Abstract: L-band tuner stage is combined with a quadrature downconverter stage in a single shielded enclosure as an L-band-to-baseband PSK tuner suitable for receiving L-band signals from an LNB and converting the signals directly to signals in a desired digital format. The bandwidths within the two stages are optimized for digital PSK demodulation, and certain functions are shared, such as automatic gain control and carrier tracking information. Electronically switchable attenuators and voltage-variable gain controlled amplifiers, in connection with a low-phase-noise local oscillator employing a microstrip resonator, provide for over 70 dB of dynamic range. The IF frequency and bandwidth are selected so that voltage-variable tunable bandpass filters of conventional design may be used to obtain over 40 dB of radio frequency (RF) image rejection necessary for reception of PSK signals.

Abstract: A receiver designed for use in a mobile environment, which includes an adaptive equalizer driven by phase estimation and rotation circuitry, and which is operable in multipath fading channels. The present invention uses an AFC loop and a phase rotation circuit in front of the adaptive equalizer to improve equalizer performance in the fading channel. The present invention uses .pi./4 phase rotation circuitry before a phase quantization decision is made. This .pi./4 phase rotation circuitry allows for decisions to be made on a QPSK constellation, rather than on an input 8PSK constellation, thus improving detection performance.

Abstract: A radio receiver's digital matched filter (52') is intended to match a pulse-shaping filter (23) in the transmitter whose signals it receives. However, the clock signal on which the matched filter's timing is based is generated by a receiver clock (58') that is independent of the transmitter clock (56) and that is subjected to no timing adjustment to bring the two clock signals into synchronism. So as to ensure that the matched and pulse-shaping filters work together as a Nyquist filter, therefore, a timing-recovery circuit (60') senses the timing offset in the matched filter's output, and a coefficient generator (80) adjusts the matched filter's coefficients in such a manner that the filter itself imposes the delay needed for the required timing relationship between the filters.

Abstract: Method and apparatus for determining occurrence of an S1 modem identification sequence is disclosed. An S1 sequence is found to exist when the sum of conjugate complex multiplication of signal sample amplitudes taken at an interval T/2 result in a negative scalar value for an arbitrary number of sequential occurrences. Complex samples taken from incoming baseband waveform at twice the modulation rate are interleaved in pairs of two with two even numbered samples and two odd numbered samples being considered separately by first performing complex multiplication followed by scalar multiplication of an output of the complex multiplication and an output of the previous complex multiplication delayed by one modulation interval T. The separate results from the sets of pairs of signal samples are summed to form a scalar whose value when consistently less than 0 indicates the presence of an S1 modem identification sequence in accordance with the CCITT S1 recommendation.

Abstract: The digital data transmission is of the type including the addition of clock and synchronizing information to the data to constitute the transmission signal, and the determination of the transmission speed from this received information. According to the invention, this information, in the transmission signal, comprises a synchronizing edge (SYNC) added to each group of N data bits (D0-D7, OP), and the determination of the transmission speed comprises producing N clock signals (CL0-CL9) from identical successive delays (480-489) of a synchronizing edge detected.

Abstract: An automatic equalizer for use with a recording and/or reproducing apparatus or with a communication transmission channel, wherein equalizer parameters are rendered variable and the degree of change of the error rate is extracted to set the parameters to optimum values based on the degree of change of the error rate. Output signal error rates are sequentially detected at a plurality of measurement points corresponding to preset plural characteristic parameters to find a minimum error rate measurement point. An initial parameter setting operation is performed for providing characteristic parameters for this measurement point to the equalizer as the initial parameter.

Abstract: A waveform shaping method including a step of detecting at least two items selected from three items i.e. a signal time width, a peak value level, and a signal failure time width of an input signal in a unit time length, a step of converting for each of the detected items a detected value into a function value based on a function representing likelihood of a logical value "1" or "0", a step of conducting a predetermined computation on the converted function values related to the at least two items to attain a result, and a step of discriminating the result of the computation by a predetermined threshold value to determine a logical value "1" or "0" for the input signal in the unit time length.