SU617798A1 - Method and apparatus for dependent control of dc motor field - Google Patents

Description

overvoltage and opposite in sign to the main reference signal.

As a result, the energy performance of the installation increases, as the use of engine power improves and the cos f of the installation increases.

FIG. Figure 1 shows the dependences of the voltage at the terminals of the motor versus the load current for changing the current up to 200% of the nominal; in fig. Figure 2 shows the corresponding dependences of the given value of the EMF E3 on the engine voltage (Ug); in fig. 3 is a schematic of an apparatus for carrying out the proposed method.

Curve a depicts the dependence of U, f (/) when setting the EMF setpoint according to a well-known two-zone method with dependent control “field of the engine; curve b - dependence (/) when setting the EMF setting using the proposed method of dependent field control; curve in relation to the dependence ((UD) in the formation of the law of change of the EMF setting by the proposed method; curve r shows the dependence of the voltage f / d on the emf when the engine is idling; curve d - dependence d / (E) at maximum load current.

As follows from FIG. 2, in the load range, the setpoint From the moment c / d, when t / d reaches the value of n, the setpoint voltage of the EMF is reduced so that the voltage on the motor is maintained at the nominal level (with an accuracy of static error b). In the limiting case, with a maximum load current., Is reduced by an amount proportional to (X-1)

LgA Comparison of curves a and b in FIG. I shows that the proposed method ensures that the installation’s energy performance is higher due to the higher voltage on the engine over the entire range of load variation.

The gain in energy performance (improvement in engine power utilization and increase in cos f of the plant) is characterized by the shaded figure in FIG. 1 area.

Shown in FIG. The 3 diagram of the device implementing the proposed method includes a voltage regulator 1, a voltage sensor 2, a regulator 3 EMF and a sensor 4 EMF. The output of voltage regulator 1 is connected to one of the inputs of the EMF regulator, which is connected to the source of the main master signal by another input.

Regulator 1 is connected to a source of a reference signal by one input, and the other input is connected to the output of voltage sensor 2. Accordingly, the output of the EMF sensor 4 is connected to the input of the regulator 3. Sensors 2 and 4 are connected to the motor, and the output of the regulator 3 to the input of the excitation current regulator.

One of the inputs of the voltage regulator 1 is supplied with a reference signal C / FL proportional to the nominal voltage of the motor and ". The polarity / et is such that the zener diode in the feedback circuit of the regulator 1 shunts the regulator, and its output voltage is zero. At the other input of the regulator 1, counterf / f, a signal is output from the output of voltage sensor 2, which is proportional to the motor voltage t / d. When the value at the output of regulator 1 is present and only at the input of regulator 3, the emf acts only the setpoint signal t /: ,, the proportional nominal value of the emf of the engine ".

With values that correspond to the load mode, the output of the regulator 1 is a signal, an opposite ultrasound, decreasing the set value of the EMF EI to the value at which the voltage on the motor exceeds the static error b within the limits of static error b / n. The dependence of the output signal of the voltage regulator Uyn on the database represents the curve / in FIG. 2. In the limiting case, the specified value

The emf at the regulator input corresponds to expression (1).

The setting of the EMF is compared at the input of the regulator 3 with the output signal of the 4 EMF sensor proportional to the actual

EMF engine.

Claims (2)

1. The method of dependent control of a DC motor field of a valve electric drive by changing the excitation current as a function of the emf, characterized in that, in order to improve the use of engine power and increase the cos f setting, the emf setting at values of the motor voltage lower than the nominal one are kept at the same level limited by the conditions of the dynamic reserve of the converter voltage, and at high voltages they reduce The specified task is proportional to the magnitude of the actual motor voltage exceeding the set one, maintaining the same voltage across the engine terminals. 2. An apparatus for carrying out the method according to claim I, comprising an emf regulator, characterized in that it is additionally provided with a voltage regulator, the output of which is connected to one of the inputs of the emf regulator, two inputs of the regulator of the voltage are connected to the source the motor voltage sensor, and a zener diode is included in its feedback circuit.