KR20010001477A - Power-saving apparatus with artificial intelligence - Google Patents

Abstract

PURPOSE: A power-saving device of facsimile with artificial intelligence is provided to turn off AC power to a facsimile before a ring signal is arrived and automatically supply the AC power to the facsimile, thereby enabling a copy transfer. CONSTITUTION: A power-saving device of facsimile with artificial intelligence comprises an AC-DC converter(10), a noise filter(20), a current sensor(50), a pulse width and driver(30) and a DC smoothing part(40). The AC-DC converter(10) rectifies input commercial AC power to generate DC power. The noise filter(20) removes the line noise of the converted DC power. The pulse width and driver(30) generates pulse width modulation signals in accordance with the output of the current sensor(50). The DC smoothing part(40) smooths the DC power through a trans(T1) which receives the DC power in a primary side to induce toward secondary side.

Description

Power-saving device of facsimile with artificial intelligence {POWER-SAVING APPARATUS WITH ARTIFICIAL INTELLIGENCE}

The present invention relates to a power-saving of a facsimile having an artificial intelligence (commonly referred to as "FAX"), and in particular, by blocking a commercial AC power supplied to the facsimile system in standby mode. It is about a facsimile power saving device that saves power.

More specifically, before the ring signal arrives, the AC power supplied to the facsimile system is turned off, and when the ring signal arrives, the facsimile system enables the facsimile system to be automatically supplied to the facsimile. Relates to a power saving device.

In general, the word facsimile means make similar, which is derived from the Latin word fac simile. It is a data transmission device that reproduces text, photos, pictures, etc. by converting them into electric signals and transmits them on the receiving side. .

In this general facsimile, the conventional method is as follows.

First of all, commercial AC power (AC110V or AC220V) input is full-wave rectified and made into DC power, and this is made by using a constant voltage.

It is then configured to supply power to the state circuit without any transmission or reception, so that power is always consumed.

If there is a key input for transmission or a ring signal arrives for reception, it switches to the use mode and supplies operating power to all parts of the facsimile system so that transmission or reception is performed.

However, since such a general facsimile system must always supply power as described above, about 6-10W of power is consumed even when not in use.

Therefore, the present invention has been proposed to solve various problems occurring in the power saving function of the conventional facsimile as described above,

An object of the present invention is to turn off the AC power supplied to the facsimile system before the ring signal arrives, and to automatically supply the AC power to the facsimile when the ring signal arrives, so that the whole body can be simulated. To provide a facsimile power saver.

More specifically, the present invention provides a facsimile power saver that performs a power save function in a direction in which power consumed by a facsimile power saver is not consumed at all.

The present invention for achieving this object,

AC-DC converter for full-wave rectifying the input commercial AC power into a DC power source, a noise filter for removing line noise of the DC power, the current sensing unit for sensing the supplied current, the pulse according to the output of the current sensing unit In a facsimile comprising a pulse width modulation for generating a width modulated signal, a driver portion, and a DC smoothing portion for smoothing the DC power through a transformer which receives the DC power obtained from the noise filter unit to the primary side and induces the secondary side.

A high frequency filter unit for removing high frequency components of the DC power output from the DC smoothing unit;

A ring signal detecting unit receiving output power of the high frequency filter unit and connected to a facsimile telephone line to detect whether a ring signal has arrived;

A control unit for generating a control signal so that power is supplied only when the arrival of the ring signal is detected by the ring signal detection unit;

And a power supply unit for supplying the input commercial AC power to a main part of the system according to a control signal generated from the control unit.

In the above, the high frequency filter unit,

It is provided with an inductance and a capacitor for removing the high frequency component of the DC power output from the DC smoothing unit.

In addition, the ring signal detector,

It is connected to a fax telephone line and has a photo coupler for detecting the arrival of a ring signal.

In addition, the power supply unit,

A reset unit comprising a diode and a transistor for resetting the control unit, a switching unit for switching power to be supplied or cut off according to a control signal generated by the control unit, and according to an operation of the transistor in the switching unit. It is equipped with a relay that supplies or blocks input commercial AC power to the main part.

1 is a block diagram showing a facsimile power saving device according to the present invention,

FIG. 2 is a circuit diagram illustrating an example of each part of FIG. 1 in detail.

<Explanation of symbols for main parts of drawing>

10: AC-DC converter 20: noise filter

30: pulse width modulation and driver unit

40: DC smoothing unit 50: current sensing unit

60: high frequency filter unit 70: ring signal detection unit

80 control unit 90 power supply unit

Hereinafter, preferred embodiments of the present invention according to the technical spirit as described above will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a preferred embodiment of a facsimile power saving device according to the present invention.

Here, reference numeral 10 denotes an AC-DC converter which converts the commercial AC power input to the bridge diodes D2 to D5 into a DC power source, and reference numeral 20 denotes a noise filter for removing line noise of the DC power. Reference numeral 50 is a current sensing unit for sensing a supplied current.

Reference numeral 30 denotes a pulse width modulation and driver for generating a pulse width modulation signal (PWM signal) according to the output of the current sensing unit 50, and reference numeral 40 denotes a DC power source obtained from the noise filter unit 20. A DC smoothing unit for smoothing the DC power through the transformer (T1) to be received to the primary side to the secondary side, and reference numeral 60 denotes an inductance for removing the high frequency component of the DC power output from the DC smoothing unit 40 ( L2) and a condenser C2.

In addition, the reference numeral 70 is a ring signal detector consisting of a photo coupler 71 is supplied with the output power of the high frequency filter unit 60 and connected to the facsimile telephone line (1) (2) to detect the arrival of a ring signal. 80 is a control unit for generating a control signal to supply power only when the arrival of the ring signal is detected by the ring signal detecting unit 70.

In addition, reference numeral 90 is a power supply for supplying the input commercial AC power (AC power) to the main part of the system according to the control signal generated by the control unit 80, consisting of a diode (D8) and a transistor (Q1). A switching unit 92 including a reset unit 91 for resetting the control unit 80, and a transistor Q2 for switching power to be supplied or cut off according to a control signal generated by the control unit 80; And a relay 93 for supplying or blocking input commercial AC power to a main part according to the operation of the transistor Q2 in the switching unit 92.

The operation of the facsimile power saving device according to the present invention configured as described above will be described with reference to FIG. 2.

First, the AC-DC conversion unit 10 converts the commercial AC power (AC power) input through the two terminals L and N into a DC power by full-wave rectification using the bridge diodes D2 to D5. The generated DC power is output to the rear stage after smoothing in the capacitor C3.

Noise filter unit 20 is composed of an inductance (L1) and a capacitor (C4) to remove the line noise of the DC power smoothed through the capacitor (C3), pulse width modulation and driver unit 30 is pulse width modulation A signal PWM is generated to control the current flowing to the primary side of the transformer T1.

By the pulse width modulation and the control of the driver unit 30, the transformer T1 induces a current flowing to the primary side to the secondary side, and the DC power induced to the secondary side is supplied to the diode D1 and the capacitor C1. Half-wave rectification and smoothing in the DC smoothing portion 40 made.

At this time, the current sensing unit 50 senses the output current of the DC smoothing unit 40 using the photocoupler 51, and the pulse width modulation and port of the driver unit 30 depending on whether the output current is detected. Interrupt at (P1). That is, when the DC power is output from the DC smoothing unit 40, current flows to the photodiode PD1 to emit light, and the phototransistor PT1 operates by the generated light to modulate the pulse width. The state of the port P1 of the drive unit 30 is turned low to indicate that the DC voltage is output to the rear end. At this time, the zener diode D6 connected to the lower end of the photodiode PD1 serves to output only a predetermined voltage to the rear end and to block the overvoltage.

Next, the high frequency filter unit 60 removes the high frequency component by the inductance L2 and the condenser C2. The DC voltage from which the high frequency component is removed is the ring signal detector 70 and the controller 80 of the rear stage. Supplied to the power supply unit 90.

On the other hand, the ring signal detection unit 70 is connected to the telephone line (1) (2) detects the arrival of the ring signal. That is, when the ring signal does not arrive, the photodiode PD2 is turned off, and thus the phototransistor PT2 is turned off.

In this case, the control unit 80 having the port TR connected to the condenser C9 recognizes that the ring signal does not come because the input signal of the port TR is a high signal and sets the output signal of the port 0 to a low state. To keep.

When the signal output from the port O of the control unit 80 is a low signal in this way, the transistor Q2 of the switching unit 92 in the power supply unit 90 is turned off, so that a current is also applied to the coil of the relay 93. Does not flow, the relay switch is in a current state, that is, connected to the contact point 5, and thus does not supply AC power to the rear end.

In other words, when the ring signal does not arrive, AC power is not supplied to the main system at the rear stage, thereby performing a power saving function.

Next, when a ring signal arrives, current flows through the photodiode PD2 of the ring signal detection unit 70 to emit light. Accordingly, the phototransistor PT2 is also driven to catch the port TR. Bypassing the high voltage to ground makes the state of the port TR low.

Then, the controller 80 recognizes this as an interrupt and transitions the output of the port O to a high state in order to supply power since the ring signal has arrived.

The transitioned high signal causes the transistor Q2 of the switching unit 92 in the power supply unit 90 to be turned on. When the transistor Q2 is turned on, the transistor Q2 turns into a coil of the relay 93. The DC voltage output from the high frequency filter unit 60 flows to switch the relay switch to the contact point 4. At this time, the input terminal (L) and the terminal (N) of the commercial AC power supply is connected to the AC power supply of 60Hz to the rear stage.

That is, when the ring signal arrives, the input commercial AC power is supplied to the main system of the facsimile to simulate the whole body.

According to the present invention described above, when the ring signal does not arrive, there is an advantage that can reduce the power consumption during standby by cutting off the AC power supplied to the main part of the facsimile system at the input terminal.

Claims (4)

AC-DC converter for full-wave rectifying the input commercial AC power into a DC power source, a noise filter for removing line noise of the DC power, the current sensing unit for sensing the supplied current, the pulse according to the output of the current sensing unit In a facsimile comprising a pulse width modulation for generating a width modulated signal, a driver portion, and a DC smoothing portion for smoothing the DC power through a transformer which receives the DC power obtained from the noise filter unit to the primary side and induces the secondary side. A high frequency filter unit for removing high frequency components of the DC power output from the DC smoothing unit; A ring signal detecting unit receiving output power of the high frequency filter unit and connected to a facsimile telephone line to detect whether a ring signal has arrived; A control unit for generating a control signal so that power is supplied only when the arrival of the ring signal is detected by the ring signal detection unit; And a power supply unit configured to include a power supply unit supplying the input commercial AC power to a main part of the system according to a control signal generated by the control unit. The apparatus of claim 1, wherein the high frequency filter unit includes an inductance L2 and a capacitor C2 to remove high frequency components of the DC power output from the DC smoothing unit. . The apparatus of claim 1, wherein the ring signal detection unit includes a photo coupler connected to the telephone line for the fax to sense whether a ring signal has arrived. The power supply unit of claim 1, wherein the power supply unit comprises a reset unit configured to reset the control unit including a diode and a transistor, and a switching unit configured to switch power to be supplied or cut off according to a control signal generated from the control unit. Wow, And a relay for supplying or blocking input commercial AC power to a main part according to the operation of the transistor in the switching unit.