- #Computers with smart card reader drivers#
- #Computers with smart card reader code#
- #Computers with smart card reader series#
Sometimes the digits represented by the dark and light bars are also printed to allow people to read the number without an optical reader.
#Computers with smart card reader code#
There are many different protocols, such as the prevalent Code 39. The organization and width of the lines is determined by the bar code protocol selected.
#Computers with smart card reader series#
An access control reader can be a magnetic stripe reader, a bar code reader, a proximity reader, a smart card reader, or a biometric reader.Īccess control readers are classified by functions they are able to perform and by identification technology:Ī barcode is a series of alternating dark and light stripes that are read by an optical scanner.
Most card readers also offer write capability, and together with the card, this can function as a pen drive.Īccess control card readers are used in physical security systems to read a credential that allows access through access control points, typically a locked door. This allows applications to work without knowledge of the reader details.Ī USB card reader like this one, will typically implement the USB mass storage device class.Ī memory card reader is a device, typically having a USB interface, for accessing the data on a memory card such as a CompactFlash (CF), Secure Digital (SD) or MultiMediaCard (MMC). PKCS#11 is an API designed to be platform-independent, defining a generic interface to cryptographic tokens such as smart cards.
#Computers with smart card reader drivers#
Readers with this class do not need device drivers when used with PC/SC-compliant operating systems, because the operating system supplies the driver by default. This framework works with USB devices with the specific device class 0x0B. The latest PC/SC CCID specifications define a new smart card framework. If the card does not use any standard transmission protocol, but uses a custom/ proprietary protocol, it has the communication protocol designation T=14. This model works by supplying the integrated circuit on the smart card with electricity and communicating via protocols, thereby enabling the user to read and write to a fixed address on the card.Īsynchronous half-duplex byte-level transmission protocol, defined in ISO/IEC 7816-3Īsynchronous half-duplex block-level transmission protocol, defined in ISO/IEC 7816-3.ĪPDU transmission via contactless interface ISO/IEC 14443.
Please help improve this article by adding citations to reliable sources. This article needs additional citations for verification.