SU944074A1 - Controllable dc amplifier - Google Patents

Description

(54) ADJUSTABLE AMPLIFIER. DIRECT CURRENT

Claims (2)

The invention relates to an electrical measurement technique. H can be used as a DC amplifier with adjustable transmission coefficient. A known p) DC power amplifier containing an operational amplifier, covered by a resistive feedback circuit, a resistor connected to a non-inverting input of an operational amplifier, a first field-terminator, whose drain is connected to an inverting input of an operational amplifier, a source with a common bus, and a gate is a control signal input, and a second field effect transistor, the drain of which is connected to the non-inverting input of an operational amplifier ij. However, with this switching on of the operational amplifier and field-effect transistors, a parasitic constant voltage, dependent on the control voltage and superimposed on the output voltage, occurs at the output of the operational amplifier. The presence of this parasitic voltage reduces the accuracy of the gain setting at a given dynamic range of input voltages and a given range of adjustment of the gain. The purpose of the invention is to improve the accuracy of the gain setting. To do this, in a regulated DC amplifier containing an operational amplifier covered by a resistive feedback circuit, a register connected to the non-inverting input of an operational amplifier, the first field-effect transistor, the drain of which is connected to the inverting input of the operational amplifier, the source with a common bus, and the gate is the control signal input, and a second field effect transistor, the drain of which is connected to the non-inverting input of the operational amplifier, between the source of the second field effect transistor and the common bus The compensating voltage source is switched on - the gate of the second field-effect transistor is connected to the gate of the first sex transistor, and the second one of the resistor is connected to the common bus. The drawing shows the electrical circuit of the adjustable DC amplifier. The direct current amplifier contains an operational amplifier 1, first and second field effect transistors 2 and 3, resistors 4, 5, and a source of compensating voltage 6. The adjustable direct current amplifier operates as follows. Let the gates of the first and second field-effect transistors 2 and 3 be applied such a voltage that the resistances of their channels are maximum. Then the transfer coefficient of the input voltage divider formed by resistor 5 and the channel resistance of the first field-effect transistor 2 is maximum, and the input voltage U is fed to the inverting input of the operational amplifier 1 with a minimum 1m attenuation. The DC amplifier has maxima: 1 is the transmission coefficient. At the same time, the transfer ratio of the divider of the compensating voltage of the source of the compensating voltage 6 formed by the resistance of the Wto channel. If the minimum resistance of the channels of the first and second field-effect transistors 2 and 3, the input voltage U is fed to the inverting input of the operational amplifier 1 with the maximum attenuation, since the coefficient transmission input divider is minimal. The transfer ratio of the compensating voltage splitter is maximum, and the non-inverting input receives a part of the commanding voltage from the compensation voltage source 6, which compensates for the parasitic output voltage resulting from the change in the resistance of the channel of the first 7S resistor 2. Since the parasitic voltage and the influence of the compensating voltage depend on the control voltage, with an appropriate selection of the compensation voltage and the corresponding dependence of the resistance of the second field-effect transistor 3 on the control voltage, the parasitic output voltage is compensated an operational amplifier within a wide range of variation in both the gain ratio of the amplifier current current and the input voltage. Due to a significant reduction in the influence of the parasitic output voltage arising in direct current amplifiers due to a change in voltage on the control amplifier, an increase in the accuracy of setting the required transmission coefficient is achieved for a given range of its adjustment and a given dynamic range of input voltages; expansion of the dynamic range of input voltages for a given range of adjustment of the transfer coefficient and a given accuracy of its installation; extending the range of adjustment of the transmission coefficient for a given dynamic range of input voltages and the accuracy of setting the required transmission coefficient. Depending on the requirements of the DC amplifier, one of these advantages of this device manifests itself in each particular case. Formula of the Invention Adjustable DC amplifier containing an operational amplifier, covered by a resistive feedback circuit, a resistor connected to a non-inverting input of an operational amplifier, the first field-effect transistor, the drain of which is connected to an inverting input of an operating amplifier, the source is common, and the gate is a control signal input, and a second field effect transistor, the drain of which is connected to a non-inverting input of an operational amplifier, characterized in that 4Toi in order to improve the accuracy of the gain factor setting, between the current of the second field-effect transistor and the total length, includes a source of compensating voltage; the gate of the second field-effect transistor is connected to the batvor; the first field-effect transistor, and the second output of the resistor is connected to the common bus. Sources of information taken into account in the examination of l-EEectronuS, 1974, No. 7, p. 122.