SU632084A1 - Voltage-to-time interval converter - Google Patents

Description

The invention relates to a measurement technique that can be used to measure a DC voltage by converting it into a time interval. A voltage-to-voltage converter is known on a multivibrator with an additional transistor in a recharge circuit of a capacitor 1J. The disadvantage of the circuit is the nonlinear dependence of the pulse duration on the input voltage. Closest to the proposed time converter in the time interval, which contains a differential amplifier, the inverting input of which is connected via a switch to the converter input and to the common bus, and the non-inverting input through a parallel-connected switch, capacitor, first and second controlled polarity current sources made on transistors, of different types of conductivity, connected to the wallpaper bus, and the source of clock pulses, the output of which is connected to the control inputs of the switch and key 2. Week the remainder of the famous transform. tel - conversion error due to instability of the parameters of transistors included in current sources. The purpose of the invention is to improve the accuracy of the conversion. This goal is achieved by the fact that in a known converter, which contains a differential amplifier, the inverting input of which is connected via a switch to the converter input and to a common bus, and the non-inverting input is connected via a parallel key, capacitor, second current source on transistors of different types of conductivity, connected to the common bus, and the source of clock pulses, the output of which is connected to the control inputs of the switch and the key, the control input p the first- current source connected to the common Ishna, and the control input of the second through the normalizing unit - to the output of the differential amplifier. The drawing shows the structural electrical circuit of the proposed voltage converter in the time interval. The inverting input of differential amplifier 1 is connected via switch 2 to input 3 of the converter and to the common bus, and non-inverting via connected in parallel capacitor 4, switch 5, controllable current sources 6 and 7 are connected to the obbus. The clock source 8 is connected to the control inputs of the switch 2 and the key 5. The control input of the current source 7 through the normalizing unit 9 is connected to the output of amplifier 1, which is the output and output of the converter.

The voltage to time converter operates as follows.

In the initial state, the inverting input of the differential amplifier 5 is connected via a switch 2 to the common bus, and the key 5 is closed. The voltages at the inputs and output of the amplifier and the voltage at the output of the normalizing unit are zero. Thus, with equal parameters of current-generating elements of current sources b and 7, the difference current flowing through the storage capacitor is zero.

At the moment corresponding to the beginning of the pulse frequency, the key 5 is opened, and the switch 2 is fed to the inverting input of the amplifier, the input voltage that is inverted and amplified.

If the input voltage is greater than zero, a negative voltage appears at the amplifier output, which is normalized by the block 9, This stable voltage, changing the operating mode of the current source 7 in the direction of decreasing the output current, results in a positive difference current through the capacitor . The capacitor charge continues until the voltage at the input of the amplifier is equal, at which, due to a change in the polarity of the output voltage of the amplifier, the output current of source 7 increases (modulo). The differential current through the capacitor becomes negative, and it is discharged to a voltage at which the amplifier returns to its previous state. The current source 7 returns to the operation mode with a lower output current, and until the time point corresponding to the end of the clock pulse, the voltage on the capacitor is remembered and remains equal to the input due to the feedback between the amplifier output and its forward input through current sources 6, 7 and a capacitor, forming a two-pole sawtooth generator.

At the moment of the end of the clock pulse, the inverting input of the differential amplifier switches to the common bus, and the switch 5 discharges the capacitor, and the converter returns to its initial state.

If the input voltage is less than zero, a positive voltage appears at the output of the amplifier, which is normalized by the block 9, the operating mode of the current source 7 is set such that the difference current of the current sources 6 and 7 is negative. The capacitor is charged until the voltage is equal, at the inputs of the amplifier. The capacitor voltage is remembered and remains equal to the input.

The accuracy of the conversion is enhanced by the fact that for both fields of the input signal, the unstable parameters of the base-emitter voltage and the reverse current are mutually compensated. When using transistors with identical parameters, the instability of the capacitor overcharge current can be reduced to a very small value, due to which the conversion accuracy is improved.

Claims (2)

1. USSR author's certificate No. 376888, cl. And 03 K 5/15, 28.06.71. 2. USSR author's certificate number 503360, cl. H 03 K 13/17 . i I