SU489042A1 - Decade voltage divider - Google Patents

Description

one

The invention relates to electrical measuring equipment and can be used in the construction of digital devices, such as bridges or AC compensators.

: A decade voltage divider containing a power source is known; a transformer: a voltage torus with decade windings switched by semiconductor cells. Chami, operational amplifier, summed. 1 st voltage ten-day windings. ; The aim of the invention is to increase the accuracy of the decade divider. : For this, it is equipped with a second group of common windings, an auxiliary transfer: a matrix connected to the output of an operational amplifier, and an amplifier, one input of which is connected via an additional winding; the auxiliary transformer is connected to the first group of ten-day windings, the other input to the second group decade windings, and the output is to the auxiliary input of the op amp.

The drawing is a schematic diagram of the device.

The device contains a power source 1, a voltage transformer 2, decadal circumferences | hanks 3, 4, and 5, semiconductor switches 6- | 12, an on-line amplifier 13, BcnoK.jr a power transformer 14, an amplifier 15, | additional winding G6, the second group of decade windings 17, 18 and 19, feedback reactors 2O and 21 operating amplifier 13. The operating theater, the amplifier has

(INPUT 22, its output is connected to the winding 23 of the transformer 14. Inputs 24 and 25 of the amplifier 13 are connected to it via the connectors 26 and 27. The output signal of the device is removed from the winding 28 of the auxiliary transformer 14.

The device works as follows; When you turn on any of the transist; : ditch belonging to the second group of windings 17, 18 and 19, on the main inputs 22 to 25 of the operational amplifier 1 3. access voltage of the voltage removed from the GHLn; 1H, decay windings. At the same time, but out:;, - the ionepauHOHHoro amplifier 13 is formed (a voltage equal to the algebraic sum and -h & .48 - .. wiring supplied to its main inputs. However, the summation and transfer of voltages taken from decade windings 17, 18 and 19, occurs in the operational amplifier 13 inaccurately, but with some error, which is proportional to the errors in it. The error signal of the operational amplifier 1 is detected by the additional winding 16 of the auxiliary transformer 14 and amplifier 15. This is possible due to that one of the amplifier inputs 15 through an additional winding 16 is connected to the first group of decadal obiMOTOK 3, 4 and b, and its other input is connected to the second group of decadal windings 17, 1B and 19, as a result of which the emf of winding 16 is compared with the algebraic sum of loads arriving at the main inputs 22 and 25 of the operational amplifier 13, and the result of the comparison, which is an error signal, is extracted in the input circuit of the amplifier 15. Then it is amplified and fed to the auxiliary input 24 of the operational amplifier 13 in such a phase, | at which the output voltage of the latter either increases or decreases depending on whether it was correspondingly less or more than the algebraic sum of the stresses taken from both groups of decade windings 3, 4, 5 and 17 18, 19. As a result The operation of the amplifier 15 and the auxiliary winding 16 of the auxiliary transformer 14 in the decade divider creates an auxiliary feedback loop and a correction signal for the operational amplifier. If in the proposed divider we choose the number of turns of the decade windings 4 and 5, proportional to the weighting factor of binary-des5 424. A one-time code equal to, for example, four, and the number of turns of the windings 3, 17–19 to a factor equal to one, then, including groups of windings, is opposite in relation to one another and the keys can be switched according to the table below: The voltage division according to the rules of the binary-decimal code: Numbers O 123456789; Open 66777 78888 turn on 9 12 11 10 9 12 11 10 9 12 The presence of the correction allows to apply: high-impedance resistors and as elements of the external operational amplifier 20 and 21 most reduce the error and error associated with the final value the ratio of the resistances of the open keys and the indicated resistors. The decade voltage divider containing a power source, a voltage transformer, a group of ten-day windings switched by semiconductor switches, an operational amplifier, each of the main inputs of which is associated with a corresponding group of ten-day windings, is distinguished by the fact that accuracy, it is equipped with a second group of ten-day windings, an auxiliary transformer connected to the output of the operational amplifier, and an amplifier, one in-course of which, through the additional winding th transformer poakpyuchen decadal to the first group of windings, the other input - to the second group of decade windings, and an output - to an additional input of the operational amplifier.