JP2010170374A - Driving control device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate the driving control of a driving device according to an internal control signal and a signal input from external equipment. <P>SOLUTION: A POS terminal 10 includes: an inverter 172 as a driving means; a display back light external control circuit 19b for controlling the driving of the invertor 172; a COM communication part 21; a buffer circuit 20 connected to the COM communication part 21 and a human-being detection sensor 31 as external equipment for branching a signal line connected to the person detection sensor 31; and a display back light invertor control part 18 for generating the driving control signal of the invertor 172. The display back light external control circuit 19b includes an AND circuit for calculating the logical product of a driving control signal generated by the display back light invertor control part 18 and the detection signal of a human being to be input from the human-being detection sensor 31 and outputting it to the invertor 172. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a drive control device that controls driving of a driving unit.

  Conventionally, as a terminal for convenience stores, personal stores, etc., a POS (Point Of Sale) terminal (register terminal) used for registering the purchase price of goods, a kiosk terminal that accepts ticket purchases or digital camera print applications, advertisements, etc. There are known POP (Point Of Purchase) terminals and the like for increasing customer sales motivation. Further, there is known a POS terminal that can be used for any of the above applications by being combined with an optional product.

  Kiosk terminals and POP terminals are terminals that are directly operated by customers. A human sensor is connected to the kiosk terminal and POP terminal, and for power saving, the display unit is turned off while the human sensor is not detecting the customer, and the display unit is turned on when the human sensor detects the customer. Control may be performed.

  As a technique for controlling the turning on / off of the display unit, in a portable device whose display unit is an LCD (Liquid Crystal Display), while the main control circuit is setting from the external device to the portable device by program control, A configuration in which the backlight of the display unit is turned on is considered (for example, see Patent Document 1).

  A conventional POS terminal 40 that can be used as a POS terminal (cash register terminal), kiosk terminal, or POP terminal will be described with reference to FIG. FIG. 6 shows a functional configuration of the POS terminal 40.

  The POS terminal 40 includes a control unit 11A, a RAM (Random Access Memory) 12, a flash memory 13, an HDD (Hard Disk Drive) 14A, a LAN (Local Area Network) communication unit 15, an input unit 16, and a display. A unit 17, a display backlight inverter control unit 18 </ b> A, and a COM communication unit 21 are provided, and each unit is connected by a bus 25 </ b> A.

  The control unit 11A is a CPU (Central Processing Unit) or a chip set including a CPU. The RAM 12 is a memory that temporarily stores data and programs. The flash memory 13 stores a BIOS (Basic Input / Output System) program. The HDD 14A stores various data, an OS (Operating System) program, and various application programs. The LAN communication unit 15 is a communication unit using a LAN communication method.

  The input unit 16 is a touch pad of a touch panel formed integrally with the display unit 17. The display unit 17 is an LCD, and includes a liquid crystal unit (not shown), a backlight 171, and an inverter 172. The backlight 171 includes a light source such as a cold cathode tube, and emits light for transmitting the liquid crystal unit from the light source. The inverter 172 converts the DC signal input from the display backlight inverter control unit 18 </ b> A into an AC signal for lighting the backlight 171 and outputs the AC signal to the backlight 171.

  The display backlight inverter control unit 18A generates a control signal for turning on / off the backlight 171 and outputs the control signal and a DC power signal to the inverter 172. The COM communication unit 21 is an RS-232C communication unit.

  A configuration in which the POS terminal 40 is used as a kiosk terminal or a POP terminal and the human sensor 51 is connected to the POS terminal 40 will be described.

  The human sensor 51 is a sensor that detects a human location, and is connected to the COM communication unit 21. The human sensor 51 is adjusted so as to detect a person (a customer who performs an operation) located in front of the POS terminal 40.

  In the POS terminal 40, to save power, the backlight 171 of the display unit 17 is turned off while the human sensor 51 is not detecting the customer, and the backlight 171 is turned on when the human sensor 51 detects the customer. Control is performed. This on / off control function is incorporated in an application program stored in the HDD 14A. That is, the control unit 11A uses the detection signal input from the human sensor 51 via the COM communication unit 21 in accordance with an application program for realizing the lighting / extinguishing control function read from the HDD 14A and developed in the RAM 12. In response, the lighting / extinguishing control of the backlight 171 is performed via the display backlight inverter control unit 18.

JP 2002-344646 A

  However, in the conventional POS terminal 40, it is necessary to prepare a program for turning on / off the backlight 171 and incorporate it in the application program, so that the burden of developing and setting the program for turning on / off the light is large. .

  An object of the present invention is to easily perform drive control of a drive unit such as an inverter of a liquid crystal display unit in accordance with an internal control signal and a signal input from an external device such as a human sensor.

In order to solve the above problem, a drive control device according to a first aspect of the present invention provides:
Driving means for driving according to a signal for driving control;
Drive control means for driving and controlling the drive means;
Communication means for communicating with an external device that outputs an external signal indicating on / off of driving of the driving means;
A buffer circuit connected to the communication means and capable of connecting to the external device and branching a signal line connected to the external device;
Drive control signal generation means for generating a drive control signal for controlling on / off of drive of the drive means,
The drive control means includes
The drive control signal generated by the drive control signal generation means connected to the signal line branched by the buffer circuit and the external signal input via the branched signal line are ANDed. An AND circuit for outputting to the driving means is provided.

The invention according to claim 2 is the drive control device according to claim 1,
Power supply means for outputting a power signal to the drive means to supply power;
The drive control signal generation unit generates a drive control signal that is set to high when a power supply signal is input to the drive unit.

According to a third aspect of the present invention, in the drive control device according to the first or second aspect,
The external device is a human sensor, an illuminance sensor, or a sound sensor.

According to a fourth aspect of the present invention, in the drive control device according to any one of the first to third aspects,
The drive means is an inverter, a speaker amplifier, or an HDD motor for driving the backlight of the liquid crystal display means.

The invention according to claim 5 is the drive control device according to any one of claims 1 to 4,
The drive control means includes
A selection circuit is provided that switches between the output terminal of the AND circuit and the output terminal of the drive control signal of the drive control signal generation means and connects to the input terminal of the drive means.

  According to the present invention, it is possible to easily perform drive control of the drive unit according to an internal drive control signal and an external signal input from an external device.

It is a figure which shows the external appearance of the POS terminal of embodiment which concerns on this invention. It is a block diagram which shows the function structure of the POS terminal of embodiment. It is a figure which shows the internal structure of a power supply part and a display backlight external control circuit. It is a time chart which shows the various signals in a POS terminal when not using a human sensor. It is a time chart which shows the various signals in a POS terminal in the case of using a human sensor. It is a block diagram which shows the function structure of the conventional POS terminal.

  Embodiments according to the present invention will be described below in detail with reference to the accompanying drawings. The present invention is not limited to the illustrated example.

  The apparatus configuration according to the embodiment of the present invention will be described with reference to FIGS. FIG. 1 shows the appearance of the POS terminal 10 of the present embodiment.

  The POS terminal 10 shown in FIG. 1 is a terminal device that can be used as a POS terminal (cash register terminal), kiosk terminal, or POP terminal. The POS terminal 10 includes an LCD display unit 17. The display unit 17 is configured as a touch panel integrally with the input unit 16.

  When the POS terminal 10 is used as a cash register terminal, the input unit 16 receives a cashier touch input. When the POS terminal 10 is used as a kiosk terminal or a POP terminal, the input unit 16 receives a customer touch input.

  Further, when the POS terminal 10 is used as a kiosk terminal or a POP terminal, the human sensor 31 can be connected to the POS terminal 10. The human sensor 31 is a sensor that detects the location of a human using infrared rays, ultrasonic waves, visible light, or the like. The human sensor 31 is adjusted and installed so as to detect the location of a customer who directly touches the POS terminal 10. The human sensor 31 detects the location of the customer and outputs a detection signal indicating the detection result. In the POS terminal 10, while the human sensor 31 is not detecting the customer's location, the display unit 17 is turned off, and when the human sensor 31 detects the customer's location, the display unit 17 is turned on. .

  Next, the internal configuration of the POS terminal 10 will be described with reference to FIG. FIG. 2 shows a functional configuration of the POS terminal 10.

  As shown in FIG. 2, the POS terminal 10 includes a control unit 11, a RAM 12, a flash memory 13, an HDD 14, a LAN communication unit 15, an input unit 16, a display unit 17, and a drive control signal generating unit. Display backlight inverter control unit 18, power supply unit 19a as power supply means, display backlight external control circuit 19b as drive control means, buffer circuit 20, and COM communication units 21 and 22 as communication means , 23, 24. The control unit 11, RAM 12, flash memory 13, HDD 14, LAN communication unit 15, input unit 16, display unit 17, display backlight inverter control unit 18, COM communication units 21, 22, 23, and 24 are connected via a bus 25. It is connected.

  The control unit 11 is a CPU or a chip set including a CPU, and centrally controls each unit of the POS terminal 10. The control unit 11 reads out a program from the flash memory 13 or the HDD 14, develops it in the RAM 12, and performs various processes in cooperation with the expanded program.

  The RAM 12 is a volatile memory, and has a work area for temporarily storing data and programs. The flash memory 13 is a non-volatile memory that stores various information in a rewritable manner. The flash memory 13 stores a BIOS program.

  The HDD 14 has a magnetic recording medium and stores various information in a rewritable manner. The HDD 14 stores various data, an OS program, and various application programs.

  The LAN communication unit 15 is a communication unit for performing LAN communication, and includes a network card or the like. The LAN communication unit 15 is used for communication with a POS server or the like.

  The input unit 16 is a resistive film type touch pad that accepts an operator's touch input, and is configured as a touch panel integrally with the display unit 17. The input unit 16 accepts position information input by an operator's touch and outputs the position information to the control unit 11.

  The display unit 17 is an LCD and performs screen display according to a display signal input from the control unit 11. The display unit 17 includes a liquid crystal unit (not shown), a backlight 171, and an inverter 172 as driving means. The backlight 171 includes a light source such as a cold cathode tube, and emits light for transmitting the liquid crystal unit from the light source. The inverter 172 is a conversion unit that converts a DC signal into an AC signal. The inverter 172 converts the DC signal input from the display backlight external control circuit 19 b into an AC signal for lighting the backlight 171 and outputs the AC signal to the backlight 171. As described above, the inverter 172 functions as a power supply circuit for the backlight 171.

  The display backlight inverter control unit 18 generates a power control signal for controlling on / off of the power signal supplied to the inverter 172 in accordance with an instruction from the control unit 11, and outputs the power control signal to the power supply unit 19a. Further, the display backlight inverter control unit 18 generates a drive control signal for controlling the drive of the inverter 172 in accordance with an instruction from the control unit 11, and outputs the drive control signal to the display backlight external control circuit 19b.

  The power supply unit 19 a generates a power signal according to the power control signal input from the display backlight inverter control unit 18 and outputs the power signal to the inverter 172.

  The display backlight external control circuit 19b newly generates a drive control signal for controlling the drive of the inverter 172 according to the drive control signal and the detection signal input from the display backlight inverter control unit 18 and the buffer circuit 20. And output to the inverter 172. The internal configuration of the power supply unit 19a and the display backlight external control circuit 19b will be described in detail later.

  The buffer circuit 20 is a circuit that converts the voltage of a signal input from an external device such as the human sensor 31 to a lower voltage and prevents noise of the signal input from the external device. The COM communication units 21 to 24 are RS-232C communication units. Although not shown, the COM communication units 22 to 24 are each provided with a buffer circuit between the external devices, like the COM communication unit 21 and the buffer circuit 20.

  The COM communication unit 21 is connected to the buffer circuit 20 via a plurality of signal lines including a RI (Ring Indicator) signal line and a signal line necessary for a normal communication signal. The buffer circuit 20 branches the RI signal line among the plurality of signal lines. This branched RI signal line is connected to the display backlight external control circuit 19b. The COM communication units 22 to 24 are connected to a buffer circuit (not shown) through a plurality of signal lines including an RI signal line and a signal line necessary for a normal signal.

  The POS terminal 10 can be connected to the human sensor 31 when used as a kiosk terminal or a POP terminal. In this case, the RI signal line connected to the display backlight external control circuit 19b is connected to one signal line (human detection on / off signal line) of the human sensor 31 via the buffer circuit 20. Is done.

  When used as a cash register terminal, the POS terminal 10 can be connected to a payment terminal 32, a barcode reader 33, a printer 34, and the like as external devices necessary for the cash register terminal. The payment terminal 32 is a terminal device that reads card information of a customer's credit card for electronic payment at the time of electronic payment using a credit card. The printer 34 is a printer that prints out receipts and the like. For example, the settlement terminal 32, the barcode reader 33, and the printer 34 are sequentially connected to the COM communication units 22, 23, and 24 via a buffer circuit (not shown) and a plurality of signal lines, respectively.

  Next, the display backlight external control circuit 19b will be described in detail with reference to FIG. FIG. 3 shows the internal configuration of the power supply unit 19a and the display backlight external control circuit 19b.

  As shown in FIG. 3, the inverter 172 receives the signal Vinv and the signal Inv_En. The signal Vinv is a power supply signal supplied to the inverter 172. The signal Inv_En is a drive control signal for controlling on / off of the drive of the inverter 172. The display backlight inverter control unit 18 outputs signals S1 and S2. The signal S1 is a power supply control signal for controlling on / off of the application of the signal Vinv to the inverter 172. The signal S <b> 2 is a signal according to an instruction from the control unit 11 and a drive control signal for controlling on / off of the drive of the inverter 172. The signal S2 is a signal that is set to high at least when the signal S1 is high. The signals S1 and S2 are generated by the display backlight inverter control unit 18.

  The RI signal is a signal that flows through the RI signal line and is an output signal of the human sensor 31. That is, the RI signal is a human detection signal by the human sensor 31 and is turned on (high) when a human is detected by the human sensor 31, and is turned off (low) when no human is detected. It is. The RI signal functions as a drive control signal for controlling on / off of the drive of the inverter 172.

  The power supply unit 19a includes a field effect transistor (FET) 191. The display backlight external control circuit 19b includes an AND circuit 192 and a selection circuit 193.

  The FET 191 is composed of an NMOSFET. The FET 191 has a gate connected to the output terminal of the signal S1 of the display backlight inverter control unit 18, a drain connected to the DC power source DCIN, a source serving as the output terminal of the signal Vinv, and a connection to the input terminal of the signal Vinv of the inverter 172. Has been.

  The AND circuit 192 is a circuit that performs a logical product of two inputs and outputs the result. The AND circuit 192 has a first input terminal connected to the RI signal line between the buffer circuit 20 and the COM communication unit 21, and a second input terminal connected to the output terminal of the signal S2 of the display backlight inverter control unit 18. The output terminal is connected to the first input terminal of the selection circuit 193.

  The selection circuit 193 is a three-terminal switch, and is a switch that switches two input terminals to connect to an output terminal. The selection circuit 193 is configured by, for example, a DIP switch, and is switched and input by an operator when the POS terminal 10 is installed. The selection circuit 193 has a first input terminal connected to the output terminal of the AND circuit 192, a second input terminal connected to the output terminal of the signal S2 of the display backlight inverter control unit 18, and an output terminal of the inverter 172. It is connected to the input terminal of the signal Inv_En.

  Next, operations of the power supply unit 19a and the display backlight external control circuit 19b will be described with reference to FIGS. FIG. 4 shows a time chart of various signals in the POS terminal 10 when the human sensor 31 is not used. FIG. 5 shows a time chart of various signals in the POS terminal 10 when the human sensor 31 is used.

  First, operations of the power supply unit 19a and the display backlight external control circuit 19b when the human sensor 31 is not used will be described with reference to FIG.

  When the human sensor 31 is not used in the POS terminal 10, the input of the selection circuit 193 is switched to the output terminal side of the signal S <b> 2 of the display backlight inverter control unit 18. As shown in FIG. 4, the DC power source DCIN is always supplied. When the power of the POS terminal 10 is turned on while the power of the POS terminal 10 is off, the BIOS program is read from the flash memory 13 by the control unit 11 and expanded in the RAM 12, and cooperation with the expanded BIOS program is performed. As a result, the control unit 11 starts the BIOS processing. Under the control of the control unit 11, the signal S 1 is turned on by the display backlight inverter control unit 18, the FET 191 is turned on and the signal Vinv is turned on, and the power source voltage of the DC power source DCIN is supplied to the inverter 172.

  Then, after significant information on the BIOS screen can be displayed, the display backlight inverter control unit 18 turns on the signal S2 and turns on the signal Inv_En, and the drive of the inverter 172 is turned on according to the control of the control unit 11. The Thus, when the backlight 171 is turned on when the power is turned on, the signal Inv_En rises after the signal Vinv rises in order to prevent the inverter 172 from being damaged (protected).

  Then, the backlight 171 is turned on by driving the inverter 172, and the BIOS screen is displayed on the display unit 17. The BIOS screen is a VGA (Video Graphics Array) (with low resolution) screen.

  Then, the control unit 11 reads out the OS program from the HDD 14 and develops it in the RAM 12, and the control unit 11 starts processing of the OS in cooperation with the developed OS program. Under the control of the control unit 11, the display backlight inverter control unit 18 turns off the signal S2, turns off the signal Inv_En, turns off the drive of the inverter 172, and turns off the backlight 171. Under the control of the control unit 11, the display backlight inverter control unit 18 turns on the signal S2, turns on the signal Inv_En, and turns on the drive of the inverter 172.

  The backlight 171 is turned on by driving the inverter 172, and the OS screen is displayed on the display unit 17. The OS screen is, for example, an XGA (eXtended Graphics Array) (high resolution state) screen. As described above, the reason why the signal Inv_En is turned off when switching from the BIOS screen display to the OS screen display is to prevent display flicker when changing the resolution.

  If the power saving setting is made even after the OS is started up and the business is started, the backlight 171 is turned off by the power saving. That is, when there is no operation input of the input unit 16 for a predetermined time, the display backlight inverter control unit 18 turns off the signal S2, the signal Inv_En is turned off, and the drive of the inverter 172 is turned off according to the control of the control unit 11. The backlight 171 is turned off. In this state, when there is an operation input from the input unit 16, the display backlight inverter control unit 18 turns on the signal S2, the signal Inv_En is turned on, the drive of the inverter 172 is turned on, and the back is controlled according to the control of the control unit 11. The light 171 is turned on.

  Since the signal Inv_En is turned on / off while the signal Vinv is turned on when the backlight 171 is turned on / off due to power saving, the inverter 172 is not damaged.

  When the POS terminal 10 is turned off, the display backlight inverter control unit 18 turns off the signal S2, turns off the signal Inv_En, and turns off the drive of the inverter 172 according to the control of the control unit 11. When the drive of the inverter 172 is turned off, the backlight 171 is turned off and the OS screen is also displayed. Then, under the control of the control unit 11, the signal S 1 is turned off by the display backlight inverter control unit 18, the FET 191 is turned off and the signal Vinv is turned off, and the supply of the power source voltage of the DC power source DCIN to the inverter 172 is finished.

  When the backlight 171 is turned off when the power is turned off, the signal Inv_En is turned off while the signal Vinv is turned on, so that the inverter 172 is not damaged.

  Next, operations of the power supply unit 19a and the display backlight external control circuit 19b when the human sensor 31 is used will be described with reference to FIG. When the human sensor 31 is used in the POS terminal 10, the input of the selection circuit 193 is switched to the output terminal side of the AND circuit 192. As shown in FIG. 5, the RI signal is input to the POS terminal 10 regardless of whether the POS terminal 10 is powered on.

  Since the RI signal is high active, when a human being is detected by the human sensor 31, the RI signal becomes high, and the output of the AND circuit 192 (signal Inv_En) becomes the signal S2 itself. For this reason, the operations from the POS power on to the OS screen display, the backlight 171 being turned off by the power saving setting, and the OS screen display to the POS power on are the same as when the human sensor 31 is not used.

  In the POS terminal 10, when the human being sensor 31 detects no human being in the state where the OS has started up and the business has started, the RI signal becomes low (on). Since the RI signal becomes low, the output (signal Inv_En) of the AND circuit 192 becomes low (off) regardless of the signal S2, and the backlight 171 is turned off when the inverter 172 is turned off.

  In this state, when a human being is detected by the human sensor 31, the RI signal becomes high (off). Since the RI signal becomes high, the output of the AND circuit 192 (signal Inv_En) becomes the same as the signal S2, and the signal S2 is on (high), so that the backlight 171 is turned on when the inverter 172 is driven, The display of the OS screen is resumed. Thus, if the human sensor 31 is connected to the RI signal line of the buffer circuit 20, the display unit 17 can be turned off when there is no customer. Note that the application program is started as appropriate during startup of the OS program.

  As described above, according to the present embodiment, the POS terminal 10 includes the inverter 172 that is driven according to the signal for drive control, the display backlight external control circuit 19b that controls the drive of the inverter 172, and the human sensor 31. COM communication unit 21 for connecting to the signal, buffer circuit 20 for branching the signal line connected to the human sensor 31, and a display back for generating a control signal for controlling on / off of driving of the inverter 172 A light inverter control unit 18. The display backlight external control circuit 19b ANDs the signal S2 generated by the display backlight inverter control unit 18 and the RI signal as a human detection signal output from the buffer circuit 20 to perform an inverter. And an AND circuit 192 that outputs the signal.

  Therefore, without incorporating the drive control function of the inverter 172 into the application program stored in the HDD 14, the drive control signal generated by the display backlight inverter control unit 18 by the display backlight external control circuit 19b, and the human sensor The driving of the inverter 172 can be easily controlled according to the human detection signal 31, and the turning on / off of the backlight 171 can be easily controlled according to the human detection signal. More specifically, the backlight 171 can be controlled to be turned on when a person is detected, and the backlight 171 can be turned off when a person is not detected. Further, since the hardware control is performed by the display backlight external control circuit 19b, the cost of developing and setting the application program can be reduced.

  Further, since the backlight 171 is turned off when there is no customer, power saving can be realized and the lifetime of the backlight 171 can be extended.

  In the buffer circuit 20, the RI signal line connected to the human sensor 31 is branched and connected to the display backlight external control circuit 19b. For this reason, it is unnecessary to incorporate the communication function of the COM communication signal line other than the human detection signal into the human sensor 31 connected to the buffer circuit 20, and the apparatus configuration of the human sensor 31 can be simplified.

  The POS terminal 10 can be used as a cash register terminal, a kiox terminal, or a POP terminal. For this reason, a highly versatile POS terminal for a store can be realized. For the store, the same equipment can be used for multiple purposes, so the number of spare units for maintenance can be reduced.

  Further, the display backlight inverter control unit 18 generates and outputs a signal S2 to be high in a state where the signal Vinv output from the power supply unit 19a is at least high. The AND circuit 192 ANDs the signal S2 and the RI signal and outputs the result to the inverter 172 as a signal Inv_En. For this reason, it is possible to prevent the high drive control signal (signal Inv_En) from flowing into the inverter 172 and damaging the inverter 172 when the signal Vinv is off regardless of whether the RI signal is on or off.

  The display backlight external control circuit 19b includes a selection circuit 193 that switches between the output terminal of the AND circuit 192 and the output terminal of the signal S2 of the display backlight inverter control unit 18 and connects to the input terminal of the inverter 172. . In other words, when the human sensor 31 is not connected to the buffer circuit 20, the selection circuit 193 selects the output to the inverter 172 to the output terminal side of the display backlight inverter control unit 18 and selects the display backlight inverter control unit 18. The normal drive control of the inverter 172 can be performed in accordance with the signals S1 and S2. Therefore, it is possible to easily switch between the case where the human sensor 31 is connected and the case where the human sensor 31 is not connected, and also when the human sensor 31 is not connected, the display backlight external control circuit 19b and the buffer circuit 20 are It is possible to avoid obstructing various processes of a normal POS terminal (cash register terminal, kiox terminal, POP terminal).

  The description in the above embodiment is an example of the drive control apparatus according to the present invention, and the present invention is not limited to this.

  For example, in the above embodiment, the display backlight inverter control unit 18 is independent from the control unit 11, but is not limited thereto. As with the display backlight inverter control unit 18, the control unit 11 generates signals S 1 and S 2 and outputs the signals S 1 and S 2 from the GPIO (General Purpose Input / Output) output terminal of the CPU chip set of the control unit 11. The power supply unit 19a and the display backlight external control circuit 19b may be configured to output.

  In the above embodiment, the human sensor 31 is connected to the POS terminal 10 via the buffer circuit 20 and the COM communication unit 21. However, the present invention is not limited to this. For example, in the same manner as the buffer circuit 20 and the COM communication unit 21, an external device such as the human sensor 31 is connected to the buffer circuit and other communication such as a USB (Universal Serial Bus) communication unit, a printer communication unit, a display communication unit, and the like. It is good also as a structure connected to the POS terminal 10 via the communication part of a system.

  Moreover, in the said embodiment, although it was set as the structure which connects the human sensitive sensor 31 to the POS terminal 10, it is not limited to this. The device connected to the human sensor 31 may be another information processing device such as a PC (Personal Computer) or a drive-through ordering terminal.

  Moreover, in the said embodiment, although the drive means was the inverter 172 of the display part 17, it is not limited to this. The drive means may be other components such as a speaker amplifier and a HDD (rotating a magnetic storage medium) motor. When the driving means is an amplifier of a speaker, for example, when the human sensor 31 detects a customer and approaches the POS terminal 10 to approach the customer, it responds to a detection signal indicating that the customer has been detected. Thus, it is possible to adopt a configuration in which sound output of guidance voices and the like related to operations is started from a speaker via an amplifier. With this configuration, power saving can be realized and the life of the amplifier can be extended. In the case where the driving means is an HDD motor, for example, the human sensor 31 detects the customer, and while there is no customer, the driving of the HDD 14 motor is stopped and the customer operates to operate the POS terminal 10. When approaching, it is possible to adopt a configuration in which the rotational drive of the motor is started. With this configuration, power saving can be realized and the life of the HDD can be extended.

  In the above embodiment, the external device connected to the POS terminal 10 is a human sensor, but is not limited to this. The external device may be another device such as an illuminance sensor or a sound sensor. When the external device is an illuminance sensor, for example, the backlight 171 may be turned on when the illuminance around the POS terminal 10 detected by the illuminance sensor becomes high. With this configuration, the backlight 171 can be easily turned on / off according to the illuminance. When the external device is a sound sensor, for example, the backlight 171 may be turned on when a person approaches the POS terminal 10 and the sound sensor detects the sound of the approaching person. With this configuration, the backlight 171 can be easily turned on / off according to the detected sound.

  In addition, it goes without saying that the detailed configuration and detailed operation of each component of the POS terminal 10 in the above embodiment can be changed as appropriate without departing from the spirit of the present invention.

10, 40 POS terminal 11, 11A Control unit 12 RAM
13 Flash memory 14, 14A HDD
DESCRIPTION OF SYMBOLS 15 Communication part 16 Input part 17 Display part 171 Backlight 172 Inverter 18, 18A Display backlight inverter control part 19a Power supply part 191 FET
19b Display backlight external control circuit 192 AND circuit 193 selection circuit 20 buffer circuits 21, 22, 23, 24 COM communication unit 25, 25A Bus 31, 51 Human sensor 32 Payment terminal 33 Bar code reader 34 Printer

Claims (5)

Driving means for driving according to a signal for driving control;
Drive control means for driving and controlling the drive means;
Communication means for communicating with an external device that outputs an external signal indicating on / off of driving of the driving means;
A buffer circuit connected to the communication means and capable of connecting to the external device and branching a signal line connected to the external device;
Drive control signal generating means for generating a drive control signal for controlling on / off of driving of the driving means,
The drive control means includes
The drive control signal generated by the drive control signal generation means connected to the signal line branched by the buffer circuit and the external signal input via the branched signal line are ANDed. A drive control device comprising an AND circuit that outputs to the drive means. Power supply means for outputting a power signal to the drive means to supply power;
The drive control apparatus according to claim 1, wherein the drive control signal generation unit generates a drive control signal that is set to high in a state where at least a power supply signal is input to the drive unit.   The drive control device according to claim 1, wherein the external device is a human sensor, an illuminance sensor, or a sound sensor.   4. The drive control device according to claim 1, wherein the driving unit is an inverter that drives a backlight of a liquid crystal display unit, a speaker amplifier, or an HDD motor. 5. The drive control means includes
5. The circuit according to claim 1, further comprising: a selection circuit that switches between an output terminal of the AND circuit and an output terminal of the drive control signal of the drive control signal generation unit and connects to the input terminal of the drive unit. The drive control apparatus described.

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