SU760127A1 - Functional frequency generator - Google Patents

Description

The invention relates to the field of automation and computing, in particular to devices for functional signal conversion.

A functional frequency generator 5 is known, which contains an input source, two shift registers, a control unit, a digital-to-analog converter, a controlled frequency generator, and a controlled frequency divider (1).

The disadvantage of the device is ^ reduced accuracy due to the error of conversion in often-. This time-varying voltage from the output of the digital-to-analog converter.

Closest to the invention is a functional frequency generator, a co-20 holding a functional voltage converter, the signal inputs of which are connected to the outputs of sources of convertible voltages, and a controlled frequency generator connected by a 25 start input to the start input of a functional voltage converter and a trigger voltage bus [2] .

Functional voltage converter is made on the generator expo-30

2

: potential voltage and comparator, connected by the first input to the output of the exponential voltage generator and the output of the functional converter. The start input of the exponential voltage generator is connected to the start input of the functional converter, and the reference input of the generator, the exponential voltage ’and the second input of the comparator are connected to the signal inputs of the functional converter.

The disadvantage of the generator is reduced accuracy due to the error in converting to frequency. The variable in time and output voltage of the functional converter when using controlled frequency generators, the principle of which is based on integrating the input voltage during the formation of the next period of the output frequency.

The purpose of the invention is to improve accuracy. ^:

To this end, a functional frequency generator containing a functional voltage converter, the signal inputs of which are connected to the outputs of the sources of transformed voltages, and a controlled generator

3,760

frequency, connected to the trigger input)

'to the start-up input of the function voltage converter and the start-up voltage bus, a terminating amplifier,' two capacitors and two switches are additionally introduced, the first and second outputs of the first switch connected by a signal input to the output of the function voltage converter connected to the first and second signal inputs the second switch and one plate of capacitors connected by other plates with a common bus function frequency generator, and the output of the second trans the switch is connected via a matching amplifier to the signal input of the controlled frequency generator, the output of which is connected to the control inputs of both switches.

The drawing shows a diagram of a functional frequency generator. ·

The generator contains a functional voltage converter 1, connected by signal inputs to the outputs of convertible voltage sources 11, ".and connected by the output

with the signal input of the first switch 2 ,. the first and second outputs of which are connected respectively to one plates of capacitors 3 and 4, connected by other plates to a common .. bus function generator "frequency, and to the first and second signal inputs of the second switch 5. Switch 5 output via matching.quad amplifier 6 connected to the signal input of the controlled frequency generator 7, connected by an output to the control inputs of switches 2 and “5. The starting inputs of the converter. and generator 7 are connected to the bus 8 of the starting voltage 1 ^ '.

Functional generator "Frequencies" works as follows. ·

The operation of the generator begins with the supply to the start inputs of the converter 1 and the generator 7 of a signal from the bus 8 of the trigger voltage. In this case, the switches 2 and 5 are set in such a position that one of the capacitors, for example, the capacitor ¹ 3, is connected only to the output of the functional converter 1, and the other capacitor 4, which was charged to the output voltage Converter 1 is connected only to the input of the matching amplifier 6. The formation of the first period at the output of the generator 7 begins. This period will be proportional to the voltage at the output of the converter 1 at the time of starting the generator. <

The voltage at the output of the inverter 1 during the formation of the first

period of the oscillator frequency 7 will be

change and therefore will

Change the voltage on the capacitor ί

127 ₄

• 3, connected to the output transform. 1 by the switch 2. At the end of the first period of the generator frequency 7, the output signal of this generator switches switches 2 and 5 in such a way that now the capacitor 3 is connected only to the input of amplifier 6 through switch 5, and the capacitor 4 through switch 2 is connected only to the output of converter 1. The formation of the second period_output signal of generator 7 begins. At the same time, the voltage stored at capacitor 3 corresponding to the output 15 is fed to its signal input apryazheniyu'preobrazovatelya 1 at the end of the first period. Further, the generator continues, and the subsequent periods of the output signal of the generator 20 of the generator 7 are formed as described above.

Thus, the frequency (period) of the generator output signal will vary in proportion to the 25 instantaneous values of the output voltage of the converter 1, which provides a corresponding increase in accuracy when converting the voltage from the output of the converter 1 to the frequency of the output signals of the generator 7.

Claims (1)

Claim A functional frequency generator containing a functional voltage converter, the signal inputs 35 of which are connected to the outputs of convertible voltage sources, and a controlled frequency generator connected to the start input to the start input of a functional voltage converter and a trigger voltage bus, characterized in it additionally introduced a matching amplifier, two capacitors and two switches, with the first and 45 second outputs of the first switch connected to the input terminal with the output of the functional voltage converter, connected respectively to the first and second signal inputs of the second switch and one capacitor plates connected by other plates to the common bus of the function frequency generator, and the output of the second switches connected via a matching amplifier to the signal input of the controlled frequency generator, output which is connected to the control inputs of both switches'.