JPS59210724A - Switching transistor driving circuit - Google Patents

Abstract

PURPOSE:To drive a main switching transistor (TR) and detect its current by a signal driving transformer by connecting a resistance to the emitter circuit of the main TR, and providing a current detection winding to the driving transformer. CONSTITUTION:When a TR 6 as a driving switch is on, the main switching TR 8 is off because of the polarity of the winding Nb of the driving transformer 7. When the TR 6 is off, the winding Na is released and the voltage applied to the transformer 7 is determined by the voltage of the winding Nb. This voltage is (VBE+IEXR), where VBE is the base-emitter voltage of the TR 8, IE is the emitter current, and R is resistance 12. Therefore, the winding Nd generates a voltage nd/nb.(VBE+IEXR), where nb and nd are the numbers of turns of the windings Nb and Nd. The voltage proportional to the current flowing through the TR 8 is generated by the winding Nd, so a detection part 5 detects the current flowing through the TR 8.

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field The present invention relates to a driving circuit for a switching transistor using a current feedback transformer, which is equipped with a current detection function.

BACKGROUND ART Conventionally, in power conversion devices such as switching regulators, switching transistor drive circuits using current feedback transformers have been used to reduce power consumption in the drive circuits and to perform high-speed switching of switching transistors.

FIG. 1 shows a conventional drive circuit and current detection circuit. In FIG. 1, 1 is a control power supply, 2 is a resistor, 3 is a rectifier, 4 is a control unit that generates a signal to turn on and turn a transistor 6, which serves as a drive switch, and 5 is a unit that detects the current flowing through the main switching transistor 8. The detection unit 7 is a drive transformer whose windings Na, Nb, and Nc are wound with polarities as shown in the figure. A current transformer 9 transforms the current flowing through the main switching transistor 8. 10.11 is a switch terminal. As shown in this FIG. It had the disadvantage of requiring

DISCLOSURE OF THE INVENTION An object of the present invention is to provide a switching transistor drive circuit in which a single transformer is used to drive a main switching transistor and to detect current.

Describing the configuration of the present invention, the present invention includes a control power source, a current feedback drive transformer (hereinafter simply referred to as a transformer), a drive switch, a main switching transistor, a control section for the drive switch, In a switching transistor drive circuit configured with a current detection section, a series circuit of the first winding of the transformer and the drive switch is connected in parallel to a rectifier and connected in parallel to a control power source via a resistor 2. A series circuit of a second winding of the transformer and a resistor 12 is connected between the base and emitter of the main switching transistor, and one end of the third winding of the transformer is connected between the second winding of the transformer and the resistor 12. In the present invention, the switching transistor drive circuit is connected to the connection point with the resistor 12, and each end of the fourth winding of the transformer is connected to one end of the control power supply and the current detection section. Connect a resistor to the emitter circuit of the switching transistor.1. By configuring the drive transformer to include a current detection winding, it is possible to drive the main transistor and detect its current using a single drive transformer.

Best mode for carrying out the invention The present invention will be explained by way of embodiments with reference to the drawings.

FIG. 2 is a circuit diagram of an embodiment of the present invention. In Figure 2, 1 is a control power supply, 2.12 is a resistor, 3 is a rectifier, and 4
% is a control section that generates a signal to turn on and off transistor 6, which serves as a drive switch; % is a detection section that detects the current flowing through the 5-digit main switching transistor 8; 7 is a drive transformer that connects the respective windings Na, Nb, Nc, and Nd. is wound with polarity as shown in the figure. 10.11 is a switch terminal.

Next, we will explain the 1st work shown in Figure 2. First, it is assumed that the transistor 6, which is a drive switch, starts from an on state. When the transistor 6 is on, a current flows through the path of the power supply 1 → the resistor 2 → the winding Na → the transistor 6. In this state, the second winding N of the drive transformer 7
Due to the polarity of b, the base of the main switching transistor 80 is at a negative voltage, so the main switching transistor 8 is in the off state. Next, when the transistor 6 is turned off, the current flowing through the first winding IPJNa of the drive transformer 7 disappears, so that the second winding Nb of the drive transformer 7
A voltage is generated at which the base side of the main switching transistor 80 becomes positive. This voltage begins to turn on the main switching transistor 8, and the collector current of said transistor begins to flow. Since this collector current flows through the first winding Na of the drive transformer 7, the main switching transistor 8 is rapidly turned on due to the positive feedback effect by the winding Nc. Next, when transistor 6 is turned on, transistor 6 and rectifier 3 turn on the first winding f of drive transformer 7.
g4Na is shorted. At this time, due to transformer action,
Since the second winding Nb of the drive transformer 7 is shorted, the main switching transistor 8 turns off VC.

After the main switching transistor 8 is turned off, the second winding Nb of the drive transformer 7 is in an open state, so the drive transformer 7 is excited by the current flowing through the resistor 2 to the first winding Na. The initial state is reached, and this is repeated thereafter.

Although only the driving operation of the main switching transistor 8 has been described above, current detection, which is an object of the present invention, will now be described. Considering the state in which the main switching transistor 8 is on, the drive switch transistor 6 is off, so the first winding +1ilNa of the drive transformer 7 is open. Therefore, in this state, the voltage applied to the drive transformer 7 is
It is determined by the voltage generated at b. This winding Nb1
The generated voltage is VBg, which is the voltage between the base and emitter of the main switching transistor 8, and IE, which is the emitter current.

If the resistor 12 is 1, then it becomes (Vng +IE xR).

Therefore: In the fourth winding Nd of the jM dynamic transformer 7, if the total number of turns of the windings IJNb and Nd are nb and nd, respectively,
-! l! ! ! A voltage of (VBE +IExR) is generated. As shown in b above, a voltage proportional to the current flowing through the main switching transistor 8 is generated in the fourth winding Nd.
The current flowing through the main switching transistor 8 can be detected by the detection section 5 connected to the winding Nd.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of a conventional current feedback type switching transistor circuit, and FIG. 2 is a circuit diagram of an embodiment of a current detection type switching transistor drive circuit of the present invention. 1... Control power supply, 2.12... Resistor, 3... Rectifier, 4... Control unit, 5.
... Current detection section, 6 ... Drive switch,
7... Drive transformer, 8... Main switching transistor, 10.11... Switch terminals, Na, Nb, Nc, Nd---7 each 1st and 2nd. Third. Volume 4 a. , -ri

Claims (1)

[Claims] A switching transistor drive circuit comprising a control power supply, a current feedback drive transformer (hereinafter simply referred to as a transformer), a drive switch, a main switching transistor, a control section for the drive switch, and a current detection section. A series circuit of the first winding of the transformer and the drive switch is connected in parallel to a rectifier and to a control power source via a resistor 2, and a series circuit of the first winding of the transformer and the drive switch is connected in parallel to a control power source via a resistor 2. is connected between the base and emitter of the main switching transistor, one end of the third winding of the transformer is connected to the connection point between the second winding of the transformer and the resistor 12, and the transformer A switching transistor drive circuit characterized in that each end of the fourth winding is connected to one end of a control power source and a current detection section.