Infra-Red Data Association (IRDA) - PowerPoint PPT Presentation

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Infra-Red Data Association (IRDA)

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IRDA – PowerPoint PPT presentation

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Updated: 16 July 2016
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Title: Infra-Red Data Association (IRDA)


1
Infrared Data Association (IRDA)
  • E. Amir Ezzat Amir.ezzat_at_rashpetco.com

2
Lecture topics
  • What is Infrared light?
  • Why IrDA?
  • IrDA characteristics
  • IrDA versions
  • How IrDA works
  • IrDA protocol Stack
  • IrDA applications
  • Adv. Dis-adv.
  • Summary

3
What is Infrared Light?
  • Infrared radiation
    or "light is
    invisible

    electromagnetic
    radiation that

    has a longer
    wavelength than visible light and
    is detected most often by its heating effect.
  • The name means "below red
  • Red is the color of visible light of longest
    wavelength.

Infrared
4
Infrared Band
Wavelength Spectrum
5
Why IrDA?
  • Infrared Data Association (IrDA) is the most
    common
  • infrared connection today due to
  • Standard (Different devices can
    communicate with each others)
  • Low power consumption
  • Low cost
  • Simple (Easy to use)
  • Higher security than RF
  • Portable
  • High noise immunity (No interference)

6
IrDA characteristics
  • The main characteristics of the IrDA technology
    are
  • Family of standards for various speeds and
    purposes
  • Up to 5m (75 kbps) and up to 1m (4 Mbps)
    communication
  • Directional transmission with a cone covering 30º
  • Data rates between 2.4 Kbps (control) and 16 Mbps
    (data)
  • low power consumption with very-low power
    versions
  • Works only in the direct "line of sight
  • Signal may reflect from surfaces

7
IrDA characteristics
  • Can not penetrate solid objects
  • Communicate using infrared LEDs photo diodes
  • Communicate with minimal pre-configuration
  • Provide point-to-point data transfer between only
    two devices at a time
  • Devices include broad range of computing and
    communicating technology
  • Inexpensive technology

8
IrDA Versions
  • Infrared technology used in local networks exists
    in four
  • different versions
  • IrDA-SIR (slow speed) infrared supporting data
    rates up to 115 Kbps
  • IrDA-MIR (medium speed) infrared supporting data
    rates up to 1.15 Mbps
  • IrDA-FIR (fast speed) infrared supporting data
    rates up to 4 Mbps
  • IrDA-VFIR (very fast speed) infrared supporting
    data rates up to 16 Mbps

9
How IrDA works
  • Data is converted from electrical signal to
    infrared signal by using light emitting diodes
    (LEDs)
  • Data is sent as an invisible light beam
  • The beam is modulated (Switched on and off, to
    encode the data).
  • The receiver uses a silicon photodiode to convert
    the infrared signal to an electric current.
  • photodiode responds only to the rapidly pulsing
    signal created by the transmitter, and filters
    out slowly changing infrared signal from ambient
    light.

10
How IrDA works
  • Infrared communications are useful for indoor use
    in areas of high population density.
  • IR does not penetrate walls and so does not
    interfere with other devices in adjoining rooms.
  • Infrared is the most common way for remote
    controls to command appliances.
  • Two IrDA devices can simultaneously send and
    receive mail, update calendar and contact
    information, and print documents
  • A separate program controls each activity

11
Infrared LEDs and Photodiodes
12
Diodes in Device
13
Design Factors Improve IrDA
Communication
  • Design Factors Improve IrDA Communication
  • Transparent window in front of IR module should
    be flat instead of curved
  • Module should be recessed several millimeters
    into device case to minimize interference from
    ambient light

14
IrDA Protocol Stack
  • IrDA Protocol stack has
  • several layers
  • Physical Layer (IrPHY)
  • Link Access (IrLAP)
  • Link Management (IrLMP)
  • Transport (Tiny TP)

15
IrDA Physical Layer (IrPHY)
  • Physical Layer IrPHY
  • Controls hardware
  • Function depends on which one of two standard
    is used
  • Serial Infrared (Version 1.0)
  • Fast Infrared (Version 1.1)

IrPHY
16
Serial (Slow) Infrared
  • SIR transmitter works like standard serial port
    on a PC
  • Uses UART (Universal Asynchronous
    Receiver/Transmitter) chip on PC

17
Parallel and Serial Transmission
  • Parallel port transmits all eight bits as a byte
  • Serial port transmits bits one after another

18
Functions of the UART
  • Converts bytes into a single serial bit stream
    for outgoing transmission
  • Converts serial bit stream into parallel bytes
    for incoming transmission
  • Can add an optional parity bit for error checking
  • Adds and removes optional start and stop bits
  • Provides some buffering of data to keep computer
    and the serial device coordinated
  • May handle other interrupt and device management
    to coordinate speed of computer and device

19
UART Frame
20
Non-Return to Zero (NRZ)
  • Standard RS-232 serial ports can use NRZ
    (non-return-to-zero) techniques that keep output
    level the same for the entire bit period

21
Return-to-Zero Inverted (RZI)
  • IrDA devices cannot use NRZ technology
  • They use RZI that uses the inverse of RZ
  • RZI increases voltage for 0 bit and no voltage
    for 1 bit
  • UART has 16 clock cycles

22
IrDA SIR Transmission
23
Fast Infrared
  • Specifies data transfer at 4 Mbps
  • Retains backward compatibility with SIR devices

24
FIR Transmitter Block Diagram
25
FIR Transmission
  • FIR uses 4 PPM
  • Only two bits are transmitted
  • Receiving device determines transmitted bit by
    locating pulse within time slot

26
IrDA Link Access (IrLAP)
  • IrDA Link Access Protocol (IrLAP)
  • Encapsulates frames
  • Defines how connections are established

IrLAP
27
IrDA Link Management (IrLMP)
  • IrDA Link Management
  • Protocol (IrLMP)
  • allows devices to detect other devices

IrLMP
28
Transport Protocol (Tiny TP)
  • IrDA Transport
  • Protocol (Tiny TP)
  • Manages channels
  • Corrects errors
  • Divides data into packets (At transmitter)
  • Reassembles original data (At Receiver)

Tiny TP
29
IrDA Applications
  • PDAs
  • Phones (Mobile)
  • Printers
  • Cameras
  • Laptops
  • Notebooks
  • TV remote control
  • Other Applications

30
IrDA Advantages
  • Standard (Different devices can communicate with
    each others)
  • Low power consumption
  • Low cost
  • Simple (Easy to use)
  • Higher security than RF
  • Portable
  • High noise immunity (No interference)

31
IrDA Disadvantages
  • Needs Line of sight
  • Point to point connection only
  • Blocked by solid materials
  • Short range (5m)
  • Light, weather sensitive
  • Low Speed (Low Transfer data rate (4Mbps))
  • Have to keep the device stable when transferring
    data
  • Health dangerous (Can cause burns or blindness)

32
Summary
  • What is Infrared light?
  • Why IrDA?
  • IrDA characteristics
  • IrDA versions (SIR, MIR, FIR and VFIR)
  • How IrDA works
  • IrDA protocol Stack (Physical, Link Access, Link
    Mngm and Transport)
  • IrDA applications
  • Adv. Dis-adv.

33
Thanks
  • E. Amir Ezzat Amir.ezzat_at_rashpetco.com
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