SU641663A1 - Arrangement for automatic calibration - Google Patents

Description

The invention relates to radio engineering and can be used for automatic calibration of measuring paths of radio-electronic equipment.

A device for automatic calibration, for example, a measuring path, comprising a switching pulse generator, a serially connected signal generator, a voltage divider and a switch, the output of which is connected to the input of the measuring path, and a detector, the input of which is connected to the output of the measuring path, and an electronic j1 key)

However, this device is characterized by insufficient calibration accuracy and does not allow calibration by the absolute value of the measured physical quantity and automatically indicate or record the measurement result.

The aim of the invention is to improve the accuracy of the calibration.

To do this, an automatic calibration device, such as a measuring path, comprising a switching pulse generator, a serially connected calibration signal generator, a voltage divider and a switch b, the output of which is connected to the input of the measuring path, and a detector whose input is connected to the output of the measuring path, and an electronic key, a control unit is inserted, a sequentially connected source of stabilized voltage and a first amplitude-time converter, the first and The second elements are Prohibited, the outputs of which through the corresponding elements AND are connected to the inputs of the reversible voltage generator. The device also contains a clock pulse generator of the second amplitude-time converter.

The first output of the control unit is connected to another input of the switch, the second output through the switching pulse generator is connected to the input of the calibration signal generator and to the input of the stabilized voltage source, and the third output of the control unit is connected to one input of the electronic switch, the other input of which is through the second amplitude-time the converter is connected to the detector output. The output of the electronic key is connected to the first inputs of the first and second elements of the Ban, the second inputs of which are coeAHfienbi with the output of the first amplitude-time converter.;. The output of the clock generator is connected to the second inputs of the corresponding elements And, and the output of the reversible voltage generator is connected to another input from ft5epHre; ibHoro tract. The drawing shows a structural electrical circuit of the proposed device. A device for automatic calibration, for example, a measuring path, contains a commutation pulse generator 1 of pulses, a calibration signal generator connected in series, 2 signals, a voltage divider 3 and a switch 4, the Kotopio output is connected to the input of the measuring path 5. The device also contains a detector 6, the input of which is connected with output from the transmission path 5, y, electronic key 7. Control unit 8 is inserted into the device, successively connected to source 9 of stabilized fsa voltage and first time-and-amplitude amplitude th Converter 10, the first and second elements of the Ban 11 and 12, the outputs of which through the corresponding elements And 13 and 14 are connected to the inputs of the reversing generator 15, as well as the generator 16 clock pulses and the second amplitude-time converter 17. With this, the first output of the block The control unit 8 is connected to the other input of the switch 4, the second output through the switching generator 1 of pulses is connected to the input of the calibration generator 2 signals and to the input of the sources 1, 9 stabilized voltage, and the third output of the control unit 8 connected to one input of the electronic key 7, the other input of which is connected via the second amplitude-time converter 17 to the output of the detector 6. The output of the electronic key 7 is connected to the first inputs of the first and second elements of the Ban 11 and 12, the second inputs of which are connected to the output of the first amiluminous-time converter 10. The output of the generator 16 clock pulses is connected to the second inputs of the corresponding elements And 13 and 14. And the output of the reversible voltage generator 15 is connected to another input of the measuring path 5. Device The structure works as follows. The control unit 8 generates pulses of adjustable duration to control the calibration and measurement modes. The control pulses in calibration mode are fed to switch 4, electronic key 7 and switching pulse generator 1, which produces a periodic sequence of pulses fed to the control inputs of calibration signal generator 2 and stabilized voltage source 9. The high-frequency pulses of the calibration generator 2 signals through the 3-divider divider, switch 4 and measuring path 5 are fed to the measuring instrument and in parallel to the detector 6. amplitude of input signals. These pulses are received through the electronic key 7 pair..ofly at the prohibiting input of the first element of the Ban 11 and allowing the input of the second element of the Ban 12. At the same time, pulses from the first amplitude-time converter 10 are received at the other inputs of the first and second elements Ban And And 12 the amplitude of the pulses arriving at its input from source 9 is stabilized by voltage. From the outputs of the first and second elements of the Barring 11 and 12 pulses arrive at the elements And 13 and 14, the second inputs of which are interconnected and connected to the output of the generator 16 clock pulses. Each of the outputs of the elements 13 and 14 is connected to the corresponding input of the reversible voltage generator 15. The impulses arriving at the summing input of the reversible voltage generator 15 cause an increase in its output voltage, equalized by its transmission coefficient of the measuring path 5, and the impulses arriving at the subtracting input. on the contrary, they understand this stress. The gain control of the measuring path 5 is controlled until the pulses of the first and second amplitude-time transducers 10 and 17 become equal. Smoothly adjusting the amplitude of the pulses of the stabilized voltage source 9 sets the indications of the indicator connected to the output of the measuring path to points a and b equal to the value of the voltage (power or power spectral density) at the output of the voltage divider 3. With the termination of the control of the pulses of the control unit 8, the switch 4 breaks the chain of passage of the calibration signal through the meters {tract 5 and connects it to the source of the measured signal. At the same time, the control pulse is removed from the electronic key 7, which prevents the signal from flowing to the inputs of the first and second switches Ban 1 and 12 and to the reversible voltage generator 15, retaining the last calibration voltage at the input of the adjustable element of the measuring path 5 the The measuring path 5 with a digital indicator may include a detector 6 and a second amplitude-time converter 17. In this case, the device is connected to the output of the second amplitude-time converter 17 and contains