JPH0231911Y2 - - Google Patents

Description

[Detailed description of the invention] [Technical field of the invention] The invention is based on a transistor base-driven DC-
Regarding DC converters.

[Prior art]

Conventionally, in this type of DC-DC converter,
The base drive circuit of the transistor uses a constant current method, as seen in the forward converter circuit shown in Figure 2 and the flyback converter circuit shown in Figure 3, and has a current that is sufficient for the maximum value of the collector emitter current of the main transistor. Since a commensurate base current always flows when the transistor is on, an excessive base current will be supplied if the collector-emitter current of this transistor can be small. Furthermore, even when the base current is turned off, a large number of mobile carriers remain, so that the so-called storage time of the transistor becomes longer. Therefore, even when the base current is turned off, the transistor continues to turn on, supplying more power than necessary to the secondary side, and the oscillation of the DC-DC converter becomes irregular, causing oscillation noise. This may cause problems such as an increase in ripple voltage on the secondary side. In order to eliminate this problem, it was necessary to insert a dummy resistor 5 (or 14) on the secondary side so that the collector-emitter current of the transistor always exceeded a certain value. However, such a method has a disadvantage in that it causes a decrease in the efficiency of the converter.

[Purpose of invention]

The purpose of this invention is to eliminate these drawbacks by changing the base current according to the magnitude of the collector-emitter current of the main transistor, thereby increasing the efficiency of stable oscillation from heavy loads to light loads. Our goal is to provide high-quality DC-DC converters.

[Structure of the idea]

The present invention includes a pulse transformer or a circuit that causes current to flow through the base of a main transistor by a voltage induced in the secondary side of the main transformer, and drives the primary side of the main transformer connected in series with the main transistor. In the DC-DC converter, a resistor inserted on the emitter side of the main transistor, a first transistor connected to both ends of the resistor and picking up the voltage at both ends, and receiving the output of the first transistor, a second transistor connected to both ends of the resistor so as to form a bypass circuit for the resistor connected in series to the base of the main transistor; It is characterized in that the base current value of the main transistor is changed accordingly.

[Example of idea]

Next, examples of the DC-DC converter according to the present invention will be described with reference to the drawings.

FIG. 1 shows a circuit diagram of an embodiment of the present invention. Note that this example shows the case where the present invention is applied to the forward converter shown in FIG. In the figure, 21 is the main transformer, 22
23 to 25 are transistors, 26 to 30 are resistors, 31 and 32 are diodes, and 33 is a capacitor. In such a circuit configuration, when a DC voltage is applied to the power input terminal and a rectangular wave drive input is given to the drive transformer 22, when the load is light, that is, when the collector-emitter current of the main transistor 23 is small, Since the emitter current _iE is also small, the transistor 24 is not turned on. Therefore, transistor 25
Since the transistor 23 also remains in the off state, the base current of the transistor 23 during that time is only i _B1 . but,
When the load becomes heavy and the emitter current i _E increases, the transistor 24 is turned on, and subsequently the transistor 25 is also turned on, and the emitter current i _B2 of the transistor 25 determined by the resistor 30 also begins to flow. As a result, the current i _B3 flowing into the base of the main transistor 23 becomes i _B3 = i _B1 + i _B2 , indicating that the base current changes due to the change in the emitter current.

That is, in the conventional examples shown in FIGS. 2 and 3, the base drive voltage V ₁ is always a constant rectangular wave, and therefore the base current i _B of the main transistor is always i _B = (V ₁ − V _BE )/R (R is the resistance value of the base resistance 4 or 13).In contrast, in the embodiment shown in Fig. 1, when the emitter current of the main transistor is small, the base current is also small and the OFF state is The remaining carriers at the time are also reduced, and as a result, the storage time of the main transistor is shortened, and stable oscillation is possible, so a dummy current as in the conventional case is no longer necessary.

In the above embodiment, it goes without saying that it is desirable to select the base current i _B3 of the main transistor 23 to be equal to i _B . Further, although the above-described embodiment shows an example of a forward converter, it is easy to understand that the present invention can also be applied to a flyback converter.

[Effect of idea]

As is clear from the above explanation, according to the present invention, by providing the drive circuit with a bypass circuit that changes the base current according to the magnitude of the collector-emitter current of the main transistor, it is possible to eliminate the need for passing a dummy current. Stable oscillation can be achieved from loads to light loads, and the effect of improving efficiency and reliability is significant.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, FIG. 2 is a circuit diagram showing an example of a conventional forward converter, and FIG. 3 is a circuit diagram showing an example of a conventional flyback converter. In the figure, 21 is a main transformer, 22 is a driving transformer, 23 to 25 are transistors, and 26 to 3
0 is a resistor, 31 and 32 are diodes, and 33 is a capacitor.

Claims (1)

[Scope of utility model registration request] A DC-DC converter comprising a pulse transformer or a circuit that causes a current to flow through the base of a main transistor using a voltage induced on the secondary side of the main transformer and drives the primary side of the main transformer connected in series with the main transistor. a resistor inserted on the emitter side of the main transistor; a first transistor connected to both ends of the resistor to pick up the voltage across the resistor; and an output side receiving the output of the first transistor; a second transistor connected across the resistor to form a bypass circuit for the resistor connected in series to the base of the main transistor; Characterized by changing the base current value of the transistor
DC-DC converter.