buses, video, and upgrades - university of kentuckyakali2/tb143/lecture9.pdf · 2008. 9. 25. · 11...
TRANSCRIPT
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Copyright © 2005 Heathkit Company, Inc. All rights reserved.
Unit 9
Buses, Video, and
Upgrades
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2
CPUCPU
MemoryMemoryKeyboard ControllerKeyboard Controller
Parallel Port
System Controller
Adapter
Video
Adapter The Data BusThe Data Bus
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3
Keyboard ControllerKeyboard Controller
System Controller
Adapter
Video
Adapter
CPU
MemoryMemory
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4
MemoryMemory
Adapter
Video
Adapter
CPU
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5
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Copyright © 2005 Heathkit Company, Inc. All rights reserved.
Expansion Buses
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7
What is a Bus?
• Signal Pathways
• A way of passing information between components inside and outside the computer.
• A modular way of expanding the functions or capabilities of the computer.
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8
PC Bus Architectures• ISA
• MCA
• EISA
• VL-Bus
• PCI
• AGP
• PCI Express
• PC Card
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9
The Original IBM PC Bus
• Introduced on the original IBM PC
• 8- bit data path
• 4.77-MHz clock
• 8 Interrupts - Only one of which was available for expansion boards.
• 4 DMA Channels - Only one of which was available for expansion boards.
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10
8-Bit Card
8-Bit Slot
The Original IBM PC Bus
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11
Industry Standard
Architecture (ISA) Bus• Introduced on the IBM AT Computer
• 16-bit data path
• Backward compatible with IBM-PC Bus
• 8-MHz clock
• 15 Interrupts
• 7 DMA Channels
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12
16 Bit Card16-Bit Card
16-Bit Slot
Industry Standard Architecture
(ISA) Bus
8-Bit Section Added Pins
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13
16-Bit Slot
Industry Standard Architecture
(ISA) Bus
8-Bit Card
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14
Micro-Channel
Architecture (MCA) Bus • Introduced on the IBM PS/2
• 16-bit or 32-bit data path
• 10-MHz clock
• Configured by software rather than by jumpers or switches
• Not compatible with the ISA bus
• Bus Mastering
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15
Bus Mastering• Allows data to be passed from one
device to another without CPU
intervention.
• Allows a controller card to take
control of the bus, leaving the CPU
free to concentrate on other tasks.
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16
Bus Mastering vs. DMA
• DMA can send data from peripheral
to RAM or from RAM to peripheral,
without the intervention of the CPU.
• Bus Mastering can send data from
peripheral to peripheral, without the
intervention of the CPU.
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17
Extended ISA Bus (EISA)
• The industry’s answer to the MCA bus
• Backward compatible with ISA
• 16-bit or 32-bit data path
• 8-MHz Clock
• Configured by software, not jumpers or
switches
• Bus Mastering
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18
CPU
BUS
Controller
BUS
Controller
ISA Bus
Slots
High Speed
CPU Bus
High Speed
CPU Bus
Low Speed
I/O Bus
Low Speed
I/O Bus
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19
CPU
BUS
Controller
BUS
Controller
ISA Bus
Slots
Local Bus
SlotsHigh Speed
CPU Bus
High Speed
CPU Bus
Low Speed
I/O Bus
Low Speed
I/O Bus
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20
VESA Local Bus (VL-Bus)
• Clock speed same as the processor
• 32-bit data path
• Regular ISA slot with local bus
connector added
• Bus Mastering
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21
Peripheral Component
Interconnect (PCI)
• Developed for Pentium-class processors
• 32-bit and 64-bit data path versions
• 33-MHz Clock
• Processor Independent
• Plug and Play with Bus Mastering
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22
Peripheral Component
Interconnect
(PCI) Bus
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23
Accelerated Graphics
Port (AGP)
• Developed for high speed graphics cards
• Frees the PCI bus from making video transfers
• Used only for video cards
• Considered a port rather than a bus
• 66 MHz, 32-Bit
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24
Accelerated Graphics Port
(AGP)
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25
The PC Card
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26
PC Card• Personal Computer Memory Card
International Association (PCMCIA)
• Originally designed for adding memory to portable computers
• A universal bus that can accommodate any type of device
• Can be used with desktop PCs with the proper adapter
• “Hot Swapping” capability
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27
What is the
Universal Serial Bus?
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28
Feature...
• It’s an external expansion bus
using cables (outside the PC).
• Can daisy chain 127 peripherals
to a port
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29
Feature...
• Plug-and-Play, hot-pluggable, automatic configuration
• USB 1 provides 12 megabits/second data transfer rate
• USB 2 provides 480 Mbps
• USB peripherals can be powered by the USB bus (+5 volts DC).
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30
Feature...
• Standardized connectors
• Five meter-long peripheral
connections
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31
Ordinary USB Peripherals
• Cartridge, Tape, and Floppy Drives
• Modems
• Printers, Scanners
• ISDN, T1 Interfaces (Network
Applications)
• Input devices such as Mice, Joysticks,
Keyboards , Graphics Tablets
• Multimedia Game Equipment
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32
Not So Ordinary USB
Peripherals• Digital Cameras
• Digital Speakers
• Video Monitors
• Biometric Security Devices
• Multi-User Games
• Digital Audio Devices
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33
More Not So Ordinary
USB Peripherals
• Hubs
• CTI Devices
• Telephony (PBX, Digital
Telephones)
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Copyright © 2005 Heathkit Company, Inc. All rights reserved.
Video Systems
and Monitors
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35
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36
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40
Horizontal
Deflection
Coils
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41
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42
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43
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44
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45
Horizontal Scanning
Frequency
• The number of lines per second scanned by the monitor.
• Varies from about 15 KHz to over 50 KHz.
• A popular scan rate is 31.5 KHz.
• At this rate, one horizontal line is scanned in 26.66 microseconds.
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46
The Horizontal Scanning
Frequency is determined
by the Horizontal Sync
Signal.
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47
Vertical
Deflection
Coil
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Vertical Retrace
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49
Vertical Scanning Frequency
(Refresh Rate)
• The number of times per second that the whole screen is scanned.
• Varies from about 50Hz to over 100Hz.
• Popular vertical scan rates are 60Hz and 70Hz.
• At 70Hz, the entire screen is painted in about 14.28 milliseconds.
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50
The Vertical Scanning
Frequency is determined
by the Vertical Sync
Signal.
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51
The Screen Refresh Rate
43 Hz
60 Hz
72 Hz
75 Hz
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52
Interlaced Mode
60 Hz60 Hz
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53
Different resolutions often use
different scan frequencies.
• 640x480 31.5KHz 60Hz
• 800x600 37.8KHz 72Hz
• 1024x768 35.5KHz 87Hz
Resolution Horizontal Freq. Vertical Freq.
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54
The Screen Resolution
Resolution Colors
320 x 200 4, 256
640 x 200 2
640 x 350 16
640 x 480 16, 256, 32K, 64K, 16 Million
800 x 600 256, 32K, 64K, 16 Million
1024 x 768 256, 32K, 64K, 16 Million
1280 x 1024 256, 32K, 64K, 16 Million
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55
Resolution vs. Monitor Size
Monitor Size
13-inch
14-inch
15-inch
17-inch
21-inch
Max Useful Resolution
640 x 480
800 x 600
800 x 600
1024 x 768
1600 x 1200
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56
Measuring Screen size
Screen size is measured diagonally.
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Aspect Ratio =
Horizontal Size
Ver
tica
l S
ize
Horizontal Size
Vertical Size
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The LCD Display
• The LCD is the second most common type of display technology.
• LCDs offer several advantages:
– Flat display area
– Low power
– Larger viewable area
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• Generally more expensive than
comparable CRT display.
• Resolutions can be less than a
comparable CRT.
• LCD displays do not:
– Emit electromagnetic radiation
– Have high voltages present in the
chassis.
Advantages
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• Available for both
desktop and notebook.
• Two common LCD
technologies:
– Active-Matrix Analog is
common on smaller low
cost displays
– Active-Matrix Digital is
used in larger high-end
displays.
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• LCDs use a unique material called liquid crystal.
• Liquid Crystal has properties similar to water and crystal.
• By applying a voltage, the amount of light can be controlled.
• Color LCDs use color filters to create the color display.
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Transparent Glass
Plate
Liquid Crystal Molecules
Transparent
Electrode
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• Components of the modern color
LCD display include:
– A liquid crystal panel
– A backlight as a light source
– A thin film transistor (TFT) array
– Polarizing filers on both sides of the
display.
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• More difficult to switch resolutions.
• Analog LCD panels can use existing
video card and connector.
• LCD may not have sufficient color
depth.
• Many don’t react as quickly as CRTs.
Consider before selecting
an LCD
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Large screen LCD monitors
are becoming a real display
Large screen LCD monitors
are becoming a real display
option.
• LCD monitors offer several
advantages:
– Larger effective viewing area
– Produce a higher precision image
– Flexible mounting options
– No electromagnetic emissions.
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• Evaluate panel at native and other
required resolutions.
– Does existing video card support
required features?
– Support for analog and DVI inputs?
– Contrast ratio high enough?
Is an LCD suitable?
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Copyright © 2005 Heathkit Company, Inc. All rights reserved.
Working with
Monitors
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Picture Adjustments
• Reset Button
• Degauss
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Horizontal SizeHorizontal Size
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Horizontal PositionHorizontal Position
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Vertical SizeVertical SizeVertical Size
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Vertical PositionVertical PositionVertical Position
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Pin CushionPin Cushion
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BowBow
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Pin Signal
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Pin Signal
Red
Green
Blue
Ground
Display Data Channel
Ground
Red Ground
Green Ground
Blue Ground
No Connection
Sync Ground
Ground
Serial Data
Horizontal Sync
Vertical Sync (VCLK)
Serial Clock
VGA Cable End5
10
15
1
6
11
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Opening a Monitor to
Repair It
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Basic Video
Troubleshooting 101
• Is the monitor turned on?
• Is the monitor’s AC cord plugged in?
• Turn up brightness/contrast controls.
• Check the video cable.
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Basic Video
Troubleshooting 101
• Check Power On Self-Test (POST) beeps.
• Re-seat video card.
• Check any configuration switch settings.
• Swap video card, monitor, video cable.
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81
Basic Video
Troubleshooting 101
Enter Safe Mode or re-load video
driver.
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Copyright © 2005 Heathkit Company, Inc. All rights reserved.
Video Display
Adapters
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Super VGA (SVGA)• The standard for PCs and monitors.
• Popular SVGA formats include:
– 800 by 600 pixels
– 1024 by 768 pixels
– 1280 by 1024 pixels
• The higher the resolution, the finer the detail displayed.
• The higher the resolution; the more information displayed.
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Video Graphics Array (VGA)
• Resolution of 640 by 480 pixels.
• Introduced in 1987 by IBM as the PS/2
• First to use analog video outputs.
• First to use square pixels so vertical and horizontal lines have the same thickness.
• Replaced by SVGA in most applications.
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Evolution of Video
Display Adapters
• 1981 CGA 320 by 200 pixels
• 1984 EGA 640 by 350 pixels
• 1987 VGA 640 by 480 pixels
• Today SVGA 800 by 600 pixels, or higher.
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VGA SVGA
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The activities of the
monitor are determined
entirely by the PC.
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The PC determines:
• the color
• the brightness
• and the position
of every pixel in the monitor’s display.
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The PC sends five control
signals to the monitor:
• The Red Video Signal.
• The Green Video Signal.
• The Blue Video Signal.
• The Horizontal Sync Pulse.
• The Vertical Sync Pulse.
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The Video Controller in
the PC
8-bit
DAC
8-bit
DAC
8-bit
DAC
8-bit
DAC
8-bit
DAC
8-bit
DAC
Analog
outputs
monitor
Analog
outputs
to
monitor
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The Input and Output of
the Red DAC in the PC.
0.0 Volts
11111111
11111110
.
.
.
00000001
00000000
0.7 Volts
Input Output
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Copyright © 2005 Heathkit Company, Inc. All rights reserved.
Upgrading a
Computer
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Memory
• Few computers have enough
• What fits in this computer?
• SIMM or DIMM?
• SDRAM or DDR2?
• Speed?
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Pentium I
• Add SIMMs in pairs
• Check the manual for specs
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Pentium II/III/4
• Generally fewer free slots
• Add one DIMM at a time
• Bigger DIMMs are available
• PC-66, PC-100, PC-133
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97
CPU Upgrades
• Cost vs. Benefit
• Role of the computer
• Can the motherboard support the
upgrade?
• Do you need to update the BIOS?
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Expansion Cards
• Before you buy the card:
– What slot type
– Are slots available?
– Are the proper drivers available?
• Win 98, Win 2000, etc.
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Drives
• Can the BIOS support a large drive?
• Can the BIOS be upgraded?
• Do you have enough power
connectors?
• Do you have the software tools?
– Bootable disk with FDISK, Format,
etc.
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100
Motherboards
• What type of case?
– AT, ATX, Proprietary
• What type of motherboard?
• Do the back-panel connections
match up?
• Can you connect front-panel cables?
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Motherboards
• Can you use the old video adapter
and memory?
• Do you want to use the old video
board and memory?
• Do you need to buy a CPU, too?
• Is this project worth the cost?
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Copyright © 2005 Heathkit Company, Inc. All rights reserved.
Modems
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103
Local
Exchange
Local
Exchange
Local
Exchange
Local
Exchange
AnalogAnalog
DigitalDigital
DigitalDigital
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104
Local
Exchange
Local
Exchange
Local
Exchange
Local
Exchange
AnalogAnalog
DigitalDigital
DigitalDigital
ModemModem ModemModem
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105
Modem-1Modem-1
PC-1PC-1
Modem-2Modem-2PC-2PC-2
Phone
System
Phone
System
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Modem 1Modem-1
PC-1PC-1
Modem-2Modem-2
Dial-Up ServerDial-Up Server
Phone
System
Phone
System
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PC-1PC-1
Dial-Up
Server
Dial-Up
Server
Phone
System
Phone
System
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Two Sets of Issues
• Computer-to-Computer Issues
• Client-to-Network Issues
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CPU vs. Phone Line
• Digital Signal
• High Speed
• Parallel Data
• Analog Signal
• Low Speed
• Serial Data
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Analog
Digital
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The Modem
• Modulator / Demodulator
• Converts the digital signals from the computer into the analog signals required by the telephone line.
• Converts the analog signals from the telephone line into the digital signals required by the computer.
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Pulse Amplitude Modulation (PAM)Pulse Amplitude Modulation (PAM)
1 0 1 1 0 1
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Each Amplitude Level
Represents Two Bits
Each Amplitude Level
Represents Two Bits
0001
10
11
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0º Phase Shift 90º Phase Shift
180º Phase Shift 270º Phase Shift
114
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Baud• Baud - A single state change of the
analog signal.
• Baud Rate - The number of times per second that the analog signal changes state.
• In early modems, one baud usually represented one bit.
• In today’s modems, one baud represents more than one bit.
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Low SpeedLow Speed
High SpeedHigh Speed
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1
0
1
0
1
1
1
0
Parallel
10101110 SerialSerial
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The UART
• Universal Asynchronous
Receiver/Transmitter
• The heart of the Serial (COM) port.
• Converts parallel data required by CPU
into serial data required by serial port.
• Converts serial data received at serial
port into parallel data required by CPU.
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Making the CPU and Phone
Line Compatible (Transmit).
CPU
UARTUART ModemModemPhone Phone
Line
1.High Speed to Low Speed
2. Parallel to Serial
1.High Speed to Low Speed
2. Parallel to Serial
Digital to Digital to
Analog
Buffer
Memory
Buffer
Memory
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Making the CPU and Phone
Line Compatible (Receive).
UARTUART ModemModemPhone Phone
Line
CPU
Buffer
Memory
Buffer
Memory
1.High Speed to Low Speed
2. Parallel to Serial
1.High Speed to Low Speed
2. Parallel to Serial
Digital to Digital to
Analog
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Two Types of Modems
• Internal – ISA or PCI board that
fits inside the computer.
• External – Stand-alone box.
Connects to one of the COM
Ports.
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Internal ModemInternal Modem
CPUUART
Function
UART
Function
Modem
Function
Modem
Function
Phone Phone
Line
Internal Modem
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CPU UARTUARTExternal
Modem
External
Modem
Phone Phone
Line
Motherboard
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CPU UARTUARTExternal
Modem
External
Modem
Phone Phone
Line
Mother-
board
I/O
Adapter
Card
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125
Modulation Standards
• V.22 – 1200bps standard
• V.22bis – 2400bps standard
• V.32 – 9600bps standard
• V.32bis – 14,400 standard
• V.FC – 28,800 standard
• V.34 – 33,600 standard
• V.90 – 56kbps standard
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V.42 Error-Correction
Standards
• Link Access Procedure for
Modems (LAPM)
• Microcom Networking Protocol
– 4 (MNP-4)
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V.42bis Compression
Standard.
• Uses a compression technique to
reduce the size of out going data.
• Can compress data up to ~ 4 to 1.
• For example, a 33,600-bps Modem
could transfer data at a rates up to
about 134,400 bps.
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The COM Port
• Also called Serial Port or RS-232 Port
• The link between PC and Modem.
• The external Modem connects to COM port on back of PC via serial cable.
• The internal Modem has built-in COM port that duplicates function of external COM port.
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9-Pin Serial Port9-Pin Serial Port25-Pin Serial Port25-Pin Serial Port
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Standard Modem
COM Port Settings
COM Port IRQ I/O Address
(Hex)
COM1 4 03F8
COM2 3 02F8
COM3 4 03E8
COM4 3 02E8
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CPU
UARTUART ModemModemI/O
Memory
I/O
Memory
COM1
IRQ4IRQ4
03F803F8
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CPU
UARTUART ModemModemI/O
Memory
I/O
Memory
COM2
IRQ3IRQ3
02F802F8
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133
134.4
kbps
134.4
kbps
134.4
kbps
134.4
kbps
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134
UART Speed
• Determines the Serial Port speed.
• 16550 UART chip can reach speeds of 256 kbps.
• 16440 UART chip can reach speeds of 115.2 kbps.
• 8250 UART was supplied with the original IBM XT machine.
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Digital Subscriber Line
(DSL) - A technique used for
transmitting high-bandwidth
data over twisted-pair
telephone lines.
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Central
Office
Central
Office
Central
Office
Central
Office
Local LoopLocal Loop
Analog
AnalogAnalog
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Voice requires only about
4kHz of bandwidth.
0 4kHzFrequency
VoiceVoice
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Central
Office
Central
Office
Central
Office
Central
Office
DigitalDigital
Local LoopLocal Loop
Analog
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139
For short distances,
twisted-pair can handle
frequencies much higher
than 4kHz.
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Connecting to the Internet
• Modem (POTS)
• ISDN
• T1 line
• Digital Subscriber Line (DSL)
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141
Cost Vs. BandwidthC
ost
$
Bandwidth
Modem
(POTS)
Modem
(POTS)
ISDN
T1
DSL
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142
Advantages of DSL
• Always-on connectivity
• High speed
• Flat-rate service
• Reliability
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bandwidth not required by voice.
DSL takes advantage of the
bandwidth not required by voice.
0 4kHzFrequency
VoiceVoice
1MHz
DSLDSL
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xDSL:
• Asymmetric Digital Subscriber
Line (ADSL)
• Very High Data Rate Digital
Subscriber Line (VDSL)
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Asymmetric DSL – Allows
downstream than upstream.
Asymmetric DSL – Allows
more bandwidth
downstream than upstream.
0 4kHzFrequency
VoiceVoice DownstreamDownstream
1MHz
UpstreamUpstream
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Central OfficeCentral OfficeTo/From
ISP
To/From
ISP
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147
Typical ADSL Typical ADSL
Characteristics
Data Rate Distance
Downstream 1.5 Mbps 15,000 ft
Upstream 16 kbps 15,000 ft
Downstream 6.1 Mbps 9,000 ft
Upstream 640 kbps 9,000 ft
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148
DSL is distance-sensitive
• You must be within about 12,000 to 18,000 feet of a central office.
• The distance is the path the wire takes, not the straight-line distance.
• Even so, the majority of the United States’ population lives and works within DSL range.
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The DSL Provider
• The company that delivers DSL service to your home or business.
• Generally a phone company.
• Many DSL providers act as their own Internet Service Provider (ISP).
• Some areas have more than one DSL provider.
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Customer Premises
Equipment (CPE)
• Telco lingo for phone or DSL
equipment in the home or office.
• Splitter/Filter
• DSL Modem or DSL Router
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0 4kHzFrequency
VoiceVoice
1MHz
Splitter/FilterSplitter/Filter
Voice/Data
Low Pass
High Pass
Voice
Data
DataData
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The DSL Modem
• Low cost.
• Requires no customer
configuration.
• Acts as a bridge to your DSL
provider’s TCP/IP network.
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153
CO
Interne
t
ISP
PSTNPSTN
Analog ModemAnalog Modem
PhonePhone
ComputerComputer
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154
DSL ModemDSL Modem
PhonePhone
ComputerComputer
PSTNPSTN
InternetInternet
PSTN
Switch
PSTN
Switch
DSLAMDSLAM
Central
Office (CO)
Splitter/Splitter/
Filter
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155
Problems with the DSL
Modem Approach
• Single IP address
• The Internet Connection is not
easily shared.
• Security concerns.
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156
The DSL Router
• Higher cost
• Turns your local network into a separate TCP/IP LAN.
• May provide several services such as:
– DHCP
– NAT
– Firewall
– VPN
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157
HUBHUB
Analog ModemAnalog Modem
Small Office/Home Office (SOHO)
PhonePhone
CO
Interne
t
Interne
t
ISP
PSTNPSTN
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HUBHUBDSL RouterDSL Router
Small Office/Home Office (SOHO)
Splitter/
Filter
PhonePhone
To/From
Provider
To/From
DSL
Provider
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159
HUBHUBDSL RouterDSL Router
Home/Office
PSTNPSTN
InternetInternet
PSTN
Switch
DSLAM
Central
Office (CO)
PhonePhone
FilterFilter
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160
Digital Subscriber Line
Access Multiplexer (DSLAM)
• Normally located at the Telco
Central Office
• Concentrates data from numerous
DSL connections into a high
capacity backbone.
• Separates voice from data and sends
each to its appropriate location.
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161
185.132.116.103
HUBHUBDSL RouterDSL Router
Small Office/Home Office (SOHO)
To/From
Provider
To/From
DSL
Provider
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162
Very High Data Rate Digital
Subscriber Line (VDSL)
• An emerging technology
• Promises to deliver
– Downstream speeds of 15 to 52 Mbps.
– Upstream speeds of 1.5 to 2.3 Mbps.
• Over short distances (1000 to 4500 ft) of existing twisted pair phone lines.
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163
Central Office
Fiber Optic
Cable
Optical Network
Unit (ONU)
Office Building