SU1566412A1 - Analog memory device - Google Patents

Abstract

The invention relates to computing and instrumentation technology and can be used to store sample values of analog signals. The purpose of the invention is to increase the speed of the device. For this purpose, a forced charge circuit of a capacitor 7 consisting of a second diode bridge switch 4 with a control unit of this switch 6 and transistors 8, 9 is introduced into the device. Forced charging of the capacitor 7 is performed by transistors 8, 9 when the device switches to sampling mode before until the difference between the input and output voltages is reduced to 0.7 V. After this, the dispensing of the capacitor 7 through the switch 3 occurs. 1 sludge.

Description

The invention relates to computing and instrumentation and can be used to memorize sample values and analog signals.

• The purpose of the invention is improving the performance of an analog storage device.

The drawing shows a functional diagram of the device.

The device contains buffer amplifiers 1 and 2, diode bridge keys 3 and 4, blocks 5 and 6 of the diode bridge switch control, a storage element 7 on the capacitor and accelerating elements on the p-p transistor 8 and p-p transistor 9.

Analog storage device operates as follows.

Blocks 5 and 6 control diode bridge keys upon receipt of clock pulses to the control input of the device synchronously translate the diode bridge keys 3 and 4 into open or closed state, putting the analog storage device in the sample mode or storage mode.

If during the transition from the storage mode to the sampling mode there is a potential difference between the current value of the input signal and the discrete value of the sample signal stored on the storage element 7, then the diode bridge switch 3 will be unbalanced and its output hock, the value of which is determined by the current value of the built-in current generators of circuit 5 control, charges or discharges the storage element 7. If the potential difference between the current value of the input signal and the discrete value of the sample signal stored on ln element 7 exceeds the voltage E! be transistors 8 and 9, the output current of the additional diode bridge switch 4, the maximum value of which is equal to the current value of the built-in current generators of the control circuit 6, opens transistor 8 depending on the sign of the input voltage increment over the sampling period or 9. The collector current of the open transistor 8 or 9, exceeding the ββ times the output current of the diode bridge switch 4, forcibly charges or discharges the storage element 7 until then. while the difference between the input signal and the voltage of the storage element 7 does not decrease to the value E! be of the open transistor 8 or 9, after which the storage element 7 is recharged with the small current of the diode bridge switch 3.

The presence of a forced charge circuit of the storage element 7 can reduce the charging time of the storage element 7 to the voltage at the input of the device in the sampling mode and thereby increase the speed of the device. The increase in performance is especially noticeable with an increase in the capacity of the storage element 7, when it is necessary to reduce the error of the discharge of the capacitor in storage mode.

Claims (1)

Claim An analog storage device containing a first buffer amplifier, the input of which is the input of the device, and the output is connected to the input of the first diode bridge key, the first and second control inputs of which are connected to the corresponding outputs of the first control unit of the diode bridge key, the input of which is the control mode input of the device , a storage element on the capacitor, one lining of which is connected to the bus of zero potential of the device, the other lining is to the output of the first diode bridge about the key and the input of the second buffer amplifier, the output of which is the output of the device, characterized in that, in order to increase the speed of the device, the first and second accelerating elements on the first and second transistors are introduced, respectively, p-p-p-p and p-p -p-type, the second diode bridge key and the second control unit of the diode bridge key, the input of which is connected to the input of the first control unit of the diode bridge key, the first and second outputs are with the corresponding control inputs of the second diode bridge key, the input of which th connected to the output of the first buffer amplifier and the output to the bases η -p - n and p-n-rtranzistorov, the collectors of which are connected to buses, respectively positive and negative power source device, and an emitter - to the input of the second buffer amplifier.