Frequency offset

In radio engineering, a frequency offset is an intentional slight shift of broadcast radio frequency (RF), to reduce interference with other transmitters.

Interference

The most important problem encountered in broadcasting via terrestrial transmitters is the interference from other broadcasters. In principle, each broadcaster has a different radio frequency (planned by the public authority) in a common reception area to avoid interference from each other. However still there are two problems: spurious radiation of adjacent channels and fringe reception.

Fringe reception is unintended reception under certain weather conditions. The exceptionally long-range reception means that the receiver may be tuned to more than one transmitter (transmitting at same frequency) at the same time. These transmitters may transmit programs of different broadcasters as well as the programs of the same broadcaster. In analogue transmission, even the transmitters transmitting the very same program interfere each other because of phase differences of the incoming signal, but in digital transmission the transmitters transmitting the same program in the same channel may reinforce each other.

The shift in RF

In order to reduce the interference from the fringe area transmitters transmitting in the same channels, a method named frequency offset is often used. By this method, a slightly shifted RF is assigned for a transmitter which may be interfered by other transmitters.

In TV transmission, the shifted RF is calculated by the formula;

f_{os} = f_{ch} + \frac{f_L\cdot p}{12}

where,

f_{os}

is the offset RF,

f_{ch}

is the standard channel frequency,

p

is an integer such that

-12<p<12

f_L

is the line frequency. ( 15625 Hz. for 625-line systems, 15750 Hz. for System M and System J and 20475 Hz. for system E)

Precision offset is the same as frequency offset, except that in this case, the offset frequency is produced by a cesium controlled oscillator.

Example

8p offset of channel 9 in system B can be found readily

The standard visual carrier frequency is 203.25 MHz The line frequency is 15 625 Hz.

f_{os} = 203 250 000 + \frac{15626\cdot 8}{12} \approx 203260417

8n offset of the same channel is likewise

f_{os} = 203 250 000 - \frac{15626\cdot 8}{12} \approx 203239583

Analog television broadcasting topics

Systems	180-line 405-line ( System A ) 441-line 525-line ( System J , System M ) 625-line ( System B , System C , System D , System G , System H , System I , System K , System L , System N ) 819-line ( System E , System F )

Color systems	NTSC PAL PAL-M PAL-S PALplus SECAM

Video	Back porch and front porch Black level Blanking level Chrominance Chrominance subcarrier Colorburst Color killer Color TV Composite video Frame (video) Horizontal scan rate Horizontal blanking interval Luma Nominal analogue blanking Overscan Raster scan Safe area Television lines Vertical blanking interval White clipper

Sound	Multichannel television sound NICAM Sound-in-Syncs Zweikanalton

Modulation	Frequency modulation Quadrature amplitude modulation Vestigial sideband modulation (VSB)

Transmission	Amplifiers Antenna (radio) Broadcast transmitter/Transmitter station Cavity amplifier Differential gain Differential phase Diplexer Dipole antenna Dummy load Frequency mixer Intercarrier method Intermediate frequency Output power of an analog TV transmitter Pre-emphasis Residual carrier Split sound system Superheterodyne transmitter Television receive-only Direct-broadcast satellite television Television transmitter Terrestrial television Transposer

Frequencies & Bands	Frequency offset Microwave transmission Television channel frequencies UHF VHF

Propagation	Beam tilt Distortion Earth bulge Field strength in free space Knife-edge effect Noise (electronics) Null fill Path loss Radiation pattern Skew Television interference

Testing	Distortionmeter Field strength meter Vectorscope VIT signals Zero reference pulse

Artifacts	Dot crawl Ghosting Hanover bars Sparklies

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