Guide To PC's Cable and Wiring

[Karthik R 246]

Everyone has had the experience of staring at the back of a machine, device, or gadget, scratching their head, gazing in bewilderment at some unfamiliar cable port. In this guide to the bizarre world of plugs and cables, we will explain nearly every modern connector for computers, TVs, and audio equipment, including which ones to use when you have choices, and which ones you can easily adapt to fit others

Display Cable

Can't tell the difference between DVI and DisplayPort? Having a hard time figuring out what kind of connector your old Apple display uses? Read on for all you ever needed to know about computer monitor cables.

VGA (aka D-Sub 15)

Use it for: Connecting PCs, monitors, HDTVs, and video projectors

It's similar in performance and use to: Component VGA

It adapts to: Mini-VGA, RGB Component

Add more ports by: Installing a new graphics card; connecting a splitter

The still-in-use analog classic, a VGA connector carries an RGB signal. You can often find one on PCs and HDTVs; laptops sometimes use the Mini-VGA version. Because the analog design can pick up interference, you're better off choosing a digital cable if your device supports it.

ADC (aka Apple Display Connector)

Use it for: Connecting TVs and computer displays to PCs and other devices

If you have a choice, select it instead of: VGA, component video

It's similar in performance and use to: HDMI

It adapts to: HDMI, VGA, Mini-DVI, Micro-DVI

Add more ports by: Connecting a switchbox; upgrading your graphics board

DVI (aka Digital Visual Interface)

Use it for: Connecting TVs and computer displays to PCs and other devices

If you have a choice, select it instead of: VGA, component video

It's similar in performance and use to: HDMI

It adapts to: HDMI, VGA, Mini-DVI, Micro-DVI

Add more ports by: Connecting a switchbox; upgrading your graphics board

DVI comes in a few versions, having evolved as needs have grown. DVI-I (integrated) supplies an analog and digital signal, which means that you can connect an old VGA monitor to it with a simple adapter. DVI-D (digital) carries only the digital signal. Both types also offer single-link and dual-link versions; single-link has fewer pins and can't support the massive resolutions of dual-link, but you can connect a single-link monitor to a dual-link port. HDCP, the copy-protection technology used for Blu-ray and other HD sources, works with the digital signal in DVI.

Mini-DVI

Use it for: Connecting small devices to DVI displays

It's similar in performance and use to: DVI, HDMI

It adapts to: DVI, HDMI, Micro-DVI

Add more ports by: Connecting a switchbox

Most often found on midlife Apple laptops, this connector is just a smaller DVI design.

Micro-DVI

Use it for: Connecting small devices to DVI displays

It's similar in performance and use to: DVI, HDMI

It adapts to: DVI, HDMI, Mini-DVI

Add more ports by: Connecting a switchbox

Even smaller than Mini-DVI, this port is most often found on tiny devices. A few Apple laptops have used it, although Apple has moved on to Mini DisplayPort.

DisplayPort

Use it for: Connecting recent computers and AV components to displays

If you have a choice, select it instead of: VGA

It's similar in performance and use to: HDMI

It adapts to: DVI and VGA (pass-through signal); Mini-DisplayPort; HDMI

Add more ports by: Connecting a switchbox; upgrading your graphics card

Similar to HDMI, DisplayPort carries both digital audio and digital video signals. It isn't widely used, but several Apple computers and displays, PC graphics cards, and Dell monitors currently include the plug. DisplayPort also supports HDCP copy protection, as HDMI does.

Mini DisplayPort

Use it for: Connecting small devices to displays

If you have a choice, select it instead of: VGA

It's similar in performance and use to: DisplayPort, HDMI

It adapts to: DVI and VGA (pass-through signal); DisplayPort; HDMI

A small version of DisplayPort, this connection is most often found on new Apple laptops.

Audio/Video Cable

HDMI, RCA, S-Video--sorting through the alphabet soup of audio/video cables can be difficult. Read on for everything you ever needed to know about plugging in your audio/video equipment for your home theater or for on-the-go jammin'.

HDMI (High-Definition Multimedia Interface)

Use it for: Connecting Blu-ray players, TVs, AV receivers, PCs, game consoles, and other high-def video hardware

If you have a choice, select it instead of: Component video cables, analog audio cables

It's similar in performance and use to: DVI

It adapts to: DVI, Mini-DVI, Micro-DVI

Add more ports by: Connecting to a receiver

In addition to carrying pristine HD video at 1080p and beyond, HDMI can supply surround-sound audio, including Dolby Digital and DTS. This digital cable is your go-to cable for most home theater connections, including TVs, receivers, and game consoles. It supports HDCP encryption, so copy-protected movies should play without problems. This type of connection is available in several versions; HDMI 1.3 is typical, while 1.4 is rolling out now. The new version is capable of additional bandwidth for enabling high-resolution 3D video, and is part of the Blu-ray 3D specification.

RCA (aka Composite Video or Phono Plug)

Use it for: Basic, analog audio and video; occasionally for digital audio

If you have a choice, select it instead of: Coaxial cable

It adapts to: Mini-jack ends (commonly found on camcorders and MP3 players)

Add more ports by: Connecting a splitter, repeater, or receiver

Introduced by RCA, this connector is ubiquitous among home audio and video components. Basic setups might use a white plug for mono audio--the left channel--and a yellow plug for video (not shown here). A red plug usually signifies right-channel audio, but the connector can carry other signals too. It's occasionally used for digital audio, in which one cable carries a full surround-sound signal. It's also the same kind of cable as for component video (see below).

Component Video (aka Y-Pb-Pr or RGB)

Use it for: HDTV video (especially older TVs), game systems

If you have a choice, select it instead of: Composite RCA video, S-Video

It's similar in performance and use to: VGA cables (especially the RGB version)

It adapts to: VGA, if your devices use the RGB version

Add more ports by: Connecting a splitter, repeater, or receiver

Component-video signals transmit over three RCA cables, typically coded red, green, and blue. Component video works at up to 1080i, making it a good option for analog HDTV connections. The cables typically run Y/Pb/Pr, which separates brightness, blue, and red to individual cables. Some systems use other signals, often RGB (red, green, blue); certain devices support both kinds of signals, but if you get a green-tinted image, you're probably set up for the wrong color space.

S-Video (aka Y/C)

Use it for: Midrange video devices

If you have a choice, select it instead of: RCA composite, coaxial

It's similar in performance and use to: Composite video

It adapts to: Composite video (but it loses its quality advantages)

Add more ports by: Connecting a splitter, repeater, or receiver

Though this kind of connection is a clear boost over a composite RCA connection, S-Video is still far from the quality of HDTV-supporting cables such as component.

Coaxial Video (aka Cable TV Connection)

Use it for: Connecting antennas; wiring a VCR to an analog TV; linking from the wall to the TV for cable broadcasts

It's similar in performance and use to: Composite video

Add more ports by: Connecting a splitter

The lowly coaxial cable supplies both analog audio and video between devices. It's also the cable of choice for TV-tuner antennas. Cable companies use this cable, although they'll typically send a digital signal that a converter box at your TV decodes. Nearly any time you attach a coaxial cable directly to a TV (except for a digital antenna), you should expect merely basic quality.

Toslink (aka Optical Cable or S/PDIF)

Use it for: Connecting DVD players, game systems, cable boxes, and other devices to audio receivers

If you have a choice, select it instead of: Analog RCA audio; all other, common audio options

It's similar in performance and use to: Digital RCA audio over a single cable

It adapts to: Mini-Toslink

Add more ports by: Connecting a splitter or receiver

A digital connection, Toslink sends optical pulses that are decoded into audio. The commonly used S/PDIF signal carries surround details. ("S/PDIF" is sometimes used interchangeably as the cable name, although "Toslink" refers to the actual connector.) Mini-Toslink is occasionally used, especially with Apple computers; such jacks are often inside of the typical 3.5mm stereo mini-jack port.

Mini-Jack (aka TRS, 3.5mm Plug, 1/8-Inch Plug, Headphone Jack)

Use it for: Nearly every portable audio device, computers, portable speakers, video cameras

If you have a choice, select it instead of: A mono mini-jack

It's similar in performance and use to: 1/4-inch plug, 2.5mm plug

It adapts to: 1/4-inch plug, 2.5mm plug, RCA plugs

Add more ports by: Connecting a splitter

This headphone connector is ubiquitous, available on nearly every audio device and offered as the basic plug on media players. You'll most often encounter a stereo connection, which has two rings around the end. (If the plug has only one ring, it sends mono audio.) The plug is also often used to send video along with audio, adapting from the mini-jack end on a device to RCA plugs. The audio-signal output on a mini-jack is louder than the signal typically carried on stereo RCA plugs, so if you use an adapter (if you plug an iPod into a receiver, for example), turn up the volume slowly.

1/4-Inch Plug (aka TRS)

Use it for: Guitars and music equipment, home theater audio, pro equipment, headphones

If you have a choice, select it instead of: A mono mini-jack

It's similar in performance and use to: Mini-jack, 2.5mm plug

It adapts to: Mini-jack, 2.5mm plug, RCA plugs

Add more ports by: Connecting a splitter

This connector most often carries stereo audio to headphones. You'll also find it on professional audio equipment, home theater audio components, and many headphone designs.

2.5mm Plug (aka TRS)

Use it for: Mobile phone headsets

It's similar in performance and use to: Mini-jack, 1/4-inch plug

It adapts to: Mini-jack, 1/4-inch plug, RCA plugs

Add more ports by: Connecting a splitter

Though some mobile phones include mini-jacks, many more interface with a 2.5mm plug, often supporting microphones or hold buttons. You can adapt your larger headphone cables to this small size in order to listen to music, however.

XLR

Use it for: Mostly midrange and high-end microphones

If you have a choice, select it instead of: 1/4-inch plug

It's similar in performance and use to: 1/4-inch plug

It adapts to: 1/4-inch plug (although in that case it doesn't power mics)

Add more ports by: Connecting to a mixer

While this kind of connector can support more pins, the three-pin version is used most often in midrange and professional audio hardware. Microphones typically use this cable, which also can provide them with power.

Speaker Wire

Use it for: Connecting speakers

Add more ports by: Connecting a splitter or receiver

Strands of speaker wire--each with two cables inside--connect each speaker to your receiver. Brand-name versions are a waste of money. The gauge, however, can matter, especially when you're running long lengths, around 75 feet. Thicker wire (a lower gauge number) works best. Try not to use any excess cable, since that can produce interference. You can add a banana-plug tip to make the connection, but you'll get the same results by twisting the exposed wire end and inserting it into each device; just be sure to match the positive and negative markers on each component.

Peripheral Cable

FireWire 400 (aka IEEE 1394, IEEE 1394a, or i.Link)

Use it for: Camcorders and external PC drives; also works (but is rarely used) for networking

If you have a choice, select it instead of: USB 1.1 (for PC equipment); composite or S-Video cables (for video gear)

It's similar in performance and use to: USB 2.0 (for PC equipment)

It adapts to: Four- and six-pin styles; FireWire 800, with a physical adapter, will connect at FireWire 400 speeds

Add more ports by: Installing a PCI-card upgrade; connecting a hub; daisy-chaining devices

This audio/video and general PC serial connector comes in four- and six-pin variants. The four-pin FireWire option is most often found on camcorders and some laptops, while the six-pin version is usually on midlife Apple laptops, hard disks, and many desktop PCs. Some TVs, cable boxes, and other video gear use it. The six-pin style carries power, as USB does, so external hard drives often need no other cable. FireWire 400 runs at a theoretical speed up to 400 megabits per second.

FireWire 800 (aka IEEE 1394b)

Use it for: Hard disks and other PC drives; also works (but is rarely used) for networking

If you have a choice, select it instead of: FireWire 400 or any type of USB

It's similar in performance and use to: eSATA

It adapts to: FireWire 400 connectors (falling back to those speeds)

Add more ports by: Installing a PCI-card upgrade; connecting a hub; daisy-chaining devices

This general PC serial interface doubles the theoretical speed of the original FireWire while maintaining backward-compatibility (with an adapter); if you use it with old FireWire, the speed will be cut in half. You'll find this connection on Apple computers, and on many midrange and high-end PCs.

USB

Use it for: Attaching basic, slow peripherals; charging gadgets

If you have a choice, select it instead of: PS/2 keyboard and mouse inputs

It's similar in performance and use to: PS/2 keyboard and mouse ports

It adapts to: Physical differences in more-recent USB styles

Add more ports by: Installing a PCI-card upgrade; connecting a hub

The classic, original USB is the bread-and-butter serial connector for linking input devices to a PC. In addition to mice and keyboards, you'll use it for printers, scanners, and other peripherals. One device, usually a PC, connects with the rectangular "A" end; the relatively square-shaped "B" end is often hard-wired, or connects to external devices. On this kind of connection, devices are hot-swappable, meaning that you can change them without restarting the PC. It also carries power and has become a ubiquitous charger plug for small gadgets.

USB 2.0

Use it for: External drives, cameras, mobile phones, other gadgets

If you have a choice, select it instead of: USB 1.0

It's similar in performance and use to: FireWire 400, eSATA

It adapts to: Other USB shapes

Add more ports by: Installing a PCI-card upgrade; connecting a hub

Significantly faster than the original USB, the 2.0 version usually connects with an "A" end on a PC and a Mini-USB end on a peripheral. Some of the tiniest gadgets on the market opt to use the Micro-USB end. The faster bus of USB 2.0 means that it's much more suited to hard disks and to network adapters than the original version is.

SATA

Use it for: Internal hard drives, Blu-ray and DVD burners, and other disks

If you have a choice, select it instead of: ATA

It's similar in performance and use to: eSATA

It adapts to: eSATA

Add more ports by: Inserting an additional PCI controller card

Serial ATA connects internal disks within PCs. Many new computer case designs allow you to slide in a hard drive so that it meets directly with a port; otherwise, you'll use a cable. The fastest, most widely implemented version (often misnamed SATA II) runs at 3 gigabits per second and provides enough speed for the most disk-demanding tasks, such as high-end video capture.

eSATA

Use it for: External hard drives, Blu-ray and DVD-burners, and other disks; DVRs often support an eSATA drive for more storage space

If you have a choice, select it instead of: USB 1.0, FireWire 400

It's similar in performance and use to: USB 2.0, FireWire 800

It adapts to: SATA

Add more ports by: Inserting an additional PCI controller card

eSATA, a variant of SATA, simply takes that technology outside of a PC. eSATA is shielded from electrical interference and offers other considerations for making the move outside the case, and as a result is compatible with any kind of external disk.

ATA (aka Parallel ATA or PATA)

Use it for: Internal floppy drives, CD-ROM drives, and other disks

Add more ports by: Inserting an additional PCI controller card (each ATA port can support two devices)

Still often used to connect internal floppy drives (should your PC even have one of those) and occasionally CD-ROM drives, ATA is the analog cousin of SATA. Because it is analog, it requires you to use certain cables and/or manually set jumper pins on connected devices.

PS/2

Use it for: Keyboards, mice, other input devices

It's similar in performance and use to: USB 1.0

Add more ports by: Inserting an additional PCI controller card

This old, analog serial cable is still sometimes used to connect keyboards and mice. If you're troubleshooting a PC problem, connecting such input devices might be worthwhile, especially if you're having trouble interfacing with the BIOS. Otherwise, USB input devices are much more common and will likely work just as well.

Bluetooth

Use it for: Connecting PDAs, phones, GPS devices, digital cameras, earpieces, and other wireless audio gear; simple networking between PCs and/or gadgets; linking video game controllers

If you have a choice, select it instead of: USB (if wireless connectivity matters to you)

It's similar in performance and use to: USB

Add the functionality by: Installing an internal PC card or (more often) a USB-to-Bluetooth adapter dongle

Designed as a short-range, wireless connection for PCs and gadgets, Bluetooth can reach distances of 100 meters with certain hardware, but you'll most likely use it within a single room. The 2.1 version is currently the most widely used; it's backward-compatible with older Bluetooth devices, too. Bluetooth is a versatile connection and useful in many situations, although its modest speed of 3 megabits per second means that it won't replace other wireless tech. To connect devices, you "pair" them, putting each in a discoverable mode. You might also enter a password if both devices have a keyboard. (If only one does, consult your manual or try simple combinations such as '1234' or '0000'.)

Networking Cable

Category 5e Ethernet

Use it for: Wired networks linking PCs, printers, and other devices

If you have a choice, select it instead of: Cat 5 and older standards; wired ethernet is still more reliable than Wi-Fi, too, especially when wireless mobility doesn't matter

It's similar in performance and use to: Wi-Fi (especially 802.11n)

It adapts to: Other ethernet versions

Add more ports by: Adding a switch or router to a network; installing an internal PC card on a computer

The latest, most widely used ethernet cable supports up to gigabit ethernet connections (as fast as the 10 Gigabit Ethernet standard), but you can use it on slower networks, too. (You're unlikely to own consumer hardware that exceeds gigabit speeds anyway.) Cat 5e cabling replaces Cat 5 and is slightly slower than Cat 6. Most ethernet cables use an 8P8C end, which looks similar to a phone plug but is slightly bigger and has more pins.

Legacy Wi-Fi (aka 802.11b, 802.11g, 802.11a)

Use it for: Wireless-only networks (or bridging wireless networks to wired PCs), phones, PDAs, MP3 players, nearly all laptops

If you have a choice, select it instead of: Bluetooth, wired ethernet (when mobility is more valuable than speed)

It's similar in performance and use to: Wired ethernet

It adapts to: Other Wi-Fi variants

Add more connections by: Installing a wireless PC card or router (PC cards will talk to one other device or network at a time, while routers can network dozens)

Though 802.11n maintains compatibility with older wireless standards, in such a setup the network must operate at the slower, older speeds for all connected devices. ("Dual-band" routers can isolate the old gear on its own wireless radio so that you don't have this drawback.) 802.11b is noticeably slower when transferring local files, while the other variants of Wi-Fi approach speeds similar to those of wired ethernet.

802.11n Wi-Fi

Use it for: Wireless-only networks (or bridging wireless networks to wired PCs), phones, PDAs, MP3 players, nearly all laptops

If you have a choice, select it instead of: Legacy Wi-Fi, wired ethernet (when mobility is more valuable than speed)

It's similar in performance and use to: Wired ethernet

It adapts to: Other Wi-Fi variants

Add more connections by: Installing a wireless PC card or router (PC cards will talk to one other device or network at a time, while routers can network dozens)

Though the actual 802.11n standard is still being finalized, compatible hardware is already common. Theoretically, once the standard is complete, you'll be able to update draft-standard equipment through firmware. 802.11n improves in speed and general performance over legacy Wi-Fi standards.

Proprietary Cable

iPod Connector

Use it for: Connecting an iPod to anything

If you have a choice, select it instead of: The headphone-out port

It's similar in performance and use to: The headphone-out port (depending on its use)

It adapts to: USB, S-Video, component video, Toslink audio, RCA audio, and more

Apple has standardized its connector across different iPod models thus far, although the plug is still used only on iPods. Depending on the cable or device attached, this connector can result in USB, audio, video, and other ports.

Zune Connector

Use it for: Connecting a Zune to anything

If you have a choice, select it instead of: The headphone-out port

It's similar in performance and use to: The headphone-out port (depending on the situation)

It adapts to: USB, S-Video, component video, Toslink audio, RCA audio, and more

Similar to the situation with iPods, Microsoft has standardized its connector across different versions of its Zune player, but you won't find this plug on anything aside from Zunes. Depending on the cable or device attached, this connector can result in USB, audio, video, and other ports.

Xbox 360, PlayStation 3, or Wii Connector

Use it for: Connecting a game console to a TV and audio system

It adapts to: S-Video, composite video, component video, RCA audio, VGA, and more

Video game consoles from Microsoft, Sony, and Nintendo (cables pictured here) all have proprietary jacks, though the Sony PlayStation 3 also uses standard HDMI. This setup allows the systems to send signals out to a variety of plugs, including component video, composite video, RCA audio, and S-Video.

Source :

[Honest 836]

Infact a very informational thread dear Karthik Brother. +1

[digitalnirvana 646]

Good info.

[I_C_U 10]

Speaker Wire

Use it for: Connecting speakers

Add more ports by: Connecting a splitter or receiver

Strands of speaker wire--each with two cables inside--connect each speaker to your receiver. Brand-name versions are a waste of money. The gauge, however, can matter, especially when you're running long lengths, around 75 feet. Thicker wire (a lower gauge number) works best. Try not to use any excess cable, since that can produce interference. You can add a banana-plug tip to make the connection, but you'll get the same results by twisting the exposed wire end and inserting it into each device; just be sure to match the positive and negative markers on each component.

Source :

Indeed very informative and interesting.

But What type of connector is that?

[kkdeep 6]

Wow!! that is really exhaustive list.

Edited January 18, 2011 by kkdeep

[Honest 836]

Speaker Wire

Use it for: Connecting speakers

Add more ports by: Connecting a splitter or receiver

Strands of speaker wire--each with two cables inside--connect each speaker to your receiver. Brand-name versions are a waste of money. The gauge, however, can matter, especially when you're running long lengths, around 75 feet. Thicker wire (a lower gauge number) works best. Try not to use any excess cable, since that can produce interference. You can add a banana-plug tip to make the connection, but you'll get the same results by twisting the exposed wire end and inserting it into each device; just be sure to match the positive and negative markers on each component.

Source :

Indeed very informative and interesting.

But What type of connector is that?

My dear friend, its not a connector, its a SPEAKER WIRE.

[Pulkit Gupta 47]

gud one kartik +1

[rajanmehta 4,056]

+1 For The Hard Work...

[KumaarShah 143]

+1, Karthik for the excellent hard work and info.

[_Kailash_ 63]

+1

Excellent Info:)

Keep it up