Ethernet crossover cable
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Gigabit T568B
crossover cable ends
An Ethernet
crossover cable is a type of Ethernet cable used to
connect computing devices together directly. Normal straight through or patch
cables were used to connect from a host network interface
controller (a computer or similar device) to a network switch, hub or router. A cable
with connections that "cross over" was used to connect two devices of
the same type: two hosts or two switches to each other. Owing to the inclusion
of Auto-MDIX capability, modern implementations of
the Ethernet over twisted
pair standards usually no longer require the use of crossover
cables.
Contents
[hide]
|
[edit] Overview
8P8C
modular crossover adapter
The 10BASE-T and 100BASE-TX Ethernet
standards use one wire pair for transmission in each direction. By convention,
one wire of the pair is designated "+" and the other "-".
Following traditional telephone
terminology, the + signal from each pair connects to the tip conductor, and the
- signal is connected to the ring conductor. This requires that the transmit
pair of each device be connected to the receive pair of the device on the other
end. When a terminal
device is connected to a switch or hub, this crossover is done internally in
the switch or hub. A standard straight through cable is used for this
purpose where each pin of the connector on one end is connected to the
corresponding pin on the other connector.
One network interface
controller may be connected directly to another without the use of a
switch or hub, but in that case the crossover must be done externally in the
cable or modular crossover adapter in a manner similar to how the null modem was used to directly connect two teleprinters. Since 10BASE-T and 100BASE-TX use
pairs 2 and 3, these two pairs must be swapped in the cable. This is a crossover
cable. A crossover cable was also used to connect two hubs or two switches
on their upstream
ports .
Because the
only difference between the T568A and T568B
pin/pair assignments are that pairs 2 and 3 are swapped, a crossover cable may
be envisioned as a cable with one modular connector following T568A and the other
T568B (see Jack crossover wiring).
Such a cable will work for 10BASE-T or 100BASE-TX. Gigabit Ethernet (and an early Fast Ethernet variant, 100BASE-T4) use all
four pairs and also requires the other two pairs (1 and 4) to be swapped. This
meant common crossover cables available in the retail market were usually not
compatible with the Gigabit Ethernet convention, but newer crossover cables
could be made that worked for all speeds. The polarity of each pair is not
swapped, but the pairs crossed as a unit: the two wires within each pair are not
crossed.[1]
[edit]
Crossover cable pinouts
Crossover cable
connecting two MDI ports
In practice, it
does not matter if non-crossover Ethernet cables are wired as T568A or T568B,
just so long as both ends follow the same wiring format. Typical commercially
available "pre-wired" cables can follow either format depending the
manufacturer. What this means is that one manufacturer's cables are wired one
way and another's the other way, yet both are correct and will work. In either
case, T568A or T568B, a normal (un-crossed) cable will have both ends
wired according to the layout in the Connection 1 column.
Although the
Gigabit crossover is defined in the Gigabit Ethernet standard[2], in practice all Gigabit PHYs feature
an auto-MDIX capability and are designed for compatibility with the existing
100BASE-TX crossovers. The IEEE-specified Gigabit crossover is generally seen
as unnecessary.
Certain
equipment or installations, including those in which phone and/or power are
mixed with data in the same cable, may require that the "non-data"
pairs 1 and 4 (pins 4, 5, 7 and 8) remain un-crossed.
| Pin | Connection 1: T568A |
Connection 2: T568B |
Pins on plug face | ||||
|---|---|---|---|---|---|---|---|
| signal | pair | color | signal | pair | color | ||
| 1 | BI_DA+ | 3 |  white/green stripe |
BI_DB+ | 2 |  white/orange stripe |
 |
| 2 | BI_DA- | 3 |  green solid |
BI_DB- | 2 |  orange solid |
|
| 3 | BI_DB+ | 2 | white/orange stripe |
BI_DA+ | 3 | white/green stripe |
|
| 4 | 1 |  blue solid |
1 | blue solid |
|||
| 5 | 1 |  white/blue stripe |
1 | white/blue stripe |
|||
| 6 | BI_DB- | 2 | orange solid |
BI_DA- | 3 | green solid |
|
| 7 | 4 |  white/brown stripe |
4 | white/brown stripe |
|||
| 8 | 4 |  brown solid |
4 | brown solid |
|||
| Pin | Connection 1: T568A | Connection 2: T568A Crossed | Pins on plug face | ||||
|---|---|---|---|---|---|---|---|
| signal | pair | color | signal | pair | color | ||
| 1 | BI_DA+ | 3 | white/green stripe |
BI_DB+ | 2 | white/orange stripe |
|
| 2 | BI_DA- | 3 | green solid |
BI_DB- | 2 | orange solid |
|
| 3 | BI_DB+ | 2 | white/orange stripe |
BI_DA+ | 3 | white/green stripe |
|
| 4 | BI_DC+ | 1 | blue solid |
BI_DD+ | 4 | white/brown stripe |
|
| 5 | BI_DC- | 1 | white/blue stripe |
BI_DD- | 4 | brown solid |
|
| 6 | BI_DB- | 2 | orange solid |
BI_DA- | 3 | green solid |
|
| 7 | BI_DD+ | 4 | white/brown stripe |
BI_DC+ | 1 | blue solid |
|
| 8 | BI_DD- | 4 | brown solid |
BI_DC- | 1 | white/blue stripe |
|
| Pin | Connection 1: T568B | Connection 2: T568B Crossed | Pins on plug face | ||||
|---|---|---|---|---|---|---|---|
| signal | pair | color | signal | pair | color | ||
| 1 | BI_DA+ | 2 | white/orange stripe |
BI_DB+ | 3 | white/green stripe |
|
| 2 | BI_DA- | 2 | orange solid |
BI_DB- | 3 | green solid |
|
| 3 | BI_DB+ | 3 | white/green stripe |
BI_DA+ | 2 | white/orange stripe |
|
| 4 | BI_DC+ | 1 | blue solid |
BI_DD+ | 4 | white/brown stripe |
|
| 5 | BI_DC- | 1 | white/blue stripe |
BI_DD- | 4 | brown solid |
|
| 6 | BI_DB- | 3 | green solid |
BI_DA- | 2 | orange solid |
|
| 7 | BI_DD+ | 4 | white/brown stripe |
BI_DC+ | 1 | blue solid |
|
| 8 | BI_DD- | 4 | brown solid |
BI_DC- | 1 | white/blue stripe | |
Main article: Auto-MDIX
Introduced in
1998, this made the distinction between uplink and normal ports and manual
selector switches on older hubs and switches obsolete.[3] If one or both of two connected devices
has the automatic MDI/MDI-X configuration feature there is no need for
crossover cables.
Although
Auto-MDIX was specified as an optional feature in the 1000BASE-T standard[2], in practice it is implemented widely
on most interfaces. It has been available for example on Apple Inc. computers since about the Power Mac G5.[4]
Besides the
eventually agreed upon Automatic MDI/MDI-X, this feature may also be
referred to by various vendor-specific terms including: Auto uplink and
trade, Universal Cable Recognition and Auto Sensing.
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