Binary Phase Shift Keying: Difference between revisions
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Binary Phase Shift Keying describes a technique modulating a sinoid carrier frequency by changing the ''phase'' between two defined states: 0° and 180°. The amplitude of the modulated signal remains constant, therefore this is called phase shift keying. Each phase state corresponds to a symbol, as there are only two states we have here only two possible symbols. |
'''Binary Phase Shift Keying''' (short '''BPSK''') describes a technique modulating a sinoid carrier [[frequency]] by changing the ''[[phase]]'' between two defined states: 0° and 180°. The amplitude of the modulated signal remains constant, therefore this is called phase shift keying. Each phase state corresponds to a symbol, as there are only two states we have here only two possible symbols. |
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[[Category:Technology]] |
[[Category:Technology]] |
Latest revision as of 01:30, 3 April 2005
Binary Phase Shift Keying (short BPSK) describes a technique modulating a sinoid carrier frequency by changing the phase between two defined states: 0° and 180°. The amplitude of the modulated signal remains constant, therefore this is called phase shift keying. Each phase state corresponds to a symbol, as there are only two states we have here only two possible symbols.