chapter 4 making connections. 2 introduction examine the interface between a computer and a device....
TRANSCRIPT
Chapter 4
Making Connections
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Introduction
Examine the interface between a computer and a device. This interface occurs at the physical layer.
Connecting peripheral devices to a computer (called interface) has, in the past, been a fairly challenging task.
Newer interfaces have made this task much easier.
Interface standards define modes of transmission: Serial/parallel Simplex/duplex Asynchronous/synchronous Point-to-point/multi-point
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Standards Organizations
International Telecommunications Union (ITU) (formerly CCITT)
Electronics Industries Association (EIA) Institute for Electrical and Electronics
Engineers (IEEE) International Organization for Standards (ISO) American National Standards Institute (ANSI)
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DCEs and DTEs
Communication circuits can be defined in terms of the devices that are designed to transmit signals on a circuit, and the destination DCE - Data communicating equipment:
The device that forwards the signals being sent along a particular circuit, e.g., a Modem
DTE – Data terminating equipment: The device to which the signal is being directed, e.g., a
computer
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Interface Standards
Electrical: Voltages, line capacitance, and other electrical
characteristics Mechanical:
Connector or plug description Functional:
Function of each pin or circuit that is used in a particular interface
Procedural: How the particular circuits are used to perform an
operation For example, the functional component may describe two
circuits, Request to Send and Clear to Send The procedural component describes how those two
circuits are used so that the DTE can transfer data to the DCE
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Two Important Standards
EIA-232F – an older standard originally designed to connect a modem to a computer.
USB (Universal Serial Bus) – a newer standard that is much more powerful than EIA-232F
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EIA-232F
Older interface standard designed to connect a device such as a modem to a computer or terminal.
Originally named RS-232 but has gone through many revisions.
The electrical component is defined by another standard: V.28.
The mechanical component is often defined by ISO 2110, the DB-25 connector. The DB-9 connector is now more common than the DB-25.
The functional and procedural components are defined by the V.24 standard.
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Serial & Parallel
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Data flow
Circuits can be designed to permit data to flow in one or both directions:
Simplex One-way transmission
Half-duplex Two-way communication link, but only one
system can “talk” at a time Full duplex
Transmit in both directions simultaneously
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Universal Serial Bus (USB)
The USB interface is a modern standard for interconnecting a wide range of peripheral devices to computers.
Supports plug and play. Can daisy-chain multiple devices. USB 1.0 – 12 Mbps; Use 2.0 – 480 Mbps; USB 3.0 – 4.8 Gbps. The USB interface defines all four components. The electrical component defines two wires VBUS and Ground to carry
a 5-volt signal, while the D+ and D- wires carry the data and signaling information.
The mechanical component preciselydefines the size of four different connectors and uses only four wires (the metal shell counts as one more connector).
The functional and procedural components are fairly complex but are based on the polled bus.
The computer takes turns asking each peripheral if it has anything to send.
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FireWire
Low-cost digital interface Capable of supporting transfer speeds
of up to 400 Mbps Hot pluggable Supports two types of data
connections: Asynchronous connection Isochronous connection
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SCSI and iSCSI
SCSI (Small Computer System Interface) A technique for interfacing a computer to high-
speed devices such as hard disk drives, tape drives, CDs, and DVDs.
Designed to support devices of a more permanent nature.
SCSI is a systems interface. Need SCSI adapter.
iSCSI (Internet SCSI) A technique for interfacing disk storage to a
computer via the Internet. It looks like the disk storage is down the hall, but it
could be anywhere on the Internet.
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InfiniBand & Fibre Channel
InfiniBand – a serial connection or bus that can carry multiple channels of data at the same time Can support data transfer speeds of 2.5 billion bits
(2.5 gigabits) per second and address thousands of devices, using both copper wire and fiber-optic cables
A network of high-speed links and switches Fibre Channel – also a serial, high-speed
network that connects a computer to multiple input/output devices Supports data transfer rates up to billions of bits
per second, but can support the interconnection of up to 126 devices only
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Asynchronous Connections
A type of connection defined at the data link layer. No “clocking signal” to say when a frame starts or
ends, so, how does the receiver know when a frame starts or ends? Add a Start bit, while a Stop bit is added to the end of the
frame. An optional parity bit can be added to the frame which can
be used to detect errors. Used in slower, cheaper equipment, because of
start/stop overhead.
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Synchronous Connections
A second type of connection defined at the data link layer.
A synchronous connection creates a large package (frame) that consists of header and trailer flags, control information, optional address information, error detection code (checksum), and the data.
A synchronous connection is more elaborate but transfers data in a more efficient manner.
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Isochronous Connections
A third type of connection defined at the data link layer used to support real-time applications
Data must be delivered at just the right speed (real-time) – not too fast and not too slow
Typically an isochronous connection must allocate resources on both ends to maintain real-time
USB and Firewire can both support isochronous
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Terminal-to-Mainframe (I)
A point-to-point connection is a direct, unshared connection between a terminal and a mainframe computer.
A multipoint connection is a shared connection between multiple terminals and a mainframe computer.
The mainframe is called the primary, and each terminal is called a secondary.
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Terminal-to-Mainframe (II)
To allow a terminal to transmit data to a mainframe, the mainframe must poll the terminal
Two basic forms of polling: roll-call polling and hub polling
In roll-call polling, the mainframe polls each terminal in a round-robin fashion
In hub polling, the mainframe polls the first terminal, and this terminal passes the poll onto the next terminal