Index – 1
Numerics
1500 W PoE+ zl power supply … 10-28
2910bl specific consideration … A-2
3500 switch
planning config … 8-1
3500-PoE specific consideration … A-3
3500yl specific consideration … A-4
3500yl-PoE+ specific consideration … A-5
5300 xl PoE module … 2-23
5400/8200zl PoE
enabling, disabling redundancy … 1-22
5400zl/8200zl specific consideration … A-6
5400zl/8200zl switches
planning and implementation … 10-1
8206zl switch, description … 1-18
8212 switch, description … 1-19
C
cable
data pairs … 1-4
power through … 1-4
spare pairs … 1-4
class method priority … 2-4
E
EPS power … 1-10
example configurations … 3-1, 4-1, 5-1, 7-1, 8-1, 9-1,
10-2
5412zl with J9306A … 10-29
external power supplies … 2-9
I
internal power supply … 1-20
introduction … 1-1
J
J9306A power supply … 2-3, 10-28
L
line loss
power loss … 2-7
LLDP for PoE allocation … 2-15, 2-17– 2-19
M
maximum PoE power … 2-16
maximum power allocations … 2-15–2-17, 2-19–2-21
minimum watts … 2-8
module
24-port PoE/PoE+ … 1-24
24-port zl 10/100 PoE/PoE+ … 1-25
xl PoE for 5300 … 2-23
zl 20-port PoE/PoE+ … 1-25
O
operating rules … 2-1
overview … 1-1
P
PDs
power classification, usage … 2-7
planning … 3-1, 4-1, 5-1, 6-1, 7-1, 8-1, 9-1, 10-1
PoE
5400zl/8200zl config … 10-2
configuration … 8-2, 9-2, 9-7
general considerations … A-1
planning … 3-1, 4-1, 5-1, 6-1, 7-1, 8-1, 9-1, 10-1
port-number priority … 2-4
power requirements … 2-12
priority class … 2-5
product capabilities … 1-5
using LLDP … 2-17
PoE allocation using LLDP … 2-15, 2-17–2-19
PoE power
3500 maximum power … 2-16
3500 requirements … 2-16
external for 3500-48-PoE … 8-6
PoE power supplies … 1-21
PoE redundancy, configuring … 1-22
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