JPS607225A - Base drive circuit of transistor inverter - Google Patents

Abstract

PURPOSE:To improve the reliability by connecting a base of a PNP transistor (TR) to a collector of a photo TR so as to eliminate a diode thereby avoiding a detour to a base of an NPN TR. CONSTITUTION:When an output of a control section 7 is turned on, a photo LED11 of a photocoupler 10 is lighted and a photo TR12 is turned on. A base current of the 2nd PNP TR19 flows in this case, the TR19 is turned on and a base current of the 1st NPN TR14 flows and then the TR14 is turned on at the same time. Thus, the current flowing to the 1st resistor 17 flows from the collector of the 1st NPN TR14 to the emitter, does not flow to the base of the 3rd NPN TR18 and then the TR18 is turned off. That is, when an output of the control section 7 is turned on, the 2nd PNP TR19 is turned on, and the 3rd NPN TR18 is turned off. Further, a current limited by a resistor 21 flows to the base of a main circuit TR3 so as to turn on the main circuit TR3.

Description

[Detailed description of the invention] Industrial application field The present invention is a frequency conversion device (so-called inverter device)
This invention relates to transistor base drive circuits used in

Conventional configuration and its problems Conventionally, as shown in Fig. 1, a transistor base drive circuit transmits a front control signal through a photocoupler a,
When the ON signal is on, the base current of the PNP transistor b is prevented from flowing into the NPN transistor d by the diode C, and the current flows through the NPN transistor l and transistor e, and as a result, the current flows through the PNP transistor b. passes through the resistor f and turns on the transistor q of the main circuit.

On the other hand, when the control signal is off, the photocoupler a is turned off, so that the 15NPN transistor e connected in phase with it is also turned off, and the base current of the PNP transistor b does not flow and is turned off. At this time, the NPN transistor d is turned on because a p-pace current flows through the resistor. As a result, the charge accumulated in the transistor W of the main circuit becomes NPN
is drained through the type transistor d and turns off rapidly. Due to the above configuration and operation, not only is a diode C required to prevent the base current of the PNP transistor b from flowing to the N P N transistor d when it is on, but also the diode type Due to variations, there is a problem in that if the leakage current is large, it becomes impossible to prevent the inflow, and the NPN transistor d malfunctions.

OBJECTS OF THE INVENTION It is an object of the present invention to provide a highly reliable transistor base drive circuit.

Structure of the Invention In order to achieve this object, the base of the PNP transistor is connected to the collector of the phototransistor and the diode is eliminated, thereby eliminating the detour path to the base of the NPN transistor and ensuring reliable operation. It is.

Description of examples An embodiment of the present invention will be described below with reference to the accompanying drawings.

FIG. 2 is a schematic configuration diagram of a transistor inverter.
Reference numeral 1 denotes a rectifying and smoothing circuit, which converts an alternating current power supply to direct current. 2 is a main circuit transistor group constituting the main circuit of the transistor inverter, and six to four main circuit transistors shown in 3 are connected in series and parallel. 4 is a load such as a compressor, and is connected to the output of the main circuit transistor 3. 6 is a power supply circuit that converts AC commercial power into DC for control. 6 is a frequency setting section;
Reference numeral 7 denotes a control section that receives this and generates a waveform of a set frequency. Reference numeral 8 denotes a transistor base drive section that transmits the waveform generated by the control section 7 to the main circuit transistor group 2. 9 is a base drive circuit for operating the main circuit transistor 3; 1 for each main circuit transistor;
It has a base drive circuit. Note that the power supply circuit 6 supplies voltage to each of the frequency setting section 6, the control section 7, and the base drive section 8. Next, details of the base drive circuit 9 will be explained.

1Q is a photoconverter that transmits the output of the control section 7 to the base drive section 9, and is composed of (e)LEI)z and a phototransistor 12. Reference numeral 13 denotes a power source for the base drive circuit 9, which is insulated from the power source for the control section 7. 14 is a first NPN type transistor whose base is connected to the connection point of resistors 15 and 16 connected in series from the emitter of the phototransistor 12, and whose collector is connected to the power supply 13 through the first resistor 17. and further third
The base of the NPN transistor 18 is connected to the base of the NPN transistor 18. Reference numeral 19 denotes a second PNP type transistor whose base end is connected to the collector of the phototransistor 12 and is also connected to the power supply 13 via a resistor 20.

The collector of the second PNP transistor 19 and the collector of the third NPN transistor 18 are connected to a second resistor 2.
1, and the collector of the third NPN transistor 18 is connected to the base of the main circuit transistor 3.

Reference numeral 22 denotes a diode group in which diodes are connected in series, a capacitor 23 is connected in parallel, and the diode group 22 is connected to the power supply 13 via a resistor 24 and to the emitter of the main circuit transistor 3.

In the above configuration, when the output of the control section 7 is turned on, the photoLED 11 of the photocoupler 10 emits light, and the phototransistor 12 is turned on. At this time, the base current of the second PNP transistor 190 flows, and at the same time it turns on, the first N
The base current of the PN type transistor 140 also flows through the first NP
N-type transistor 14 is turned on. In this case, the current flowing through the first resistor 17 is transferred to the first NPN transistor 14.
flows from the collector to the emitter and does not flow to the base of the third NPN transistor 18, so the third NPN transistor 18 is turned off.

That is, when the output of the control section 7 is turned on, the second PNP transistor 19 is turned on, and the f, 3ty) NPN% transistor 18 is turned off. At this point, a current limited by the resistor 21 flows into the base end of the main circuit transistor 3, turning the main circuit transistor 3 on.

Conversely, when the output of the control section 7 changes from on to off, the phototransistor 12 turns off, and the second PNP transistor 1 turns off.
9 is off and the first NPN transistor 14 is off, a current limited by the resistor 17 flows into the base of the third NPN transistor 18, and the third NPN transistor 18 is turned on. At this point, a current flows that draws carriers from the base of the main circuit transistor 3, which is reverse biased by the diode group 22 and the capacitor 23, so that the transistor 3 rapidly changes from on to off. When this extraction current disappears, the transistor 3 is stabilized in an off state.

Therefore, the base drive circuit with the above configuration eliminates the diode for preventing the leakage current of the transistors that operate in a complementary manner, and changes the connection relationship, so it is effective in preventing malfunctions due to diode leakage current. It will be done.

Effects of the Invention As is clear from the second explanation, the present invention provides the second P.
Since the base of the NP transistor is connected to the collector of the phototransistor, and the base of the third NPN transistor is connected to the collector of the first NPN transistor, a diode is used to connect the second transistor and the third transistor. By not connecting the base ends of the transistors No. 3 to each other, malfunctions due to diode leakage current can be prevented and reliability can be improved.

[Brief explanation of drawings]

FIG. 1 is a conventional pace drive circuit of a transistor inverter, FIG. 2 is a schematic diagram of the transistor inverter of the present invention, and FIG. 3 is a base drive circuit diagram. 3... Main circuit transistor, 1o... Photocoupler, 12... Phototransistor, 14...
...First NPN transistor, 17...
...First resistor, 18...Third NPN transistor, 19-...Second PNP transistor, 21...Second resistor, 22... ...Diode group, 23...Capacitor.

Claims (1)

[Claims] a photocoupler that receives input from the control circuit; and a first NPN that operates in phase with the phototransistor of this photocoupler.
a second PNP transistor connected at the collector and base of the phototransistor;
a third NPN transistor connected at the collector and base of the first transistor; a first resistor connected to the collector of the first transistor;
a second resistor connecting the collectors of the third transistor, a transistor of the inverter main circuit connected at the collector and base of the third transistor, and a transistor connected in series to the emitter of this transistor. A transistor-in-array circuit comprising a group of diodes and a capacitor connected in parallel with the group of diodes.