14-17
Catalyst 4500 Series Switch, Cisco IOS Software Configuration Guide - Cisco IOS XE 3.9.xE and IOS 15.2(5)Ex
Chapter 14 Environmental Monitoring and Power Management
Power Management
Table 14-8 illustrates how the 6000 W AC power supply is evaluated in redundant mode.
In combined mode, all the inputs to the chassis must be at the same voltage.
Table 14-9 illustrates how the 6000 W AC power supply is evaluated in combined mode.
Table 14-7 Output Power in Conbined Mode for the 4200 W AC Power Supply
Power Supply 12 V (data) (W) -50 V (PoE) (W) Total Power (W)
1
1. Power supply outputs’ drawing should not exceed the total power.
Both sides at 110 V AC 1188 1531 1700
Both sides at 110 V AC + 110 V AC 2448 3071 3570
One side at 110 V AC + 110 V AC, the
other at 110 V AC
1818 2301 2660
Both sides at 220 V AC 2448 3071 3570
Both sides at 220 V AC + 220 V AC 2448 6142 7070
Both sides at 220 V AC + 220 V AC, the
other at 220 V AC
2447 4607 5320
Table 14-8 Output Power in Redundant Mode for the 6000 W AC Power Supply
Power Supply
12 V (data)
(W)
-50V (PoE)
(W)
Total
Power
(W)
1
1. Power supply outputs’ drawing should not exceed the total power.
110 V AC 850 922 1050
110 V AC + 110 V AC 1700 1850 2100
220 V AC 2200 2400 3000
220 V AC + 220 V AC 2200 4800 6000
Table 14-9 Combined Mode Output for the 6000 W AC Power Supply
Power Supply 12 V (data) (W) -50 V (PoE) (W) Total Power (W)
1
1. Power supply outputs’ drawing should not exceed the total power.
Both sides at 110 V AC 1530 1531 1710
Both sides at 110 V AC + 110 V AC 3060 3071 3590
One side at 110 V AC + 110 V AC, the
other at 110 V AC
2295 2301 2680
Both sides at 220 V AC 3960 3984 5140
Both sides at 220 V AC + 220 V AC 3960 7968 10170
Both sides at 220 V AC + 220 V AC,
the other at 220 V AC
2970 5976 7610
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