts for Grounding Step 5 Attach the lug to the two posts, secure with the two nuts, and tighten with the torque driver. The fastening torque is between 2.0 and 2.8 Nm. Do not overtorque. Always use a torque driver when you have to tighten nuts;...
  • Page 19 Powering on the Router Connecting the DC-Input Wires Lug secured with the two nuts Grounding wire with heat-shrink sleeve Step 6 Attach the four DC-input power source cables similarly. When facing the terminal block, the circuits are in the following order from left to right: negative (- A), positive (+A), positive (+ B), and negative (-B).
  • Page 20 Powering on the Router Power Up a DC Power Supply Unit Figure 28: Close Terminal Block Cover Power Up a DC Power Supply Unit After you have installed the Power Supply Unit (PSU) in the chassis and connected the DC-input wires, follow the steps described here to power up the module and verify that the module is installed correctly.
  • Page 21 Powering on the Router Power Up a DC Power Supply Unit Step 3 Verify the polarity by measuring the voltage between the DC cable leads. When measuring, check that the positive (+) lead and the negative (–) lead match the + and – labels on the DC-input PSU's terminal block.
  • Page 22 Powering on the Router Power Up a DC Power Supply Unit Powering on the Router...