Abstract: A local multipoint data distribution system (10) simultaneously accommodates many communication sessions occurring at a wide variety of data rates. space surrounding cell sites (12) is partitioned into sectors (16), and the spectrum is allocated to the cell sites (12) so that adjacent sectors (16) use different spectrum portions, but the entire spectrum is reused numerous times at each cell site (12). A time diversity scheme allocates different numbers of time slots (54) to different calls. Time slot identifiers are assigned in contiguous blocks in an assigned numbering system (56). The time slot identifier assignments are translated into a counted numbering system (58) which causes the time slots (54) for any call to be distributed throughout a frame (48) and interleaved with time slots (54) assigned to other calls.

Abstract: A digital data receiver includes a tunable analog matched filter circuit having a variable bandwidth responsive to the bit error rate (BER) of the decoded data. The bandwidth of the analog filtering circuit is controlled by a tuning control signal that includes a coarse tuning signal combined with a fine tuning signal. The coarse tuning signal is generated by a frequency-to-current converter and the fine tuning signal is generated by a current-scaling digital-to-analog converter (DAC). The DAC input signal is produced by a DAC control circuit that includes a BER comparator and a DAC control state machine. The BER comparator determines whether the BER has improved or degraded in response to a previous tuning command. To optimize the BER in the decoded data signal, the state machine increments or decrements the value of the fine tuning signal, which in turn alters the filter bandwidth.

Abstract: A pulse width modulation (PWM) circuit translates digital data into an analog signal. The PWM circuit includes at least a digital counter, a significance reverser, and a comparator circuit. The significance reverser reverses the relative order of significance of at least two bits in the count words generated by the counter. The comparator determines whether the magnitude of a digital input word is greater than the magnitude of the reversed order count word. The PWM circuit produces a high output when the magnitude of the input word is greater than the magnitude of the reversed order count word and a low output when the magnitude of the input word is not greater than the magnitude of the reversed order count word. The analog output produced by the PWM circuit includes a number of pulses evenly distributed during the count cycle of the counter, and the input word indicates a duty cycle for the analog output.

Abstract: A digital data receiver includes tunable analog components having variable parameters that are responsive to the bit error rate (BER) of the decoded digital data. The analog components include a quadrature generator having a tunable phase shifter, an analog filter having a tunable bandwidth, a tunable magnitude equalizer circuit, a tunable group delay equalizer circuit, and an amplifier having an adjustable gain. The tunable components are controlled by tuning control signals that incorporate digitally-produced fine tuning signals. The digital tuning signals are altered in accordance with realtime changes in the BER.