KR100205359B1 - Synchronous signal generator for power consumption - Google Patents

Abstract

The present invention relates to an apparatus for providing a synchronous clock for the operation of a microprocessor provided for control of a system divided into an operation mode and a standby mode. In particular, the present invention corresponds to a frequency required for operation of the microprocessor in an operation mode. A first synchronous clock generator 100A for generating a synchronous signal, a second synchronous clock generator 100B for generating a corresponding synchronous signal of a frequency necessary for operation of the microprocessor in a standby mode, and the first The first and second synchronization clock generators 100A and 100B receive a synchronization signal having a heterogeneous frequency and select one of two synchronization signals input according to a control signal state, and provide the synchronization signal to the microprocessor as a synchronization signal. The transmission path selector 200 to detect the supply state of the external commercial power and the power supply state depending on whether the power supply state Sensing signals related to the synchronization-signal-generating device for reducing power consumption of a processor comprising: a power detection unit 300 to provide a control signal to the transmission path selecting unit 200. The

Description

Synchronous signal generator for reducing power consumption of processor

The present invention relates to an apparatus for providing a synchronization clock to a microprocessor, and more particularly, to a synchronization signal generator for reducing power consumption of a processor for reducing power consumed in a microprocessor in a standby state.

In general, in the case of a central processing unit such as a microprocessor, a synchronous clock for a constant control operation is input even in an operation state or a standby state for control of a system, and a backup power supply (eg, For example, a battery) is supplied.

Referring to FIG. 1, a system employing a central processing unit such as a microprocessor is a simplified block diagram of a general television broadcast receiver, in which reference numeral 1 denotes an antenna and 2 denotes an antenna 1. An RF amplifying unit amplifies a received radio frequency (hereinafter referred to as RF) signal, and 3 denotes an RF amplifying unit output from the RF amplifying unit 2 and an output from a local oscillation circuit 17 to be described later. The first mixer outputs an intermediate frequency (IF) signal by mixing the oscillation frequency signals.

Further, reference numeral 4 denotes an IF amplifier section for amplifying the intermediate frequency signal output from the first mixer 3, and 5 denotes an image intermediate frequency signal PIF in the intermediate frequency signal output from the IF amplifier section 4. And a P / S separator for separating the voice intermediate frequency signal SIF, and 6 represents a voice detector for detecting a voice signal from the voice intermediate frequency signal SIF output from the P / S separator 5. 7 denotes an image detector for detecting an image signal from an image intermediate frequency signal PIF output from the P / S separator 5.

In addition, reference numeral 8 denotes a remote control device that allows a viewer to select a desired channel or to select each mode of the television, that is, a TV / AV mode, and 9 denotes an infrared signal from the remote control device 8. 10 shows a receiver for converting a conventional code signal, 10 denotes a channel memory in which predetermined channel data is stored, and 11 denotes a microprocessor which controls the entire system in accordance with an input signal from the remote controller device 8.

In addition, reference numeral 12 denotes a screen display for overlapping and outputting a character or a picture on a screen on which a broadcast signal is output separately from the broadcast signal according to the control signal of the microprocessor 11 (On Screen Display). (Hereinafter referred to as OSD), and 13 denotes a PWM generator which generates a predetermined pulse width modulation (PWM) signal according to a control signal from the microprocessor 11, and 14 denotes the above. An integration circuit for integrating the PWM signal output from the PWM generator 13 to generate a predetermined level signal is shown.

In this case, when the viewer selects a predetermined channel using the remote controller device 8, the microprocessor 11 reads out channel data corresponding to the channel selected by the viewer from the channel memory 10 and then based on the selected channel. By controlling the PWM generator 13 to generate a predetermined PWM signal, the PWM signal is output as a voltage control signal corresponding to the channel selected by the viewer through the integrator circuit 14.

In addition, reference numeral 15 is provided for a precise tuning operation, and represents an Auto Fine Tunning circuit (hereinafter referred to as AFT) circuit 15, and 16 represents a voltage signal applied from the integrating circuit 14; An adder for adding a voltage signal applied from the AFT circuit 15 is shown, and 17 represents a local oscillating circuit for outputting a predetermined oscillation frequency.

In addition, reference numeral 18 controls the amplification degree of the above-described RF amplifier 102 and the IF amplifier 4 on the basis of the level of the image signal detected by the image detector 7, the image detector ( Figure 7 shows the Automatic Gain Control (AGC) circuit that controls the video signal output level from 7).

On the other hand, reference numeral 19 denotes an external AV device such as a VCR or a laser disc player, and 20 denotes the voice detector 6 and the image detector 7 according to the switching signal from the microprocessor 11 described above. A first switching section for selectively outputting audio and video signals from and external audio and video signals from the external AV device 19 is shown.

Although reference numeral 23 is not shown for the image signal output from the first switching unit 20, the color, tint, and brightness are in accordance with the control signal from the microprocessor 11. A video processing unit which processes (Brightness) and the like and outputs R (Red), G (Green), and B (Blue) signals corresponding to the video signal.

The RGB signal output from the image processor 23 is output by mixing RGB and OSD blanking signals Y ′, which are output signals of the OSD generator 12 described above, in the second mixer indicated by reference numeral 24. Reference numeral 25 denotes a CRT driving unit for driving the CRT based on the RGB signal output from the mixer 24.

In addition, reference numeral 21 denotes a base, treble, and volume according to a control signal from the microprocessor 11 although not shown for the voice signal output from the first switching unit 20. A voice processing unit for executing voice processing such as a volume), and 22 denotes a voice amplifying unit for amplifying and outputting the voice signal processed by the voice processing unit 21 to a speaker.

In the general TV configured as described above, as described above, the microprocessor 11 receives the synchronous clock for the continuous control operation even in the operating state or the standby state for the control of the system, and the power is turned off. In this state, a spare power supply (for example, a battery) is supplied.

At this time, the synchronization signal generator providing the synchronization signal to the microprocessor 11 continuously provides the synchronization signal corresponding to the operation mode of the system.

However, the central processing unit such as a microprocessor has a difference in power consumption according to the speed of the synchronization signal provided by default, and accordingly unnecessary consumption in the standby mode because the standby mode or the operation mode is provided with the synchronization clock of the same speed. The problem of power generation has occurred.

An object of the present invention for solving the above problems is to provide a low-speed synchronization signal generating unit processor for generating a minimum power consumption for sustaining the standby mode by the low-speed synchronization signal in the standby mode The present invention provides a synchronization signal generator for reducing power consumption.

1 is a block diagram illustrating a general television receiver.

2 is an exemplary configuration diagram of a synchronization signal generator according to the present invention.

A feature of the present invention for achieving the above object, in the apparatus for providing a synchronous clock for the operation of the microprocessor provided for the control of the system divided into the operation mode and the standby mode, the micro in the operation mode A first synchronous clock generator for generating a synchronous signal corresponding to a frequency required for operation of a processor, a second synchronous clock generator for generating a corresponding synchronous signal of a frequency required for operation of the microprocessor in a standby mode; And receiving a synchronization signal having a heterogeneous frequency generated by the first and second synchronization clock generators, selecting one of two synchronization signals input according to a state of a control signal, and providing the synchronization signal to the microprocessor as a synchronization signal. Detect the supply status of the path selector and external commercial power supply and detect the power supply status It includes a power detection unit for providing a detection signal according to whether or not as a control signal to the transmission path selection unit.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is an exemplary configuration diagram of an apparatus for generating a synchronization signal according to the present invention. In the operation mode, a first synchronization clock generator 100A generating a synchronization signal corresponding to a frequency required for the operation of the microprocessor, and a standby mode. Heterogeneous frequencies generated by the second synchronous clock generator 100B and the first and second synchronous clock generators 100A and 100B for generating a corresponding synchronous signal of a frequency required for the operation of the microprocessor at A switch 200 which receives a synchronization signal having a signal and selects one of two synchronization signals input according to a state of a control signal and provides the synchronization signal to the microprocessor as a synchronization signal, and detects a supply state of an external commercial power supply and supplies a power supply state. It is composed of a power detection unit 300 for providing a detection signal according to whether the detection of the control signal to the switch 200.

An operation example of the synchronization signal generator according to the present invention configured as described above is as follows.

The power detector 300 which detects an external commercial power supply state provides a low level control signal to the switch 200 when there is no external power supply.

In this case, the switch 200 includes a first synchronization clock generator 100A for generating a synchronization signal corresponding to a frequency required for the operation of the microprocessor in the operation mode and a frequency required for the operation of the microprocessor in the standby mode. A second synchronous clock generator 100B for generating a corresponding synchronous signal is connected, and the switch 200 receives a clock signal generated by the second synchronous clock generator 100B from among two clock inputs. To the side.

If it is determined that the supply of external power is supplied by the power detection unit 300 while maintaining the state, the high state signal provided to the switch 200 is converted into a low state control signal. do.

Accordingly, the switch 200 transmits the clock signal generated by the first synchronous clock generator 100A of the two clock inputs to the microprocessor.

Providing a synchronization signal generator for reducing the power consumption of the processor according to the present invention operating as described above, the need to solve the problem of increased power consumption by providing an unnecessary fast synchronization clock to the microprocessor in the standby mode. Can be.

Claims (1)

An apparatus for providing a synchronous clock for the operation of a microprocessor provided for controlling a system divided into an operation mode and a standby mode, A first synchronous clock generator 100A generating a synchronous signal corresponding to a frequency required for the operation of the microprocessor in an operation mode; A second synchronous clock generator 100B for generating a corresponding synchronous signal of a frequency necessary for the operation of the microprocessor in a standby mode; A synchronization signal having a heterogeneous frequency generated by the first and second synchronization clock generators 100A and 100B is input, and one of two synchronization signals input according to a state of a control signal is selected to synchronize the signal to the microprocessor. A transmission path selector 200 provided by the controller; And The power consumption of the processor, characterized in that it comprises a power detection unit 300 for detecting a supply state of the external commercial power supply and providing a detection signal according to whether the detection of the power supply state to the transmission path selector 200 as a control signal. Synchronization signal generator for reducing power.

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