SU966676A1 - Reference voltage source - Google Patents

Description

(54) SUPPORT VOLTAGE SOURCE

This invention relates to radio engineering and may be used. electrical measuring instruments, analog-digital and digital-analog converters and other devices,.

A source of reference voltage is known, which contains one reference element and two operational amplifiers 1.

A disadvantage of this device is the impossibility of obtaining two reference voltages with respect to different power buses.

The closest in technical essence to the present invention is a source of reference voltage containing positive, negative and zero busbars, the first amplifier, one input of which through the first voltage divider is connected to its output, which is the first output of the source, and the first output bus, the second input through the supporting element is connected to the common bus of the first output, the second amplifier, the output of which is the second output of the source, and one of the inputs is connected to the output of the second voltage divider 2.

However, this device does not allow two reference voltages to be obtained with respect to different power buses, i.e. has limited functionality.

The purpose of the invention is to expand the functionality of the device.

The goal is achieved by the fact that in the source of the reference voltage,

10 containing a positive, negative and zero power bus, the first amplifier, one input of which through the first voltage divider is connected to its output, which is the first output of the source, and the common bus of the first output, the second input through the supporting element to the common bus the first output, the second amplifier, the output of which is the second output of the source, and ONE of the inputs is connected to the output of the second voltage divider, the second voltage divider is connected between the second output of the source and the common bus of the first output, and 25 the second input, the second amplifier is connected to the output of the introduced third voltage divider, the input connected between the first output and the common bus of the second output, with the common bus,

30. The first output is connected to the positive or negative power bus, and the common second output bus with zero power bus. The drawing shows a structural diagram of a preferred reference voltage source. The reference voltage source contains the first amplifier 1, one of the inputs of which through the first voltage divider 2 is connected to its output being the first output 3 of the source, and the common bus 4 of the first output, and the second input through the supporting element 5 is connected to the common bus 4 of the first output, the second amplifier 6, the output of which is the second output 7 of the source, and one of the inputs is connected to the output of the second voltage divider 8. The input of the second divider. The 8 voltage is connected between the second output 7 of the source AND the common bus .4 of the first output, and the other input of the second amplifier 6 is connected to the output of the entered third voltage divider 9, the input connected between the first output 3 and the common bus 10 of the second output. In this case, for example, the common bus 4 outputs are connected with a positive 11 or negative 12 power bus, and the common bus 10 of the second output is connected to a zero power bus 13. The source works as follows. At the first output 3 of the source, a first reference voltage is formed with respect to the common bus 4-first output, which is connected to a positive or negative power bus, defined by the expression where Ug is the voltage on the support element 5 applied between the non-inverting input of the first amplifier 1 and common bus 4 first exit; KCJ is the transfer coefficient of the first division-voltage body 2, which forms the negative feedback circuit of the first amplifier 1. The voltage defined by expression (1) is applied to the inputs of the differential amplifier built on the second amplifier 6 and the second and third dividers 8 and 9 voltage, while at the second output 7 of the source a second reference voltage is formed with respect to the common bus 10 of the second output connected to the bus of the 1-potential which is determined by the following expression. IWf, where Ksg, v are the transmission coefficients of the second and third divider 8.y and 9 voltage, respectively; voltage on the power bus to which the common bus 4 of the first output is connected. As can be seen from expression (2), in order that the second reference voltage at the second output 7 of the source is independent of the voltage on the power rail. It is necessary that the condition, / be satisfied. 1M§. 1 from where (1 - Ktyj). Taking into account (1) and. (3), the expression (2) takes the form Thus, the proposed source of the reference voltage allows to obtain two precision reference voltages, the values of which are determined by the voltage value of the reference element and the transmission coefficients of the first, second and a third voltage divider, wherein the first reference voltage is generated by. with respect to the positive or negative power bus, and the second reference voltage with respect to the zero power bus, which expands the functionality of the source using a single reference element.

Claims (2)

1. US patent 3805145, cl. G05 F 1/46, 1975 2. US Patent 3,826,969, Cl, G05 F 1/56, 1976,