SU576611A1 - Analogue memory - Google Patents

Description

The invention relates to the radio industry, in particular to analog and measurement technology. Analog memory devices are known which contain a storage capacitor that is connected during operation to the input value of the DC amplifier IJ. A disadvantage of the known analog storage devices is the dependence of their output voltage on the zero drift. The closest to the technical essence of this invention is a device containing a capacitor, an amplifier whose output is connected to the output of the device, a key, two switches, the moving contacts of which are connected to the capacitor plates, the first fixed contact of the first switch connected to the input of the device, the first fixed contact The second switch is connected to the common bus, the second fixed contact of the first switch is connected to the amplifier input and through the key to the common bus 2j. A disadvantage of the known analog storage device is that compensation of the zero drift used in the amplifier device is possible only when using an amplifier with a voltage transfer ratio close to unity. From the forums (1) and (2) of the known device, it can be seen that the output C inlet L - /. From here, the output voltage of the analog storage device (O w out to Rb) only at L – 1 (d is the transmission coefficient 110 pappen), and, for example , at L 5 out: -., -, 40o, i.e., with the independence of the output voltage of the analog storage device from the voltage of the zero drift used in the device of the control device, is not preserved. The purpose of the invention is to improve the accuracy of an analog storage device. This is achieved by the fact that in the proposed device an additional amplifier output is connected to the second fixed contact of the second transducer. FIG. Figures 1 and 2 depict the electrical circuit of the analog splicer. The circuit contains capacitor 1, amplifier 2, switch-on switch 3, switch 4, switch 5. Switch 2 has an additional output 6, the voltage on which is proportional to the output voltage of the amplifier. Output 6 is, for example, the midpoint of a voltage divider connected in parallel to the main output of amplifier 2 (Fig. 1).

The plates of the capacitor 1 are connected to the movable contacts of switches 3 and 4. One of the non-iodine contacts of switch 3 is connected to the input of the device, the other non-idle contact is connected to one of the contacts of the 5 n key to the input of the amplifier 2. The other contact of the key 5 is connected to the bus 1 . Some pz non-moving contacts of the switch 4 is connected to the common bus, the other its fixed contact is connected to the additional output 6 of the amplifier 2.

When the input voltage is memorized, one of the capacitor plates 1 by switch 3 is connected to the input of the device (Fig. 1). The second capacitor plate 1 switch 4 is connected to the auxiliary output 6 of the amplifier 2. At the same time, the input of the amplifier 2 is closed by the key 5.

In the general case, due to the drift of zero amplifier 2, the output voltage of the analog storage device is equal to a certain value ± f / o-Iair at the additional output 6 of amplifier 2 is equal to ± l / 7o, where l is the coefficient of n-morriness.

Therefore, capacitor 1 is charged to a voltage of 6c, equal to

U, U ,, - (nU,}, (1)

where f / Bx is the input memory,

 - drift voltage zero amplifier.

During playback of the voltage remembering voltage, the switch 5 is open, and the capacitor 1 is switched by switches 3 and 4 to the input of amplifier 2 (see Fig. 2).

The output voltage / output of the analog zomnomunyun1, his device at the same time

vyi- /. + (), (2)

where / C is the transmission coefficient for the voltage of the amplifier 2, U and But is determined by the expression (1), since during the non-switching time of the switches the voltage on the capacitor 1 and the drift voltage of the amplifier 2 are almost unchanged. From (1) and (2) it is clear that

f / oykh - to {U,., (, nU, + (± and,)

: / Cf /, x: (). (3)

Select the proportionality factor as

(four)

/WITH

what can be, for example, achieved by changing the ratio of resistance values (see fig. 1).

out -, (5)

That is, the output voltage of the analog storage device does not depend on the drift voltage of zero at the value of the voltage transfer factor used in this voltage amplifier device.

Indeed, by changing the ratio of the divisor nlec (see fig. 1), the equality (4) is achieved.

/ g - -.

5 Substituted the value of K. and n in (3) we obtain

output 5i / 3x: - 5U ,,,

and /

i.e., the output voltage of the device does not depend on the drift voltage zero and also when K «3.

The technical and economic effect consists in the possibility of using the amplifier with the independence of the output voltage from the zero drift, which indicates an increase in the accuracy of the analog input signal of its device.

Formula of the invention The analog jamming device contains 1; its capacitor, amplifier whose output is connected to the output of the device, a key, two switches, the moving contacts of which are connected to the capacitor plates, the first sliding contact of the first switch is connected to the input of the device, the first fixed the contact of the second switch is connected to the common ground; the second fixed contact of the first switch is connected to the input of the amplifier and through the key to the bus, characterized in that, in order to improve the accuracy of the device -keeping, in its additional output amplifier podsoedipen vtoro.mu to the fixed contact of the second switch.

Sources of information taken into account in the examination

1.Patent Yanonni number 49-33894, cl. G PS 27/00, 1974.

2. USSR author's certificate No. 461453, cl. G PS 27/00, 1974.