KR102305235B1 - A Controlling Board Having a Structure of Multi Interface - Google Patents

Abstract

The present invention relates to a control device having a multi-interface structure, and more particularly, to a control device having a multi-interface structure having a structure operated by different interfaces. The control device of the multi-interface structure includes a control module 11 for operating an operation module (AP) disposed in an electronic device operated according to an input signal; a selection circuit 12 for determining a transmission path of a signal input to the control module 11 according to an interface method; and a transmission unit 13 for transmitting an externally input signal to the control module 11 via the selection circuit 12, wherein the transmission path is selected by a voltage difference.

Description

A Controlling Board Having a Structure of Multi Interface

The present invention relates to a control device having a multi-interface structure, and more particularly, to a control device having a multi-interface structure having a structure operated by different interfaces.

As interfaces for processing data transmitted between different electronic devices or parts, a low voltage differential signal (LVDS) method and a mobile industrial processor interface (MIPI) method are known. The LVDS interface for high-speed data processing is used for data transmission in flat-panel displays, printers, digital copiers or cell phones. LVDS has the advantage of ensuring compliance with EMI regulations while meeting the data throughput demands required in various applications due to its high data throughput and low EMI (Electric Magnetic Interference) emission characteristics. In addition, MIPI was created to define an interface between each component constituting a mobile device. MIPI enables a combination of components of different features and performance of mobile devices that are rapidly increasing in performance. A mobile device such as a smart phone is a form in which a communication function and a portable computer function are integrated, and MIPI has the advantage of enabling compatibility with various peripheral devices connected to the smartphone. Various techniques related to the LVDS interface or MIPI are known in the art.

Patent Registration No. 10-0618266 receives voltage through a USB data cable connected to a data transmission/reception device using an external LVDD, and transmits data through a USB device connected to the USB data cable and the data transmission/reception device. a USB transceiver that transmits and receives; and recognizing the connection of the USB transceiver and the USB data cable connected thereto according to the voltage received through the USB data cable and the USB transceiver, recognizing the data transfer speed of the USB data cable, and accordingly Disclosed is a portable terminal including a control means for controlling a data transmission/reception device.

Patent Laid-Open No. 10-2014-0067342 discloses an interface device for connecting a display module for inputting a signal input from an AV board to a display module in an LVDS method, and according to a module type signal indicating the type of the display module, the AV board a signal format converter for converting a signal output from the display module into a signal format corresponding to the display module and inputting the signal to the display module; Disclosed is an LVDS interface device for connection to a display module including an LVDS connector that transmits a signal input from the signal format converter to a display module.

Patent Publication No. 10-2015-0062030 discloses a low-power transmitter for controlling the rate of change of the full swing output voltage in the maximum current range; and a low power receiver receiving the full swing output voltage and generating a full swing logic output based on a first reference voltage and a second reference voltage, wherein the low power transmitter comprises a first PMOS transistor and the first NMOS transistor. a first inverter including a first NMOS transistor connected in series to the drain of the ; a first inverter including a second PMOS transistor and a first NMOS transistor connected in series to a drain of the second NMOS transistor; a second inverter including a second PMOS transistor and a second NMOS transistor connected in series to a drain of the second NMOS transistor; a third inverter including a third PMOS transistor and a third NMOS transistor connected in series to a drain of the third NMOS transistor; a fourth PMOS transistor having a drain connected to a gate of the first PMOS transistor; a fifth PMOS transistor having a drain connected to a gate of the second PMOS transistor; a first inverter accelerator connected to a drain of the sixth PMOS transistor and having an input voltage connected to a gate; and a second inverter accelerator connected to the drain of the sixth NMOS transistor and connected to the gate of the input voltage, wherein the capacity of the load capacitor connected to the D-PHY circuit for MIPI operating in the low power mode is Disclosed is a D-PHY circuit for MIPI, characterized in that when the capacity of the load capacitor becomes large, the rise time to reach the maximum output and the fall time to return to the minimum output increase compared to when the capacity of the load capacitor is small.

The LVDS interface or MIPI disclosed in the prior art discloses a method of processing a corresponding signal according to each interface structure while operating on one interface structure. Therefore, one interface structure processes a signal according to one of the LVDS interface and the MIPI method. Therefore, when the input signal method is changed, the interface must be changed, for example, the printed circuit board itself must be changed. However, if necessary, a control device capable of operating both the LVDS interface and the MIPI method is required, but the prior art does not disclose such a multi-interface structure.

The present invention has the following objects to solve the problems of the prior art.

Prior Art 1: Patent Registration No. 10-0618266 (Pantech Co., Ltd., announced on September 01, 2006) Data transmission/reception device using LVDS and portable terminal and method using same Prior Art 2: Patent Publication No. 10-2014-0067342 (Orion Co., Ltd., published on June 05, 2014) LVDS interface device for display module connection Prior art 3: Patent Publication No. 10-2015-0062030 (Silicon Hands, Inc., published on June 05, 2015) D-PHY circuit for MIPI operating in LP (Low-power) mode

SUMMARY OF THE INVENTION It is an object of the present invention to provide a control device having a multi-interface structure so that input signals of different types can be processed on one substrate.

According to a suitable embodiment of the present invention, a control device having a multi-interface structure includes a control module for operating an operation module disposed in an electronic device operated according to an input signal; a selection circuit for determining a transmission path of a signal input to the control module according to an interface method; and a transmission unit for transmitting an externally input signal to the control module via a selection circuit, wherein the transmission path is selected by a voltage difference.

According to another suitable embodiment of the present invention, the control module has 1 signal pin group and 2 signal pin groups for receiving input signals according to 1 interface and 2 interfaces, wherein the 1 signal pin group and the 2 signal pin group are mutually have different resistances.

According to another suitable embodiment of the present invention, the interface method is LVDS (Low Voltage Differential Signaling) and MIPI (Mobile Industrial Processor Interface).

The control device according to the present invention allows an input signal to be processed by an LVDS interface or a MIPI method on one printed circuit board or one flexible circuit board. For example, it allows a WXGA display to operate on signals input via the LVDS interface or MIPI. Accordingly, the operation of the LVDS interface and the MIPI method can be tested by one control device by the control device according to the present invention. In addition, the control device according to the present invention is structurally simple and prevents operation errors by selecting different interface methods by changing the operating voltage. Due to this, the LVDS interface method or the MIPI method is operated in one printed circuit board or the flexible circuit board, and there is no need to independently make the printed circuit board or the flexible circuit board. In addition, in the process of developing an electronic device set (SET), depending on the type of main board, it can be operated in either one of WXGA LCD, LVDS interface, or MIPI, and in this case, the LCD is operated regardless of the interface method.

1 is a block diagram showing an embodiment of a control device according to the present invention.
2 shows an embodiment to which the control device according to the present invention is applied.
3 shows an embodiment of the operation structure of the control device according to the present invention.
4A and 4B show an embodiment of an interface control method according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments are for a clear understanding of the present invention, and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so they will not be repeatedly described unless necessary for the understanding of the invention, and well-known components will be briefly described or omitted, but the present invention It should not be construed as being excluded from the embodiment of

1 is a block diagram illustrating an embodiment of a control device according to the present invention.

1, the control device according to the present invention includes a control module 11 for operating an operation module (AP) disposed in an electronic device operated according to an input signal; a selection circuit 12 for determining a transmission path of a signal input to the control module 11 according to an interface method; and a transmission unit 13 for transmitting an externally input signal to the control module 11 via the selection circuit 12, wherein the transmission path is selected by a voltage difference.

The control device according to the present invention may include a printed circuit board or flexible circuit board (FPCB) disposed in a smart phone or tablet computer and a portable electronic device. The control device may include, but is not limited to, hardware or software for operating a graphics unit or a display unit that drives a wide extended graphics array (WXGA) to display an input signal as an image. The control device according to the present invention may be disposed or connected to an electronic device or computer to operate an electronic device such as a graphic card, a camera or a speaker, or an electrical operation module (AP) installed in the computer according to an input signal (IS). have.

The input signal IS becomes a communication signal for controlling the operation of the electronic device, and may be input to the electronic device from the outside through wireless communication or wired communication, or may be transmitted to the transmission unit 13 through an input means of the electronic device. The transmission unit 13 may be a part of the signal processing unit, and may have a standard according to the type of the input signal IS. For example, the signal transmission unit 13 may include a connector connected to a pin of a printed circuit board or a flexible circuit board, or any hardware or software known in the art to transmit an input signal to the signal transmission pin. The input signal IS may be transmitted to the control module 11 through the transmission unit 13 , and a transmission path may be determined by the selection circuit 12 . The selection circuit 12 selects a plurality of signal pins disposed on the control module 11, such as a printed circuit board or a flexible circuit board, so that the input signal IS is sent to a predetermined element or device of the control module 11. It can be sent and made to work. For example, the input signal IS may be a signal according to Low Voltage Differential Signaling (LVDS) or Mobile Industrial Processor Interface (MIPI). The selection circuit 12 may control the input signal IS to be transmitted to the control module 11 through different signal pins according to the interface method of each signal. The selection circuit 12 may include a voltage application circuit that adjusts a voltage applied to a signal pin disposed in the control module 11 or a switch circuit that determines a signal transmission path. The signal pins disposed in the control module 11 may be divided into 1 signal pin group and 2 signal pin groups, the 1 signal pin group transmits the LVDS interface signal, and the 2 signal pin group transmits the MIPI type signal. can be sent. The selection circuit 12 may adjust the voltage applied to the first signal pin group and the second signal pin group or apply a voltage in advance according to the type of the input signal IS. For example, the 1 signal pin group may have a voltage of 1.8 V, and the 2 signal pin group may have a ground voltage of 0 V. And if the MIPI method is used when the input signal IS from the transmission unit 13 is input to the control module 11 , a voltage of 1.8V may be applied to the input signal IS by the selection circuit 12 . . On the other hand, if the LVDS interface method is used, a voltage of 0V may be applied to the input signal IS by the selection circuit 12 . According to the interface method, the input signal IS is transmitted to the control module 11 through one signal pin group or two signal pin groups, respectively, and operates the operation module AP according to each interface method. Due to this, the control module 11, which is one printed circuit board or a flexible circuit board, operates by the LVDS interface method or the MIPI method, and there is no need to independently make a printed circuit board or a flexible circuit board. In addition, in the process of developing a set of electronic devices, it can be operated in either one of WXGA LCD, LVDS interface, or MIPI depending on the type of main board. In this case, the control device according to the present invention allows the LCD to operate regardless of the interface method.

Hereinafter, an embodiment to which the control device according to the present invention operated as described above is applied will be described.

2 shows an embodiment to which the control device according to the present invention is applied.

Referring to FIG. 2 , the control module 11 may be, for example, a flexible circuit board, and a communication signal may be input to the control module 11 through a plurality of signal pins 111 and 112 . The plurality of signal pins 111 and 112 may consist of one signal pin group 111 operated in the LVDS interface and two signal pin group 112 operated in MIPI, Accordingly, communication signals of different interfaces may be transmitted to the control module 11 . The first signal pin group 111 and the second signal pin group 112 may have different applied voltages or operating voltages, and may have an operating voltage of 1.8 V and an operating voltage of 0 V, respectively, as described above. In order to apply such an operating voltage, the plurality of signal pins 111 and 112 may have different resistances. For example, in the 1 signal pin group 111, a resistance of 80 to 120 Ω is connected to each of the five signal pins through which a communication signal is transmitted in the LVDS interface, and the 2 signal pin group 112 used in MIPI communication is a resistance element. may not be connected. As such, the first signal pin group 111 and the second signal pin group 112 may have different resistances, and thus may have different operating voltages.

When the input signal IS corresponding to the operation signal is transmitted to the transmission unit 13 , the transmission unit 13 transmits an interface method in which the input signal IS is operated to the selection circuit 12 . The selection circuit 12 sets the operating voltage of the input signal IS through the operation control unit 21 according to a detected or preset interface scheme. Thereafter, according to the set voltage, the input signal IS may be transmitted through the first signal pin group 111 or the second signal pin group 112 according to a corresponding interface method. Then, for example, the LCD unit may be operated according to a signal transmitted to the control module 11 through the 1 signal pin group 111 or the 2 signal pin group 112 . In this way, the selection circuit 12 sets the operating voltages of the first signal pin group 111 and the second signal pin group 112 in advance, and controls the operating voltage of the input signal IS by the operation control unit 21 . Accordingly, signals of different interfaces are transmitted to the control module 11 .

The selection circuit 12 may set the operating conditions of the 1 signal pin group 111 and the 2 signal pin group 112 in various ways, and the present invention is not limited to the presented embodiment.

3 shows an embodiment of the operation structure of the control device according to the present invention.

Referring to FIG. 3 , a signal input from the transmission unit 13 may be transmitted to the control element 31 , and the control element 31 is an operation module AP operated according to the input signal from the control module 11 . interface can be detected. The control element 31 may be, for example, a central processing unit disposed in the control module 11 , or may be hardware or software disposed independently to determine an interface method. For example, the operating module (AP) can be a WXGA graphics unit that drives an LCD module operating on the LVDS interface. The interface method of the operation module AP may be detected by the detection unit 33 and transmitted to the control element 31 . The transmitting unit 13 may also transmit the manner of the input communication signal to the control element 31 . The control element 31 may transmit an interface of an input signal and an operation interface of the detected operation module AP to the selection circuit 12 . If the operation module AP operates in either the LVDS interface or the MIPI, the control module 11 may set the operation interface of the operation module AP according to the interface method of the input signal. The input signal introduced through the transmission unit 13 may be transmitted to the signal pin group 32, and as described above, the signal pin group 32 includes a 1 signal pin group and MIPI for transmission of an LVDS interface communication signal. It may consist of two signal pin groups for transmission of communication signals. The transmission unit 13 is connected to enable signal transmission to any pin of the signal pin group 32 . The selection circuit 12 may operate the operation control unit 21 according to the interface information transmitted from the control element to set the operation voltage of the input signal IS transmitted to the transmission unit 13 . Thereafter, the input signal IS may be transmitted to the pin group 32 by an operating voltage set by the operation control unit 21 . The pin group 32 may transmit the input signal IS to the control module 11 in one signal pin group or two signal pin groups according to the operating voltage of the input signal IS. Thereafter, the control module 11 operates the operation module AP according to the interface method of the input signal IS, and the operation state of the operation module AP is detected by the detection unit 33 and sent to the control element 31 . can be transmitted.

The control device according to the present invention can be operated according to various operating structures, and the present invention is not limited to the presented embodiment.

4A and 4B show an embodiment of an interface control method according to the present invention.

4A and 4B, the interface control method according to the present invention determines one signal pin group of the LVDS interface method and two signal pin groups of the MIPI method in a flexible circuit board having a plurality of signal pins, and one signal pin setting the group and the two signal pin groups to have different resistance values (P41); inputting an input signal to a device connected to the flexible circuit board (P42); determining an interface method of the input signal (P43); If the interface method of the input signal is an LDVS interface signal (YES), a ground voltage (0V) is applied to the input signal. Otherwise, if it is a MIPI signal (NO), the input signal is connected to the 1 signal pin group or 2 signal pin group. a step of applying an operating voltage according to the resistance (P45); outputting an input signal through one signal pin group or two signal pin groups according to an input signal interface method (P46); and operating an operation module such as an LCD module according to the output signal (P47).

A plurality of signal pins may be disposed on the flexible circuit board, and as shown in FIG. 4B, one signal pin group (LD) for transmission of an LVDS interface signal and two for transmitting a MIPI signal are provided on one flexible circuit board. The signal pin groups MP may be simultaneously disposed. A resistance R of 80 to 120 Ω may be connected to each signal pin of the first signal pin group LP. The first signal pin group LD may be grounded, and an operating voltage of, for example, 1.8 V may be applied to the second signal pin group MP. When the pin operation condition of the flexible circuit board is set in this way (P41), the LVDS interface or MIPI signal may be input to an electronic device such as a smart phone or a tablet computer (P42). An operation interface of the input signal is determined (P43), and an operation voltage may be applied to the input signal according to the interface structure of the input signal (P44, P45). In addition, the input signal is output through the 1 signal pin group or the 2 signal pin group (P46), so that, for example, a graphic device such as WXGA can be operated according to an arbitrary interface method (P47).

In the presented embodiment, the operating condition of the signal pin is a voltage, but is not limited thereto, and the operating condition of the 1 signal pin group or the 2 signal pin group may be variously set.

The control device according to the present invention allows an input signal to be processed by an LVDS interface or a MIPI method on one printed circuit board or one flexible circuit board. For example, it allows a WXGA display to operate on signals input via the LVDS interface or MIPI. Accordingly, the operation of the LVDS interface and the MIPI method can be tested by one control device by the control device according to the present invention. In addition, the control device according to the present invention is structurally simple and prevents operation errors by selecting different interface methods by changing the operating voltage. Due to this, the LVDS interface method or the MIPI method is operated in one printed circuit board or the flexible circuit board, and there is no need to independently make the printed circuit board or the flexible circuit board. In addition, in the process of developing an electronic device set (SET), depending on the type of the main board, WXGA LCD, LVDS interface, or MIPI can be operated in either method, and in this case, the LCD is operated regardless of the interface method.

Although the present invention has been described in detail with reference to the presented embodiments, those skilled in the art can make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. . The present invention is not limited by such variations and modifications, but only by the claims appended hereto.

11: control module 12: selection circuit
13: transmission unit 21: operation control unit
31: control element 32: signal pin group
33: detection unit 111: 1 signal pin group
112: 2 signal pin group AP: operation module
IS: input signal LD: 1 signal pin group
MP: 2 signal pin group R: resistance

Claims (1)

In the control device of a multi-interface structure for processing signals input through different interface methods of LVDS (Low Voltage Differential Signaling) interface and MIPI (Mobile Industrial Processor Interface) in one printed circuit board or one flexible circuit board,
a control module 11 for operating an operation module (AP) disposed in an electronic device operated according to an input signal;
a selection circuit 12 for setting the operating voltage of the input signal according to the interface method in which the signal input to the control module 11 is operated; and
a transmission unit 13 for transmitting a signal input from the outside to the control module 11 via the selection circuit 12;
The signal pins disposed in the control module 11 are divided into one signal pin group 111 through which an LVDS interface type signal is transmitted and a two signal pin group 112 through which a MIPI type signal is transmitted, and the selection circuit ( 12) includes a voltage applying circuit that adjusts the voltage to apply different operating voltages to the first signal pin group 111 and the second signal pin group 112, and the first signal pin group 111 and the second signal pin group 112 ( 112) is a control device of a multi-interface structure, characterized in that it is connected to a resistance element having a different resistance.

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