PL137208B1 - Dc amplifier with periodical adjustment of zero,especially for digital voltmeters - Google Patents

Description

The subject of the invention is a DC amplifier with periodic zero correction, especially for digital voltmeters. The well-known DC amplifier with periodic zero correction, used in the Hewlett Packard USA type 3490A digital voltmeter, consists of an operational amplifier, a capacitor, an output divider and a series of keys. controlled from the control system. The non-inverting input of the op-amp is connected, via one key, to the DC amplifier's input terminal with periodic zero correction and, via the second key, to its ground. The op-amp's inverting input is connected via a capacitor and a third key to the ground of the amplifier, and via a fourth key to the op-amp output which is connected to the DC amplifier's output terminal with periodic zero correction and an output divider. Between the outputs of the output divider and the inverting input The operational amplifier is turned on a series of keys, the setting of which depends on the value of the amplification factor of the DC amplifier with periodic zero correction. The disadvantage of the known DC amplifier with periodic zero correction is the necessity to use a large number of keys on the op amp inputs. These keys, usually implemented in the form of transistor switches, have a decisive influence on the parameters of the DC amplifier with periodic zero correction, and thus also on the parameters of the digital voltmeter, such as the input current, the range of measured voltages or the accuracy and linearity. 15 30 measurements. In particular, these wrenches must meet the relevant requirements in terms of the magnitude of thermoelectric forces and leakage currents in a static and dynamic state. The aim of the invention is to develop such a DC amplifier with periodic zero correction, which would be free from the disadvantages of the known solution. was achieved by eliminating in a known DC amplifier with periodic zero correction a number of keys from the feedback loop of the operational amplifier and the use of an additional key connected between the output of the operational amplifier and the output terminal of the DC amplifier with periodic zero correction and controlled, like the other keys, from the circuit The advantage of such a solution is, in addition to the elimination of a series of keys, the possibility of compensating the unbalance voltage of the DC amplifier with the output divider disconnected from its output. The invention in the example of the implementation is shown in the drawing, which is a video diagram The DC amplifier with periodic zero correction consists of an operational amplifier IC, a capacitor C, an output divider R2, R3 and a series of keys KI, K2, K3 and K4 controlled from the US control system. The non-inverting input of the op-amp IC is connected, via a first key KI, to the input terminal WE of the DC amplifier with periodic zero correction and, via a second key K2, to its ground. The inverting input of the op-amp IC is connected via the first resistor R1 and the third key K3 to its output and via capacitor C to the output of the output divider R2, R3. This divider, connected to the output terminal of the DC amplifier with periodic zero correction, is made of the resistors of the second R2 and the third R3. Between the output of the operational amplifier IC and the output terminal WY is connected the fourth key K4 is controlled, as the other keys KI, K2 and K3, from the US control system. The control circuit US also controls the changes in the value of the second resistor R2 in order to obtain changes in the gain value of the DC amplifier with periodic zero correction. In the zero phase of the DC amplifier with periodic zero correction, the second and third keys K2 and K3 are in the short-circuit and the first and fourth keys KI and K4 are open. Then the non-inverting input of the operational amplifier IC is connected to ground, and the second feedback resistor R2 is disconnected from the output of the operational amplifier IC. The capacitor C is recharged to a voltage equal to the unbalance voltage of the operational amplifier IC. In the amplification phase of the service signal, the first and fourth keys K1 and K4 are short-circuited and the second and third keys K2 and K3 are open. In this phase, the voltage on the capacitor C does not change and the influence of the unbalance voltage of the operational amplifier IC on the work of the DC amplifier with periodic zero correction can be neglected. Patent disclaimer DC amplifier with periodic zero correction, especially for digital voltmeters built in an operational amplifier one input of which is connected, through the first key, to the input terminal of the DC amplifier with periodic zero correction and, through the second key, to its ground, and the second input of the op-amp is connected, through the third key, to its output and through a capacitor with the output of the output divider connected to the output terminal of the DC amplifier with periodic zero correction, characterized in that it has a fourth key (K4) connected between the output of the operational amplifier (IC) and the output terminal (WY) and controlled as the other keys , from the control system (US) LDD Zd i, z. 256/1400/86/60, n. 1ÓÓ + 2Ó copies Price PLN 130 PL

Claims (1)

1. Patent claim DC amplifier with periodic zero correction, especially for digital voltmeters, consisting of an operational amplifier whose one input is connected, through the first key, to the input terminal of the DC amplifier with periodic zero correction and, through the second key, with its mass, and the second input of the operational amplifier is connected, via a third key, to its output and through a capacitor to the output of the output divider connected to the output terminal of the DC amplifier with periodic zero correction, characterized by the fact that it has a fourth key (K4) connected between the operational amplifier (IC) output and the output terminal (OUT) and controlled, like the other keys, from the control (US). LDD Z-d i, z. 256/1400/86/60, n. 1ÓÓ + 2Ó copies Price PLN 130 PL