Abstract: In a method of detecting false-locking the trains of clock signals corresponding to the two phase offset initially modulated trains of signals, the phase offset between said trains of clock signals is monitored, and false-locking is detected when the phase offset changes signal. Also, a method of demodulation implements this method of detecting false-locking. Also, a device for implementing the method of detecting false-locking contains a flip-flop in series with a monostable.

Abstract: A device for demodulating a signal modulated on two axes in phase quadrature using a .pi./4-QPSK type digital modulation technique employing alternately two phase-shifted constellations. The device includes: a voltage-controlled oscillator (28) supplying a local signal substantially at the carrier frequency; a demodulator means using the local signal and supplying, after filtering (30, 31), the phase component P and quadrature component Q of the demodulated received signal; a phase controller (32) producing a control signal (39) for controlling the oscillator (28) and including a phase estimator (33) producing a phase estimation signal E (35) involved in control of the oscillator (28), the phase estimation signal being derived from the phase component P and quadrature component Q of the demodulated received signal.

Abstract: A regenerator for regenerating received framed digital signals including justification bit includes an arrangement associating justification mechanisms with the operation of a fractionally spaced self-adaptive equalizer which is modified to accept instructions to rotate its coefficients. The regenerator is particularly suitable for microwave digital transmission. Jitter does not accumulate in the regenerator which may be implemented entirely in digital circuits.