SU570109A1 - Analogue memorizing device - Google Patents

Description

(54) ANALOG REPORTING DEVICE DEVICE

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The invention relates to digital analog information transmission systems, measuring and other fields of technology related to the conversion of analog signals into digital form.

In connection with the rapid development of digital transmission systems, the creation of analog-to-digital converters and their sampling and storage devices for analog signals, which serve to reduce dynamic errors during analog-digital conversion, is of great importance.

Sampling and storage devices are known in which the phenomenon of recharging an electrical capacitor from an input source during the sampling process is used to save this charge on the capacitor during the storage of the analog signal, Lfl,

One of the main requirements for a device is a small level of interference at its output.

The closest in technical essence to the invention is a device containing a differential amplifier, you

filled with transistors and resistors, with a collecting element, a capacitor, a impregnator, KOTOpoio plates are connected to the cathodes of the first circuits and device outputs, respectively, j spike of control pulses, DC bus voltage 13 at its input, as well as common food chains, unra chains. Lazy sampling and storage processes. This is due to the fact that the disturbance that has formed in the common power supply circuit or at the input of the Squelch cascade passes to the output of the device during the sampling of the input signal, since the capacitor on which the input signal is memorized is turned on asymmetrically with respect to these circuits, between the common point of connection of two diodes and the common point of the device. In addition, in the known device, the noise acting at the input of the device is also passed to its output, since the ov of the amplifier cascade connected to the output of the U of the amplifier (the magnetic field with the foot of the cascade)

low common mode interference rejection.

The aim of the invention is to improve the noise immunity of the device.

It is achieved due to the fact that second and third diodes and additional resistors are inserted into the device, the anodes of the third diodes are connected to the capacitor plates, and the cathodes are connected to the cathodes of the second diodes and via a DC bus; The anodes of the second diodes are connected to the control pulse bus.

Not a drawing is given of the electrical circuit of the proposed device.

The analog storage device includes a differential amplifier made of transistors 1-3, resistors 4-10, diodes 11-16 and a capacitor 17, a DC bus 18, a control pulse bus 19.

The operation of the device is as follows. During the sampling process, two identical negative control pulses are sent to the control pulse bus of the device, which provide reverse bias diodes 15 and 16, and the current from the power source flows through resistors 4, 5, diodes 11-14 and resistors 9, 1О , shifts diodes 11-14 in the forward direction. After this, the capacitor 1 is charged to the value of the output voltage of the differential amplifier with a constant time

) ,:

where C is the capacitance value of the capacitor 17 ;,

output resistance of the differential cascade;

 - dinemic soprotlvle..ie diodes 11. 12.

In order for resistors 9, 10 not to shunt i kinsensator 17 during the first recharge, the resistance value of these resistors must be much greater than the crossover resistance 4. {the refresher cascade r.

During the process of storing the analog signal, positive potentials are present on the control pulse bus, which provide backward mixing 11-14. In this case, the capacitor 17 is isolated both from the output of the differential amplifier and from the resistors 9, 1 O, thereby ensuring that the charge obtained during the sampling is preserved on the capacitor 17.

The leakage current of the capacitor 17 during storage of the analog signal depends on the resistance values of the diodes 11-14 that are turned off.

The proposed device, as compared with the known ones, reduces the influence on the output signal characteristics of the disturbances affecting its input, as well as on the common power supply circuits and the control circuit of the process of sampling and storing the analog signal, as well. As a capacitor, on which the input signal is stored, it is switched on through two identical diodes with a differential output amplifier, amplifier, and the source of the control signal is switched on symmetrically with respect to the two capacitor plates, from which the output signal is removed.

In this case, the disturbances that are present at the signal inputs of the device, the common power supply circuits and the control inputs of the devices are in phase with the capacitor plates, from which the output signal is removed, which reduces the level of interference at the output of the device in comparison with the known devices.

Claims (1)

1. For Japan J 49-21744, cl. 98 (5) D 31, 1974.