SU729641A1 - Analogue storage - Google Patents

Description

The invention relates to automation and computer technology, in particular to analog storage devices and may find application in automatic control systems for various purposes. ⁵

Known analog dynamic storage device with a current key, which is an integrator based on an operational amplifier £ 1].

However, in a known device, the memory time is determined! the magnitude of the capacitance and the magnitude of the drift of the output voltage of the operational amplifier.

An analogue storage device is known in which, in the tracking mode, a useful signal is supplied to the non-inverting input of the first operational amplifier, from the output of which it goes to the non-inverting input of the second operational amplifier and charges the capacitor through a key [2]. The signal from the output of the second operational amplifier, which is the output of the device, is fed to the inverting input of the first operational amplifier, covered by feedback through the key. In the tracking mode of the useful signal, the first key of the device is closed, and the second is open. In the information storage mode, the state of the keys is the opposite.

However, in memory mode, the circuit is an open system and therefore the storage time of information is completely determined by the time constant of the capacitor discharge circuits.

The purpose of the invention is to increase the storage time of information.

This is achieved by the fact that in the analog storage device containing the first operational amplifier, the non-inverting input of which is connected to the zero potential bus through the first passive element, the second operational amplifier, covered by feedback on the inverting input, the storage element, for example, a capacitor, the first and second keys, the second, third, fourth, 729641th, fifth and sixth passive elements, a third key is introduced, the input of which through the second passive element is connected to one of the capacitor plates h the third passive element is connected to the non-inverting input of the second operational amplifier, the output of the third key is connected to the zero potential bus, the other lining of the capacitor is connected to the output of the device, the output of the first operational amplifier and through the fourth passive element to the input of the second key, the output of which is connected through the fifth passive element 'to the output of the second operational amplifier, directly to the inverting input of the first operational amplifier, the input of the first key is connected to the input of the devices And the output of the first switch via the sixth passive element is connected to the inverting input of the first operational amplifier.

The drawing shows a diagram of the proposed device.

The analog storage circuit includes operational amplifiers 1 and 2, keys 3-5, a storage element, such as a capacitor 6, passive elements, such as resistors 7-12.

The device operates as follows.

In tracking mode, the status of keys 3-5 is closed. In this mode, the device is a periodic filter, the transmission coefficient and the time constant of which are determined by the ratio of resistors. A useful input signal is supplied to the output of the device with a transfer coefficient typed on an operational amplifier 1 and charges the capacitor 6 along the charge circuit through the keys 5. The filter time constant is selected from the necessary filtering condition of the useful signal.

In the information storage mode, the state of the keys is 3-5 open. In this mode, the operation of the device is as follows. The operational amplifier 2 together with the capacitor 6 is a differentiator. The output signal of the operational amplifier 1 is the input signal of the differentiator, therefore, when the output signal of the amplifier 1 changes, the output of the operational amplifier 2 displays a signal proportional to the rate of change of the output signal, which is fed to the input of the operational amplifier 1 via the negative feedback circuit, compensating for the change in the output signal of the device.

Thus, by introducing deep negative feedback, the storage time of information increases.

Claims (2)

The invention relates to automation. And computing, in particular, to anapog storage devices and can be used in automatic control systems for various purposes. The analog dynamic dynamic device with a 1m key tokosh is known to be an integrator on the base of the amplifier fl. However, in the known device, the memory time is determined by the capacitance value of the output voltage drift of the operational amplifier. An analog storage device is known in which, in tracking mode, the useful signal is fed to a non-inverting input of the first operational amplifier, from which it is fed to the non-inverting input of the second operational amplifier, and through the switch charges the capacitor 2. The signal from the secondary operational amplifier, which is the output of the device, is fed to the inverting input of the first operational amplifier covered by feedback through the key. In tracking mode, the first device key is closed and the second is open. In the information storage mode, the key state is reversed. However, in memory mode, the circuit is an open-loop system and therefore the storage time of the information is completely determined by constant time. chains; capacitor discharge The purpose of the invention is to increase the storage time of information. This is achieved in that the analog storage device containing the first operational amplifier, the non-inverting input of which is connected to the zero potential bus through the first passive element, the second operational amplifier covered by the feedback on the inverting input, is a cumulative element, such as a capacitor, first and second keys , the second, third, fourth, fifth and sixth elements, a third key is entered, the input of which is connected to one of the capacitor plates through the second passive element, which is The third passive H1 1st element is coupled to the non-inverting input of the second operational amplifier, the output of the third key is connected to the zero potential bus, the other capacitor plate is connected to the output of the device, the output of the first operational amplifier and through the fourth passive element to the inputs of the second key whose output is connected through the fifth passive element to the output of the second operational amplifier, directly to the inverting input of the first operational amplifier, the input of the first switch is connected to the input of the CTBA and output lane Vågå key through sixth passive element is connected to the inverting input of the first operational amplifier. The drawing shows a diagram of the proposed device. The analog memory circuitry includes operational amplifiers 1 and 2, switches 3-5, a storage element, such as capacitor b, passive elements, such as resistors 7-12. The device works as follows. In tracking mode, the status of keys 3-5 is closed. In this mode, the device is a periodic filter whose transmission coefficient and time constant are determined by the ratio of resistors. The useful input signal arrives at the output of the device with a transfer coefficient accumulated at the operational amplifier 1, and charges the capacitor 6 along the charging circuit through the keys 5. The filler time constant is selected from the required filtering condition of the useful signal. 3-5 key unlocked. In this mode, the device operates as follows. Operational amplifier 2, together with the concentrator 6, is a differentiator. The output signal of operational amplifier 1 is the input signal of the differentiator; therefore, when the output signal of amplifier 1 changes, the output of operational amplifier 2 produces a 14 signal, a proprietary signal, and a change rate for the output signal, which the circuit provides for the 1st feedback arrives at the input op amp 1, to scan the change in the output signal of the device. Thus, due to the introduction of deep negative feedback, the storage time of the mold and the information is increased. Analog memory device, matching the first operational amplifier, the non-inverting input of which is connected to the zero potential bus through the first passive element, the second operational amplifier covered by the inverting input accumulative element, such as a capacitor, first and second switches, second, third, the fourth, fifth, sixth passive elements, differing from the fact that, in order to increase the information storage time due to the compensation of the capacitor discharge circuits, to the device A third key is entered, the input of which is connected to one of the capacitor plates through the second passive element, which is connected to the non-inverting input of the second operational amplifier through the third passive element, the third key output is connected to the zero potential bus, the other side of the capacitor is connected to the output of the device the first operational amplifier and through the fourth passive element with the input of the second key, the output of which is connected via the fifth passive element to the output of the second operational amplifier, and directly to the inverting input of the first operational amplifier, the input of the first switch is connected to the input of the device, and the output of the first switch is connected via the sixth passive element to the inverting input of the first operational amplifier. Sources of information taken into account in the examination 1. Torn G., Korn T. Electronic analog-digital computers, h. P, - M .: Mir, 1968, p. 53-54 .. 2. Design and use of operational amplifiers. Under ren. Prema, M.: The World, 1974, p. 3-82 (prototype).