SU1636785A2 - Device for wide band ac-to-dc conversion - Google Patents

Abstract

The invention relates to a measurement technique, in particular, devices for wideband conversion of an alternating voltage into a constant voltage. The purpose of the invention is to improve the accuracy of conversion by increasing the accuracy of the calibration of the device - by introducing a control unit 7, a switchable attenuator 8 and a tunable frequency generator 9. The reference voltage source 6 contains multipliers 10-12, memory blocks 13, 18, 21, subtraction blocks 14, 17, amplifiers 15, 19, analog divider 16 and key 20. The device also contains detector 1, amplifier 2, adder 3 and multiplier 4. 1 hp f-ly, 1 ill.

Description

The invention relates to measuring equipment, in particular to devices for broadband conversion of alternating voltage to constant, and is an improvement of the device according to ed. St. No. 978059.

The aim of the invention is to increase the accuracy of the conversion of the device by increasing the accuracy of its calibration.

The drawing shows a structural diagram of a device.

A device for broadband conversion of alternating voltage into direct current contains a series-connected detector 1 and amplifier 2, the output of which is connected to the first inputs of the adder 3 and the multiplier 4, the second input of the latter is connected to the output of the adder 3, the output of the multiplier 4 is connected to the first input of the analog divider 5, the second the input of which is connected to the second input of the adder 3 and the output of the reference voltage source 6, the signal input of which is connected to the output of the amplifier 2, and the control input is connected to the output of the unit 7 control and control input switchable attenuator 8, the input of which is connected to the output of the generator 9 tunable frequency.

The reference voltage source 6 contains a multiplier 10, both inputs of which are combined, connected to the input of the switch 11 and are an additional signal input of the reference voltage source 6. The output of the multiplier 10 is connected to the input of the switch 12, the first output of which is connected via the memory unit 13 to the first input of the subtraction unit 14, the second input of which through the amplifier 15 is connected to the second output of the switch 12, the output of the subtraction unit 14 is connected to the first input of the analog divider 16 , the second input of which is connected to the output of the subtraction unit 17, the first input of which through the memory unit 18 is connected to the first output of the switch 11, the second output of which through the amplifier 19 is connected to the second input of the subtraction unit 17, the analog output literal 18 through key 20 is connected to. the input of the memory unit 21, the output of which is the output of the reference voltage source 6, the control inputs of the switches 11 and 12 and the key 20 are combined and are the control input of the reference voltage source 6.

The input of the detector 1 is connected to the input terminal 22, the output of the analog divider 5 is connected to the output terminal 23, and the output of the switchable attenuator 8 is connected to the calibration terminal 24.

The device operates as follows.

A high-frequency input signal is detected by the detector 1, amplified by the amplifier 2 and supplied to the inputs of the adder 3 and the multiplier 4, and the voltage equal to the second input of the multiplier 4 from the output of the adder 3

U _E = KU _D + B _O; (1) where K is the gain of amplifier 2;

U is the output voltage of the detector 1;

E _q - the output voltage of the source 6 of the reference voltage.

The output voltage of the multiplier 4 in the analog divider 5 is divided by the output voltage of the source 6 of the reference voltage. As a result, the device ^and the output voltage is "· s>^<2>

where U _Q = Е _о / К is the voltage corresponding to the intersection of the asymptotes of the quadratic and linear sections of the amplitude characteristic of detector 1.

It can be seen from (2) that, at low voltages at the detector output (υ £ «υ ₀ ), the voltage П _{ВЬ (X is} proportional to Up. Since the detector operates in the quadratic mode, the amplitude characteristic of the converter is also quadratic. For large input voltages of the detector Up »U _o voltage and _{eo, x} is proportional to U · ^. Despite the fact that the detector is operating in the linear mode, the amplitude characteristic of the device is square, ie the squareness of the converter is maintained at any input voltage detector 1 Pr than the error due to a possible deviation of the amplitude of the transducer characteristics of the quadratic in the transitional region between quadratic and linear zones detector characteristics, determined by the error setting a reference voltage Ε _β when the device is calibrated. To calibrate the frequency of the generator 9 tunable frequency is set close to the frequency converted signal and the input the detector 1 is connected to the calibration clamp 24. In the initial state, the key 20 is open, blocks 13 and 18 of the memory through switches 11 and 12 are connected respectively to the output and inputs of the multiplier 10, and the switched attenuator 8 has minimal attenuation. In this case, the voltages at the input and output of the multiplier 10 are respectively equal to KP ^ and (KPRR ^2. These voltages are available at the outputs of the memory blocks 13 and 18. Respectively, at the command of the operator, a control voltage is generated at the output of the control unit 7, which closes the key 20, switches the inputs of the switches 11 and 12, respectively, to the inputs of the amplifiers 15 and 19, and also switches the attenuation of the switched attenuator 8, thereby reducing the signal power at its output by η times, while the input and output voltages of the multiplier 10, respectively are equal to (K1 ^) ^ and the output voltages of amplifiers 15 and 19, having the same gain n, are respectively equal to nKU-p ^ and n (KUp ₂ ) ^2. The previously stored voltages are stored at memory outputs 13 and 18, therefore, the outputs of blocks 17 and 14 subtraction obtained voltage, respectively equal

U ₍₇ pCi = ^ - KU-p,; and ₁₄ = (κυ _Ό,) ^r - n (ki _P2) ^g,

The voltage at the output of the analog divider 11 is obtained as the ratio of its input voltages.

This voltage is transmitted through a closed key 20 to the input of the memory unit 21, the output and input voltages of which are equal to each other, and as a result the relation „is satisfied. (KU ",) ² - POSHZU ,, _l ^Е “ 'Ч ₂ -'

After calibration, the control voltage at the output of the control unit 7 is changed to its original value, closing the key 20, setting the switches 11 and 12 to the initial position preceding the calibration, and switching the attenuation of the attenuator 8 to the minimum value. In this case, at the output of the memory unit 21, a voltage is stored, the value of which is determined by the expression (4).

Claims (2)

Claim 1. A device for the broadband conversion of alternating voltage to constant by ed. No. 978059, characterized in that, in order to increase the conversion accuracy of the device by increasing the accuracy of its calibration, a control unit and a tunable frequency generator and a switched attenuator are added to it, the output of which is the calibration output of the device, the control input of the switched attenuator is connected with the output of the control unit and with the control input of the reference voltage source, the signal input of which is connected to the output of the amplifier. 2 □ Device pop. 1, • characterized in that the reference voltage source contains a second multiplier, both inputs of which are combined 'and are a signal input of the reference voltage source, the output of the multiplier is connected to the input of the first switch, the first output of which is connected through the first memory block to the first input of the first subtraction block, the second input of which through the first amplifier is connected to the second output of the first switch, the output of the first subtraction unit is connected to the first input of the analog divider, the output of which is connected via the key n with the input of the second memory block, the output of which is the output of the reference voltage source, the input of the second switch is connected to both inputs of the multiplier, the first output of the second switch through the third memory block is connected to the first input of the second subtraction unit, the second input of which is connected to the second amplifier through the second amplifier the output of the second switch, the output of the second subtraction unit is connected to the second input of the analog divider, the control inputs of both switches and the key are combined and are the control input of the source reference voltage reference.