SU805287A1 - Bipolar reference voltage source - Google Patents

Description

one

Instrumentation refers to electrical engineering and can be used in various electronic devices.

A source of reference voltage is known, containing a voltage stabilizer of the ring type, in which a high stabilization factor is provided for the benefit of the mutual stabilization of the currents of the supporting elements. In order to provide a precision temperature compensation, the current through the reference Zener diode is kept constant at all times tl.

The disadvantage of this source is that when the current changes in the load connected in parallel with the reference voltage source, the current through the Zener diode changes, which leads to a change in its temperature coefficient of voltage, resulting in additional temperature instability, and the parameters reference voltage source.

Closest to the present invention is a bipolar reference voltage source, containing two operational amplifiers whose power inputs are connected to input terminals of opposite polarity 12.

The disadvantage of this source is that the introduction of a current generator and a control circuit leads to the appearance of additional temperature instability in the output voltage of the stabilizer.

The purpose of the invention is to increase the stability of the output voltage of the reference voltage source.

S

The goal is achieved by the fact that the non-inverting inputs of the operational amplifiers are connected to a common source bus, and the inverting inputs of the operational amplifiers are connected via zener diodes to the output of one and through a resistor to the output of another operational amplifier. In addition, to increase the power of the source, the outputs of one3 rd amplifiers are connected to the bases of additional transistors, the terminals of which are connected to the corresponding output and the collectors to the corresponding input terminals of the Canadian source channel. In this case, an additional compensation stabilizer can be included in the input circuits of each of the channels, the output voltage of the corresponding source is used as the reference voltage of which. FIG. 1 is a schematic of a reference voltage source; in fig. 2 the same, the first option; in fig. 3 - the same, the second option. The reference voltage source contains operational amplifiers 1 and 2, which are powered from input terminals 3 and 4. The output of each operational amplifier 1 (2) is connected to output terminal 5 (6) and one of the outputs of Zener diode 7 (8), the second terminal of which is connected to the inverting input of the operational amplifier 1 (2) and through a resistor 9 (10) to the output terminal 6 (5). Non-inverting outputs of operational amplifiers 1 and 2 are connected to a common source bus (Fig. 1). A junction between an additional transistor 11 (12) can be connected between the input 3 (4) and output 5 (6) source terminals, the base of which is connected to the output of the op amp 1 (2), FIG. 2. Consistently with the input reed 3 (4) of the source, additional compensation stabilizers & 13 and 14 may be included, the reference voltages for which are taken from the terminals 5 and 6 of the source (Fig. 3). The bipolar reference pressure source operates as follows. When applied to the input pins 3 and 4 of the source of supply voltages at the outputs of the operational amplifiers 1 and set the voltage

) (6) // U7 {g) / - / Ut ,,

where is the absolute value of the voltage on the zener diode 7 (8),

LYX-1 (2)

- absolute

to

The voltage is at the inverting input of the operational amplifier 1 (2), K is the amplification gain modulus of the inverting input.

Claims (2)

1. A bipolar reference voltage source, containing two operational amplifiers, the power inputs of which are connected to the input terminals of opposite polarity, which is also so that, in order to increase the stability of the output voltage, the non-inverting inputs of the operational amplifiers are connected to a common bus - 7 Usually for operational amplifiers in a wide load range K% 1. Therefore, 1 / {, x O. Therefore, the output voltage U ,,) l (2) is practically equal to V / l and h depends on the load. As a result, the currents through the zener diodes 7 and 8 remain unchanged, which is why their temperature coefficients of the voltage are constant (Fig. 1). To further increase the load capacity of the source in series with the load of each channel, a junction collector emitter of an additional transistor 11 (12) is connected, the base-emitter junction of which is connected in series with the reference stabilizer 7 (8) between the output and the inverting input of the operational amplifier 1 (2); 2. An additional compensation stabilizer 13 (14) included in the input circuit of each channel allows pre-stabilization of the input voltage and power supply with a stabilized voltage of operational amplifiers 1 and 2. As a reference, the output voltage of the corresponding channel is used. When it is necessary to smoothly adjust the output voltage parallel to the zener diode (the source of the reference voltage), a divider is connected to which the inverting input of the corresponding operational amplifier is connected. The proposed reference voltage source allows the use of integrated operational amplifiers with high gain and low temporal and temperature drift of the output voltage to create highly stable reference voltage sources capable of operating with varying loads. 58 of the source, and the inverting input terminal is connected via a galbilitron to the output of one amplifier and through a resistor to the output of another operational device. 2. The source of claim 1, which is connected with the fact that the opcode of the operational amplifiers is connected to the bases of the internal transistors, the emitters and collectors of which are connected respectively to the output and input terminals of each source channel. 3. Source of PP. 1 and 2, characterized in that, in the input 7 circuits of each of the channels, inserted compensating stabilizers are included, the reference inputs each of which are connected to the output terminal of the corresponding channel. Sources of information taken into account in the examination 1.Averbukh p. N. and Khandozhko A.I. Compensation of the temperature instability of the source of the reference voltage by current. Instruments and experimental technique. Mi 4, 1974, p. 132. 2. USSR author's certificate N 577521, kp. G 05 P 1/56, 1976. ui.1