SU537385A1 - Device for measuring digital magnetic recording parameters - Google Patents

Description

a linear detector and an inverter, while the other input of the second switch is connected to the output of the linear detector, the voltage divider output is connected to the second input of the main controlled switch and the same input of the third switch, the second memory register input is connected to the digital voltmeter output, and the outputs of the control unit - with the second input of a digital voltmeter and with the third inputs of all controllable switches.

The drawing shows a block diagram of the proposed device.

The output of the controlled switch 1 is connected in series with the selective amplifier 2, the linear detector 3, the controlled switch 4, the inverter 5 and the digital voltmeter 6, and the source 7 of the reference circuit is connected to the input of the switch 1. The digital voltmeter output is connected to an electrically closed circuit consisting of memory register 8, control switch 9, voltage divider 10, and control unit AND (switch 1 is the base, switch 9 is the second auxiliary, and switch 4 is the third) .

The device operates in four cycles.

In the initial state, all the switches are in the position indicated in the drawing, and the voltage transfer ratio of the voltage divider is one.

In the first cycle, the measured voltage is fed through switch 1 to the input of amplifier 2 and then through detector 3, switch 4 and inverter 5 to a digital voltmeter 6. There is an amplified signal at the input of the detector and a constant signal at the input of the voltmeter voltage proportional to the voltage of the measured signal amplified and transformed in the detector, i.e. a voltage is formed at the input of the voltmeter that is proportional not only to the measured voltage, but also over the transfer ratio of the amplifier, as well as the overvoltage ratio cottage (conversion) detector. After a selected period of time, the voltmeter generates a control signal that acts on switch 1 and inverter 5.

In the second cycle, the input of the amplifier 2 through the switched switch 1, the divider 10 and the switch 9 feeds the reference voltage from source 7. This voltage, amplified and detected, is inverted and also goes to voltmeter 6, which captures the number of pulses as a digital code . This code, according to the signal from control unit 11, is transferred to memory register 8, which makes it possible to select the required transmission coefficient in divider 10.

In the third cycle, switch 1 is again switched, and with it switches

4 and 9. Switching signals come from the control unit. At the same input, an emitter receives a measured signal, which is detected and through switch 9 goes to divider 10. From it, a constant voltage through switch 4 and inverter 5 comes to voltmeter 6.

In the fourth cycle, the signal from the voltmeter again switches all the switches and now the voltage is fed to the input of the amplifier through switch 9, divider 10 and switch 1. This voltage, amplified and detected, passes through the switch 4 to the inverter and also acts

per voltmeter 6. As a result of the implementation of the third and fourth cycles, the voltmeter records the corresponding number of pulses.

Thus, the digital readout of a voltmeter is directly proportional to the measured voltage, and since the third and fourth cycles used to obtain the final measurement result, the input of the amplifier 2 and detector 3 is supplied with the same voltage, equal in value to the measured voltage, The gaps arising from the nonlinearity of the conversion of these voltages by the amplifier and the detector are the same. This makes it possible to reduce the effect on the output results of measurements of nonlinearity.

amplitude response of the amplifier and the converter response of the detector.

Claims (1)

Invention Formula A device for measuring parameters of a digital magnetic recording, comprising a reference voltage source, a control switch connected in series, a selective amplifier and a linear detector, as well as an inverter and a digital voltmeter with double integration, characterized in that, in order to reduce the influence on the results of measurements of the nonlinearity of the amplitude characteristic of the amplifier and the converter characteristic of the detector, it is equipped with series-connected second controlled switch, voltage divider, memory register and control unit connected between the voltage source and the second inverter input, as well as the third controlled switch installed between the linear detector and the inverter, this other input of the second switch is connected the output of the linear detector, the output of the voltage divider with the second input of the main controlled switch and the same input of the third switch, the second input of the memory register with the output of the digital voltmeter, and the outputs of the control unit with the second input of the digital voltmeter and with the third inputs of all. controlled switches.