SU573873A1 - Analogue-digital converter - Google Patents

Description

(connected to the third input of the control unit, the second output of which is through the additional; Nite / pn counter is connected to the decoder, the output of which is connected to the first input of the additional switch, the second input of which is connected to the output of the amplifier via the step negative feedback and An additional switch is connected to the second input of the amplifier.

The drawing shows a structural electrical circuit of the proposed device.

The analog-to-digital converter contains a subtraction unit 1, an amplifier 2, a switch 3s, a source 4 of a reference voltage, an integrator 5, a detector 6 zero, a control block 7, a frequency generator 8, counters 9 and 10, an indicator 11, a converter 12 voltage, block 13 stepwise feedback-OBD feedback, switch 14, decoder 15, capacitor frequency meter 16, operational charge lamp 17.

The A / D converter performs a four clock conversion cycle.

In the first clock, the analogue signal being converted comes through; unit 1, amplifier 2 and switch 3 to integrator 5, where the fixed gap is integrated. time set by block 7. After this, the integrator 5 is discharged by a signal from source 4 fed to integrator 5 through switch 3. The discharge time of integrator 5 is detected by detector b and determined by counting the pulses of the generator 8 by counter 10. the first cycle is determined only by the higher bits of the input signal,

In the second cycle, the digital value of the high-order bits with converter 12 is again converted into analog form and entered into block 1, where it is subtracted from the input signal.

During the time of the first and second cycles, the capacitor frequency meter 16 supplies to the operational amplifier 17 a voltage inversely proportional to the period by the variable component of the analog signal.

The output voltage of the operational amplifier 17 through the block 7 controls the number n of contacts, into which the third cycle is divided,

In the third cycle, the resulting difference is transformed in the same way as in the first cycle, but in this cycle, the lower bits of the input signal corresponding to twice the maximum noise value are determined. In this third beat

divided into на sub-contacts, the number of which is determined depending on the duration of the period of the mixing component of the converted conversion with the help of a capacitor frequency meter 16 and an operational amplifier 17.

The signal from block 7 is fed to a commator 14, which connects the stage of block 13 selected to each of the sub-contacts

the decoder 15 and the counter 9 contacts, depending on the number of p contacts, to the input of the amplifier 2, reducing the transmission coefficient of the voltage of the amplifier 2 by the number of times equal to the number of the contacts. In this case, the capacitor frequency meter 16 makes an estimate of the duration of the equivalent period of the variable component of the converted tax signal in the form of a voltage, proportional to its inverse value -

The frequency that arrives at the optional amplifier 17 from the output of which the signal corresponding to the minimum conversion error of the analog signal during different periods of the variable power circuit goes to block 7 and then to switch 14 via a counter 9 and a decoder 15. The results of the conversion of each hit are accumulated in counter 10, the average digital value

convertible voltage, which is supplied to the indicator 11.

In the fourth cycle, the input of the analog-digital converter is short-circuited, and zero is corrected.

Claims (2)

1.Shl1shdin V.M. Digital electrical measuring instruments. M., Energie, 1972, p. 281-283. 2. USSR author's certificate 482890, cl. H 03 K 13/17, 20.11,72. u 17 13 6