SU809392A1 - Analogue storage - Google Patents

Description

(54) ANALOG STORAGE DEVICE

Claims (1)

This invention relates to electrical measuring technology. The analog memory device used in measurement transducers and peak voltmeters l is known. However, such measuring transducers and peak voltmeters cannot be used in devices that capture random pulses and require high efficiency, since they cannot automatically trigger upon the appearance of an input signal and do not turn off after its exclusion. Therefore, to power such a device, which fixes random pulses, a high-power power source is necessary. The closest technically suited to the present invention is an analog storage device containing an operative and it and a bill amplifier, whose output is a chorus (for% 1 orally connected first key and first nonlinear element connected to the first storage element, for example From the capacitor plates and the input of the voltage follower, the output of which is connected to the inverting input of the operational amplifier, the non-inverting input of the coil is connected to the input of the device and through the second switch connected in series the passive element — with the first input of the optocoupler; the elements of the first, second, third, and fourth keys; and the output of the control element, the third input of the optocoupler, and the second capacitor plate are connected: with a zero potential of the power bus 2}. A disadvantage of the known analogue: a memory device is inaccuracy, since the device triggers when each signal of a successive burst appears, which causes the shock current to be fixed. For example, when fixing the emergency mode parameters on the power lines HFN when the first alarm appears, the device will fix the amplitude of the steady state due to a delay in the measurement time, and when the second alarm appears, for example, after automatic turn on of the line, the device will record the shock value, which is undesirable. The purpose of the invention is to improve the accuracy of the device. The goal is achieved by the fact that in an analog storage device containing an operational amplifier, the output of which is connected through the first key and the first nonlinear element connected in series to the first storage element, for example, to one of the capacitor plates and the input, repeat the output of which is connected to the inverting input an operational amplifier, the non-inverting input of which is connected to the input of the device and through the second key and the first passive element connected in series with the first input the optocoupler, the second input of the optocoupler is connected to the first power bus and through the third key to the first power input of the operational amplifier, the second power input of which is connected via the fourth key to. the second power bus, the one-shot, the output of which is connected to the input of the control element, the input of the one-shot vibrator, the serially connected second nonlinear element and the second passive element are connected to one of the second plates of the storage element — the capacitor, the output of the control element, the third input of the optocoupler and other plates the capacitors are connected to a zero-potential bus; between the fourth input of the optocoupler and the first power input of the operational amplifier is included a fifth key, the control electrode of which By connecting via the second passive non-linear elements and to the second input and the second input odnovibratsfa power operational amplifier. The drawing shows a functional diagram of an analog storage device. The analog storage device contains an operational amplifier 1, the first key 2, the first nonlinear element, the first capacitor 4, the repeater 5 April, the device input 6, the second clue 7, the first passive element 8, the ptron 9, the third and fourth keys 10 11, one-shot 12, the control element 13, the fifth key 14, the second consensat 15, in the passive element 6, the second nonlinear element 17. The device operates as follows. When a negative signal appears at the input 6, the optocoupler 9 triggers and through the open channel of the switch 14 supplies a positive voltage from the power source to the first power input. The one-shot 12 operates and switches on the controlled element (relay) 13, from which the keys 2.7, 10 and 11 operate. The device enters the operating mode and stores the measured value. The negative voltage from the power supply through the nonlinear element 17 and the passive element 16 charges the capacitor 15 and closes the key 14. After the one-shot is turned off, the device returns to its original mode. When the next signal appears and the optocoupler 9 trips, the device does not work due to the switched on key 14 held in the switched on state by the charge accumulated by the capacitor 15. The proposed analog device favorably differs from the known one by improved accuracy in fixing the repetitive signals. Analog memory device comprising an operational amplifier, the output of which is connected through a first key and a first nonlinear element connected in series to a first storage element, for example, one of the capacitor plates and the input of a voltage follower, the output of which is connected to the inverting input of an operational amplifier, non-sizing input of which is connected to the input of the device and through serially connected second key and first passive element with the first input of optocoupler The second input of the optocoupler is connected to the first power bus and through the third key to the first power input of the operational amplifier, the second power input of which is connected to the second power bus through the fourth key, the one-oscillator whose output is connected to the input of the control element, the input of the single-oscillator through serially connected The second nonlinear element and the second passive element are connected to one of the plates of the second storage element — the capacitor, the “control output of the control element, the third input of the electronics, and other covers The capacitors are connected to a shielded zero potential, characterized in that, in order to improve the accuracy of the device, a fifth key is connected between the fourth input of the optocoupler and the first power supply of the operating device, the control electrode of which is connected through the second passive and second nonlinear elements the second power input of the operational amplifier. Sources of information taken into account in the examination 1. L. Volgin. Measuring converters of alternating voltage into constant. M., 1977, p. 189-22O. 2, USSR Author's Certificate in Application No. 2662872 / 18-24, cl. Q 11 C 27 / OO, 1978 (prototype)