SU290439A1 - GENERATOR SCAN FOR DIGITAL MEASURING INSTRUMENTS - Google Patents

Description

The invention relates to the field of digital measuring equipment and can be used in devices designed to perform measurements in circuits containing nonlinear elements or effects of disturbances that change in a nonlinear manner.

The proposed generator differs from I3 | known in that the output of the integrator is connected to one of the (INPUTS schematic diagram, the other INPUT of which sequentially gives predetermined levels of reference nanotechnology. This makes it possible to improve the accuracy of voltage formation of an arbitrary shape.

The drawing shows the proposed device.

The generator contains an I1-integrator; an ator 7, to the input of which through a divider 2 voltage n keys 3, a control circuit is supplied to and from terminal 4, a comparison circuit 5, one of the inputs of which is connected to the output of the integrator, and to the other through a voltage divider 6 and the keys 7 are supplied with the reference voltage LE from the terminal: we are 8, and (the distributor 9, which is triggered by applying a pulse to terminal 10, and the switching is performed by a signal from the output of the circuit and | and.

a piecewise linear approximation of a given curve is performed.

The generator works as follows. With the start-up signal a, the distributor 9 which can be used, for example, a ring counter, sends a voltage to the bus // by opening keys 3 and 7. Key 5 passes control voltage t / y from terminal 4 to integrator 1 through divider 2 voltage, the transmission coefficient of which is established elective precision resistor 12 in accordance with the required slope of the initial section of the output (voltage.

The output of the (integrator is fed to one of the inputs of the comparison circuit 5, the other input of which receives the reference voltage f / e from terminal 8 through the switch 7 and the voltage divider 6. The divider transfer ratio is fixed (overhead line (so the precision resistor is as follows). so that the voltage chip at the input of the comparison circuit corresponds to the break point approximating the output voltage curve. When the voltage at the integrator output reaches this value. The comparison circuit generates a signal to switch the distributor ( removed from the bus // and fed to bus 11. This leads to

keys o- and 7-. Resistors 12 and 13 are set, respectively, to the steepness and the break point of the next curvature voltage curve. Thus, Iro, the sequential formation of all sections of a given sweep voltage curve proceeds. The output voltage is removed from terminal M.

After the formation of the hereditary terminal output is the same: the key 3 is turned on, through which the voltage from the terminal-5 is supplied to the integrator, and the polarity of its reverse field is equal to the equalizing voltage Uy. The key (And 7 is turned off, and on the second 1 input of the Comparison circuit there is a zero | notional. As soon as the output on the I1nt output: the controller1a drops to zero, the comparison circuit will give a signal on the distributor, and the latter will take its initial state in which all the keys 3 and 7 are turned off. With the arrival of the next start pulse "and terminal 10 of the distributor, the cycle of the generator is repeated.

Thus, setting the order of change of the generator output voltage is reduced to the selection of the values of the precision resistors / 2 and 13 in accordance with the slope and break points of the approximating curve of the output voltage.

An important feature of the described sweep generator is the possibility of a proportional and alternating dimension of the duration of all sections of the output voltage curve by varying the control voltage

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Uy, thereby “reducing the output time” by compressing it. This greatly impairs the functional capabilities of the sweep generator, makes it possible to vary the sweep time according to the specific conditions of each measurement. In addition, by a corresponding change in the magnitude of the power U y and U, the amplitude of the output voltage can be changed, regardless of its change in time, which is even more p: an increase in the capabilities of the proposed generator.

A descriptive generator allows one to obtain a linear scale when measuring nonlinear parameters and can find application in various areas of electrical measuring equipment, where the need arises to form a voltage varying according to a certain law.

Prev Invention

A sweep generator for digital measuring instruments containing a comparison circuit, an integrator, 1 switches and dividers for charging, characterized in that, in order to increase the accuracy of arbitrary voltage generation, the output of the integrator is connected to one of the inputs of the circuit compared to the second input the reference voltage is fed through the divider, and the output is connected to the keys of the operating voltage driver through the distributor, the voltage from the output of which is fed to the input of the integrator.