KR200257920Y1 - Rectifying circuit - Google Patents

Abstract

The present invention relates to a rectifier circuit, a transformer (Ts) for converting high-voltage alternating current into a low-voltage alternating current, a rectifier (100) connected to the transformer (Ts) for converting alternating current into a direct current, and the rectifier (100) Is connected in parallel to the output terminal of the) and the smoothing circuit 200 to minimize the ripple of the DC output to the load, and the diode (D) is connected in parallel to the smoothing circuit 200 in the forward direction to the reverse current from the load And connect a resistor R so that the reverse current flows through the diode D and the resistor R instead of flowing to the smoothing circuit 200 to protect the rectifier 100 and the smoothing circuit 200 from the reverse current. Rectifier circuit.

Description

Rectifying circuit

The present invention relates to a rectifier circuit, and more particularly to a rectifier circuit that can protect the smoothing circuit of the rectifier from the reverse current of the load.

Generally, as shown in FIG. 1, a conventional rectifier circuit includes a transformer (Ts) for converting high-voltage alternating current into a low-voltage alternating current, and a rectifier (100) connected to the transformer (Ts) to rectify low-voltage alternating current with a direct current. ) And a direct current connected to the output terminal of the rectifier 100 in parallel to the continuous charge and discharge of the capacitors (C1, C2, C3) and the action of the three-terminal regulator (R · G), a large ripple direct current It consists of the smoothing circuit 200 which makes | forms.

In the conventional rectifier circuit, when a high voltage AC voltage is applied to the primary coil of the transformer Ts, a low voltage AC is output by the induction phenomenon of the secondary coil, followed by full-wave rectification by the rectifier 100 composed of Wheatstone bridge. The ripple is rectified to a large direct current.

The direct current having a large ripple is directly connected to the load by changing the direct current with a small ripple due to the charging and discharging action of the continuous capacitors C1, C2 and C3 and the action of the three-terminal regulator R · G.

However, such a conventional rectifier circuit has a large reverse current from the load applied to the rectifier circuit in the event of a sudden down or power failure of a device connected to the load, thereby damaging the capacitor, rectifier and diode of the smoothing circuit. There is a problem that often occurs.

The present invention has been made to solve the above-mentioned conventional problems, and to provide a rectifier circuit that can further protect the rectifier and the smoothing circuit from the reverse current of the load by further connecting a diode and a resistor to the smoothing circuit.

1 is a circuit diagram showing a conventional general rectifier circuit.

2 is a circuit diagram showing a rectifier circuit according to the present invention.

* Description of the symbols for the main parts of the drawings *

Ts; Trans100; rectifier

200; Smoothing circuits C1, C2, C3; Condenser

D; Diode R; resistance

ZD; Zener diode 300; Reverse Current Protection Circuit

R · G; 3-terminal regulator

In order to achieve the above object, the configuration of the rectifier circuit according to the present invention includes a transformer for converting alternating current of high voltage into alternating current of low voltage; A rectifier connected to the transformer to convert alternating current into direct current; A smoothing circuit connected to the output terminal of the rectifier in parallel and outputting the ripple of the direct current to a load; The diode is connected to the smoothing circuit in parallel to the reverse current from the load so that the reverse current does not flow to the smoothing circuit and the rectifier, thereby protecting the rectifier and the smoothing circuit from the reverse current.

Here, the object of the present invention may be achieved by connecting a resistor in series to the diode so that reverse current flowing through the diode is consumed as Joule heat.

Hereinafter, with reference to the accompanying drawings the most preferred embodiment of the rectifier circuit according to the present invention to the extent that a person skilled in the art can easily implement the present invention will be described in detail as follows. .

2 is a circuit diagram showing a rectifier circuit according to the present invention.

As shown in the rectification circuit according to the present invention is a transformer (Ts) consisting of a primary coil and a secondary coil for converting a high-voltage alternating current into a low-voltage alternating current, and is connected to the output terminal of the transformer (Ts) Wheatstone bridge type rectifier (100) consisting of a plurality of diodes (D1, D2, D3, D4) and an output stage of the rectifier (100) for converting an alternating current output from the secondary coil of Ts) into a direct current. Connected in parallel to the DC ripple to minimize the charge and discharge of the capacitor (C1, C2, C3) and the ripple voltage removal action of the three-terminal regulator (R · G) to minimize the ripple to the load By rectifying the smoothing circuit 200 and the diode D connected in parallel to the smoothing circuit 200, the reverse current from the load flows to the diode D without flowing to the smoothing circuit 200. Reverse 100 and smoothing circuit 200 It is configured to protect from a current.

Here, the diode (D) is connected in the forward direction with respect to the reverse current from the load, the resistor (R) is connected in series with the diode (D) so that the reverse current flowing through the diode (D) at the resistor (R) It can be consumed by Joule heat.

In addition, a Zener diode ZD is connected to the front end of the load in parallel with the smoothing circuit 200 to supply a stable voltage to the load without being affected by the output voltage variation of the rectifier 100 and the smoothing circuit 200. Playing a role.

In the rectifier circuit according to the present invention configured as described above, when a high voltage alternating current is applied to the primary coil of the transformer Ts, a low voltage alternating current is generated in the secondary coil by an induction phenomenon, and then an output terminal of the transformer Ts. The ripple is converted into a large direct current by the rectifier 100 connected to the output. In addition, the smoothing circuit 200 connected in parallel with the rectifier 100 and composed of a plurality of capacitors (C1, C2, C3) and a three-terminal regulator (R · G) minimizes the ripple of the direct current to provide a stable direct current to the load. In order to supply, the smoothing circuit 200 is connected to the diode (D) and the resistor (R) in parallel to the device connected to the load is down or reverse current flows to the smoothing circuit 200 by the electrostatic phenomenon When it is intended to flow through the diode (D) and the resistor (R) instead to be used to protect the rectifier 100 and the smoothing circuit 200 from the reverse current.

Although the present invention has been described only in the above embodiments, the present invention is not limited thereto, and various modifications and changes may be made without departing from the scope and spirit of the present invention.

Therefore, the present invention is a transformer for converting high-voltage alternating current into low-voltage alternating current, a rectifier connected to the transformer to convert alternating current into direct current, and connected to the output terminal of the rectifier in parallel to minimize the ripple of the direct current output to the load The rectifier and the smoothing circuit from the reverse current by connecting a smoothing circuit and a diode and a resistor which are forward to the reverse current from the load in parallel to the smoothing circuit so that reverse current flows through the diode and the resistor instead of flowing into the smoothing circuit. There is an effect to protect.

Claims (2)

A transformer (Ts) for converting high-voltage alternating current into low-voltage alternating current and outputting the alternating current; A rectifier (100) connected to an output terminal of the transformer (Ts) for converting and converting an alternating current into a direct current; A smoothing circuit 200 connected in parallel to the output terminal of the rectifier 100 to minimize the ripple of the direct current and output the load to the load; The rectifier 100 and the smoothing circuit 200 are connected to the smoothing circuit 200 by connecting the diode D in parallel to the reverse current from the load so that the reverse current does not flow to the smoothing circuit 200. A rectifier circuit, characterized by protecting from reverse current. The rectifier circuit according to claim 1, wherein a resistor (R) is connected in series with an input terminal of the diode (D) so that reverse current flowing through the diode (D) is consumed as Joule heat of the resistor (R).