SU1513589A1 - Frequency converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in compact power sources. The purpose of the invention is to increase reliability and simplification. The network voltage is applied in phase to bridge rectifier 1 and voltage doubler 10. The output voltage of the bridge rectifier 1 is supplied to the input of the thyristor 3 and the beginning of the chain consisting of inductance 4, resistor 6 and capacitance 5. After time Τ, determined by the time constant of the chain, a sufficient voltage appears on the control electrode of the thyristor 3 to unlock it, a current flows through the open thyristor 3, the capacitor 5 is discharged. The opening of the valve 8 depends on the ratio of the voltages at the output of the integrator 9 interrupt and at the output of the thyristor 3. These ratios depend on the level of the network voltage. Therefore, the duration of the pulse generated at the output of the thyristor 3 is related to the parameters of the forming elements and the voltage of the network. The ability to stabilize the output voltages at the conversion stage and the small number of elements used in the device provide a high degree of reliability and simplicity of the device. 1 il.

Description

31513

The invention relates to electrical engineering and can be used to build compact power sources based on rectifiers with direct line power and using high frequency voltage to form predetermined levels of operating voltages.

The aim of the invention is to improve the reliability and simplification of the frequency converter.

The drawing is presented. block diagram of the frequency converter

The frequency converter contains

I bridge voltage reliever, I

which input is connected to the network, and

output - with filter 2, thyristor 3 input and inductance winding 4 beginning One of capacitor 5 plates is connected to the output of thyristor 3, the other plate of which is connected to the control electrode of thyristor 3 and through a resistor 6 is connected to the end of winding 4 inductance Output; thyristor 3 is connected to the input of stabilizer 7 and through series-connected valve 8 and integrator 9 shutdown to the output of voltage doubler 10 and to its filter I. Voltage doubler 10 input is connected to the input of bridge voltage voltage generator 1, and the output of amplitude stabilizer 7 is connected to input block 12 i output voltages

I The frequency converter works as follows.

The mains voltage goes in phase to bridge bridge 1 and doubler 10 voltage. The output voltage of bridge bridge 1 leads to the input of the thyristor 3 and the beginning of the chain consisting of winding 4 of the inductance, resistor 6 and capacitor 5. The chain is connected between the input and the output of the thyristor 3, the control electrode of which is connected to the capacitor 5 plate and the resistor 6, therefore, after a time, defined. divisible by the time constant of the chain, on the control electrode of the thyristor 3 raises the voltage sufficient to unlock it, current flows through the open thyristor 3, and the capacitor 5 is discharged.

Simultaneously with the beginning of the described process, the voltage from the output of the voltage doubler 10 is fed to the input of the integrator 9 interrupt, at the output

five

five

0 0 5

40 45 gp 25

which is formed continuously increasing voltage (in a particular case linearly). After a time t, when the voltage at the output of the preglogani integrator 9 exceeds the voltage at the code of the thyristor 3, the valve 8 opens, the voltage at the output of the thyristor 3 becomes higher than its input voltage and the thyristor 3 closes. When the valve 8 is open, the interrupt integrator 9 during the time t & l returns to the initial state, and the output voltage of the valve 8 is close to zero.

From the above, it follows that the values of the control voltages are determined by the parameters of the integrator 9 interrupt and inductance 4, the capacitor 5 and the resistor 6. However, the unlocking of the valve 8 depends on the ratio of the voltages at the output of the integrator 9 to the interrupt and at the output of the thyristor 3, These ratios Depend on network voltage level. Therefore, the duration of the pulse generated at the output of the thyristor 3 is related to the parameters of the forming elements and the voltage of the network.

The generated pulse is fed to the stabilizer 7 amplitude, which. such an amplitude of the pulses is established, at which the integral value of the energy of the high-frequency pulses during the half-periods of the low-frequency voltage of the network / becomes almost constant. Thus, an almost stabilized voltage is applied to the output voltage shaping unit 12. This becomes especially important if several voltage gradations are removed from the output voltage block 12 for powering-off devices.

The complexity of the elements included in the converter depends on the requirements imposed on the parameters of the output voltages.

So, the interrupt integrator 9 in the simplest form of a molset is, for example, an integral chain of about 0.9RC. A diode with specified parameters can be used as a gateway 8, a transistor whose collector and emitter are connected to can be used as an amplitude stabilizer 7. discharging the output circuit of the thyristor 3 and the input of the block 12 output voltages, and to set the required amplitude of the pulse on the base, an integrating chain and a zener diode are set

Claims (1)

Invention Formula A frequency converter containing a bridge voltage rectifier, the input of which is connected to the input circuits for power supply connection, and the output with a filter, the beginning of the inductance winding and the input of the thyristor, to the output of which one of the capacitor plates is connected, and a block of output voltages that distinguishes so that, in order to increase reliability and simplification, a voltage doubler with a filter at its output was added to it, the Prergoani integrator, a gate, an amplitude stabilizer and a resistor, and connected to the bridge rectifier input, its output through an interrupt integrator connected in series and the valve to a thyristor output, which through an amplitude stabilizer is connected to the input of an output voltage block, and the end of the inductance winding through a resistor is connected to another capacitor plate that is connected to thyristor control electrode.