JPH0528952Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a DC-DC converter used in switching regulators and the like.

(Prior Art) Generally, various circuits are known for DC-DC converters, and their switching elements include:
Mainly transistors and SCRs are used.

Blocking oscillators and Royer circuits are well known as DC-DC converters using transistors, and FIG. 3 shows a circuit example of a DC-DC converter using a blocking oscillator.

In FIG. 3, transistor Q, transformer T, resistor R and capacitor _C1 constitute a blocking oscillator. The above transistor Q oscillates because its output is positively fed back from the collector side to the base side through the primary winding _L1 of the transformer connected between the collector and the DC power supply B and the feedback winding Lf for positive feedback. The output is taken out from the secondary winding _L2 of the transformer T as an oscillation output. The resistor R and capacitor _C1 connected to the base of the transistor Q are
It constitutes the timing circuit of the oscillator, and determines the timing from when transistor Q is cut off to when it becomes conductive.

The oscillation output of the blocking oscillator output from the secondary winding _L2 of the transformer T is transmitted through a diode bridge D consisting of diodes _D1 to _D4 .
The signal is bridge-rectified at , smoothed by a smoothing circuit consisting of smoothing capacitors C ₂ and C ₃ and a choke coil Ch, and then supplied to the load _RL .

That is, the DC-DC converter 1 in FIG.
The DC voltage of the DC power supply B connected between the input terminals 2 and 3 is applied to the primary winding L ₁ and the secondary winding of the transformer T.
After converting to the specified DC voltage determined by the winding ratio of L ₂ , etc., the load connected to the output terminals 4 and 5.
Supply to R _L.

Conventionally, the DC-DC converter 1 as described above includes a transistor Q, a resistor R, a capacitor C ₁ , a smoothing capacitor C ₂ , C ₃ , a transformer T, diodes D ₁ to D ₄ , a choke coil Ch, etc. were mounted on printed circuit boards made of materials such as phenol or glass epoxy.

By the way, in recent years, parts have become increasingly chipped, and DC-DC, which is used in switching regulators, etc.
Converters are also becoming smaller, but for those with relatively large outputs, it is difficult to make smoothing capacitors C ₂ and C ₃ into chips, and there is a limit to miniaturization.

(Purpose of the invention) The purpose of the invention is to create a small, compact, large-capacity
The purpose of the present invention is to provide a DC-DC converter.

(Structure of the invention) Therefore, in the present invention, the current switched by the switching circuit is supplied to the primary winding,
The dielectric of the smoothing capacitor that smoothes the rectified output of the secondary winding of the transformer whose output is taken out from the secondary winding that is electromagnetically coupled to the primary winding has a flat plate shape made of ceramic dielectric. A switching circuit, a transformer, and a rectifier circuit are mounted on the smoothing capacitor, and a metal film for shielding is interposed between the switching circuit, transformer, and rectifier circuit, and the smoothing capacitor. It is characterized by The smoothing capacitor functions as a capacitor for smoothing the output of the DC-DC converter, and also functions as a board for mounting components. Further, the shielding metal film shields between the smoothing capacitor and the transformer.

(Effects of the invention) According to the invention, the smoothing capacitor itself of the DC-DC converter also functions as a board for mounting components, so there is no need to mount a large smoothing capacitor on the board, and DC -The shape of the DC converter is reduced. Furthermore, according to the present invention, the area of the dielectric of the smoothing capacitor can be increased, the capacitance of the smoothing capacitor can also be increased, and the capacity of the DC-DC converter can also be increased. Furthermore, since a metal film for shielding is interposed between the switching circuit, transformer and rectifier circuit and the smoothing capacitor,
The switching operation of the switching circuit prevents the noise generated due to sudden changes in the current flowing through the transformer from being output to the smoothing capacitor side, making it possible to obtain a DC output with less noise, as well as to reduce the input noise of the DC-DC converter. Since the output is shielded by a shielding metal film, a stable DC-DC converter without abnormal oscillation can be obtained.

(Embodiments) Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

An embodiment of the DC-DC converter according to the present invention is shown in FIG.

The above DC-DC converter is a DC-DC converter to which the present invention is applied, having the circuit configuration illustrated in FIG.
In addition to forming C ₂ and C ₃ , the dielectric substrate 1
On top of 1, there is a transformer T composed of printed coils, etc., a transistor Q, a resistor R, and a capacitor.
C ₁ , a chiyoke coil Ch and a diode bridge D are mounted.

The dielectric substrate 11 has two electrode films 12 and 13 formed on one main surface thereof, and one electrode film 14 opposite to the electrode films 12 and 13 formed on the other main surface. . The electrode films 12, 14
and the dielectric substrate 11 located therebetween form one smoothing capacitor _C2 . Similarly,
Another smoothing capacitor is formed by the electrode films 13 and 14 and the dielectric substrate 11 located between them.
_C3 is formed.

An insulating sheet 15 made of ceramic is adhered onto the electrode films 12 and 13 of the dielectric substrate 11,
A shielding metal film 16 is formed on this insulating sheet 15. On top of this metal film 16 is another ceramic insulating sheet 17.
is glued. A transformer T is formed within this insulating sheet 17 by a printed coil. Then, on this insulating sheet 17, the circuit pattern 1 of the DC-DC converter explained in FIG.
8 is formed, and in this circuit pattern 18,
Circuit components such as transistor Q and capacitor _C1 are soldered. The transformer T may also be formed by winding a wire around a core instead of being formed by a printed coil as described above, and in such a case, it is soldered to the circuit pattern 18. Also,
Above circuit pattern 18 and smoothing capacitors C ₂ and C ₃
Connection with the insulating sheets 15 and 17 is made through through holes (not shown) formed in the insulating sheets 15 and 17.

With such a configuration, the dielectric substrate 11
The dielectric substrate 11 functions as a substrate for mounting components of the DC-DC converter 1, and smoothing capacitors C ₂ and C ₃ are formed on the dielectric substrate 11 . For this reason,
A large smoothing capacitor is placed on the dielectric substrate 11.
It can be seen that there is no need to mount C ₂ and C ₃ , and the shape of the DC-DC converter can be made smaller. Furthermore, the area of the dielectric substrate 11 is also large, and therefore the capacitance of the smoothing capacitors C ₂ and C ₃ is also large. moreover,
Since the metal film 16 for shielding shields between the transistor T and the smoothing capacitors _C2 and _C3 , noise generated due to a sudden change in the current flowing through the transformer T due to the switching operation of the transistor Q is removed from the smoothing capacitor C. There is no output to _{the 2} and C ₃ sides, making it possible to obtain DC output with less noise.Moreover, since the input and output of the DC-DC converter are shielded by the shielding metal film 16, there is no abnormal oscillation. Stable oscillation can be performed.

In the above embodiment, the smoothing capacitors C ₂ and C ₃ are
Although the configuration is made of a flat plate capacitor using one dielectric substrate 11, a multilayer capacitor as shown in FIG. 2 may be used instead of this flat plate capacitor.

However, in the embodiment of FIG. 2, the multilayer capacitor corresponds to the smoothing capacitor _C3 of FIG. 3, and the other smoothing capacitor _C2 is omitted.

In this way, the capacitance of the smoothing capacitor _C3 can be further increased.

The present invention is applicable not only to the DC-DC converter having the circuit configuration shown in Fig. 3, but also to DC-DC converters having other circuit configurations.
It can also be applied to DC converters.

[Brief explanation of the drawing]

1 and 2 are DC-
FIG. 3 is a circuit diagram showing an example of the circuit configuration of a DC-DC converter. 11: dielectric substrate, 12, 13, 14: electrode film, 15: insulating sheet, 16: metal film for shielding, 17: insulating sheet, Q: transistor, T: transformer, _L1 : primary winding, _L2 :
...Secondary winding, D...Diode bridge, _C2 ,
_C3 ...smoothing capacitor, Ch...channel coil.

Claims (1)

[Claims for Utility Model Registration] A switching circuit that switches DC current supplied from a DC power source, and a current switched by this switching circuit that is supplied to a primary winding and electromagnetically coupled to the primary winding. The DC- In the DC converter, the smoothing capacitor has a flat plate shape whose dielectric is made of ceramic dielectric, and the switching circuit, transformer, and rectifier circuit are mounted on the smoothing capacitor, and the switching circuit, transformer and a DC-DC converter, characterized in that a metal film for shielding is interposed between the rectifier circuit and the smoothing capacitor.