SU561907A1 - Converter of active and reactive resistance to frequency - Google Patents

Description

The invention is designed for electrical measuring equipment and can be used in measurement and measurement systems and automatic control devices.

A known converter of active and reactive resistances to a frequency contains a comparing device, a first integrating element whose input is connected to the output of the comparing device and an output to the input of a differentiating circuit, a second integrating element whose output is connected to the first input of the comparing device 1.

However, the known converter is characterized by the linearity of the conversion characteristic due to the finite values of the first integrator's time and differentiating circuit, as well as the limited possibility of changes of these constant times as the range of the transformed parameter widens and the slope of the conversion function increases.

In order to increase the linear characteristic of the converter, the second input of the comparison device is connected by a differential circuit, and the input of the second integrator is connected to the output of the comparison device, while the resistances being transformed are the elements of the drive time of the first integrating link.

In the drawing, a structural electrical circuit of the proposed converter is given.

The converter of actuation and reactance to frequency contains a comparison device 1, the first integrating link 2, the input of which is connected to the output

leveling device 1, and the output is to the input of the differentiating circuit 3, iBTOpoe integrating link 4, the output of which is connected to the first input of the comparison device 1, the second input of the last one is connected to

the output of the differentiating circuit 3, and the input of the second integrator 4-with the output of the comparison device 1, the convertible resistances being the resistances of the time elements of the driving circuit

first integrator 2.

The converter works in the following way.

Unipolar voltage drops from the output of the comparison device 1 are received

to the inputs of the first and second integrating links 2 and 4, as a result of which linearly varying voltages are formed at the outputs of the latter, the rates of change of which are directly proportional to the amplitude value of the voltage at the output of the comparing

devices 1 and inversely proportional to the values of the constant time of the integrating links 2, 4. The output voltage of the first integrating link 2 is fed to the input of the differentiating circuit 3, as a result of which the output voltage is formed at the output of the last after a certain time interval. The half-period duration of the output oscillations of the converter is determined from the condition that the linear-varying voltage at the output of the second integrating link 4 of the reference voltage level at the output of the differentiating circuit 3 is reached. The moment of equality of the indicated voltages is fixed by the comparison device 1, and the polarity of its output voltage, in the same way, the process of forming the next half period of output oscillations begins.

Thus, the proposed converter performs linear conversion of the active and reactive resistances to the pulse frequency, the stability of the conversion slope being determined by the stability of the timing circuit of the second integrating link 4 and the differentiating circuit 3. An increase in the slope of the conversion function is inevitably accompanied by the approximation of real integrating links 2 and 4 and differentiating circuit 3 to the ideal (the time constant of the first integrating link 2 increases, and the constant the time of the differentiating circuit 3 is reduced), as a result of which the accuracy of the integration and differentiation operations is increased, and hence the linearity of the conversion characteristic is improved.

Claims (1)

1. Copyright invention of the USSR No. 372672, iM. Cl.2 N OZK 13/02, 1973.i