|Type||Computer video connector|
|Superseded by||Analog interfaces such as VGA and DVI-A and digital interfaces such as DVI-D, HDMI and DisplayPort|
|Video signal||Analogue RGB or monochrome|
Monitor ID bit 3/|
Data clock (SCL)
Monitor ID bit 0/|
Bi-directional data (SDA)
|Pin 5||Composite sync||
Monitor ID bit 1/|
DDC (+5V input)
Monitor ID bit 2/|
|Pin 9||Sense #0 /NC||
|Pin 10||Composite ground||
(gray for monochrome)
(gray for monochrome)
DB13W3 (13W3) is a style of D-subminiature connector used for analog video interfaces. The 13 refers to the total number of pins, the W refers to workstation and the 3 refers to the number of high-frequency pins. The connector was something of a pseudo-standard for high-end graphical workstations from the early 1990s to the early 2000s.
The 13W3 connector became something of a pseudo-standard for high-end graphical workstations from the early 1990s to the early 2000s.: 176 : 43 Among its primary users included Sun Microsystems, Silicon Graphics (SGI) and IBM (the latter for use with their RISC workstations),: 176 : 281, 305 as well as some displays from Apple, NeXT and Intergraph.: 286
Implementations of this connector in terms of pin-out varied widely, not only between different vendors but also between different families of workstations within the same company. This led to some complication for corporate buyers and service personnel of these workstations due to peripherals and accessories floating in the marketplace that offered these connectors while intended for only one family of workstations. The intentionally closed ecosystem of displays and peripherals for workstations prevented this from becoming a major issue;: 176 nonetheless, some companies such as Mitsubishi, Eiki, and Samsung offered third-party displays (and even projectors) for such graphical workstations.: 12 
The 13W3 connector is no longer used with modern displays, having been considered a legacy connector since at least 2006. Among the last commercial products sold with the connector were KVM switches. It was superseded for use with analog displays by the VGA connector, and as the display market has moved to digital flat panel displays that has in turn been replaced almost entirely by digital connections (DVI, HDMI, or DisplayPort).: 177–181 
It has also been used in various industrial appliances.
The connector contains 10 standard signal pins and 3 larger positions that can be fitted with either special pins with two concentric contacts for coaxial cable or with special high-current pins. When used for video signals on the computer side, the pins are female but the coaxial connectors in the large positions are male. The coaxial connectors carry the video signal split into red, green/gray, and blue; the standard signal pins carry four grounds, three "sense" pins used to communicate with the monitor, vertical sync, horizontal sync, and a composite sync signal.
The 13W3 connector can be converted into a standard VGA connector or DVI-A using commonly available cables and adapters. This allows multisync monitors, which became prevalent in personal computing in the late 1980s, to be used with these workstations as long as they are sync-on-green compatible. Likewise, later-generation Sun monitors, which began supporting multisync in 1998, can be connected via similar cables to personal computers.
Even though 13W3 is a standard connector, the sync signals are maintained on different pins based on the display and system. Sun, Intergraph, IBM and SGI each use different pin configurations for the monitor sense ID and sync signals. Sun and SGI each even have two different pin configurations: with and without Display Data Channel support. The Sun DDC connector was used at least on the UPA graphics adapters (Creator 3D, Expert 3D) and for their corresponding monitors (GD5410, GD5510). This can make matching the correct cable to the monitor virtually impossible. Many monitors with 13W3 connectors do not support separate sync as supplied on most PC systems. Other converters exist to allow connecting newer monitors with VGA connectors to the older systems and workstations. The most popular of these[according to whom?] is a cable with a series of DIP switches built in that can be used to set the sync signals.
- Goldwasser, Sam (October 1999). "Monitor Repair: The Finale!". Electronics Now. Gernsback Publications. 70 (10): 6–10 – via ProQuest.
- Moyer, Charmaine; Linda Rae Sande; Kwong Liew (1999) . Octane Workstation Owner's Guide (PDF). Silicon Graphics, Inc. pp. 309–310. Archived from the original (PDF) on June 2, 2012.
- Myers, Robert L. (2002). Display Interfaces: Fundamentals and Standards. Society for Information Display. Chichester, England: Wiley. ISBN 0-470-84614-3. OCLC 52613800 – via Google Books.
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- Spiwak, Marc (March 20, 2006). "All-in-One KVM Eases Installs". CRN. VNU Business Publications (1188): 43 – via ProQuest.
- The Directory of Video, Multimedia & Audio-Visual Products (1999–2000 ed.). Daniels Publishing Group. 1999. pp. 281, 286, 305. ISBN 0-9651422-7-2 – via Google Books.
- "Green screen". MacFormat. Future Publishing (317): 84–86. October 2017 – via ProQuest.
- Benford, Tom (March 1993). "Test Lab: Mitsubishi Diamond Pro 17". Compute!. General Media International. 15 (3): 12 – via ProQuest.
- "Eiki LCD Projectors". Commerce Business Daily. United States Department of Commerce, Office of Field Services: 1. August 9, 1999 – via ProQuest.
- Tetz, Edward; Timothy L. Warner; Glen E. Clarke (2019). CompTIA A+ Certification All-in-One For Dummies. Wiley. pp. 306–307. ISBN 9781119581093 – via Google Books.
- "SuperStack II Dual Speed Hub 500 12-Port TP (3C16610) and 24-Port TP (3C16611) User Guide" (PDF). 3Com. January 1998. Archived (PDF) from the original on July 21, 2004.
- Sun FAQ - pinout for the 13W3 connector
- 13w3 connector applications and pinouts
- Example of an Apple Inc. card which uses a 13w3 connector