SU453793A1 - VOLTAGE CONVERTER INTO THE FREQUENCY OF FOLLOWING PULSES •:?: '•: T be - Google Patents

Description

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The invention relates to the field of electrical measuring equipment and may find application in the construction of frequency-digital devices.

A voltage to pulse frequency converter is known, containing an operational amplifier, to the inverting input of which an integrating circuit is connected, and the output is connected to a non-inverting input via a diode and a resistive voltage divider, and a metering device connected to the integrating circuit and through a switch to an amplifier output .

In order to simplify in the proposed converter, the output of the switch is connected to the non-inverting input of the amplifier through a series-connected additional integrating circuit and a diode.

The drawing shows a block diagram of a voltage converter in the frequency of pulse operation.

The voltage to pulse frequency converter contains an operational amplifier 1, to the non-inverting input of which is connected an integrating circuit 2 and 3, and an electronic switch 4 connected to an integrating circuit consisting of a capacitor 2 and a resistor 3 is connected to its output through metering device 5 and through serially connected another integrating

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a circuit consisting of a capacitor 6, a resistor 7 and a diode 8 with a non-inverting amplifier input, to which the output of the operational amplifier 1 is also connected via a serially connected diode 9 and a resistor 10, and the non-inverting input through a resistor M is connected to the common wire.

The operation of the voltage-to-pulse frequency converter is based on the charging of capacitor 2 with a current proportional to the input voltage and the subsequent discharge of stable amounts of electricity generated in the metering device by pulses of b.

Over the period of conversion, the amount of electricity accumulated on the integrating capacitor 2 from the input voltage Ux is balanced by the feedback pulse.

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From the moment the feedback pulse terminates, the converter operates as follows.

Under the action of this pulse, the voltage on the capacitor 2 becomes negative (relative to the common wire) and is applied to the inverting input of the operational amplifier. At the non-inverting input of the amplifier, the voltage is zero, since the voltage at the output of the amplifier is equal to the saturation voltage and, therefore, diode 9 is closed. Key 4 is closed and at its output the voltage is also zero. When capacitor 2 is charged with a positive input current (plus an input voltage source applied to resistor 3), the voltage across it increases and there comes a time when it is equal to zero, as a result, the potentials of both amplifier inputs are equal and it leaves the saturation region. At the same time, its gain factor increases dramatically. The output voltage starts to change from + / 7n to -1 / ".

Diode 9 opens and closes the positive feedback circuit through a resistor 10 from the amplifier output to the non-inverting input. Due to this, the process of changing the voltage at the output of the amplifier occurs as an avalanche. A non-inverting input sets the voltage 1 / + which keeps the amplifier in this state. The key 4 is disconnected, and the voltage at its output varies from zero to the reference Uo, and the voltage at the output of the second integrating value, consisting of capacitor 6 and resistor 7, begins to increase. The integration constant is chosen in such a way that the voltage at the non-inverting input increases much faster than at the inverting input of the amplifier. As soon as it exceeds the unlocking voltage of diode 8, the voltage at the non-inverting input of the amplifier begins to increase, which occurs until the voltages at both inputs become equal.

The output voltage of the amplifier will begin to vary from -Un to-j- (/ n, diode 9, will close, and key 4 will close, with the metering device producing a negative emulsion of a stable amount of electricity and discharging capacitor 2. The converter will return to its original state Then the described work process is repeated from the beginning.

Subject invention

A voltage to pulse frequency converter containing an operational amplifier, to the inverting input of which the integrating circuit is connected, and the output connected to a non-inverting input via a diode and resistive voltage divider, and a metering device connected to the integrating circuit and through a switch to the amplifier output, characterized in that, in order to simplify the circuit, the output of the key is connected to the non-inverting input of the amplifier through a successively connected additional integrating circuit and a diode.