KR100632150B1 - Control circuit of the operation panel of the ultrasonic diagnostic device - Google Patents

Abstract

The present invention relates to a control circuit of an operation panel of an ultrasonic diagnostic apparatus, and more particularly, an alphanumeric input key, a mode selection key, an encoder, and a trackball attached to a host system of the ultrasonic diagnostic apparatus. (Track Ball), TGC control terminal, touch panel (Touch pannel) input signal to the host system via the USB interface, and operation of the ultrasonic diagnostic device having a function of driving the LED display in accordance with the data received from the host system It relates to the control circuit of the panel.

USB, operation panel, control circuit

Description

     Control Circuit for Operating Panel of Ultrasonic Diagnostic Device {Control Circuit for Operating Pannel of an Ultrasonograph}

1 is a view showing an example of an operation panel on which a control circuit of the present invention is installed;

2 is a block diagram of a control circuit of the present invention;

3 is a block diagram of another embodiment of a control circuit of the present invention;

4 is a flowchart of a control program of the control circuit of the present invention.

Explanation of symbols on the main parts of the drawings

10; A central control unit 20; Keyboard signal input

30; Trackball signal sensing unit

40; Auxiliary control unit 41; Mode key signal input

50; Encoder controller 51; Encoder Signal Input

60; TGC, LED, Touch Panel Control

61; TGC control signal input 62; LED indicator

63; Touch panel signal sensing unit

70; A USB interface unit 80; Latch

90; Menu key panel interface

P; Operation panel P1; Alphanumeric Keyboard

P2; Trackball P3; Mod key

P4; Encoder P5; TGC Control Terminal

P6; LED P7; Touch panel

P8; LCD display P9; USB interface

Q; Host system

The present invention relates to a control circuit of an operation panel of an ultrasonic diagnostic apparatus, and more particularly, an alphanumeric input key, a mode selection key, an encoder, and a trackball attached to a host system of the ultrasonic diagnostic apparatus. Ultrasonic diagnostic device having a function of transmitting input signals of a track ball, a resolution adjusting terminal, and a touch panel to the host system through a USB interface, and driving LEDs installed in the panel according to data received from the host system. It relates to a control circuit of the operation panel.

In general, a host system of a medical device such as an ultrasound diagnostic device includes an alphanumeric input key for a user to input commands and information into the system, a trackball and a touch panel as an auxiliary input tool of the host system, and a mode of the system. Various modes such as mode selection key to switch the function, encoder to adjust the output signal or screen status of the host system, TGC (Time Gain Compensation) control terminal, and display screen to display the status of the host system. An operation panel with means is provided.

However, in order to efficiently transmit signals input from various types of adjusting means to the host system, a series of control circuits for systematically and collectively converging the signals generated from each adjusting means are required. Conventionally, most of the control circuits used in such an operation panel are analog signal processing elements, which are highly influenced by the characteristics of the place where the host system is used, which reduces the durability of the circuit and reduces the reliability and accuracy of operation. There was a problem.

In addition, although a control circuit using a conventional microcontroller has been used, input signals from a variety of operation means of at least 50 to 150 can not be efficiently processed according to the characteristics and types of each input signal. There is an urgent need for a solution.

The present invention has been made to solve the above-mentioned conventional problems, and in particular, the input signal from the various operation means provided in the operation panel operated by the user in the ultrasonic diagnostic apparatus according to the characteristics and types of the respective input signals. The present invention has been devised for the purpose of providing a control circuit for an operation panel that efficiently inputs to a host system, but provides a control circuit for an operation panel that uses a USB interface as a communication means with the host system.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

First, an example of an operation panel including an alphanumeric input key, a mode selection key, a screen or signal control terminal, a track ball, and a touch pad for operating a host system of an ultrasound medical apparatus is shown in FIG. Shown.

1 illustrates an operation panel used in an ultrasound medical apparatus, and the operation panel P is attached to the host system Q to perform an operation such as command input, mode selection, signal variation, output control, and the like. It is provided with a control means required for the panel, as shown in the embodiment of the figure, the alphanumeric keyboard (P1), the track ball (P2) connected to a peripheral device such as a computer and performs a pointing operation, the mode of the device A mode key (P3) for selecting the (Mode) setting, an encoder terminal (P4) for controlling the output signal or the screen state of the host system mainly used for a rotary encoder, and a TGC (Time Gain Compensation) Compensation) The control terminal P5, a plurality of LEDs P6 attached to the inside of the rear surface of the mode key P3 and lit to identify the pressed state of the mode key P3, and the host system Q are identified. To enter a command or selection USB port used as a USB port as a means of communication with the touch pad P7, the touch pad, the LCD display P8 in which the mode state of the host system Q or the input / output state of the signal is displayed, and the host system Q. P9 is disposed on the surface of the panel P. FIG.

The configuration of the control circuit of the present invention for controlling the input signal transmitted from each operation means of the operation panel P as described above and performing communication with the host system Q will be described in detail with reference to the block diagram of FIG. 2. .

The central control unit 10 is a main controller that integrates and controls the control circuit of the present invention. The central controller 10 includes a letter / number signal transmitted from the keyboard signal input unit 20 and a trackball transmitted from the trackball signal sensing unit 30. A pointing signal, a signal of mode selection transmitted from the auxiliary control unit 40, an encoder signal, a TGC adjustment signal and a pointing signal of the touch panel are inputted, and the input signal is processed by a built-in control program. It converts into a USB signal and outputs it to the USB interface unit 70. The signal output to the USB interface unit 70 is transferred to the host system Q, and the host system Q controls the host system Q by performing signal processing according to an input signal from the central controller 10. do.

The central control unit 10 is a microprocessor unit (MPU) is used, it is preferable that a control program for storing a built-in storage space and drive the microprocessor is stored in the oscillation element such as a crystal oscillator (Oscillator) An OSC terminal receives the operating clock of the microprocessor through the power supply terminal, a power input terminal and a ground terminal supplied with the operating power, and a terminal for resetting the circuit. In the embodiment of the present invention, as a microprocessor used in the central control unit 10, a one-chip microchip having a built-in RAM and a PROM type reservoir and outputting data signals for five USB ports together with a general-purpose input / output port. CY7C66113 from CYPRESS Co., Ltd. is used.

The keyboard signal input unit 20 is a conventional keyboard signal generation circuit that scans an alphanumeric keyboard P1 to generate an alphanumeric signal, and outputs the generated keyboard signal to the central controller 10.

The track ball signal sensing unit 30 senses the track ball P2, converts the track ball pointing position as a pulse signal, and outputs it to the central controller 10.

The auxiliary control unit 40 is a bridge controller connected to the central control unit 10 to control an interface between the central control unit 10 and each of the operation keys. A selection signal, an encoder signal transmitted from the encoder control unit 50, a TGC signal transmitted from the TGC / LED / touch panel control unit 60, and a pointing signal of the touch panel are input, and the signal is processed by a built-in control program. Then convert to a USB signal and outputs it to the central control unit 10. In addition, the TGC / LED / touch panel control unit 60 transmits a signal to control the LEDs P6 indicating the lighting state of each mode key according to the selected mode key selection signal.

In addition, the auxiliary controller 40 receives a control signal for turning on or off the backlight of the LCD display P8 on the panel P from the central controller 10 via the latch 80. Controls the lighting state of the backlight.

Like the central control unit 10, the auxiliary control unit 40 is a microprocessor unit (MPU) is used, it is preferable that a control program for storing a built-in storage space and drive the microprocessor. In the embodiment of the present invention, as the microprocessor used in the mode key control unit 20, US Intel's 8051 microprocessor core is used, a RAM-type reservoir is built in, and a data signal for one USB port is output along with a general-purpose input / output port. The company adopted AN2131Q from CYPRESS of the United States, a one-chip microprocessor.

The encoder controller 50 inputs an encoder signal for adjusting an output signal or a screen state of the host system through the encoder signal input unit 51, and processes the input signal by using a built-in control program, and then processes the input signal. Outputs to the mode key control unit 20. The encoder controller 50 is a microprocessor unit (MPU) is used as in the central control unit 10, a control program for storing a built-in storage space and driving the microprocessor is stored in the storage space, In the embodiment of the present invention, MC68HRC908JL3 of MOTOROLA Co., Ltd., a one-chip microprocessor having a flash memory and a RAM-type storage device and having a universal input / output port and an analog-to-digital converter (ADC), is adopted.

The mode key signal input unit 41 scans the mode key P2 to generate an ON / OFF signal of each mode key and outputs the signal to the auxiliary control unit 40.

The encoder signal input unit 51 transmits a signal generated according to the adjustment of the encoder P4 to the encoder controller 50.

The TGC / LED / touch panel control unit 60 receives the TGC control signal transmitted from the TGC control signal input unit 61 and the pointing signal of the touch panel transmitted from the touch panel sensing unit 63 to receive the auxiliary control unit 40. The received signal is transmitted to the auxiliary control unit 40 according to the timing signal of. In addition, the TGC / LED / touch panel controller 60 receives a control signal of LEDs P6 that are turned on or off according to the state of pressing the mode key P3 from the auxiliary controller 40 and displays the LED display unit ( 62). The LED display 62 lights or turns off each LED P6 according to the control signal of the received LED.

The touch panel signal sensing unit 63 receives a user's pointing input signal from the touch panel P7, processes the signal, and transmits the signal to the TGC / LED / touch panel controller 60 after processing the signal.

The USB interface unit 70 is connected to the output terminal of the data signal for the USB port of the central control unit 10 to communicate with the central control unit 10 and the host system Q, and a general USB port is used.

Meanwhile, in the embodiment of the present invention, 1616AI of ATMEGA Co., Ltd. is employed as the TGC / LED / touch panel control unit 60, TB 62702F is employed as the LED display unit 62, and the touch panel control unit 63 is used. ADS7846 from TEXAS INSTRUMENTS of USA was adopted.

FIG. 3 is a block diagram of another embodiment of the control circuit of the present invention, in which the touch panel signal sensing unit 63 connected to the TGC / LED / touch panel control unit 60 of the present invention shown in FIG. An embodiment of the configuration (part A ') in which the configuration (part A) is replaced by the menu key panel interface unit 90.

If the menu key panel interface unit 90 does not attach the touch panel P7 on the operation panel P in consideration of product unit price, hardware compatibility, or convenience of operation, the menu key panel 90 may be attached instead. By scanning the menu key (not shown), a signal of each menu key is generated and transmitted to the TGC / LED / menu key controller 60 '.

In addition, the TGC / LED / menu key controller 60 'transfers the received menu key signal to the auxiliary controller 40, and the auxiliary controller 40 processes the signal by the built-in control program and then converts the signal into a USB signal. It converts and outputs it to the central controller 10. The central control unit 10 outputs this to the host system Q to control the host system Q according to the input of the menu key.

Hereinafter, the operation of the control circuit of the present invention configured as described above will be described in detail with reference to the accompanying drawings. 4 is a flowchart of a control program of the control circuit of the present invention.

First, as shown in FIG. 4, when the operator of the operation panel supplies power to the control circuit of the present invention (step S 301), the central control unit 10, the auxiliary control unit 40, the encoder control unit 50, and the TGC. The / LED / touch panel control unit 60 is activated so that the control program stored in the memory storage space in each microprocessor starts driving and the register value is initialized accordingly (step S302). Subsequently, the central control unit 10 searches the input port to determine whether there is an input of the keyboard signal from the keyboard signal input unit 20 (step S303). When the input of the keyboard signal is found, the input keyboard signal is read (step S304), and it is converted into the USB data signal defined in the code table stored in the memory storage space (step S305), and the USB interface unit 70 The converted USB data signal is output (step S306). The output USB data signal is recognized by the host system to recognize the signal.

Next, the central controller 10 searches the input port to determine whether the track ball pointing signal is input from the track ball signal sensing unit 30 (step S 307). When the input of the pointing signal of the trackball is found, the input pointing signal is read (step S308), and it is converted into the USB data signal defined in the code table stored in the memory storage space (step S309), and the USB interface unit ( 70, the converted USB data signal is output (step S310). The output USB data signal is determined by the host system to recognize the pointing position of the trackball.

Subsequently, if the signal input in step S 307 is not a pointing signal of the trackball, the central control unit 10 transmits the input signal to the mode key selection signal or encoder control signal or TGC control signal or touch inputted from the auxiliary controller 40. It recognizes as a panel signal (step S 311), and determines whether the input signal is output from the mode key signal input section 41 (step S 312). If the signal is input from the mode key signal input unit 41, the signal is read (step S 313), and it is converted into a USB data signal defined in a code table stored in the memory storage space (step S 314), and the USB interface unit ( 70), the converted USB data signal is output (step S315). The output USB data signal is determined by the host system to recognize the operation state of the mode key.

In addition, the auxiliary control unit 40 generates an LED lighting control signal indicating the pressed state of the mode key P3 when the mode key signal of step S 313 is read (step S 316), and generates the generated LED lighting control. The signal is transmitted to the TGC / LED / touch panel control unit 60 (step S 317), and the LED P6 attached to the inner side of the back of the corresponding mode key P3 is turned on or off via the LED display unit 62. (Step S 318).

Subsequently, if the signal input in step S 312 is not a mode key signal, the central controller 10 determines whether the input signal is a control signal of an encoder input through the encoder controller 50 (step S 319). If the encoder is an adjustment signal, the signal is read (step S 320), and the signal is converted into a USB data signal defined in a code table stored in the memory storage space (step S 321), and the USB data converted to the USB interface unit 70. A signal is output (step S 322). The output USB data signal is determined by the host system to recognize the variable state of the variable signal.

Next, if the signal input in step S319 is not an encoder signal, the central control unit 10 determines whether the input signal is a TGC control signal input through the TGC / LED / touch panel control unit 60 (step S 323). If it is a TGC adjustment signal, this signal is read (step S 324), and it is converted into the USB data signal defined in the code table stored in the memory storage space (step S 325), and the USB data signal switched to the USB interface unit 70. (Step S326). The output USB data signal is determined by the host system to control the TGC adjustment.

Subsequently, if the signal input in step S 323 is not a TGC control signal, the central controller 10 determines whether the input signal is a pointing signal of the touch panel input through the TGC / LED / touch panel controller 60. (Step S 327). If the signal is a pointing signal of the touch panel, the signal is read (step S328), and it is converted into a USB data signal defined in a code table stored in the memory storage space (step S329), and the USB switched to the USB interface unit 70. The data signal is output (step S330). The output USB data signal is determined by the host system to control the host system Q according to the pointing signal of the touch panel.

If the signal input in step S 321 is not a TGC control signal, the central control unit 10 recognizes it as another signal (step S 331), and processes it as defined in the code table stored in the memory storage space ( In step S 332), when the operator of the operation panel cuts off power to the control circuit of the present invention (step S 333), the driving of the control program stored in the memory storage space in the central control unit 10 is stopped and the control circuit of the present invention is controlled. Is stopped (step S334).

On the other hand, since the control of the menu key interface unit 90 according to another embodiment of the present invention is the same as the control of the touch panel signal sensing unit 63, a detailed description thereof will be omitted.

Effects of the present invention having the above-described configuration are provided with an encoder control unit and a TGC / LED / touch panel control unit which are interfaced by the central control unit, the auxiliary control unit and the auxiliary control unit, respectively, so that various forms of adjustment are provided on the operation panel. Since the signal input from the means can be distributed and processed, the generated signal of the operation panel can be transmitted to the host system efficiently and efficiently.

In addition, since only the digital elements are used, the durability of the circuit is increased and the reliability and accuracy of the operation are increased by minimizing the influence on the local characteristics of the host system.

Claims (4)

A keyboard signal input unit 20 for sensing a keyboard P1 to generate a keyboard signal, a trackball signal sensing unit 30 for sensing a trackball P2 and converting a track ball's pointing position as a pulse signal, and a mode key P3. ), The mode key signal input section 41 for generating the ON / OFF signal of each mode key, the encoder signal input section 51 for generating the encoder control signal of the encoder P4, and the encoder signal input section 51. The TGC signal input unit 61 for generating the TGC control signal of the encoder control unit 50 to control the TGC control terminal P5 for adjusting the screen state of the ultrasonic diagnostic apparatus, and the touch panel ( In the operation panel P of the host system Q of the ultrasonic diagnostic apparatus including a touch panel signal sensing unit 63 for sensing P7 to generate a pointing signal of the touch panel, The keyboard signal input unit 20 receives the alphanumeric signal and the trackball pointing signal transmitted from the trackball signal sensing unit 30, processes the signal by a built-in control program, and converts the signal into a USB signal. A central controller 10 outputting the host system Q through the USB interface unit 70; And An auxiliary control unit 40 which receives a mode selection signal transmitted from the mode key signal input unit 41 and an encoder adjustment signal transmitted from the encoder control unit 50; And TGC / LED / Touch for receiving the TGC control signal transmitted from the TGC signal input unit 61 and the pointing signal of the touch panel transmitted from the touch panel signal sensing unit 63 and transmitting it to the auxiliary control unit 40. A panel controller 60; It is configured to include, The central control unit 10 receives the mode selection signal, the encoder control signal, the TGC control signal, and the pointing signal of the touch panel, which are input to the auxiliary control unit 40, and processes the signal by using a built-in control program. The control circuit of the operation panel of the ultrasonic diagnostic apparatus, characterized in that the conversion to a USB signal and outputs it to the host system (Q) via the USB interface unit (70). The method of claim 1, The TGC / LED / touch panel controller 60 receives a control signal of the LEDs P6 that are turned on or off in accordance with the pressed state of the mode key P3 from the auxiliary control unit 40, and sends them to the LED display unit 62. The control unit of the operation panel of the ultrasonic diagnostic apparatus, characterized in that the LED display (62) turns on or off each LED (P6) according to the control signal of the received LED. The method of claim 1, The auxiliary control unit 40 receives a control signal for turning on or off the backlight lighting of the LCD display P8 on the panel P from the central controller 10 to control the lighting state of the backlight via the latch 80. Control circuit of the operation panel of the ultrasonic diagnostic apparatus, characterized in that for controlling. The method of claim 1, The TGC / LED / menu key controller 60 generates a signal of each menu key by scanning a menu key of a menu key panel for the configuration of the touch panel signal sensing unit 63 connected to the TGC / LED / touch panel controller 60. A control circuit of the operation panel of the ultrasonic diagnostic apparatus, characterized in that the configuration is replaced by the menu key panel interface unit 90 to be delivered to ').

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