SU505994A1 - "Null-organ for analog-to-digital converter - Google Patents

Description

one

This invention relates to computing and instrumentation technology.

A null-organ for analog-to-digital converter is known, which contains a DC amplifier whose outputs are connected to the inputs of three threshold elements and to the input of the zero-setting circuit, a resistance converter, the first input of which is connected to the input voltage source and through two keys connected in series to the source of the compensating voltage, and the common point of the keys is connected to the second input of the impedance converter, and opto-electronic pulse amplifiers, whose inputs are connected to the outputs by horny elements.

The purpose of the invention is to increase the speed and accuracy of the null organ.

The proposed zero-body is characterized in that the inputs of the DC amplifier are connected to the first and second outputs of the resistance converter and to the output of the zero-setting circuit.

The drawing shows a null-organ diagram.

The pulp body contains contactless switches 1 and 2, a resistance converter 3, a DC amplifier 4, threshold elements 5-7, opto-electronic pulse amplifiers 8-10, and a tuning circuit of zero I.

The zero setting circuit 11 consists of a key 12, a storage capacitor 13 and a resistor 14.

The DC amplifier 4 contains a resistor 15, the differential amplifying cells 16-18 are covered by local feedback.

The device works as follows.

In the initial state (zero settings), the key 1 is closed and connects the input voltage from source 19 to both inputs of the impedance converter 3, with the result that two common-mode signals equal to the input voltage appear on both inputs of the differential amplifier cell 16 of amplifier 4. At the same time, the key 12 of the zero setting circuit 11 closes the charge circuit of the storage capacitor of this circuit 13, the voltage on which (correction voltage) rises to the value of the zero shift of the amplifier 4.

In operating mode, key 1 is open, and key 2 is closed and connects the input voltage from source 20 to the second input of the impedance converter 3. In contrast to the previous mode, two common-mode signals, generally not equal to each other, are present at the inputs of the differential amplifier cell 16 .

The magnitude; 1ia of the differential signal is determined by the difference in the levels of the input and compensating voltages. The key 12 in the operating mode opens the charging circuit of the storage Condensate 01 13, and the correction voltage is applied to the inverting input of the differential amplifying cell 16 through a resistor 14, compensating for the zero offset of the differential amplifying cells 16-18 of the amplifier 4 covered by the zero setting circuit I.

Due to the large time constant of the discharge of the storage capacitor 13, the voltage at the output of the amplifier 4 is determined only by the magnitude and sign of the differential signal at the input of the zero-body.

A impedance converter 3 containing two composite emitter repeaters on transistors of different conductivities permits a stable differential signal to be obtained, since the temperature drift of the active elements is mutually compensated.

In tuned zero mode, amplifier 4 is not covered by 100% feedback, as in known circuits, but through a resistive chain (resistors 14 and 15) with a relatively large division factor (about 10), which avoids the occurrence of spurious amplifier generation 4 and, therefore, to accelerate transients

switches 1 and 2. The output signals of the zero-body are removed from the differential amplifying cells 16-18 of the amplifier via the corresponding threshold elements 5-7 and opto-electronic pulse amplifiers 8-10.

Claims (1)

Invention Formula Zero-organ for analog-to-digital converter containing a DC amplifier whose outputs are connected to the inputs of the three threshold elements and to the input of the zero-setting circuit, a resistance converter, the first input of which is connected to the input voltage source and through two keys connected in series - to the source of the compensating voltage, and the common point of the switches is connected to the second input of the impedance converter, and opto-electronic pulse amplifiers, the inputs of which are connected to the output thresholds ementov, characterized in that, in order to increase its accuracy and speed, the inputs of the amplifier DC connected to first and second outputs of the converter and resistances to the output adjustment circuit zero.