Техническое Руководство для Cisco CATALYST 6509E 9 SLOT 15U CHASSIS NO POWER SUPPLY NO FAN TRAY
A-58
Catalyst 6500 Series Switches Installation Guide
OL-5781-04
Appendix A Power Supply Specifications
Power Supply Redundancy
Table A-21 Power Supply Redundancy
If you have two
power supplies of
power supplies of
and redundancy is
Then
Equal wattage
Enabled
The total power drawn from both supplies is never greater than the
capability of one supply. If one supply malfunctions, the other supply
can take over the entire system load. Each power supply provides
approximately half of the required power to the system. Load sharing
and redundancy are enabled automatically; no software configuration is
required.
capability of one supply. If one supply malfunctions, the other supply
can take over the entire system load. Each power supply provides
approximately half of the required power to the system. Load sharing
and redundancy are enabled automatically; no software configuration is
required.
Unequal wattage
Enabled
Both power supplies initially come online. For the Catalyst operating
system, if the difference between the two power supply’s output
wattage is less than 10% of the higher output wattage power supply,
redundancy is enabled. If the difference is greater than 10%, the lesser
wattage power supply is disabled.
system, if the difference between the two power supply’s output
wattage is less than 10% of the higher output wattage power supply,
redundancy is enabled. If the difference is greater than 10%, the lesser
wattage power supply is disabled.
For Cisco IOS, both power supplies come on. The total available
wattage is the output wattage of the higher wattage power supply.
wattage is the output wattage of the higher wattage power supply.
Equal or unequal
wattage
wattage
Disabled
The total power available to the system is approximately 167 percent of
the lower-wattage power supply. The system powers up as many
modules as the combined capacity allows. If the higher-wattage power
supply fails, the lower-wattage supply might also shut down due to
overcurrent protection to prevent damage to the lower-wattage power
supply.
the lower-wattage power supply. The system powers up as many
modules as the combined capacity allows. If the higher-wattage power
supply fails, the lower-wattage supply might also shut down due to
overcurrent protection to prevent damage to the lower-wattage power
supply.
Table A-22 Effects of Power Supply Configuration Changes
Configuration Change
Effect
Redundant to
nonredundant
nonredundant
•
System log and syslog messages are generated.
•
System power is increased to approximately 167 percent of the
lower-wattage power supply.
lower-wattage power supply.
•
The modules marked as power-deny in the show module Status field
are powered up if there is sufficient power.
are powered up if there is sufficient power.
Nonredundant to
redundant
redundant
•
System log and syslog messages are generated.
•
System power is the power capability of the higher-wattage supply.
•
If there is not enough power for all previously powered-up modules,
some modules are powered down and marked as power-deny in the
show module Status field.
some modules are powered down and marked as power-deny in the
show module Status field.
Equal wattage power
supply is inserted with
redundancy enabled
supply is inserted with
redundancy enabled
•
System log and syslog messages are generated.
•
System power equals the power capability of one supply. (Both
supplies provide approximately one half of the total current.)
supplies provide approximately one half of the total current.)
•
No change in the module status because the power capability is
unchanged.
unchanged.