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PCMCIA stands for Personal Computer Memory Card International Association, the group of industry-leading companies that defines and develops the standard. While this acronym did clearly describe the original intentions of the organization's standard, it was difficult to say and remember, and was sometimes jokingly referred to as "People Can't Memorize Computer Industry Acronyms". To aid in the widespread marketing and branding of the standard, and to account for the standard's widening scope (beyond just memory cards), the association acquired the rights to the simpler term "PC Card" from IBM, and began using it, rather than "PCMCIA", from version 2 of the specification onwards. All PC Card devices use an identical 68 pin dual row connecting interface. All are 85.6 mm long and 54.0 mm wide. This is the same size as a credit card. The form factor is also used by the Common Interface form of Conditional Access Modules for DVB broadcasts. The original standard was defined for both 5 volt and 3.3 volt cards. The 3.3 V cards have a key on the side to protect them from being damaged by being put into a 5 V-only slot. Some cards and some slots operate at both voltages as needed. The original standard was built around an 'enhanced' 16-bit ISA bus platform. Cards designed to the original specification (version 1.x) are type I and feature a 16-bit interface. They are 3.3 mm thick. Type-I PC Card devices are typically used for memory devices such as RAM, flash memory, OTP, and SRAM cards. Type-II PC Card devices feature a 16- or 32-bit interface. They are 5.0/5.5 mm thick. Type-II cards introduced I/O support, allowing devices to attach an array of peripherals or to provide connectors/slots to interfaces for which the host computer had no built-in support. For example, many modem, network and TV cards use this form factor. Due to their thinness, most Type II interface cards feature miniature interface connectors on the card which are used together with a dongle: a short cable that adapts from the card's miniature connector to an external full-size connector. Some cards instead have a lump on the end with the connectors. This is more robust and convenient than a separate adaptor but can block the other slot where slots are present in a pair. Some Type II cards, most notably network interface and modem cards have a retractable jack, when pushed in it will pop out, allowing insertion of a cable from above. When use of the card is no longer needed, the jack can be pushed back into the card and lock in place, protecting it from damage. Notably, most network cards have their jack on one side, while modems have theirs on the other, allowing the use of both at the same time since they do not interfere with each other. Wireless Type II cards often had a plastic shroud jutting out from the end of the card, inside which the antennas were housed. Type-III PC Card devices are 16-bit or 32-bit. These cards are 10.5 mm thick, allowing them to accommodate devices with components that would not fit type I or type II height. Examples are hard disk drive cards, and interface cards with full-size connectors that do not require dongles (as is commonly required with type II interface cards). Type-IV cards, introduced by Toshiba, have not been officially standardized or sanctioned by the PCMCIA. These cards are 16 mm thick. The Card Information Structure (CIS) is information stored on a PC card that contains information about the formatting and organization of the data on the card. The CIS also contains information about: The type of card Supported power supply options Supported power saving features When a card is unrecognized it is frequently because the CIS information is either lost or damaged. Two Xircom RealPort Ethernet/56k modem cards. Top one is CardBus, and the bottom is the 5 volt PCMCIA version. Note the slightly different notch. CardBus are PCMCIA 5.0 or later (JEIDA 4.2 or later) 32-bit PCMCIA devices, introduced in 1995 and present in laptops from late 1997 onward. CardBus is effectively a 32-bit, 33MHz PCI bus in the PC Card form factor. CardBus supports bus mastering, which allows a controller on the bus to talk to other devices or memory without going through the CPU. Many chipsets, such as those that support Wi-Fi, are available for both PCI and CardBus. The notch on the left hand front of the device is slightly shallower on a CardBus device so, by design, a 32-bit device cannot be plugged into earlier equipment supporting only 16-bit devices. Most new slots accept both CardBus and the original 16-bit PC Card devices. CardBus cards can be distinguished from older cards by the presence of a gold band with eight small studs on the top of the card next to the pin sockets. The speed of CardBus interfaces in 32-bit burst mode depends on the transfer type; in byte mode it is 33MB/s, in word mode 66MB/s, and in dword mode 132MB/s. CardBay is a variant added to the PCMCIA specification in 2001. This was intended to add some forward compatibility with USB and IEEE 1394, but was not universally adopted and only some notebooks have PC Card controllers with CardBay features. The interface has spawned a generation of flash memory cards that set out to improve on the size and features of Type I cards: CompactFlash, MiniCard and SmartMedia. For example, the PC Card electrical specification is also used for CompactFlash, so a PC Card CompactFlash adapter need only be a socket adapter. ExpressCard is a later specification from the PCMCIA, intended as a replacement for PC Card, built around the PCI Express and USB 2.0 standards. The PC Card standard is closed to further development and PCMCIA strongly encourages future product designs to utilize the ExpressCard interface. As of 2007, the majority of laptops now ship with only ExpressCard slots or neither slot type (leaving expansion to USB and Firewire only), though the Lenovo Thinkpad T60 and Z60m, among other models, currently ships with both CardBus and ExpressCard slots. ExpressCard and CardBus sockets are physically and electrically incompatible. Therefore, a simple mechanical adapter between the two formats is infeasible. However, several companies now produce ExpressCard-to-CardBus and Cardbus-to-ExpressCard adapters that use a secondary slot to allow older cards to work with newer PCs and vice versa. Firewire and USB devices are available for almost all functions that the PC Card interface was originally used for. Where these interfaces are not suitable, the higher-performance ExpressCard interface, also implemented as a slot into which cards can be plugged, has replaced the PC Card. While not mechanically compatible, Cardbus devices can be plugged into ExpressCard slots with an adaptor. List of computer standards List of device bandwidths USB for mobile modems Clark, Scott H.; Norton, Peter (2002). Peter Norton's new inside the PC. Indianapolis: SAMS. pp.33. ISBN 0-672-32289-7. Linux PCMCIA Programmer's Guide "PCMCIA Frequently Asked Questions". ; "Newegg.com product search results for CardBus ExpressCard". &&+expresscard&& Wikimedia Commons has media related to: PC cards Related and official sites Linux PCMCIA Information Page (kernel 2.4 and earlier) Linux Kernel 2.6 PCMCIA PCMCIA/CardBus Linux Status Survey PCMCIA (PC Card) pinout and signals Simple FAQ on PCMCIA & PC Card Memory card reader Comparison of memory cards SD Card and MultiMediaCard family comparison CompactFlash (CF) JEIDA Memory Stick (MS/MS-PRO) miCard Microdrive (MD) PC Card SmartMedia (SM) SxS Universal Flash Storage (UFS) USB xD-Picture MultiMediaCard (MMC) Secure Digital (SD) miniSD microSD Computer bus & interconnection standards (wired) Front-side bus Back-side bus Daisy chain Control bus Address bus Bus contention Electrical bus List of bus bandwidths Computer bus standards (desktop) S-100 bus MBus SMBus Q-Bus ISA Zorro II Zorro III CAMAC FASTBUS LPC HP Precision Bus EISA VME VXI NuBus TURBOchannel MCA SBus VLB PCI PXI HP GSC bus CoreConnect InfiniBand UPA PCI-X AGP PCI Express Intel QuickPath Interconnect HyperTransport more... Computer bus standards (portable) ST-506 ESDI SMD Parallel ATA DMA SSA HIPPI USB MSC FireWire (1394) Serial ATA eSATA SCSI Parallel SCSI Serial Attached SCSI Fibre Channel iSCSI Multidrop bus Apple Desktop Bus HIL MIDI Multibus RS-232 (serial port) DMX512-A EIA/RS-422 IEEE-1284 (parallel port) UNI/O 1-Wire IC SPI EIA/RS-485 Parallel SCSI USB FireWire (1394) Fibre Channel Camera Link External PCI Express x16 Light Peak LIN J1708 J1587 FMS J1939 CAN VAN FlexRay MOST Note: interfaces are listed in speed ascending order (roughly), the interface at the end of each section should be the fastest Categories: Computer buses Standards organizations MotherboardHidden categories: Articles needing additional references from June 2007 All articles needing additional references All articles with unsourced statements Articles with unsourced statements from July 2007 The e-commerce company in China offers quality products such as China Notching Machines , Roll Forming Machinery, and more. 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