SU953706A1 - Ramp voltage generator - Google Patents

Description

(B) POWER VOLTAGE GENERATOR

one

The invention relates to a pulse technique and can be used, for example, in analog computing devices.

A sawtooth voltage generator containing a clock generator, a pulse counter, a code-voltage converter, a switching trigger, the outputs of which are connected to a correction voltage generator tl3, is known.

The disadvantage of the device is the instability of its parameters when adjusting the duration of the forward stroke.

The closest to the invention to the technical essence is a sawtooth generator, containing an integrating capacitor, in parallel with which an operational amplifier is connected, the input of which is connected to the outputs of the first and second switches through resistors, the first of which is inverted

the amplifier is connected to the input of the second key, and the output of the operational amplifier is connected to the first inputs of the first and second level limiting elements, the second inputs of which are connected to the corresponding buses of the voltage sources, and the outputs to the RS flip-flop inputs, the direct and inverse outputs of which are connected to the control inputs of the first and second keys C2.

The disadvantage of the device is the low linearity of the generated voltage.

The aim of the invention is to increase the linearity of the generated voltage.

Claims (1)

The goal is achieved in that a sawtooth generator, containing an integrating capacitor, in parallel with which an operational amplifier is connected, the input of which is connected via resistors to the outputs of the first and second switches. the input of the first of which is connected via an inverting amplifier with the input of the second key, and the output of the operational amplifier is connected to the first inputs of the first and second level limiting elements, the second inputs of which are connected respectively to the buses of the voltage sources, and the outputs to the inputs of the RS flip-flop, the direct and inverse outputs of which are connected to the control inputs of the first and second keys, respectively, the code-voltage converter, the OR elements, and also the element of the formation of the code. voltage and the element of the formation of the code for the reverse stroke of the sawtooth voltage, the control inputs of the last two of which are connected to the inverse and direct outputs of the RS flip-flop, the outputs of the element for the formation of the code for the forward stroke of the sawtooth voltage are connected to the first inputs of the elements OR, and the outputs of the element of forming the code for the duration of the reverse stroke of the saw-tooth voltage with the second inputs of the elements OR, the outputs of which are through the converter code - the voltage is connected to the input of the first key. The drawing shows a structural electrical circuit of the device. The device contains an integrating capacitor 1, an operational amplifier 2, resistors 3 and 4, switches 5 and 6, inverting amplifier 7, limiting element 8 and 9, RS-flip-flop 10, code-to-voltage converter 11, bit elements OR 12-1, 1, .. 12 p; an element 13 for forming a code for the duration of a forward stroke of a saw-tooth voltage; an element 1A for forming a code for the duration of a reverse stroke of a saw-tooth voltage. The device works as follows. The sawtooth voltage taken from the output of the integrator contains. An integrated capacitor 1, connected in parallel with an operational amplifier 2 and resistors 3 and 4, is fed to the first inputs of the elements 8 and 9 of the lower and upper levels. When the saw-tooth voltage reaches the lower level U, when the lower break point of the saw-rod voltage is formed in the generator, the following actions are taken that are synchronous with the moment of the lower break. At the output of the lower limit element 9, a signal is formed which stops the zero state at the output of the RS-flip-flop 10, and a single state at the output Q. The logical zero from the output of the QRS flip-flop 10 sets the key 6 to the closed state, and the logical unit from the output Q of the RS flip-flop 10 sets the key 5 to the open state. The output signal Q of the RS flip-flop 10 is fed to the control input of the code-forming element 14 of the sawtooth reverse stroke duration, prohibits the issuance of a code on its output and unlocks the inputs of the output register, thereby allowing the change of the code in the register by the code generator signal. . The signal Q is fed to the control input of the code-forming element 13 for the duration of the forward stroke of the sawtooth, locks the inputs of the output register, thereby prohibiting the code change in the register from the code generator signal for the forward running time of the sawtooth voltage, and allows the output of the code recorded in the register, on his way out. The code from the output of the code forming the duration of the forward stroke of the sawtooth voltage through the OR element 12 enters the inputs of the code-voltage converter 11 and generates, at its output, synchronously with the moment of the lower break of the sawtooth voltage, a step of control voltage proportional to the input code code-voltage converter. Starting from this point in time, i.e. since the moment of the lower fracture of the saw-tooth voltage, it establishes3 a constant current charge of the forward stroke of the current period of the saw-tooth voltage. This current charges the integrating capacitor 1 and forms a forward-facing saw-rod voltage at the output of the operational amplifier 2. The magnitude of the charging current is determined by the magnitude of the resistor 4 and the output voltage of the amplifier 7, which is the output voltage of the converter 11 which is inverted with a constant gain factor. When a saw-tooth voltage reaches the upper level, it is determined by the reference voltage, i.e. During the formation of the upper break point of a sawtooth voltage, the following actions are carried out in the generator, which are synchronized with the moment of the upper break. At the output of the upper level limit element 8, a signal is generated that sets the RS flip-flop 10 to one state. The logical unit from the output Q of the RS-flip-flop 10 sets the key 6 to the open state and a logical zero from the output Q to the RS-flip-flop 10 sets the key 5 to the closed state. The output signal Q of the RS flip-flop arrives at the control input of the code-forming element 13 for the duration of the forward stroke of the saw-tooth voltage, prohibits the issuance of a code at its output and unlocks the inputs of the output register, thereby permitting the code change in the register by the code generator signal. The signal Q is fed to the control input of the element 1 for generating the code for the reverse stroke of the sawtooth, locks the inputs of the output register, thereby prohibiting the code change in the register from the code generator signal for the reverse stroke of the sawtooth voltage and allowing the output of the code recorded in the register , on his way out. The code from the device for generating the code for the duration of the sawtooth voltage reversal through the OR element 12 is fed to the inputs of the converter 11 and forms 1 (synchronously with the upper break of the saw voltage voltage proportional to the input code of the converter at the output of the sawtooth voltage) 11.. Starting from this point in time, i.e., from the time of the upper fracture of the saw-tooth voltage, a discharge current 3 is established, which is constant during the return stroke of the current saw-voltage period. This current charges the integrating capacitor and generates a return stroke of the sawtooth voltage at the output of the operational amplifier 2. The magnitude of the discharge current is determined by the magnitude of the resistor 3 and the output voltage of the converter 1-1. Due to the fact that the adjustment of the forward and reverse duration the saw-rod voltage is produced by changing the regulating voltage in steps in synchronism with the moments of the saw-voltage, the device prevents the occurrence of non-linear distortions of the saw-tooth April voltage during adjustment. This allows the duration of the forward and reverse stroke of the saw-tooth voltage to be varied, for example, from period to period according to a predetermined law with high linearity of the saw-tooth voltage. Claim generator A sawtooth voltage generator comprising an integrating capacitor, in parallel with which an operational amplifier is connected, the input of which is connected via resistors to the outputs of the first and second switches, the input of the first of which is connected via an inverting amplifier to the input of the second switch, and the output of the operational amplifier is connected to first inputs the first and second level limiting elements, the second inputs of which are connected respectively to the buses of the sources of reference voltages, and the output to the inputs of the RS flip-flop The direct and inverse outputs of which are connected to control inputs of the first and second keys, respectively, characterized in that, in order to increase the linearity of the generated voltage, a code-voltage converter, OR elements, a forward stroke code formation element are introduced into it the sawtooth voltage and the code element of the duration of the reverse stroke of the sawtooth voltage, the control inputs of the last two of which are connected to the inverse and direct outputs of the RS flip-flop, the outputs of the forming element to The length of the saw stroke voltage is connected to the first inputs of the OR elements, and the outputs of the code for generating the code of the reverse saw voltage voltage are connected to the other inputs of the OR elements, the outputs of which are through the converter.