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CDMA Basics

4 bytes removed, 23:46, 10 March 2011
/* Near Far Problem */
[[Image:cdma15.jpg|thumb|center|600px|RAKE receiver]]
=== Near Far Problem ===
The problem is best described by taking an example: Consider a receiver and two transmitters (one close to the receiver; the other far away). If both transmitters transmit simultaneously and at equal powers, then due to the inverse square law (Since, '''Pr= Pt/ (4*Pi*d/lambda)^2''', '''Pr''' is received power, '''Pt''' is the transmitted power, '''d''' is the distance between the stations, '''lambda''' is the wavelength of operation and '''Pi''' is 3.14159265....), the receiver will receive more power from the nearer transmitter. This makes the farther transmitter voice more difficult to understand. Since one transmission's signal is the other's noise the signal-to-noise ratio (SNR) for the farther transmitter is much lower. If the nearer transmitter transmits a signal that is orders of magnitude higher than the farther transmitter, then the SNR for the farther transmitter may be below detectability and the farther transmitter may just as well not transmit. This effectively jams the communication channel. In CDMA systems, this is commonly solved by dynamic output power adjustment of the transmitters. That is, the closer transmitters use less power so that the SNR for all transmitters at the receiver is roughly the same. This sometimes can have a noticeable impact on battery life, which can be dramatically different depending on distance from the base station.
[[Image:cdma16.jpg|thumb|600px|center|Dynamic output power adjustment for CDMA transmitters]]