SU1688288A1 - Selection/ storage device - Google Patents

Abstract

The invention relates to electrical measuring technology and can be used in multi-purpose radio electronic devices, for example, in two-channel periodic signal comparison devices. The purpose of the invention is to increase the resistance to destabilizing factors. This is accomplished by autocompensating the leakage current of the storage element. The device maintains operability (absence of metrological failures) at the onset of leakage currents of charge of element 2 due to deterioration of the electrical insulation properties of materials under the influence of such destabilizing factors as increased temperature and humidity of the surrounding air, dust, radiation, etc. which is especially important when operating in an open atmosphere. The device comprises a switch 1, a storage element 2 on the capacitor, an operational amplifier 3, a feedback element 4, a voltage-current converter 5, a compensating element 6 and a displacement element 7. 2 Il. yo

Description

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The invention relates to electrical measuring equipment and can be used in multi-purpose electronic devices, for example, in two-channel devices of periodic comparison of signals,

The aim of the invention is to increase the resistance to the effects of destabilizing factors.

Figure 1 shows an example implementation of the device; 2 is a circuit diagram of a voltage-current converter.

The device comprises a two-position switch 1, a storage element 2 on a capacitor, an operational amplifier 3, a processed communication element 4, a voltage-current converter 5, a leakage element b, an offset element 7. Elements 4.6 and 7 are made on resistors.

The device works as follows.

In the sampling mode, in the first position of the switch 1, the element 2 is charged, the charge current passes through the element 4, the voltage drop on which is applied to the input of the converter 5. The converter 5 is designed to operate from the control voltage of any one polarity. If the charging current S3 has the direction indicated in Fig. 1, and the converter 5 contains transistors, as shown in Fig. 2, then the signal at the output of the converter 5 is absent (sampling mode of the observation of the measuring signal). In the second position of the switch 1 (storage mode), the discharge current of the element 2, due to the presence of the element 6, also passes through the element 4 in the direction opposite to the charged current. Therefore, the voltage at the output of amplifier 3 has a positive polarity, and at the output of converter 5, a current Ik appears, compensating the discharge current of element 2. With sufficient amplification, converter 5 provides almost complete compensation of the discharge current, because the equilibrium in the circuit (due to feedback action is provided only with equal charge and discharge currents. This ensures long-term storage of charge at relatively high leakage currents (a relatively small value of element 6). The device is designed to work from a current source. However, if a voltage source is connected to the input, the device behaves as a switched RC filter, which is convenient to use in

two-channel periodic signal comparison systems when it is necessary to preserve the charge of element 2 during the adjacent switching period, especially for large switching periods.

The advantages of the invention in comparison with the prototype are determined by the preservation of operability (absence of metrological failures) when the leakage currents of element 2 appear due to the deterioration of the electrical insulation properties of materials under the influence of such destabilizing factors as increased temperature and humidity of the surrounding air, dust, and radiation. and others, which is especially important when operating in an open atmosphere. When used in laboratory conditions, the requirements for the magnitude and stability of the input resistance of external transducers measuring the charge of the capacitor of the storage element are reduced.

Claims (1)

Claims A sampling-storage device comprising an operational amplifier, a switch, a capacitor element on a capacitor, a bias element, a feedback element and a leakage element made on resistors, the inverting input of the operational amplifier connected to the first output element of the feedback element resistor, and the first and The second terminals of the bias element resistor are connected respectively to the non-inverting input of the operational amplifier and the device zero-potential bus; the second terminal of the element resistor The feedback is connected to the output of the operational amplifier, the first output of the capacitor of the storage element is connected to the output of the switch, the first input of which is the information input of the device, characterized in that, in order to increase resistance to the effects of destabilizing factors, the current whose information input is connected to the output of the operational amplifier, and the output is connected to the second input of the switch, the first output of the leakage element resistor and is information onnym output device, the second terminal of the resistor element and the input leakage power converter connected to the bus device zero potential, Auto swarm output KOH.il nsatora storage element is connected to the inverting input of the operational amplifier. + UKb Output 2