SU1191923A1 - Sawtooth generator-phantastron - Google Patents

Abstract

GENERATOR OF LINEAR VARIABLE VOLTAGE, containing an operational amplifier, the inverting input of which is the generator input, and the non-inverting input is connected to the output of the integrating amplifier, which is the output of the generator, the main resistor, the first output of which is connected to the input of the integrated amplifier, the first group of keys and the memory register speed code, characterized in that, in order to extend the range of the specified linear voltage rate of the output voltage, a code-controlled star a parallel divider, integrating capacitors, a second group of switches, a speed range memory register, a decipher and inverters, the speed code memory register outputs are connected to the bit inputs of a co-control star parallel parallel switch connected between the output of the operational amplifier and the second output of the table resistor The first plates of the integrating capacitors are connected to the zero-potential potential through the keys of the second group and through the keys of the first group to the input C of the integrating amplifier. bodies, whose output is connected to the second electrode slipstreaming (A boiling capacitors deschifratora inputs connected to the outputs of register memory speed range, and outputs connected to control inputs yutsdim keys of the first group and through a corresponding inverter to control input keys of the second group. ; about Qotxoft from go

Description

The invention relates to analog computing, in particular, devices for generating a linearly varying voltage by an integrator, and can be used in automatic current control systems in accelerator technology.

The purpose of the invention is to expand the range of set linear speeds of the output voltage.

The drawing shows a functional diagram of the proposed generator.

The linearly varying voltage generator contains the first operational amplifier 1, a code-controlled star-shaped parallel divider 2 with a register 3 of the speed code memory, a scale resistor 4, an integrating amplifier 5, the first group of keys 6, the second group of keys 7, the integrating capacitors 8, inverters 9 decoder 10 and register 11 memory speed range.

The generator of linearly varying voltage works as follows.

In the steady state mode, the voltage at the output of the integrating amplifier 5 is equal to the input voltage, and at the output of the operational amplifier 1 - zero. In accordance with the code recorded in register 11 of the speed range memory, only one of the keys 6 is open, and the key 7 combined with it is closed, as it is controlled by the inverted voltage. The remaining keys 6 are closed, and the keys 7 are open. In this case, all the capacitors 8 are charged to the magnitude of the output voltage. Any change in the input voltage, including a change in sign, at the output of operational amplifier 1, which has a large gain factor, appears the maximum voltage, since the voltage at the non-inverting input differs from the input voltage. Divider 2 divides the output voltage of operational amplifier 1 in accordance with the speed code recorded in speed memory register 3. The output voltage of the divider 2 is integrated by the integrating amplifier 5 with a speed that is determined by the division factor of the divider, the large-scale resistor 4 and the capacitance of the capacitor 8 connected by a public key 6 to the input circuit of the integrating amplifier 5. The remaining capacitors 8 are charged by the output voltage through public switches 7 Moreover, the voltage on these capacitors follows the output voltage without delay, since the circuit of their charge is almost instantaneous. The change in the output voltage occurs until the moment when the value of the input voltage is reached.

In this case, the voltage at the output of the operational amplifier 2, i.e. and at the input of the integrator amplifier, drops to zero. When the code changes in speed register 3, the division factor of divider 2 changes and, accordingly, its output

voltage, which provides a new value of the rate of change of the output voltage within its range with all jump input. When changing the register code 11 memory range

The speed decoder 10 is unlocked by some other key 6 corresponding to this code and through the corresponding inverter 9 the key 7 is locked. The other keys are respectively in the inverse state. At the same time, another capacitor 8 is connected to the input of the integrating amplifier 5, respectively, providing a new speed range for changing the output voltage with all the input voltage changing.

The new speed value in both memory registers can be set both in the quiescent state and during the linear variation of the output voltage. At This, there are no overshoots and dips in the output voltage, since the switching of the integrating capacitor occurs

instantaneously, and the newly connected capacitor is charged exactly to the output voltage. Accuracy characteristics of the generator with code changes remain consistently high, since the output impedance

the parallel star-shaped divider has a constant value and does not depend on the division factor, which ensures the input current of the integrating amplifier. This makes it possible to increase the temperature stability and the accuracy of repetition of the input voltage of the generator.

Claims (1)

A LINEAR VOLTAGE VOLTAGE GENERATOR containing an operational amplifier, the inverting input of which is the input of the generator, and the non-inverting input is connected to the output of the integrating amplifier, which is the output of the generator, a scale resistor, the first output of which is connected to the input of the integrating amplifier, the first group of keys and the speed code memory register, characterized in that, in order to expand the range of preset speeds of the linear change in the output voltage, a code-controlled star-shaped one is introduced into it an parallel divider, integrating capacitors, the second group of keys, a speed range memory register, a decoder and inverters, the outputs of the speed code memory register being connected to the discharge inputs of a star-control parallel star divider connected between the output of the operational amplifier and the second output of the scale resistor, the first plates of the integrating capacitors through the keys of the second group are connected to the bus of zero potential and through the keys of the first group - with the input of the integrating amplifier, the output to orogo g is connected to the second plates of the integrating capacitor, the inputs of the decoder are connected to the speed range of the memory register outputs, and the outputs are connected to the control inputs of the keys of the first group and through a corresponding inverter to the control inputs of the second group of keys. SU „„ 1191923 I 191923