KR920009755B1 - Remote controlling method of power for point of sales terminal - Google Patents

Abstract

The method for communicating between terminals by remote controlling the terminal at the point of sales (POS) system comprises the following steps: generating the first power source when the in-line communication is required; servicing the in-line communication after initializing the part relevant to the in-line communication; cancelling the "ON" state after executing the service; generating the I/O address for cancelling the first power source supply; generating the power source "OFF" signal by using the I/O address. This method is useful for reporting the sale informations between the slave terminal and the master terminal.

Description

How to remotely control the power supply of POS terminal

1 is a configuration block diagram of a POS terminal.

2 is a detailed circuit diagram of a remote control unit of the power supply of FIG.

3 is a flow chart of a power supply control of a POS terminal according to the present invention.

4 is a flowchart of mode switch driving during remote power control.

* Explanation of symbols for the main parts of the drawings

10: CPU 20: DMA control unit

30: power supply unit 40: inline control unit

50: power remote control

The present invention relates to a power control method of a POS terminal, and more particularly, to a method for communicating data by remotely controlling a terminal in a power-off mode.

In general, a POS terminal (Point Of Sales terminal) is to process the information generated in the store in real time and at the same time cumulative management to perform the task of money registration. POS terminals that perform the above functions perform communication between the terminal and the terminal, and load a program or exchange transaction information. That is, the POS system is configured using a plurality of terminals, using an in-line method, and can be configured in the form of a master terminal and a plurality of slave terminals, wherein the master The terminal uses in-line communication to check and settle each slave terminal, and each slave terminal uses in-line communication to inquire product information such as Price Look Up (PLU) data on the master terminal.

In this case, in the conventional POS system, when a terminal to be communicated is in a power-off state, there is a problem in that the terminal cannot communicate with the corresponding terminal.

Accordingly, an object of the present invention is to provide a method for remotely powering on a terminal to perform a POS function even after the terminal is in an off state in a POS system, and then turning off the power.

Hereinafter, the present invention will be described in detail with reference to the drawings.

로 발생하는 전원 원격 제어부(50)로 구성된다.FIG. 1 is a configuration diagram of a POS terminal. The CPU 10 controls the operation of the POS terminal, and is connected to another terminal to control in-line communication by a second power supply (V _BP ) while requesting DMA when receiving data. The in-line controller 40 which generates the signal DREQ and the first power supply Vcc are operated. When the DMA request signal DREQ is generated, the data of the in-line controller 40 is accessed and stored in the memory. A DMA controller 20 to be stored, a power supply unit 30 which is operated by a power supply control signal PWRONS to supply a first power source Vcc to the CPU 10 and the DMA controller 20, and the DMA request signal. A power “on” signal for driving the power supply unit 30 by inputting (DREQ) as a second power control signal for remotely turning on the power.

Power remote control unit 50 is generated by.

)를 발생하고, CPU(10)에서 데이터 통신완료후 소정 소정 I/O어드레스 발생시 전원 “오프”신호(

)를 발생하게 된다.FIG. 2 is a detailed circuit diagram of the remote controller 50 of FIG. 1, wherein the DMA request signal DREQ eh is a power “on” signal when a mode switch signal is generated.

Power supply " off " signal when a predetermined I / O address occurs after completion of data communication in the CPU 10.

) Will occur.

3 is a flowchart of the present invention, which shows an operation process in remote power control and an operation process in power control by a mode switch.

4 illustrates a process of performing an operation after initializing the remaining related parts in addition to the parts initialized during remote control when a mode switch occurs in a state where a program is being executed by a remote control.

In summary, the in-line communication signal generation process of generating a second power control signal of the second power supply (V _BP ) for remote control of power when in-line communication occurs in the off mode state of the terminal; 2, when the power supply control signal or the mode key signal is generated, is swung to generate a power “on” control signal for generating the first power (Vcc); and when the power “off” signal is generated, releasing the power “on” control signal; A process of generating a power “on” signal generator, a first power source (Vcc), an in-line communication process indicating a remote power control state when the first power source (Vcc) is in an off mode state, and After performing the in-line communication process, a power “off” signal is generated.

Based on the above-mentioned configuration, the present invention will be described in detail with reference to the first, second, third and fourth degrees.

1 is a configuration diagram of a POS terminal, and the rest of components other than the configuration for controlling the power supply remotely are omitted. Here, the CPU 10 and the DMA controller 20 are driven by the first power source Vcc, the in-line controller 40 is driven by the second power source V _BP , and the first power source V _BP. And the second power source V _BP are generated by the power supply unit 30.

The first power supply (Vcc) and the second power supply (V _BP ) are the same 5V power supply, and the first power supply (Vcc) is not supplied in the off mode of the terminal, but the second power supply (V _BP ) is in the terminal mode. Irrespective of the back-up, it is supplied to the in-line manufacturing 40 which always monitors the transmission channel to determine whether a frame is to be received so that in-line communication with the memory and other terminals is required.

In the present invention, when the terminal is in the off mode, when the service request through the in-line communication from any terminal, the first power supply (Vcc) is supplied to the terminal in the off state to perform the corresponding service, the first power ( Vcc) is released.

가 발생할때까지 유지된다. 이때 본 발명에서는 상기 DMA요구 신호(DREQ)를 원격으로 전원을 “온”시키기 위한 제2전원 제어신호로 이용한다.First, when the in-line controller 40 receives data in frame units from another terminal, the DMA request signal DREQ in a “high” state is generated and output to the DMA controller 20 so that the received data can be transferred to the memory. do. At this time, the DMA request signal is a DMA signal of the "low" state to allow DMA operation

Is maintained until In this case, the present invention uses the DMA request signal DREQ as a second power control signal for remotely turning on the power.

를 발생한다.The DMA request signal DREQ in the “high” state is supplied to the power remote control unit 50 as a second power control signal, whereby the remote control unit 50 is in the “low” state for driving the power supply unit 30. Power "On" Control Signal

Occurs.

를 출력한다. 이때 인-라인 제어부(40)는 상기 DMA인지시호

에의해 “하이”상태의 DMA요구 신호(DREQ)를 해제하고 다른 터미널에서 전송하는 데이터를 수신하며, 이때 DMA제어부(20)는 수신데이타를 직접 억세스하여 메모리에 저장한다.Then, the power supply unit 50 generates the first power supply Vcc and supplies it to the CPU 10 and the DMA controller 20. At this time, since the in-line controller 40 is generating the DMA request signal DREQ signal to the DMA controller 20, the DMA controller 20 sends a signal HLDAK to the CPU 10 to request the DMA operation. Is generated, and the DMA control unit 20 sends the in-line control unit 40 a DMA acknowledgment signal of the "low" state

Outputs At this time, the in-line controller 40 is the DMA recognition time signal

By releasing the DMA request signal (DREQ) of the "high" state and receives data transmitted from another terminal, the DMA controller 20 directly access the received data and stores it in the memory.

Here, referring to FIG. 2, the process of controlling the power supply unit 30 by the DMA request signal DREQ will be described in detail. The signal for controlling the power supply of the POS terminal is controlled by the DMA request signal DREQ. There is a power supply control signal and a first power supply control signal by a mode key.

The mode key is attached to the corresponding terminal, and the "actiue low" state also supplies the first power supply (Vcc) to all components of the terminal.

로 “로우”상태의 신호를 공급하게 된다. 그러면 플립를롭(FF)은 반전 출력단자(Q)로 “하이”신호를 출력하게 되며, 이로 인해 트랜지스터(TR1)는 전원부(30)로 “로우”상태의 전원 “온”제어신호

를 발생하게 된다.In this case, the AND gate AG inputs the inverted signal of the DMA request signal DREQ, which is the second power control signal, and the first power control signal by the mode key, so that even if only one of the two signals is generated, the flip-flop ( FF) clear terminal

This will supply a signal of "low" status. Then, the flip-flop FF outputs a “high” signal to the inverting output terminal Q. As a result, the transistor TR1 transmits the power “on” control signal of the “low” state to the power supply unit 30.

Will occur.

를 발생하게 되는 것이다. 이때 상기 CPU(10)는 모드 카가 오프 상태에 있음을 인지하고 있으며, 이로인해 원격에서 제1전원을 “온”시킨 상태임을 알 수 있게 된다.Therefore, when the in-line controller 40 generates the DMA request signal of the “high” state in the terminal power off mode (mode key off: “high” state), the AND gate TR1 is “on” and the power supply unit 30 is turned on. Power On “On” Control Signal

Will be generated. At this time, the CPU 10 recognizes that the mode car is in an off state, and thus, the CPU 10 can recognize that the first power is “on” remotely.

를 발생하게 되며, 상기 I/O어드레스 신호는 어드레스 디코더에서 디코딩되어 상기 I/O라이트신호

와 함께 노아게이트(NG)에 인가된다.If it is recognized that the in-line communication is completed in the above state, the CPU 10 generates a specific I / O address (CX: ΦAΦM) and at the same time, the I / O write signal.

The I / O address signal is decoded by an address decoder to generate the I / O write signal.

Together with the noah gate NG.

가 된다. 그려면 상기 노아게이트(NG)는 두 입력신호가 “로우”상태일시 “하이”상태 신호를 출력하게 되며, 이 신호는 상기 플립플롭(FF)의 클럭신호로 인가되어 반전 출력단자

로 “로우”신호를 출력한다. 상기 플립를롭(FF)의 반전출력단자

로 “하이”신호를 출력하면, 트랜지스터(TR)는 “오프”되므로 제2전원(V_BP)레벨의 전원 “오프”신호(PWRONS)가 전원부(30)는 공급되며, 이로인해 전원부(30)는 제1전원(Vcc)의 발생을 중지시켜 터미널은 다시 “오프”모드로 동작하게 된다.Therefore, the I / O address (ΦAΦм) is a chip select signal for releasing the remote power control state.

Becomes To this end, the noble gate NG outputs a high signal when the two input signals are in a low state, which is applied as a clock signal of the flip-flop FF.

Outputs a "low" signal. Inverted output terminal of the flip-flop (FF)

When outputting the "high" signal, the transistor TR is "off", so that the power supply unit 30 is supplied with the power "off" signal PWRONS of the second power supply (V _BP ) level, thereby supplying the power supply unit 30. Stops the generation of the first power supply (Vcc) so that the terminal operates in the "off" mode again.

를 발생하며, 이로인해 CPU(10) 및 DMA제어부(20)는 제1전원(Vcc)을 공급받게 된다.Referring to FIG. 3 and FIG. 4, when the DMA request signal DREQ is generated by the in-line controller 40 as described above, the power remote controller 50 is connected to the power supply unit 30. Power "on" control signal to drive

And the CPU 10 and the DMA controller 20 are supplied with the first power source Vcc.

At this time, the CPU 10 receives the first power supply Vcc from the power supply unit 30, and in step 100, if the first power supply Vcc is in the "on" state of the remote control, or if the first power supply Vcc is turned on. 1Check that the power supply (Vcc) is in the "on" state.

At this time, it can be recognized according to the state of the mode key, the second initialization process is performed in the step 102 of generating the first power source (Vcc) by the dust off mode (mode off state). That is, when the power is turned on by the remote control, only the part capable of performing the in-line communication needs to be initialized. In step (102), the state of the memory in-line related part and the mode key for the file search is determined. Initialize

Thereafter, in step 104, a flag is set to indicate that the current power is turned on by the remote control. Perform.

At this time, if it is recognized in step 108 that the service operation is completed, the CPU 10 resets the flag indicating that the remote control state in step (110), and checks whether the status is in the "off" mode. This is a step of checking whether the mode is changed to “on” while performing the service operation by the remote control. If the change of the mode key is recognized, the flow is as shown in FIG.

를 발생하게 되며, 이로인해 전원 원격 제어부(50)가 “하이”상태의 전원 “오프”신호(PWRONS)를 출력한다. 따라서 전원부(30)는 제1전원(Vcc)의 공급을 중단하므로, 터미널은 다시 오프 모드에 들게 한다.However, if it is determined in the “off” mode even after the completion of the service in the step 112, the CPU 10 transmits the I / O address and the I / O line signal for the power 114 “off” signal.

In this case, the power remote control unit 50 outputs the power “off” signal PWRONS in the “high” state. Therefore, since the power supply unit 30 stops supplying the first power supply Vcc, the terminal is put in the off mode again.

In step (100), at the first power control signal date and time by the mode key, in step 116, all components are initialized to perform a normal POS terminal function so as to prepare a POS terminal function, and then (118) Performs normal poster terminal functions at this stage.

Thereafter, when the state of the mode key is changed to the “off” mode in step 120, step (114) is performed to stop the supply of the first power source Vcc of the power supply unit 30.

In addition, if the mode key is switched while the first power source Vcc is supplied by the remote power source control signal, it is analyzed whether the flag indicating that the current remote power source control state is set is set in step 200.

In this case, if the flag is in the set state, the initialization of the remaining components other than the second initialization process (memory in-line related part and mode key state) performed in the remote power control state in step 202 is performed in the third initialization process. In step 204, the terminal performs a normal POS terminal function.

Then, in step 206, if the mode key is shifted to the off state, the CPU 10 generates a power “off” control signal PWRONS in the process as described above in step 208. FIG.

를 발생한다.In summary, when the communication request is made to the in-line control unit 40 of another terminal, the in-line control unit 40 generates a DMA request signal (DREQ), and when the corresponding POS terminal is powered off, the power remote control unit 50 ) Is a signal for turning on the power supply unit 30 by recognizing the DMA request signal DREQ from a remote power control signal.

Occurs.

Then, the power unit 30 generates power, and at this time, the CPU 10 indicates that the remote control state is established, initializes relevant parts that can service in-line communication, and then performs a service required by the corresponding terminal. do.

When the service is terminated afterwards, the CPU 10 generates a specific I / O address signal to turn off the power, whereby the power remote control unit 50 causes the signal PWRONS to “off” the power supply 30. This will cause the POS terminal to open modalities.

In addition, when the mode key is generated in the remote control state, the remaining parts other than the portion initialized in the remote power control process are initialized and the power is maintained in the "on" state.

As described above, when operating a plurality of POS terminals in an in-line manner in the port system, even if the POS terminal is in the off state, the terminal can be switched to the power “on” state by the remote control, and thus, the master terminal. In the case of each slave terminal, accurate report can be performed without missing terminal when reporting sales information of each slave terminal, and in the case of slave terminal, the PLU file can be inquired to the master terminal to efficiently search the system. There is an advantage to operate.

Claims (2)

A power supply unit for generating first and second power supplies Vcc, an in-line control unit for performing in-line communication with another terminal by the second power source V _BP , and an other terminal through the in-line control unit. A method for remotely controlling a power supply of a POS terminal having a DMA control unit for processing data in a DMA method, wherein when the in-line communication request occurs in the first power supply (Vcc) off mode, the request signal is a remote power supply “on” control signal. A process of generating a first power source (Vcc) of the power supply unit, and displaying a remote power "on" state when the first power source (Vcc) is supplied, and in-line communication service after initializing in-line communication related parts. Process of releasing the remote power “on” state and generating a first power Vcc after performing the service process, and displaying the remote power “on” state when the first power Vcc is supplied, In-line communication after initializing line communication Service, and generating an I / O address for releasing the remote power “on” state and releasing the supply of the first power supply (Vcc) after performing the service process, and in the I / O address of the process. Generating a power “off” signal to cut off the supply of the first power supply (Vcc) of the power supply unit to perform the “off” mode. The method of claim 1, wherein the remote power supply " on " control signal is a DMA request signal.

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