KR0150419B1 - Power saving circuit - Google Patents

Abstract

The present invention provides a power saving circuit of a peripheral circuit device connected to a PC, particularly by using a video reset signal of a video output terminal of the PC to control the operation from the off mode to the on mode with a simple reset circuit, thereby improving the power saving function. The power-saving circuit by the reset circuit, the conventional power-saving method is difficult to implement ultra-power saving because the circuit is crowded and the power supply for the power saving mode control is active even in the off mode. In the present invention, the ultra-low power circuit and the general power-saving circuit of the display device are embedded in the display device, and the circuit is configured to control the AC output terminal so as to simultaneously control the power saving control of peripheral devices that can be connected to the AC output terminal line. Horizontal flow through monitor signal cable with simple reset circuit And when operating in the off mode from the off mode by using a vertical synchronization signal through the operation of the connection element is linked to enable the power saving function and ultra-power saving.

Description

Power saving circuit by reset circuit.

1 is a circuit diagram of the present invention.

Figure 2 (a, b) is an embodiment of the present invention.

3 is a logic diagram for each mode used in the present invention.

* Explanation of symbols for main parts of the drawings

1: microprocessor 2: off-mode driving circuit

3: reset circuit part 10: secondary circuit part

11: ultra power saving switch 12: power saving switch

The present invention relates to a power saving circuit of a peripheral circuit device connected to a PC, and in particular, by controlling the operation from the off mode to the on mode by a simple reset circuit using the video synchronization signal of the video output terminal of the PC, the power saving function is improved. This is a power saving circuit by the reset circuit.

In general, in supplying power to display devices of computer peripherals, when input signals do not come in for a certain period of time, power is supplied to a microprocessor for controlling the monitor on / off by switching to auxiliary power instead of main power to prevent unnecessary power waste and to reduce power. The method is used.

As shown in FIG. 3, the horizontal synchronous signal is vertical to the horizontal synchronous signal when the input signal does not come in for a predetermined time depending on whether the horizontal synchronous signal and the vertical synchronous signal for outputting data through the input device are displayed on the screen of the display device. Input signal off mode for outputting synchronous signal at DC level, input signal on mode for outputting horizontal synchronous signal and vertical synchronous signal normally when input signal is input, and horizontal synchronous signal for normal output and vertical synchronous signal to DC level There is an operation logic in which the input signal standby mode and vertical synchronization signal are output normally and the input signal stop mode outputs the horizontal synchronous signal at the DC level. Must be supplied, but in off mode there is no need to supply mains power. In order to maintain the display output ready state so that the output signal can be sent only when the input signal is detected by the parser, the monitor can be turned on by turning off the main power and continuously operating the auxiliary power in the input signal off mode. The off control signal is output.

However, the current mass-produced display devices are only power-saving when the display device is in power saving mode, so peripheral devices (for example, printers) are difficult to achieve power saving functions, and even if the peripheral devices are controlled using additional devices such as adapters, There is a disadvantage in that the burden and power consumption of the adapter itself.

In addition, in the conventional power saving method, since the circuit is complicated and the power supply for the power saving mode control is in the active state even in the off mode, it is difficult to implement the ultra power saving because of some power consumption.

In order to solve the above problems of the present invention, the peripheral device that can be connected to the AC output terminal line by configuring a circuit to control the AC output terminal, while the super power saving circuit and the general power saving circuit of the display device is built in the display device To control the power saving at the same time, and by using a simple reset circuit configuration to induce the operation from the off mode to the on mode by using the horizontal and vertical synchronization signal flowing through the monitor signal cable Through the automatic return to the power stage it is possible to realize a power saving function and ultra-power saving.

That is, the control photoelectric conversion element light emitting unit interlocking with the ultra-low power circuit section and the general power saving circuit section is provided in the secondary circuit section, and a switch is installed at one end of the primary circuit of the peripheral device which is commonly connected to the display device to which AC power is input. The switch works in conjunction to allow power saving control of peripheral devices connected to the primary circuit at the same time.

Hereinafter, described in detail with reference to the drawings.

FIG. 1 is a circuit diagram illustrating the present invention. The microprocessor 1 outputs a monitor on-off control signal, and controls the AC power to be turned off by turning on a circuit operation when the microprocessor 1 applies an off-mode signal. An off-mode driving circuit section 2, a reset circuit section 3 for resetting the power supply when the horizontal or vertical synchronization signal is applied from the computer video port, and normally returning the AC power, and the off-mode driving circuit section 2 and the reset circuit section ( A secondary circuit unit 10 including a photoelectric conversion element OPTO 1 that is turned on / off according to an operation signal of 3) and a diode for direct current output (D 1, D 2, D 3); An ultra-power saving switch section 11 for turning on / off one end of the AC input side in association with the light emitting section of the photoelectric conversion element OPTO 1 of the secondary circuit section 10, and a light emitting section of the photoelectric conversion element OPTO 1; The primary circuit unit 20 includes a power saving switch unit 12 interlocking with each other to block the operation of the switching transistor Q1.

According to the present invention, the switching transistor Q1 of the main source portion is operated when the light-receiving side of the power saving switch unit 12 operates in conjunction with the light emitting unit of the photoelectric conversion element OPTO 1 in the off mode in the normal power saving state. The DC output through the diodes D1, D2, and D3 is kept at a low level by blocking the operation of the power supply, and the power is cut off. The AC input line may be disconnected in the off mode in conjunction with the light emitting portion of the conversion element OPTO 1.

On the other hand, it receives the off-mode signal sent from the microprocessor 1 of the light emitting side of the photoelectric conversion element OPTO 1 and sends a signal to the light receiving side according to the operation of the drive circuit of the off-mode driving circuit unit 2.

However, when switching from the off mode to the automatic return (on mode), the power of the microprocessor 1 remains low so that the return signal cannot be sent from the no active state. Since the microprocessor 1 was supplied with power even in the off mode, there was some power consumption.

In order to solve this problem of the present invention, the reset circuit section 3 is applied to the output of the diode D3 so that the reset circuit section 3 averages the horizontal or vertical synchronization signal even when the microprocessor is in the no active state in the off mode. The AC voltage is reset and the circuit is operated by operating the power-saving switch unit and the ultra-low power switch unit on the light-receiving side by applying a current to the light emitting unit of the photoelectric conversion element OPTO 1 through the resistor R1. When the output Vcc through the D3 is operated at the normal voltage, the current of the diode D4 is cut off to prevent the droop of the horizontal or vertical synchronous signal.

In this mode, automatic return is possible, and power is not supplied to the microprocessor 1 in the off mode. Therefore, in the off mode by the combination of the light emitting part of the photoelectric conversion element OPTO 1 and the ultra-low power switch part 11 which is the light receiving part. In fact, it almost cuts off the power supply, allowing full power saving.

On the other hand, the photoelectric conversion element light emitting unit may be composed of a PNP (Q2) or NPN (Q 3, Q4) transistor, as shown in a, b of Fig. 2 (a, b), the photoelectric conversion element ( No current flows in the light emitting portion of OPTO 1), so that the light receiving portion side of the main power supply does not operate to maintain the no active state.

As described in detail above, the present invention can realize a cost reduction and ultra-power saving of a monitor and a peripheral device by configuring a reset circuit switched from an off mode to an on mode by a simple circuit combination.

Claims (1)

A microprocessor (1) for outputting a monitor on-off control signal, an off-mode driving circuit portion (2) for turning off circuit power when the off-mode signal is applied by the microprocessor (1), and controlling AC power to be cut off, and computer video On / off in response to an operation signal of the reset circuit section 3 and the off-mode driving circuit section 2 and the reset circuit section 3, which reset the power supply when the horizontal or vertical synchronization signal is applied from the port, thereby normally returning the AC power. A secondary circuit unit 10 including a photoelectric conversion element OPTO 1 and a light emitting unit and direct current output diodes D 1, D 2, and D 3; An ultra-power saving switch section 11 for turning on / off one end of the AC input side in association with the light emitting section of the photoelectric conversion element OPTO 1 of the secondary circuit section 10, and a light emitting section of the photoelectric conversion element OPTO 1; And a primary circuit section (20) comprising a power saving switch section (12) for interlocking operation of the switching transistor (Q1).