SU860305A1 - Method of converting voltage to frequency - Google Patents

Description

one

The invention relates to a measurement conversion of voltage or current into frequency (unitary code) and can be used in measurement technology and telemetry.

A known method for converting a voltage or current into a frequency (at which it integrates the difference between the input signal and reference pulses generated along the edges of the reference frequency pulses when the integration result exceeds the threshold level, and the output frequency pulses are generated by signals of such an excess l3.

The disadvantage of this method is that the likelihood of the synchronization of the reference frequency generator to the threshold device is significant, especially at multiple output and reference frequency ratios, which leads to a decrease in conversion accuracy.

The purpose of the invention is to improve the accuracy of the conversion by eliminating forced synchronization.

The goal is achieved by integrating the difference between the input voltage and pulses of a stable volt-second area, the front and

the leading edges of which are formed on the edges of the pulses of the reference frequency when the integration result exceeds the threshold level, and on the comparison signals of the integration result and the threshold level, output frequency pulses are generated, and the presence of the specified excess is fixed at times that do not coincide with

10 fronts of the reference frequency pulses, and b these moments generate pulses of a stable volt-second area.

Such a separation in time of the operations of determining the excess and the formation of 15 practically eliminates the forced synchronization of the reference generator by a threshold device, increases the stability of the reference pulses and increases the accuracy of the conversion.

The essence of this method is illustrated by one of the possible examples of its implementation.

FIG. Figure 1 shows the functional25 on the voltage to frequency converter circuit of FIG. 2 - time diagrams in its characteristic points.

The converter has an integrator 1 (for example, a solving IC integrator)

Claims (1)

30 with two summing inputs 2 and 3, with input 2 being the input of the converter and output 4 connected to input 5 of a timed to input b threshold device 7 having output 8 connected to input 9 of pulsed feedback unit 10. The output 8 of the threshold device 7 is also the output of the converter. The pulsed feedback unit 10 has, besides that, input 11 and output 12 connected to input 3 of integrator 1. The converter includes a frequency generator 13, output 14 of which is connected to input b of a threshold device 7 and input 11 of unit 10 of a pulse feedback. The voltage conversion method is implemented as follows. When the transformer 1 is connected to the input 2 of the transformer 1, at some point in time, it may turn out that the threshold device 7 is in a state not working. At the same time, there is no signal at the output B of the threshold device 7 and the input of the pulsed feedback unit 10, In this state, there is no signal at the output 12 of the block 10, and the integrator 1 integrates only the signal at input 2, As a result of the integration, the value of the signal at output 4 integrator 1 and input 5 of threshold device 7 is changed. The threshold device 7 is met clock | IMT, e. it triggers only if there is a potential at the input 5, the threshold of operation exceeds the threshold, and the signal that changes in a certain direction at the clocking input b. When the signal at input 5 changes and there are pulses of the reference frequency at input b at some of the moments of passage of the pulse edge, the threshold device 7 is activated, and the signal goes to the output of the converter and the input 9 of the pulsed feedback unit 10. Upon receipt of this signal, the pulse feedback unit 10 generates a precision amplitude pulse at output 14, the beginning of which coincides with the front of the signal of the generator 13 of the reference frequency following the triggering of the threshold device 7, and the duration is equal to the period of the signal. block 10 of the impulse feedback and input 3 of integrator 1, it integrates the algebraic sum of the signals at inputs 2 and 3, in the converter, the parameters are chosen so that this sum is the opposite of the sign of the input signal Therefore, after the signal on input 3 is output, the output voltage of the integrator 1 is in the opposite direction. After some time, less than the reference frequency period, the cost of the device 7 will be in an unresolved condition. Then the reference impulse ends at the output of the pulsed feedback unit 10, and the processes in the converter begin to repeat. From the operation of the converter and timing diagrams, it is realized that it implements the proposed method of conversion, integrating the difference is performed by integrating 1, comparing the integration result with the threshold level and generating the signal from the comparison results by the threshold device 7, generating the reference pulses by pulsing the reverse pulse connection. From the description and timing diagrams, it can be seen that for any input signal and any ratios of the output and reference frequencies, the influence of the switching of the threshold device 7 on the duration of the frequency period and, therefore, the duration of the reference pulse is minimized by allocating the trigger points of the threshold device 7 from the edges pulse generator 13 reference frequency, which form the reference pulses. It should be noted that such diversity can be achieved with the help of many other devices, for example, various devices for clocking logic circuits, one-shot, etc. When applying the proposed method, the parasitic forced synchronization of the reference generator with a threshold device is practically eliminated. Thus, the dependence of the feedback pulse duration on the response times of the threshold device and, therefore, on the input signal is eliminated. This reduces the non-linearity and improves the accuracy of the conversion. The invention claims a method for converting voltage into a frequency at which the difference between the input voltage and impulse of a stable volt-second area is integrated, the leading and trailing edges of which are formed on the edges of the reference frequency pulses when the result of the integration exceeds the threshold level, and by comparison the result of the integration and the threshold level is formed pulses are outputted by the fact that, in order to increase the accuracy of the conversion, the presence of this excess is fixed at times not padakhime heitami pulses with reference chastO1 1% and moments e.ti form stable voltsekundkoy ishul {n oschadi, iifsfmatsii sources, received in BHRUaHHe at examination 1 If U.S. Patent 3,296,613 to. 340-347, 1967 (prototype). chg 1