SU920567A1 - Device for automatic tolerance control of radioelectronic equipment amplitude frequency characteristics - Google Patents

Description

(FOR) DEVICE FOR AUTOMATIC ADMISSION MONITORING OF AMPLITUDE-FREQUENCY CHARACTERISTICS OF RADIO ELECTRONIC EQUIPMENT

I

The invention relates to instrumentation technology, is intended for automatic tolerance control of the amplitude-frequency characteristics (AFC) of two-channel electronic equipment and can be used to test stereo amplifiers of sound reproduction equipment. When checking two-channel equipment, except for the frequency response /, it is necessary to control the amount of crosstalk between the channels.

A device is known in which on the screen of a cathode ray tube the form of the frequency response and the permissible limits of its change are reproduced. The device contains a series of oscillating frequency generator, a frequency-voltage converter, two controllers of permissible values and a recording device, a matching amplifier, the output of which is connected to another input of a recording device, in series, and the controlled device is connected between the output of the oscillating frequency generator and the input of a matching amplifier l

The disadvantages of this device are instability and relatively low accuracy of operation, due to the drift of the parameters of the analog nodes of the device, which requires periodic monitoring and adjustment. Subjectivity is also peculiar to verification.

10 evaluation results, as it is produced by the operator. When testing two-channel equipment, the control of the crosstalk between the channels is carried out in a known manner, which is difficult but takes a lot of time.

Claims (2)

The closest to the invention in technical essence and the achieved result is a device for automatic tolerance control of the quadrupole frequency response, containing serially connected in a ring frequency frequency adjuster, controlled oscillator, controlled quadrupole, voltage-voltage converter, digital subtraction unit, code comparison unit and a control unit, a setter of the nominal level code connected to the second input of the digital subtraction unit, and a setter of the code of permissible non-uniformity ( code sensor allowable error) between the output frequency set point code and a second input of the comparator signal rb from the control device codes dial code frequency successively changes its state, along which the eye controllable signal generator synthesizes a sine wave corresponding to the frequency code. This signal is fed to the input of a controlled four-port network. The output signal of the quadrupole converts the voltage-code into a digital code with the converter and is fed to one of the inputs of the digital subtractive device. At its second input post code code nominal level. The resulting code difference is compared by a code comparison circuit with a permissible error code of 2. However, this device only allows automation of the control of uneven frequency response. To control the transient attenuation in dual channel equipment using this device, it is necessary to manually measure the amplitude of the signal from the output of one channel at each frequency and record the results in a table. Then make similar measurements of the signal from the output of another channel and the results are recorded in a table. Produced by joint processing of the measurement results, we obtain the characteristic of the transition attenuation. But such a control of transient-attenuation takes a lot of time and requires a large amount of computation by the operator. The purpose of the invention is to automate the control of transient attenuation between channels in a two-channel apparatus. The goal is achieved by the fact that the device for automatic admission control of the frequency response of radioelectronic equipment connected code comparison block control block, part code setter and controlled generator, successively connected nominal level code setter and The digital subtraction unit, voltage converter-code, the control input of which is connected to one of the outputs of the control unit, and the unit for the admissible irregularity code, the input of which is connected to the second input of the control unit and the output of the unit for the frequency code, a serially connected storage register, a digital divider and the first digital switch, series-connected master of the code for the crosstalk attenuation and the second digital switch, as well as two analog switches, and the output of the converter is The code is connected to the input of the storage register, the output of the first digital switch is connected to the input of the code comparison unit, the output of the controlled generator is connected to the input of the first analog switch, the output of the second analog switch is connected to the input of the voltage-voltage converter, the output of the master of the admissible non-uniformity code is connected with the second input of the second digital switch, the second input of the digital divider is connected to the output of the voltage-code converter, the output and the second input of the digital subtracter block Ina, respectively, with the second input of the first digital switch and the output of the storage register, and the remaining outputs of the control unit are connected to the controllers of the first analog switch, the first digital switch and the storage register, the second analog switch and the digital switch and the digital divider, and the control block contains sequentially connected element OR, trigger, pulse generator and second trigger, serially connected counter and decoder, the output of which is connected to the counting input of the first the third trigger, the third input of the latter is connected to the Start bus, the counter input is connected to the output of the frequency code setter, the input of the OR element is connected to the output of the avalan code block, the second input of the OR element is connected to the Reset bus and the inputs of the second zero setting of the trigger and the counter the output of the pulses and the second output of the decoder are connected respectively to the control inputs of the voltage-code converter and the first analog switch, and the first and second outputs of the second trigger are connected to the control inputs of the pre-switch ode frequency, the second analog and digital switches and digital divider and to the control inputs of the first storage register and the digital switch, respectively. FIG. 1 shows the scheme of the proposed device for automatic tolerance control; in fig. 2 is a control block diagram. The control device (Fig. 1) contains a frequency code setter 1 series-controlled, a controlled generator 2, an analogue switch 3 | monitored block A analog switch 5, voltage-code converter 6, storage register 7, digital divider 8, digital switch 9 block 10 for code comparison and control block 11, as well as digital. reading block 12 to one of the inputs of which the master 13 is connected the nominal level code, digital switch 1, with inputs of which are connected outputs of knobs 15 and 16 of the admissible nonuniformity code and the crosstalk code, respectively, and operating mode indicators 17-19-17, frequency 18 and 19 - measurement result. In FIG. 2 shows one of the options for building a control unit that contains a trigger 20, the unit installation input of which is connected to the Start bus, a pulse generator 21, the control input of which is connected to the trigger input, a trigger 22 whose input is connected to the output of a pulse generator, subsequently connected counter 23 and decoder 2, one of the outputs of which is connected to the counting input of the first trigger, and element 25 OR, the output of which is connected to the input of the zero setting of the trigger 20. Inputs of the zero setting of the trigger 22 and the counter and one of the input The element OR is connected to the Reset bus. The forward output of the trigger 22, the output of the pulse generator, the second output of the decoder, and the inverse output of the trigger are the outputs of the control unit. The device works as follows. According to the Start signal, the trigger of the control unit 20 is set to the unified state and enables operation of the pulse generator 21. The pulses from the generator output are sent to the voltage converter 6 start up and to the counting input of the trigger 22, the signals from the trigger 22 output control the operation of the analog switch 5i of both digital switches 9 and the storage register 7, the digital divider 8 and the setting 1 of the frequency code. Unit 1 sequentially changes its state over which the controlled oscillator 2 synthesizes a sinusoidal signal of the corresponding frequency. From the output of the control unit to the control input of the analog switch 3, a signal is received allowing the sinusoidal signal from the output of the controlled generator to the input of the first channel of the monitored unit L to be received. Measuring the frequency response and transition attenuation at each frequency is performed sequentially in two cycles that are generated by the trigger 22 management The control signals are then removed from the outputs of the control unit. In the first cycle, the control of uneven frequency response is performed. In this case, the switch 5 passes a signal from the output of the first channel to the input of the converter 6, the switches 9 and 1 4 connect the digital subtraction unit 12 and the unit 15 of the admissible non-uniformity code to the inputs of the comparison unit 10, and the code is written to the storage register 7. converter The measurement result code from the register output 7 and the nominal level code arrive at the inputs of the digital subtraction unit 12. The difference code corresponding to the non-uniformity of the frequency response at a given frequency, and the code of permissible non-uniformity arrive at the inputs of the code comparison unit 10. If the non-uniformity code exceeds the allowed value, a signal is sent to the input of the control unit and the test stops. The indicators 1-7-19 show the mode of operation, the monitored frequency and the measurement result at this frequency. If the non-uniformity of the frequency response does not exceed the set value, the device, on the next clock pulse, proceeds to the second cycle of operation, during which the dissipation is checked. In this case, the switch 5 passes a signal from the output of the second channel to the input of the converter 6, the switches 9 and III connect the digital divider 8 and the setter 16 of the crosstalk code to the inputs of the comparison unit 10, and the digital divider 8 is allowed to work. The second measurement code from the converter output and the division result corresponding to the crosstalk at a given frequency is compared by the comparison unit 10 with the code of the admissible transition damping. If the code for the transitional delay exceeds the allowable value, a signal is sent to the input of the control unit and the test stops. Indicators 17-19 show the operation mode, the monitored frequency and the measurement result at that frequency. If the crosstalk does not exceed the set value on the next clock pulse, the device proceeds to check the next frequency and the operation cycles are repeated. After the end of the test at the last frequency of the range from the output of master 1 of the frequency code, a signal is sent to the input of the control unit, by which counter 23 switches to the second state. The signal from the output of the control unit switches the switch 3 to another state and allows the sinusoidal signal to flow to the second channel of the monitored device. Further, the entire test is repeated for another channel. After the verification of the second channel from the output of the frequency master, the signal arrives at the input of the control unit, through which the counter 23 switches to the third state. In this case, the signal from the second output of the decoder 2 is fed to the counting input of the trigger 20, sets it to the zero state, and the test ends. The formula of the invention 1. A device for automatic tolerance control of amplitude-frequency characteristics of electronic equipment, comprising successively connected code comparison block, control block, frequency code setter and controlled generator, serially connected code setpoint generator and digital voltage subtractor B1K, as well as a voltage converter code, the control input of which is connected to one of the outputs of the control unit, and the unit master of the permissible non-uniformity code, the input of which is connected With the second input of the control unit and the output of the frequency code setter, characterized in that, in order to automate the control of the crosstalk between the channels in the two-channel equipment, the serially connected storage register, the digital divider and the first digital switch, are connected in series to the device; and the second digital switch, as well as two analog switches, the voltage-code converter output being connected to the storage register input, the first digit output the first switch is connected to the input of the code comparison unit, the output of the controlled oscillator is connected to the input of the first analog switch, the output of the second analog switch is connected to the input of the voltage converter code, the output of the setpoint device of the permissible mismatch code is connected to the second input of the second digital switch The digital divider is connected to the output of the voltage converter, the output and the second input of the digital deduction unit are connected respectively to the second input of the first digital switch and you Odom storage register, and the other outputs of the control unit are connected to the control inputs of the first analog switch. The first digital switch and the storage register, the second analog and digital switch, and the digital divider. 2. The device according to claim 1, that is, so that the control unit contains an OR element connected in series, a trigger, a pulse generator and a second trigger, a counter connected in series and a decoder, the output of which is connected to the counter the input of the first trigger, the third input of the last plug-in. bus to the Start, the counter input is connected to the output of the frequency code setting unit, the input element OR is connected to the output of the code comparison unit, the second input of the OR element is connected to the Reset bus and the zero setting inputs of the second trigger and counter, and the output of the pulse generator and the second decoder output are connected respectively with the control inputs of the voltage converter and the first analog switch, and the first and second outputs of the second trigger are connected to the control 710 inputs of the setpoint frequency code, the second analog and digital signal switches and a digital divider and control inputs of the storage register and the first digital switch, respectively. Sources of information taken into account during the examination 1. Patent of Germany No. 2060U8, cl. 21 e 36/10, 1965. 2, USSR Copyright Certificate No. 287123V18-21, cl. G 01 R 27/28, 15.06.80. / eleven 1B 15 /; 12 is