JPH04165957A - Ac adapter - Google Patents

Abstract

PURPOSE:To prevent useless AC power consumption and to make possible to leave an AC plug to be plugged in a receptacle by providing an output current detecting circuit for detecting a noload state of DC output and interrupting AC input in case of noload state. CONSTITUTION:A main switch 1 is closed to set an auxiliary switch 7 in automatically interruptible state. When DC load current goes zero, an output current detecting circuit 4 provides a noload detection signal 5 to a main switch interrupting circuit 9. When the main switch interrupting circuit 9 is simultaneously provided with an automatically interruptible signal 8 from the auxiliary switch 7 and the noload detection signal 5, the main switch 1 is interrupted to interrupt AC primary input so as to disable a rectifying/smoothing/ stabilizing circuit 3 thus interrupting DC output supply to a load.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an ACC up, and particularly to an ACC up used in a portable DC input type device.

[Conventional technology]

Conventional A and C adapters will be explained with reference to the drawings.

FIG. 2 is a perspective view showing an example of a conventional AC adapter, and FIG. 3 is a block diagram of the conventional AC adapter shown in FIG.

In Figure 2, the conventional ACC up is AC100.
It consists of an AC adapter body having an AC input plug 203 connected to a V outlet 201 and a DC output terminal 204 connected with a cable to output DC voltage.

Next, Figure 2 shows the operation of a conventional AC adapter.
This will be explained with reference to FIG.

AC person coupler 203 to AC100V outlet 201
By inserting the AC input into the AC adapter main body 202 , an alternating magnetic field is generated in the primary winding of the step-down transformer 302 .

This alternating magnetic field generates an electromotive force in the secondary winding through the core of the step-down transformer 302. The energy required for this continues to be consumed even when there is no load on the DC output terminal 204.

Further, a rectifier circuit 30 is provided on the secondary side of the step-down transformer 302.
3. A smoothing circuit 304 and a stabilizing circuit 305 are provided,
These circuits consume energy even when there is no load on the DC output terminal 204.

[Problem to be solved by the invention]

With this conventional ACC upgrade described above, by inserting the AC input flag into the AC 100V outlet, the D
Since the configuration is such that DC voltage or 1 is output from the C output terminal, even if the main switch on the device receiving D'C voltage is open and there is no load, the AC adapter will continue to apply DC voltage to the device. Since the supplied energy is wasted, there is a problem in that in that case, the AC plug plug must be manually pulled out from the AC 100V outlet.

[Means to solve the problem]

The ACC up of the present invention includes a main switch connected to the primary side of the step-down transformer that cuts off AC input, an output current detection circuit that detects a no-load state of the DC output, and an automatic control of the main switch in the no-load state. There is an auxiliary switch in which the selection of whether or not to cut off is set in advance, and when the automatic ±Shinmachi signal that is the output of this auxiliary switch and the no-load detection signal that is the output of the output current detection circuit are input at the same time, the main switch is activated. and a main switch cutoff circuit that outputs a cutoff signal to open the switch and enable the AC input cutoff operation.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block diagram showing one embodiment of the present invention.

In FIG. 1, the AC adapter of this embodiment includes a main switch 1 connected to the primary side of a step-down transformer 2 that cuts off AC, an output current detection circuit 4 that detects a no-load state of DC output, and a no-load state. An auxiliary switch 7 that presets the selection of whether or not to automatically shut off the main switch 1 in the current state, an automatic shutoff four times signal 8 which is the output of this auxiliary switch 7, and a no-load detection signal which is the output of the output current detection circuit 4. 5 is input at the same time, the main switch cutoff signal 1
A main switch switching circuit 9 outputs 0 to open the main switch 1 and enables the AC input cutoff operation, and a current detection circuit 4 connects to the secondary side of the step-down transformer 2 and outputs stabilized DC. The rectifying/smoothing/stabilizing circuit 3 outputs the output through the rectifying/smoothing/stabilizing circuit 3.

Next, the operation of this embodiment will be explained.

When the main switch 1 is closed and the auxiliary switch 7 is set to disable automatic shutoff, like a conventional AC adapter,
A DC voltage is output by the operation of the rectification/smoothing/stabilization circuit 3, and even when the DC output is under no load, the DC voltage remains constant.
C voltage continues to be delivered.

Next, when the main switch 1 is closed and the auxiliary switch 7 is set to automatic shut-off, the rectifying, smoothing and stabilizing circuit 3 operates to output DC voltage while the DC load current is flowing. When the load current becomes zero, the output current detection circuit 4 outputs a no-load detection signal 5 to the main switch cutoff circuit 9.

The main switch cutoff circuit performs the cutoff operation of the main switch 1 when the automatic cutoff signal 8 from the auxiliary switch 7 and the no-load detection signal 5 are simultaneously input.

Through this series of operations, the ACC up of this embodiment is
When the output is in a no-load state, the AC input on the primary side is cut off,
The operation of the rectifying/smoothing/stabilizing circuit 4 is stopped, making it possible to stop supplying DC output to the load.

〔Effect of the invention〕

As explained above, the present invention makes it possible to detect a no-load state by providing an output current detection circuit, and further includes a main switch cutoff circuit that enables the main switch to be cut off in a no-load state by setting an auxiliary switch. This has the effect of automatically shutting off the main switch in a no-load state, preventing wasteful consumption of AC power, preventing heat generation when the ACC is up, and allowing the AC plug to be left plugged into the outlet. .

[Brief explanation of drawings]

FIG. 1 is a block diagram showing one embodiment of the present invention. 1... Main switch, 2... Step-down transformer, 3... Rectifier/smoothing/stabilization circuit, 4 Output current detection circuit, 5...
No-load detection signal, 6...Automatic shutdown selection input, 7
・・Auxiliary switch, 8・・Automatic cut-off signal, 9・・Main switch + disconnection, 10・・Main switch and threatening signal. FIG. 2 is a perspective view showing an example of a conventional ACC up. 201-=AC100V outlet, 202-・AC adapter body, 203・AC person coupler, 204・
・DC output terminal. FIG. 3 is a block diagram of the conventional AC adapter shown in FIG. 2. 302... Step-down transformer, 303... Rectifier circuit, 30
4... Smoothing circuit, 305... Stabilizing circuit.

Claims (1)

[Claims] A main switch connected to the primary side of the step-down transformer that cuts off AC input, an output current detection circuit that detects the no-load state of the DC output, and a selection of whether or not to automatically cut off the main switch in the no-load state are set in advance. When an auxiliary switch is set, and an automatic cutoff enable signal output from the auxiliary switch and a no-load detection signal output from the output current detection circuit are input at the same time, a main switch cutoff signal is output and the switch is turned off. and a main switch cutoff circuit that opens the main switch and enables a cutoff operation of the AC input.