Page 1:Power Supplies
Page 2:Voltage Rails
Page 3:Power Supply Form Factors
Page 4:Modern Form Factors: ATX And SFX
Page 5:Modern Form Factors: EPS, TFX, CFX, LFX, And Flex ATX
Page 6:Power Switches
Page 7:Motherboard Power Connectors: AT/LPX And ATX
Page 8:Motherboard Power Connectors: Six-Pin Auxiliary And 24-Pin Main
Page 9:CPU Power Connectors
Page 10:Compatibility Issues
Page 11:Additional Power Connectors: Peripheral, Floppy, And SATA
Page 12:PCI Express Auxiliary Graphics Power Connectors
Page 13:Power Supply Specifications
Page 14:Other Power Supply Specifications And Certifications
PCI Express Auxiliary Graphics Power Connectors
Although the ATX12V 2.x specification includes a new 24-pin main power connector with more power for devices such as video cards, the design was intended to power a video card drawing up to 75 watts maximum through the PCIe x16 slot. That is adequate for most video cards, but high-end gaming or workstation cards usually need quite a bit more power. To accommodate graphics cards needing more than 75 watts, the PCI-SIG (Special Interest Group) introduced two standards for supplying additional power to a video card via additional graphics power connectors:
- PCI Express x16 Graphics 150 W-ATX Specification—Published in October 2004, this standard defines a six-pin (2x3) auxiliary power connector capable of delivering an additional 75 W to a graphics card directly from the power supply, for a total of 150 W to the card.
- PCI Express 225 W/300 W High Power Card Electromechanical Specification—Published in March 2008, this standard defines an eight-pin (2x4) auxiliary power connector capable of supplying an additional 150 W of power, for a total of either 225 watts (75+150) or 300 watts (75+150+75) of available power.
Cards requiring even more power can use multiple connectors.
|Graphics Card Auxiliary Power Connector Configurations|
|Maximum Power Draw||Auxiliary Power Connector Configuration|
|75 Watts ||None|
|150 Watts ||One six-pin connector|
|225 Watts ||Two six-pin connectors*|
|300 Watts ||One eight-pin connector + one six-pin connector|
|375 Watts ||Two eight-pin connectors|
|450 Watts ||Two eight-pin connectors + one six-pin connector|
|*May optionally use one eight-pin connector instead.|
The PCI Express auxiliary power connectors are six-pin (2 × 3) or eight-pin (2 × 4) Molex Mini-Fit Jr. connector housings with female terminals that provide power directly to a video card. For reference, the connector is similar to Molex part number 39-01-2060 (six-pin) or 39-01-2080 (eight-pin), but with different keying to prevent interchanging them with the +12 V motherboard power connectors. A diagram of the six-pin connector is shown below, as is the pinout below that. Note the Sense signal at pin five, which allows a graphics card to detect whether a six-pin power connector has been attached. Without the proper power connections being detected, the card may shut down or operate in a reduced functionality mode. Also note that pin two is technically listed as “no connection” in the official specification, but most power supplies do seem to include +12 V there.
|PCI Express Six-Pin (2x3) Auxiliary 75 W Power Connector Pinout (Graphics Card Socket)|
|Black ||GND||4||1||+12 V||Yellow|
|Black ||GND||6||3||+12 V||Yellow|
|N/C = No connection; however, many PSUs include a redundant +12V (yellow) wire at pin 2.|
A diagram of the eight-pin connector is shown below, as is its pinout. Note the additional +12 V power at pin two and the two Sense signals at pins four and six, which allow a card to detect whether an eight-pin connector, a six-pin connector, or no connector is attached.
|PCI Express Eight-Pin (2x4) Auxiliary 150 W Power Connector Pinout (Graphics Card Socket)|
|Black ||GND||5||1||+12 V||Yellow|
|Black ||Sense0||6||2||12 V||Yellow|
Because of both the physical design as well as the use of the sense signals, the six-pin power supply connector plug is backward compatible with the eight-pin graphics card socket. This means that if your graphics card has an eight-pin socket but your power supply has only six-pin connectors available, you can plug the six-pin connector into the eight-pin socket using an offset arrangement, as shown below. The connectors are keyed such that they should only plug in the correct way, but be careful because they can be forced together in an incorrect fashion, which can potentially damage the card.
The sense signals are used so that the graphics card can detect what types of connector(s) are attached, and therefore how much total power is available. For example, if a graphics card needs a full 300 W and has both an eight-pin and six-pin connector on board, if you were to attach two six-pin power supply connectors, the card would “sense” that it had only 225 W available and, depending on the design, it could either shut down or operate in a reduced functionality mode.
Due to special keying on the eight-pin connector, it cannot be plugged into a six-pin socket. Because of this, many power supply manufacturers include eight-pin connectors made in a “6+2” arrangement, where the portion containing the two extra pins can be disconnected, leaving a six-pin connector that will, of course, work in a six-pin socket.
Caution: The eight-pin PCI Express Auxiliary Power Connector and the eight-pin EPS12V CPU Power Connector use similar Molex Mini-Fit Jr. connector housings. Although they are keyed differently, the keying can be overcome by sufficient force such that you can plug an EPS12V power connector into a graphics card, or a PCI Express power connector into a motherboard. Either of these scenarios results in +12 V being directly shorted to ground, potentially destroying the motherboard, graphics card, or power supply.
The six-pin connector uses two +12 V wires to carry up to 75 W, whereas the eight-pin connector uses three +12 V wires to carry up to 150 W. Although these figures are what the specifications allow, the wires and terminals of each connector are technically capable of handling much more power. Each pin in the PCI Express auxiliary power connectors is rated to handle up to 8 amps of current using standard terminals—more if using HCS or Plus HCS terminals. By counting the number of terminals, you can calculate the power-handling capability of the connector.
|PCI Express Graphics Power Connector Maximum Power-Handling Capabilities|
|Connector||No. +12V |
| Using Std.|
|Using Plus HCS|
|Only two +12 V pins are used in the six-pin connector, even though most power supplies include three.|
Standard terminals are rated eight amps.
HCS terminals are rated 11 amps.
Plus HCS terminals are rated 12 amps.
All ratings assume Mini-Fit Jr. connectors using 18-gauge wire under standard temperature conditions.
Even though the specification allows for a delivery capability of 75 W (six-pin connector) or 150 W (eight-pin connector), the total power-handling capacity of these connectors is at least 192 and 288 W, respectively, using standard terminals, and even more using the HCS or Plus HCS terminals.
These two auxiliary power connectors are sometimes called PCI Express Graphics (PEG), Scalable Link Interface (SLI), or CrossFire power connectors because they are used by high-end PCI Express boards with SLI or CrossFire capabilities. SLI and CrossFire are Nvidia and AMD’s methods of using two video cards in unison, with each one drawing half of the screen for up to twice the performance. Each card can draw hundreds of watts, with many of the high-end cards using two or three auxiliary power connectors. This means that most power supplies that are rated as SLI- or CrossFire-ready include at least two or more of the six/eight-pin PCI Express graphics power connectors. Using two video cards drawing 300 watts each means that even if you have a 750-watt power supply, you will have only 150 watts of power left to run the motherboard, processor, and all the disk drives. With high-powered processors drawing 130 watts or more, this may not be enough. For this reason, systems using two or more high-end video cards require the highest-output supplies available, and some of the current ones are capable of putting out up to 1000 watts (1 kilowatt) or more.
Note: Nvidia has trademarked the term SLI as meaning scalable link interface, but its primary competitor, AMD, uses similar dual-graphics card technology called CrossFire to achieve comparable performance improvements.
If your existing power supply doesn’t feature PCI Express auxiliary power connectors, you can use Y-adapters to convert multiple peripheral power connectors (normally used for drives) into a single six-pin or eight-pin PCI Express auxiliary power connector. Note, however, that these adapters will not help if the power supply is not capable of supplying the total power actually required.
- Power Supplies
- Voltage Rails
- Power Supply Form Factors
- Modern Form Factors: ATX And SFX
- Modern Form Factors: EPS, TFX, CFX, LFX, And Flex ATX
- Power Switches
- Motherboard Power Connectors: AT/LPX And ATX
- Motherboard Power Connectors: Six-Pin Auxiliary And 24-Pin Main
- CPU Power Connectors
- Compatibility Issues
- Additional Power Connectors: Peripheral, Floppy, And SATA
- PCI Express Auxiliary Graphics Power Connectors
- Power Supply Specifications
- Other Power Supply Specifications And Certifications