SU262167A1 - POWER VOLTAGE GENERATOR - Google Patents

Description

The main element of linear time-to-pulse converters, which largely determines their accuracy, is a sawtooth generator. The main requirements for nilo-voltage generators are the stability of the initial level — time and with varying supply and temperature voltages; stability of sawtooth tilt; the linearity of this voltage.

Known sawtooth generators are known. The most accurate of these are amplifiers based on amplifiers with deep negative feedback.

The main disadvantages of such generators are the great complexity (especially with high accuracy of the order of 0.01-0.05%), the difficulty of stabilizing the initial level and slope (especially in transistor circuits), the lack of repeatability of the circuits due to the large spread of gain used amplifiers, the need for sufficiently stabilized power sources, a relatively long time for the circuit to return to its original state, and the recovery of the circuit.

The proposed generator differs from the known ones in that, in order to increase accuracy and simplify the circuit, a capacitor is additionally installed, connected between the input of one integrated circuit; its RC circuit and point

connect a resistor and a capacitor of another integrating RC circuit, and the inputs of the integrating RC circuits are connected via a diode to a power source.

FIG. 1, 2 and 3 are diagrams of sawtooth generators.

Circuits contain diodes / and 2; resistors 3 and 4 of the integrating circuits; capacitors 5, 6 and 7 of the integrating circuits; transistors 8 and 5 in

key mode; equivalent resistance 10 private key; control input //; unwinding device / 2; Ui is the power supply voltage. All given work similarly. In the initial position, all the transistors are open (by voltage from the // input), and the voltage on the capacitors 5 and 7 is close to zero, and the voltage on the capacitor 6 is close to OV When applied to the AND blocking voltage, the transistors 8 and E are locked, and the voltage on the capacitors 5 ,. 7 is growing. The voltage applied to an RC circuit consisting of a resistor 4 and a capacitor 7 consists of the voltage across the capacitors. and 6. Capacitor 6 is chosen sufficiently large, and therefore, the voltage applied to the circuit containing resistor 4 and capacitor 7 increases. In this case, the diode Y is locked. From the physical point of view of linearization, the output is that this capacitor is charged not from a constant, but from an increasing voltage, which is added to capacitors 5 and 6.

To decouple the first integrating chain (resistor 3 and capacitor 5) from the RC circuit (resistor 4 and capacitor 7), an isolating device 12 can be used (see Fig. 2), and in particular an emulator repeater.

The use of three integrating circuits (see Fig. 3) allows for greater linearity of the sawtooth voltage.

In such generators, the slope of the sawtooth voltage (linear term) is determined by only three parameters; inductor, resistor 4, and capacitor 7. The effect of diode 1 is very small and can be easily taken into account.

The parameters of the second (and third) RC circuits and capacitor 6 affect only the quadratic and cubic terms. At the same time, there is no particularly high demands on their stability.

Thus, the proposed generator allows to obtain a high accuracy of the sawtooth voltage, and for all the main characteristics: stability of the initial level, stability of the slope and nonlinearity. The instability of the initial level can be fractions of millivolts, a non-linearity of the order of 0.01% can be obtained, and a high stability of the slope. That is, the proposed schemes can be used for highly accurate (0.01-0.1%) and simple transducers, as well as for functional coding, i.e. for introducing corrections to nonlinearity in the measurement process.

As a rule, such corrections (associated, for example, with non-linearity of the sensor) are small and can be described by a parabolic dependence. In the proposed schemes, this problem is solved without complicating the scheme.

by just changing its settings.

Subject invention

A sawtooth generator containing keys integrating RC circuits,

diodes and power supply, characterized in that, in order to improve the accuracy and simplify the circuit, it additionally has a capacitor connected between the input of one integrating RC circuit and the connection point of the resistor "capacitor of the other integrating RC circuit, and the inputs of the integrating RC circuit through diodes connected to a power source.

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