Pinout
In
Purpose
The functions of contacts in electrical connectors, be they power- or signaling-related, must be specified for connectors to be interchangeable. Each connector contact must mate with the contact on the other connector with the same function. If contacts of disparate functions are allowed to make contact, the connection may fail, and damage may result. Therefore, pinouts are a vital reference when building and testing connectors, cables, and adapters.
Suppose one has specified wires within a cable (for instance, the colored Ethernet cable wires in ANSI/TIA-568 T568A). In that case, the order in which different color wires are attached to pins of an electrical connector defines the wiring scheme. In any multi-pin connector, there are multiple ways to map wires to pins, so different configurations may be created that superficially look identical but function differently. Pinouts define these configurations. Many connectors have multiple standard pinouts in use for different manufacturers or applications.[1]
Terminology
While one usage of the word pin is to refer to electrical contacts of, specifically, the male gender, its usage in pinout does not imply gender: the contact-to-function cross-reference for a connector that has only female socket contacts is still called a pinout.
Representation
The pinout can typically be shown as a table or diagram. However, it is necessary to clarify how to view the diagram, stating if it shows the backside of the connector (where wires are attached) or the "mating face" of the connector. Published pinouts, which are particularly important when different manufacturers want to interconnect their products using
While repairing electronic devices, an electronics technician uses electronic test equipment to "pin out" each component on a PCB. The technician probes each pin of the component in turn, comparing the expected signal on each pin to the actual signal on that pin.
Example pinouts
USB pinout
Viewed from the front (outside) of Female Type A USB receptacle:
- +5V (Red)
- −Data (White)
- +Data (Green)
- GND (Black)
PS/2 pinout
| Pin number | Name | Purpose |
|---|---|---|
| 1 | DATA | Data |
| 2 | Not used | |
| 3 | GND | Ground |
| 4 | Vcc | +5V Common-collector voltage |
| 5 | CLK | Clock signal |
| 6 | Not used |
4017 decade counter
| Pin number | Name | Purpose |
|---|---|---|
| 1 | 6 | The 6th sequential output |
| 2 | 2 | The 2nd sequential output |
| 3 | 1 | The 1st sequential output |
| 4 | 3 | The 3rd sequential output |
| 5 | 7 | The 7th sequential output |
| 6 | 8 | The 8th sequential output |
| 7 | 4 | The 4th sequential output |
| 8 | 0 V, VDD | The connection to the 0 V rail |
| 9 | 9 | The 9th sequential output |
| 10 | 5 | The 5th sequential output |
| 11 | 10 | The 10th sequential output |
| 12 | CO | Carry out output - outputs high on counts 0 to 4, outputs low on counts 5 to 9 (thus a transition from low to high occurs when counting from 9 back to 0) |
| 13 | EN | Latch enable - latches on the current output when high (i.e., the chip counts when EN is low) |
| 14 | CLK | Clock in |
| 15 | RST | Reset - sets output 1 high and outputs 2 through 10 low, when taken high |
| 16 | +9 V, VCC | The connection to the +VCC rail (voltage between +3 V and +15 V) |
LM741 operational amplifier
See also
References
- ^ "Handbook of hardware schemes, cables layouts and connectors". pinouts.ru. Retrieved 2016-04-25.
External links
- The Hardware Book - Pinout collection
- Crossover search of pinouts at pinout.net
- Pinouts of hardware connectors with a description of common interfaces at pinouts.ru
- Pinouts (pin-out) - Historical Pinouts collection
- 74xxx and 40xx (pin-outs) - Pinouts collection
- Pin Configuration of ICs and semiconductors (pin-outs) - Pinouts collection