JPH03875Y2 - - Google Patents

Description

[Detailed description of the invention] [Field of industrial application] The present invention relates to a rectifier circuit that can be switched to either a bridge rectifier circuit or a half-wave double voltage rectifier circuit by means of a switch. relates to a rectifier circuit that incorporates two types of fuses so that external lines can always be reliably protected even when the input voltage is changed.

[Conventional technology]

The distribution voltage of low-voltage systems in Japan is 100V.
200V is the mainstream. For relatively large OA equipment, etc., the 100V system and
It is desirable to design a power supply that allows easy switching of the 200V input voltage.

Therefore, as shown in FIG. 2, a bridge diode 1, two capacitors C ₁ and C ₂ connected in series on the rectified output side thereof, and a midpoint between the bridge diode 1 and one anode of the bridge diode 1 are connected. - A rectifier circuit consisting of a switch SW connected between the cathode coupling part and the cathode coupling part is used. This rectifier circuit is a switch
It can be switched to either a bridge rectifier circuit or a half-wave double voltage rectifier circuit by operating the SW. Even in this rectifier circuit, a fuse _F1 is inserted into the AC input line to protect the equipment. The rating of the fuse _F1 is determined by taking into consideration the one through which the most current flows, that is, the input of the 100V system in this case.

[Problem that the invention attempts to solve]

If the input voltage is 200V, only half the current will flow in this rectifier circuit than when it is 100V. Therefore, even if an abnormality occurs during 200V input, fuse _F1 will not blow unless a current exceeding the rated current for 100V input flows, so it cannot function as a fuse.
Therefore, the external input line of this rectifier circuit is
If a thin pattern or thin lead is designed specifically for the 200V system, there is a possibility that the wires will heat up and break, causing an accident.

An object of the present invention is to provide a rectifier circuit that eliminates the drawbacks of the prior art as described above and can protect external lines even when the AC input voltage is high.

[Means for solving problems]

The present invention enables switching between bridge rectification and double voltage rectification by means of a switch, and enables high input voltage and low input voltage, such as 200V AC input or
As a result of a detailed study of the current path at high input voltage for a rectifier circuit that can handle either one of the 100V system inputs, we noticed that there is a path through which current flows at high input voltage but not at low input voltage. It has been done.

In other words, the present invention, which can achieve the above objectives, incorporates two types of fuses in appropriate locations so that it can cope with both high and low AC input voltages. It is. That is, while connecting the first fuse to the AC input line of the bridge diode,
A second fuse having approximately half the current capacity of the first fuse is inserted between the connection between the AC input line and the switch means and the cathode-anode connection of one of the bridge diodes. be.

[Effect]

With this circuit configuration, current flows through the second fuse in the case of bridge rectification for rectifying high input voltage, but current flows through the second fuse for rectifying low input voltage.
In the case of voltage doubler rectification, no current passes through the second fuse, so the first fuse protects the external line at low input voltages, and the second fuse protects the external line at high input voltages. This allows the line to be protected.

〔Example〕

Hereinafter, the present invention will be explained in more detail based on the drawings. FIG. 1 is a circuit diagram showing an embodiment of a rectifier circuit according to the present invention. As is clear from a comparison with FIG. 2 showing the prior art, the basic circuit configuration is almost the same. First, let me briefly explain them. This rectifier circuit consists of four diodes.
A bridge diode 1 in which D ₁ , D ₂ , D ₃ , and D ₄ are bridge-connected, two series capacitors C ₁ and C ₂ inserted on the rectified output side, and a connection between the midpoint and the bridge diode 1. A switch means SW connected between one cathode-anode joint part b is provided. A first fuse F ₁ is connected to one of the AC input lines of the bridge diode 1 . The configuration up to this point is completely the same as that of the conventional example shown in FIG.

Now, the points where the present invention is significantly different from the conventional technology are as follows.
A second fuse _F2 is inserted between the connection between the AC input line and the switch means SW and one cathode-anode connection b of the bridge diode 1. This second fuse F ₂ ,
It has approximately half the current capacity of the first fuse _F1 .

Next, the operation of this circuit will be explained. First, when inputting a low voltage (for example, 100V), the switch means SW can be turned on as shown in FIG. During the positive half cycle of AC input (the upper input terminal is positive in Figure 3), the current flows as shown by the solid arrow.
I ₁ flows through diode D ₂ and load 2 to charge capacitor C ₂ , and then in the negative half cycle, current flows through diode D 2 and load 2 to charge capacitor C 2 and load capacitor C ₂ as shown by dashed arrow I ₂ . 2 and through the diode _D1 . Therefore, the voltage across the load 2 is approximately twice the AC input voltage. As is clear from the solid arrow I ₁ and the dashed arrow I ₂ in FIG. 3, no current flows through the diodes D ₃ and D ₄ and the second fuse F ₂ in this case.

On the other hand, in the case of high voltage input (e.g. 200V system), the switch means SW is used as shown in Figure 4.
Just turn it off. In the case of a positive half cycle of AC input (assuming the upper terminal is positive in Figure 4), current flows through diode D ₂ , load 2, and diode D ₃ as shown by solid arrow I ₃ ; In the case of a negative half cycle, current flows through diode D ₄ , load 2, and diode D ₁ as shown by the dashed arrow I ₄ . What is important here is that current flows through the second fuse _F2 .

In other words, in the case of a low input voltage as shown in Figure 3, no current flows through the second fuse _F2 , but in the case of a high input voltage as shown in Figure 4, the current flows through the second fuse F2.
Flows through _F2 . Here, as mentioned above, the first fuse F ₁ has a large current capacity, whereas the second fuse F ₂ has about half that current capacity, so it protects the circuit at low input voltages. can be provided by the first fuse F ₁ , whereas circuit protection at high input voltages is provided by the second fuse.
This can be done using fuse _F2 . As a result, protection of the external line can always be realized even when the AC input voltage is high or low.

The switch means SW in the present invention is not limited to an ordinary mechanical switch, but may be a method such as connecting a jumper wire in some cases. In other words, if the switch means insertion part can be opened and closed relatively easily, the function can be sufficiently achieved. Of course, bridge diodes that are bridge-connected and housed in one package are easy to use, but they may also be assembled with discrete diodes.
Further, the first fuse may be inserted into both AC lines, respectively.

[Effect of idea]

In this invention, as mentioned above, two types of fuses are inserted at appropriate positions, so that when the input voltage is low, the first fuse is used, and when the input voltage is high, the second fuse is used to connect the external line. This has an excellent practical effect in that it protects the wires and prevents accidents such as abnormal heat generation and disconnection of patterns and leads. Also, from a circuit perspective, it is extremely inexpensive because only one fuse needs to be inserted in the conventional rectifier circuit.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the rectifier circuit according to the present invention, FIG. 2 is a circuit diagram showing a conventional technique, and FIG.
FIG. 4 is an explanatory diagram showing a current path when the input voltage is low, and FIG. 4 is an explanatory diagram showing the current path when the input voltage is high. 1... Bridge diode, 2... Load, C ₁ ,
C ₂ ... Capacitor, SW ... Switch means, F ₁ ...
...First fuse, F ₂ ...Second fuse.

Claims (1)

[Scope of utility model registration request] In a rectifier circuit that combines a bridge diode and a capacitor and can be switched between bridge rectification and double voltage rectification by a switch means, a first fuse is connected to an AC input line of the bridge diode, and A second fuse having approximately half the current capacity of the first fuse is inserted between a connection between the AC input line and the switch means and one cathode-anode connection of the bridge diode. A rectifier circuit.