SU922690A1 - Infralow-frequency signal normalizer - Google Patents

Description

k} NORMALIZER OF INFRASTRUCTURE SIGNAL

Claims (2)

The invention relates to electrical engineering and can be used to stabilize an alternating voltage and to construct high-precision frequency meters, phase meters, phase spectrum analyzers, frequency multipliers and other electronic equipment of the ultra-low frequency range. Known normalizers electrical signal 1 and, And. The first normalizer contains a regulator, the INPUT connected to the input terminal, and the output through the power amplifier to the output terminal, and the feedback unit connected to the output terminal, and the output to the control input of the regulator I. A disadvantage of the known device is insufficient the accuracy of the speed of the normalization of the infrared signal in a wide frequency range, due to the presence of inertial elements and the influence of the drift of amplifiers, their temporal and temperature instability. The second and closest normalizer includes the first automatic switch, the filter, the first and second drivers, and the output of the filter is connected to the output terminal of the device 21. The known device is characterized by insufficient accuracy and speed of normalization of the infra-low frequency signal in a wide frequency range. These shortcomings are due to the presence of such inertial and nonlinear elements, such as an AC / DC converter, amplifiers-limiters, transformers, etc. The AC-DC converter has an inertial filter 39 at the output, which reduces speed. Whether the amplifiers limit the additional phase shifts to the transformed signal, which represent the amplitude phase error of the conversion. In the range of infra-low frequencies, these errors reach significant values. Existing transformers do not provide high accuracy of the transmission of the infra-low frequency signal. All this limits the possibilities of using the known device as a normalizer. The purpose of the invention is to improve the accuracy and speed of the normalization of the infra-low frequency signal in a wide frequency range. The goal is achieved by introducing an amplitude measurement unit, a signal zero extraction unit, an OR logic unit, a trigger, a conversion frequency generator, a second automatic switch, a divider, and sequentially interconnected with an output key switch into the normalizer of the infra-low frequency signal. the tel is a logo-digital converter, a block of logical elements AND, a register and a digital-analog converter, the output of which is connected to the input of the filter, an analog input digital-analogue The converter converter is connected via a voltage divider to the output of the first generator, whose inputs are connected to the trigger outputs and to the control inputs of the second automatic switch, the output of which is connected to the auxiliary input of the analog-digital converter, the signal inputs of the second automatic switch are connected to the phase-output outputs measuring the amplitude, the input of which is connected to the input terminal, to which the input of the signal extraction unit of the signal is connected, the outputs of which are connected to the input trigger and logic element OR, the output of which through the second driver is connected to the control input of the register; the control inputs of the block of logic elements AND are interconnected and connected to the first output of the quantization frequency generator, the second output of which is connected to the control input of the first automatic switch, the first signal input of which is connected to the input terminal, and the second is connected to the common bus. The drawing shows a functional diagram of the normalizer of the infra-low frequency signal. The normalizer consists of the first automatic switch 1, the generator 2 of the quantization frequency, the analog-digital converter (ADC) 3, the block of logic elements AND 4, the register 5 of the digital-to-analog converter (DAC) 6, the low-pass filter 7, the unit 8 measuring 1 AM amplitude ,. the second automatic switch 9 of the first and second drivers 10 and 11, the voltage divider 12, the signal zeros extraction unit 13, the trigger H and the logic element OR 15. One of the inputs of the first automatic switch 1 is connected to the input terminal, its Ora .Connect input to a common bus, control circuit automatic switch 1 is connected to the second output of the generator 2 of the switching frequency. The output of the first automatic switch is connected to the input of the analog-digital converter 3. The auxiliary input of which is connected to the output of the second automatic switch 9, and the outputs of the A / D converter 3 are connected via the block 4 of logic elements AND to the inputs of the register 5- At that, the control inputs of the block k combined and connected to the second output of the quantization frequency generator 2. The control input of the register 5 is connected via the first driver 10 to the output of the logic element OR 15. The outputs of the register 5 are connected to the inputs of the DAC 6, the analog input of which is connected via the voltage divider 12 to the output of the second driver 11. The output of the DAC 6 through the filter 7 low pass is connected to the output terminal of the device. The control circuit of the second automatic switch 9 is connected to the inputs of the second shaper 11 and connected to the outputs of the trigger} Ts. The trigger inputs AND are connected to the inputs of the logic element OR 15 and are connected to the outputs of the signal zeros block 13. The input of the 13 792 unit by specially formed reference bi-polar voltages is determined by I magnitude. The use of multi-bit and high-speed ADC and DAC in the proposed device improves not only the accuracy and speed of the normal MFl AND LF signal, but also the accuracy of the LF signal waveform. Since for measuring the amplitude of the INCH signal, for example, in the positive half-periods, a time equal to a quarter of a period is necessary, the device’s speed from the moment the INC signal is applied to the input of the normalizer does not exceed a quarter of the period. An infra-low frequency signal normalizer containing a first automatic switch, a filter, first and second drivers, the filter output being connected to an output terminal, characterized in that, in order to improve the accuracy and speed of the low-frequency signal normalization in a wide frequency range, a block is inserted into it amplitude measurement, signal zeros separation unit, OR gate, trigger, conversion frequency generator, second automatic switch, voltage divider and after connected to each other and with the output of the first automatic switch of an analog-digital converter, a block of logic elements AND, a register and a digital analog converter, the output of which is connected to the filter input, the analog input of the digital-analog converter is connected through a voltage divider to the output of the first driver, whose inputs are connected with the trigger outputs and with the control inputs of the second automatic switch, the output of which is connected to the auxiliary input of the analogue-digital Preo verters, signal inputs of the second automatic switch connected to the outputs of the paraphase amplitude measuring unit. The input of which is connected to the terminal with which the input of the zero signal extraction unit is connected, the outputs of which are connected to the inputs of the trigger and logic gate, the output of which through the second driver is connected to the control input of the register, and the control inputs of the logic element block connected to the first output of the quantization frequency generator, the second output of which is connected to the control input of the first automatic switch, the first signal input of which is connected to the input terminal, and Oroy is connected to a common line. Sources of information taken into account in the examination 1. USSR author's certificate fP 69119, cl. G 05 F lA, 1973. t 2. USSR author's certificate If, cl. G 05 F 1/38, 1972.