SU900213A1 - Phase-shifting device - Google Patents

Description

(54) PHASE SHIPPING DEVICE

The invention relates to information-measuring technology and can be used in the construction of compensation phase meters, as well as as graded quadrature phase shifters for various phase and phase diagrams. A phase shifting device is known that contains drivers, blocks of coincidence, and pulse generators of various types: that l. A disadvantage of this device is that the error of the generated phase shift depends on the frequency instability of the pulse generators, which can reach a significant value, as well as the non-sinusoidal output signal. It is known that a device for forming quadrature harmonic oscillations in the frequency range of a laser, comprising a Walsh function generator, the outputs of which are connected to the inputs of two adders 2. However, the known device does not allow. It is necessary to obtain an initial adjustable phase shift of the oscillations being formed relative to some reference signal of the invention — an extension of the tuning range. The goal is achieved by the fact that the phase-shifting device containing the Walsh function generator, whose codes are connected respectively to the inputs of the left and second adders, is equipped with a pulse shaper, a frequency multiplier, a counter, a comparator unit and a register, the first output of the pulse shaper is connected via a frequency multiplier with one of the inputs of the getserarat functions of Walsh and the counter, the second input of which is connected to the second output of the driver mvfnylsov, and the output to one of the inputs of the comparison unit „w oy. the input of which is connected to the output of the register, and the output390

to the second input of the Wopsha generator.

The drawing shows the arrangement of a phase-shifting arrangement.

The device contains a driver of I pulses, a multiplier of 2 frequencies, a counter 3, a geyrator of 4 Walsh functions, first and second adders 5 and 6, a block 7 of comparison, and a register 8.

The device works as follows.

The reference signal, the initial phase of which is assumed to be zero, is converted by the shaper t to the square wave removed from the first output, and the high duty cycle generated at the end of each period, which is fed to the frequency 2 input, is removed from the second output. The output pulses of which are clocks for the generator of 4 functional Walsh and counter 3. The output signals of the generator of Walsh functions are summed with certain weights in adders 5 and 6. At the output of these adders, quadratic stepped harmonic oscillations are formed, whose frequency multiplying frequency multiplier 2 is equal to the frequency of the reference signal. The output pulses of the frequency multiplier 2 also trigger a counter 3, which is zeroed at the input of the driver I at the end of each period of the reference signal. The counter 3 code is compared in comparison block 7 with register code 8 and the comparison time moment at the output of comparison block 7 a pulse is generated, the awlder generator 4 of the Walsh functions. Shift of the moment of zeroing of the generator 4 Walsh functions, and consequently the initial phase of the approximated (step) output harmonics 134

The signal relative to the reference oscillation is determined by register code 8.

The invention performs a phase shift while maintaining a sinusoidal output waveform. In addition, it is characterized by simplicity of hardware implementation, does not incorporate tunable reactive elements, and is implemented entirely on the element base of digital microelectronics.

Claims (2)

1. USSR author's certificate N 373644, cl. G O R 25 / OO, 1972. 2. Romanyuk, Yu.A., Zaitsev, G.V. Generation of arbitrary waveforms using Walsh functions. Proceedings of Vshiftry. Issue 12/42, 1973, p.44-5