chapter-03cel.pptx deals with TV fundamentals

Unit-III
Television Fundamentals and
Transmitter
-16Marks

Course Outcome
• Analyse the Composite Video signal used
in TV signal Transmission

Aspect Ratio-
•The electron beam moves from left to right.
•When no picture the beam will trace white rectangle called
Raster
The width to height ratio of TV screen is called ASPECT RATIO.
Aspect ratio= W/H=4/3
W(4)
--------------------------------
H(3)
D
D= Viewing distance = 3 to 8 times height

Image Continuity
•Even though the picture information is transmitted line
by line , We get impression of continuity due to a
phenomenon called persistence of vision of human eye.
• persistence of vision is property of the retina of human
eye that any impression produced on the retina will
persist for 1/16th of a second.
• Definition-
If within the short interval of persistence of vision , a
series of images are presented to eye , eye can see all
images without break is called Image continuity.

Resolution
• The scanning and reproduction of the finest
details of the picture.

Vertical Resolution:
• The ability of a scanning to resolve vertical
details in a scene depends upon the number
of horizontal scanning lines used per frame.
• Horizontal Resolution:
• The ability of a scanning to resolve horizontal
details in a scene .

Scanning
Definition-
Scanning is a process by means of which the
optical image of the televised scene falling on the
target plate of the camera is broken into series of
horizontal lines by an electron beam shown in fig.
e.g. reading information on page.
scanning
Sequential scanning Interlaced scanning

Scanning
In the TV receiver the same process of scanning is
repeated to form the picture on the florescent
screen.
Electron beam in the picture tube produced by
horizontal and vertical scanning forms a uniformly lit
rectangular area called the RASTER. ( i.e/ only
lightened screen without picture is called raster)
• The scene is scanned rapidly both in horizontal and
vertical directions simultaneously to provide
sufficient number of complete picture or frames per
second to give illusion of continuous motions.

Horizontal Scanning
Definition-
Electron beam moves from left to right line –by-
line called horizontal scanning .
Figure shows the trace and retrace.

chapter-03cel.pptx deals with TV fundamentals

Sequential Scanning
•Scanning is done line-by line from 1st to 625th line
sequentially so called as sequential scanning.
•As electron beam sweeps across a line it falls over
portions of different light intensities and is accordingly
converted into electrical currents of different
amplitudes.
• (Bright spot max.current, Dark spot min.current)
• In this way, current pulses are produced which
corresponds in time sequence to bright and dark areas of
the televised picture as they scanned by the electron
beam. This electrical signal is called video signal.

Interlaced scanning
• In television pictures an effective rate of 50
vertical scans per second is utilized to reduce the
flicker. This is accomplished by increasing the
downward rate of travel of scanning of electron
beam, so that every alternate line gets scanned
instead of successive line.
• Then when the beam reaches the bottom of the
picture frame it quickly returns to the top to scan
those lines that were missed in the previous
scanning.

Interlaced scanning
Definition
Interlaced scanning is the process in which the first
312.5 lines are scanned called odd field and then 312.5
even numbered lines are scanned called even field so
that frame containing 625 lines is scanned twice.

Advantages and Applications of Interlaced
scanning-
Advantages-
1. It reduces the video bandwidth because the
total number of lines scanned /second remains
unchanged.
2. It also avoids the problem of flicker since
scanning rate is doubled. i.e. 50 frames/ sec.
Applications
It is used in broadcast TV system.

Horizontal scanning Period
Time required to complete one horizontal line with
trace and retrace is called horizontal scanning
period.
Vertical Scanning period
Time required to complete one vertical trace and
retrace is called vertical scanning period.

Resolution
Definition –
The scanning and reproduction of finest details of
the picture known as resolution.

Vertical Resolution
Definition
The ability of the scanning system to resolve picture
details in vertical direction is called vertical
resolution.
Vr= Na x K
Kell factor-
It is the number of horizontal lines lost due to
misalignment of electron beam.
40 lines lost as blank lines.
Na= 625-40=585( Na=Active lines)
Vr= NaxK=585x0.69=400lines.

Horizontal Resolution
Definition
The ability of the scanning system to resolve the
picture details in horizontal direction is known as
horizontal resolution.
Alternate black and white segments(N) that get
scanned in one horizontal line are-
N=Nax Aspect ratio x k
= 585x 4/3 x 0.69
N= 538

Vestigial Sideband Transmission
AM is used for transmitting the video signal. AM
has carrier frequency with two sidebands.

What is VSB transmission?
In AM, only USB and part of LSB is transmitted, is
called VSB transmission.

Colour Characteristics
1. Brightness-
Brightness is the overall or average intensity of
illumination and it determines background light
level in the produced picture.

2. Contrast
This is the difference in light intensity between
black and white parts of the picture over average
brightness .
With contrast Contrast not adjusted

3.Viewing Distance
The distance between viewer and TV screen is known
as Viewing distance.

Luminance
This is the amount of light intensity perceived by the
eye regardless of colour.

Hue or Tint
The colour itself is called hue and depends on
dominant wavelength of the light.
All colours e.g. red ,yellow, green are hues.

Saturation
It represents the purity of colour.
A fully saturated colour will have no white light
present in it. E.g. pure red, green, blue.

Compatibility
It is a phenomenon by which a colour TV
system produces a normal B/W picture on
B/W TV receiver without any modification in
existing circuitry.
Similarly, a B/W transmission should be able to
produce a black and white picture on a colour
TV screen. This is known as reverse
compatibility.

Compatibility
For complete compatibility between the colour TV system and the
monochrome system, colour TV system must satisfy the following conditions.
1. It must use the same 7MHz standard TV channel.
2. It must have video BW of 5.5MHz.
3. It must use the same line and frame synchronizing pulses.
4. The picture and sound carrier frequencies should have same spacing of
5.5MHz.

Colour Theory
Light ray are electromagnetic waves whose
properties are governed by their frequency or
wavelength. Light rays from a small part of
spectrum of EM shown in fig.

Three colour Theory
• All light sensations to the eye are divided into
three main groups.
• The optic nerve system separates different colour
to perceive the actual colour of the object.
• This forms the basis of colour TV.
For example-
A yellow colour can be sense by eye when the red
and green groups of the cones are excited at the
same time.

Mixing of Colours
Two types of colour mixing-
1. Subtractive colour mixing
2. Additive colour mixing.

Subtractive colour mixing
In subtractive colour mixing, reflective properties of
pigments are used, which absorb all wavelength but
for their characteristic colour wavelength.
For example-
This type of mixing takes place in painting shop and
colour printing

Subtractive colour mixing
Primary colours are called subtractive primaries.
Any of these colours can be produced by subtracting
White light its coplementary colour through a colour
filter as-
= -
= -
CYA = -
+ + =
YELLOW WHITE BLUE
MAGENTA WHITE GREEN
CYAN WHITE RED
CYAN MAGENTA YELLOW BLACK

Additive Colour Mixing
Additive mixture of the three primary colours red ,
green and blue with proper proportions can create
any colour. Hence they are called additive primaries
And used as basic colours in TV system.
Primary colours
RED GREEN BLUE

Complementary or Secondary colours
+ + =
RED GREEN BLUE WHITE
GREEN

Grassman's Law
The eye is not able to distinguish each of the colours
that are mixed to form colour but instead perceives
only resultant colour.
For example-
Yellow can produced by mixing 305 of red and 59% of
green.
Eye perceives new colour depending on the algebraic
sum of red, green and blue light fluxes.This forms the
basis of colour signal generation known as Grassman's
Law.

Composition Video Signal
The Video Signal containing the horizontal and vertical
sync and blanking pulses is called as composite video
signal.

Colour Burst Signal(Need)
• The subcarrier is suppressed in the modulated signal
(at transmitter), it is necessary to generate it in the
receiver for demodulation of the colour signal .
This generated signal must be of exactly same
frequency and same phase as that of the transmitter.
• To ensure this , short wave of 8 to 10 cycles called
colour burst is sent to the receiver along with the sync.
Pulse.
• The colour burst is placed onto the back porch of the
blanking pulse of the composite video signal.

Colour burst signal (Need)----
• the burst signal acts as pilot carrier.
•Burst signal in conjunction with the phase
comparator circuit in the receiver is used to lock the
local sub-carrier oscillator to frequency as well as the
phase of the colour sub-carrier at the transmitter.

TV channel Allocation for Band I and Band III
•The carrier frequency should be chosen ten times of
highest modulating frequency to get better selectivity
At RF and IF tuned amplifier in the receiver.
• Highest modulating frequency for picture signal is
5MHz.Hence carrier frequency is always greater than
40MHz.TV transmission is generally in VHF and UHF
bands.
• VHF Band= 30 MHz to 300MHz
• UHF Band= 300MHz to 3 GHz

Continued---
Lower band VHF channels(BAND I)
Band I has three channels 2,3,4 from 47 to 68 GHz.
VHF Band-I(47 to68MHz)Channel
width=7MHz
Channel No. Frequency band(MHz)
2 47 to 54
3 54 to 61
4 61 to 68

Continued---
Higher VHF Channels(Band III)
Band III has 5 to 12 channels from 174 to 230MHz
VHF Band-III(174 to 230 MHz)Channel width=7MHz
Channel No. Frequency band(MHz)
5 174 to 181
6 181 to 188
7 188 to 195
8 195 to 202
9 202 to 209
10 209 to 216
11 216 to 223
12 223 to 230

Continued---
Band II- It is used for FM radio and for sound
transmission in TV.
Range-88 MHz to 108MHz

TV systems and standards
CCIR ( Consultative committee for International
Radio) made unique standard which were adopted
all over TV transmission with 625- B CCIR standard.

Parameter Standard
Number of lines per picture 625
Interlace ratio 2:1
Frame frequency 25Hz
Field frequency 50Hz
Aspect Ratio 4:3
Line Frequency 15625Hz
Channel bandwidth 7MHz
Video bandwidth 5.5MHz
Type of Sound modulation FM
Pre emphasis 50µs
Resolution 400lines
Duration of horizontal line 64µs
Line blanking interval 12µs
Back Porch 5.8µs
Front porch 1.5µs
Synchronous pulse width 4.7µs
CCIR-B common standards for Colour TV

Parameter Standard
Camera output R,G and B video signal
Luminance signal Y=0.30R +0.59 G +0.11 B
Colour difference signal for
transmission
(B-Y) and (R-Y)
Colour difference signal U = 0.493 (B-Y)
V = 0.877 (R-Y)
Colour subcarrier frequency 4.433185MHz
Duration of Burst 10+ - 1
Croma encoding Phase and amplitude modulation
Bandwidth for colour signal (U and V) Fsc-1.3MHz to Fsc+0.6MHz
CCIR-B Colour signal Transmission
Standards

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