KR20120010095A - Connector and interface device - Google Patents

Abstract

PURPOSE: A connector and interface apparatus is provided to contact plural media player devices by using plural contact location groups. CONSTITUTION: Housing units(313, 315) accept plural contact locations(311). The contact location includes a first devices contact location group, a second devices contact location group, a third devices contact location group, and a fourth devices contact location group. The first devices contact location group is determined in order to transmit data between first devices. The second device contact location group is determined in order to transmit data between second devices. The third devices contract location group is determined in order to transmit data between third devices.

Description

Connector and Interface Device {CONNECTOR AND INTERFACE DEVICE}

The present invention relates to a connector and an interface device, and more particularly, to a connector and an interface device capable of high-speed signal transmission and capable of connecting a plurality of media player devices.

Cable connectors are devices that carry electrical signals between two electronic devices. For example, such a cable connector may be an HDMI cable, a USB cable connector, an audio cable connector, a video cable connector, or the like.

Recently, since electronic devices can be connected to various external devices, they have connectors of various standards for connecting to various external devices. For example, modern televisions are provided with the above-described HDMI cable connector, USB cable connector, audio cable connector, video cable connector and the like because they can be connected to a DVD player, a set top box, a speaker, a computer, and the like.

However, the use of different cable connectors for different devices is not good in terms of compatibility between electronic devices. Therefore, it has been required to develop connectors that can easily transmit video, audio, and control signals to a plurality of electronic devices.

Accordingly, an object of the present invention is to provide a connector and an interface device capable of high-speed signal transmission and to which a plurality of media player devices can be connected.

A connector according to an embodiment of the present invention for achieving the above object includes a plurality of contact locations sequentially numbered, and a housing for receiving the plurality of contact locations, The plurality of contact locations may include a first device pair contact location group designated for data transmission between devices of a first pair, a second device pair contact location group designated for data transmission between devices of a second pair, and a device of a third pair A third device pair contact location group designated for inter-data transfer, and a fourth device pair contact location group designated for inter-device data transfer of the fourth pair.

In this case, the first device pair contact location group may include a first device pair plus contact location for differential signaling and a first device pair negative contact location, and a first device pair ground contact location for ground processing. It may include.

On the other hand, the connector is preferably compatible with the HDMI (High Definition Multimedia Interface) connector.

Meanwhile, the connector is preferably a 19 pin connector.

The plurality of contact locations may further include a power transmission contact location for transmitting a specific power.

The plurality of contact locations may further include a CEC (Consumer Electronics Control) contact location.

The connector may be compatible with an HDMI connector, and the first device pair contact location group may correspond to a transition minimized differential signaling (TMDS) contact location of HDMI.

Meanwhile, the first device pair contact location group is designated as a number from 10 to 12, the second device pair contact location group is designated as a number from 7 to 9, and the third device pair contact location group is 4 Is designated as a number from 6 to 6, and the fourth device pair contact location group is designated as a number from 1 to 3.

The plurality of contact locations may further include a fifth device pair contact location group designated for data transmission between devices of a fifth pair.

In this case, the connector may be compatible with the HDMI connector, and the fifth device pair contact location group may correspond to an Ethernet and audio return channel (HEAC) contact location of HDMI.

The fifth device pair contact location group may be grounded using at least one of a ground contact location and a drain wire of another contact location group.

On the other hand, the fifth device pair contact location group is preferably designated as the number of 14, 17 and 19.

The plurality of contact locations may further include a sixth device pair contact location group designated for data transmission between devices of the sixth pair.

In this case, the connector may be compatible with the HDMI connector, and the sixth device pair contact location group may correspond to a serial data (SDA) contact location and a serial clock (SCL) contact location of the HDMI.

Meanwhile, the sixth device pair contact location group may be grounded using at least one of a ground contact location and a drain wire of another contact location group.

On the other hand, the sixth device pair contact location group is preferably designated as the number of 15 and 16.

According to another embodiment of the present invention, a connector includes a plurality of contact locations sequentially numbered, and a housing accommodating the plurality of contact locations. The plurality of contact locations may include a first device pair contact location group designated for data transmission between devices of a first pair, a second device pair contact location group designated for data transmission between devices of a second pair, and a device of a third pair A third device pair contact location group designated for inter-data transfer, a fourth device pair contact location group designated for inter-device data transfer of the fourth pair, and a fifth device pair contact location designated for data transfer between devices of the fifth pair Sixth diva designated for data transfer between groups and sixth pair of devices An e-pair contact location group, a seventh device pair contact location group designated for data transmission between the devices of the seventh pair, and an eighth device pair contact location group designated for data transmission between the devices of the eighth pair; .

In this case, the first device pair contact location group preferably includes a first device pair plus contact location and a first device pair minus contact location for differential signaling.

On the other hand, the connector is preferably compatible with the HDMI (High Definition Multimedia Interface) connector.

Meanwhile, the connector is preferably a 19 pin connector.

The plurality of contact locations may further include a power transmission contact location for transmitting a specific power.

The plurality of contact locations may further include a CEC (Consumer Electronics Control) contact location.

The connector may be compatible with an HDMI connector, and the first device pair contact location group may correspond to a transition minimized differential signaling (TMDS) contact location of HDMI.

Meanwhile, the first device pair contact location group is designated as a number of 10 and 12, the second device pair contact location group is designated as a number of 7 and 9, and the third device pair contact location group is 4 and 6 The fourth device pair contact location group is designated as a number of 1 and 3, the fifth device pair contact location group is designated as a number of 2 and 5, and the sixth device pair contact location group. Is designated as a number of 8 and 11, the seventh device pair contact location group is designated as a number of 15 and 16, and the eighth device pair contact location group is designated as a number of 14 and 19.

On the other hand, the plurality of contact locations further include a contact location designated as the 17th number for ground processing, and the eighth device pair contact location group uses the contact location designated as the 17th number as the ground contact location. desirable.

Meanwhile, at least one group of the plurality of device pair contact location groups may be grounded using at least one of a ground contact location and a drain wire of another device pair contact location group.

The connector may be compatible with an HDMI connector, and the eighth device pair contact location group may correspond to an Ethernet and audio return channel (HEAC) contact location of HDMI.

The connector may be compatible with an HDMI connector, and the seventh device pair contact location group may correspond to a serial data (SDA) contact location and a serial clock (SCL) contact location of HDMI.

Meanwhile, an interface device according to an embodiment of the present disclosure may include a plurality of contact locations sequentially numbered and an accommodation unit having the plurality of contact locations, wherein the plurality of contact locations include: A first device pair contact location group designated for data transfer between devices of a first pair, a second device pair contact location group designated for data transfer between devices of a second pair, and a second device designated for data transfer between devices of a third pair And a third device pair contact location group, and a fourth device pair contact location group designated for data transmission between devices of the fourth pair.

In this case, the first device pair contact location group may include a first device pair plus contact location for differential signaling and a first device pair negative contact location, and a first device pair ground contact location for ground processing. It may include.

On the other hand, it is preferable that the accommodation portion is compatible with the accommodation portion for HDMI (High Definition Multimedia Interface).

On the other hand, the receiving portion is preferably a 19-pin (pin) receiving portion.

The plurality of contact locations may further include a power transmission contact location for transmitting a specific power.

The plurality of contact locations may further include a CEC (Consumer Electronics Control) contact location.

The receiver may be compatible with the HDMI receiver, and the first device pair contact location group may correspond to a transition minimized differential signaling (TMDS) contact location of HDMI.

Meanwhile, the first device pair contact location group is designated as a number from 10 to 12, the second device pair contact location group is designated as a number from 7 to 9, and the third device pair contact location group is 4 Is designated as a number from 6 to 6, and the fourth device pair contact location group is designated as a number from 1 to 3.

The plurality of contact locations may further include a fifth device pair contact location group designated for data transmission between devices of a fifth pair.

In this case, it is preferable that the accommodation unit is compatible with the HDMI accommodation unit, and the fifth device pair contact location group corresponds to an Ethernet and audio return channel (HEAC) contact location of HDMI.

The fifth device pair contact location group may be grounded using at least one of a ground contact location and a drain wire of another contact location group.

On the other hand, the fifth device pair contact location group is preferably designated as the number of 14, 17 and 19.

The plurality of contact locations may further include a sixth device pair contact location group designated for data transmission between devices of the sixth pair.

In this case, the accommodation unit may be compatible with the HDMI accommodation unit, and the sixth device pair contact location group may correspond to a serial data (SDA) contact location and a serial clock (SCL) contact location of the HDMI.

Meanwhile, the sixth device pair contact location group may be grounded using at least one of a ground contact location and a drain wire of another contact location group.

On the other hand, the sixth device pair contact location group is preferably designated as the number of 15 and 16.

Meanwhile, the interface device preferably transmits and receives a wake-up signal to wake up from a standby state with a media player device connected to the outside.

In this case, the plurality of contact locations may further include a Consumer Electronics Control (CEC) contact location, and the CEC contact location may transmit and receive the wake-up signal to and from the media player device.

On the other hand, the wakeup signal preferably includes a start field for notifying the start of the wakeup command, a wakeup mode field for notifying the mode of the wakeup, and an acknowledgment signal (Ack) field.

In this case, the wakeup mode preferably includes a plurality of wakeup modes and a charging mode corresponding to each of the plurality of operation modes of the media player device.

On the other hand, when the interface device receives a wake-up start command from the microcomputer, it is preferable to determine an external media player device requiring wake-up based on the received wake-up start command.

In this case, the wakeup start command may include a start field for notifying the start of the wakeup command, a wakeup port field for notifying a device requiring wakeup, and a wakeup mode for notifying the wakeup mode. It is preferable to include a Mode) field and an Acknowledgment (Ack) field.

On the other hand, it is preferable that the interface device transmits and receives power to and from an external media player device using at least two or more contact locations among the plurality of contact locations.

In this case, at least one of the contact locations for transmitting and receiving the power is preferably a contact location for AV data transmission.

Meanwhile, the first device pair contact location group is designated as a number of 10 and 12, the second device pair contact location group is designated as a number of 7 and 9, and the third device pair contact location group is 4 and 6 Preferably, the fourth device pair contact location group is designated as a number of ones and threes.

Meanwhile, an interface device according to another exemplary embodiment of the present invention may include a plurality of contact locations sequentially numbered, and an accommodation unit having the plurality of contact locations, wherein the plurality of contact locations include: A first device pair contact location group designated for data transfer between devices of a first pair, a second device pair contact location group designated for data transfer between devices of a second pair, and a second device designated for data transfer between devices of a third pair 3 device pair contact location group, a fourth device pair contact location group designated for data transfer between devices of a fourth pair, a fifth device pair contact location group designated for data transfer between devices of a fifth pair, and a device of a sixth pair Sixth device pair contact locale specified for inter-data transfer Group illustration, it is possible to a seventh device pair contact location group, and the eighth device pair contact location group is specified for data transmission between the device of the eighth pair specified for data transmission between devices of 7 pairs.

In this case, the first device pair contact location group may include a first device pair plus contact location and a first device pair minus contact location for differential signaling.

On the other hand, it is preferable that the accommodation portion is compatible with the accommodation portion for HDMI (High Definition Multimedia Interface).

On the other hand, it is preferable that the accommodation portion is a 19 pin housing.

The plurality of contact locations may further include a power transmission contact location for transmitting a specific power.

The plurality of contact locations may further include a CEC (Consumer Electronics Control) contact location.

The receiver may be compatible with the HDMI receiver, and the first device pair contact location group may correspond to a transition minimized differential signaling (TMDS) contact location of HDMI.

Meanwhile, the first device pair contact location group is designated as a number of 10 and 12, the second device pair contact location group is designated as a number of 7 and 9, and the third device pair contact location group is 4 and 6 The fourth device pair contact location group is designated as a number of 1 and 3, the fifth device pair contact location group is designated as a number of 2 and 5, and the sixth device pair contact location group. Is designated as a number of 8 and 11, the seventh device pair contact location group is designated as a number of 15 and 16, and the eighth device pair contact location group is designated as a number of 14 and 19.

On the other hand, the plurality of contact locations further include a contact location designated as the 17th number for ground processing, and the eighth device pair contact location group uses the contact location designated as the 17th number as the ground contact location. desirable.

Meanwhile, at least one group of the plurality of device pair contact location groups may be grounded using at least one of a ground contact location and a drain wire of another device pair contact location group.

The receiver may be compatible with the HDMI receiver, and the eighth device pair contact location group may correspond to an Ethernet and audio return channel (HEAC) contact location of HDMI.

The receiver may be compatible with the HDMI receiver, and the seventh device pair contact location group may correspond to a serial data (SDA) contact location and a serial clock (SCL) contact location of the HDMI.

Meanwhile, the interface device preferably transmits and receives a wake-up signal to wake up from a standby state with a media player device connected to the outside.

In this case, the plurality of contact locations may further include a Consumer Electronics Control (CEC) contact location, and the CEC contact location may transmit and receive the wake-up signal to and from the media player device.

On the other hand, the wakeup signal preferably includes a start field for notifying the start of the wakeup command, a wakeup mode field for notifying the mode of the wakeup, and an acknowledgment signal (Ack) field.

In this case, the wakeup mode preferably includes a plurality of wakeup modes and a charging mode corresponding to each of the plurality of operation modes of the media player device.

On the other hand, when the interface device receives a wake-up start command from the microcomputer, it is preferable to determine an external media player device requiring wake-up based on the received wake-up start command.

In this case, the wakeup start command may include a start field for notifying the start of a wakeup command, a wakeup port field for notifying a media player device requiring wakeup, and a wakeup mode for notifying a wakeup mode. It is preferable to include a (Wakeup Mode) field, and the Acknowledgment (Ack) field.

On the other hand, it is preferable that the interface device transmits and receives power to and from an external media player device using at least two or more contact locations among the plurality of contact locations.

In this case, at least one of the contact locations for transmitting and receiving the power is preferably a contact location for AV data transmission.

Meanwhile, the first device pair contact location group is designated as a number of 1 and 3, the second device pair contact location group is designated as a number of 2 and 4, and the third device pair contact location group is 5 and 7 And a fourth device pair contact location group are designated as numbers of 6 and 8, the fifth device pair contact location group is designated as numbers of 9 and 11, and the sixth device pair contact location group Is designated as a number of 10 and 12, the seventh device pair contact location group is designated as a number of 13 and 15, and the eighth device pair contact location group is designated as a number of 14 and 16.

The plurality of contact locations may further include a CEC (Consumer Electronics Control) contact location, a ground contact location for ground processing, and a power contact location for transmitting a specific power.

In this case, the plurality of contact locations, the CEC contact location is designated as 13 numbers, the ground contact location is designated as 17 numbers, the power contact location is preferably designated as 18 numbers.

On the other hand, the plurality of contact locations, the CEC (Consumer Electronics Control) contact location is specified as 19, the ground contact location specified by 17 for ground processing, and the power contact specified by 18 numbers for transmitting a specific power The location may further include.

1 is a block diagram showing a configuration of a media player device according to an embodiment of the present invention;
2 is a block diagram showing a configuration of an interface device according to the present embodiment;
3 is a view showing a specific form of the receiving portion of FIG.
4 is a view showing the configuration of a connector cable according to the present embodiment;
5 is a view showing a specific form of the connector of FIG.
6 is a view for explaining an interface structure according to a first embodiment of the present invention;
7 is a view for explaining an HDMI interface structure;
8 is a view showing an interface structure according to a first embodiment on a connector;
9 is a diagram showing an example of a cable cross section when the interface method according to the first embodiment is used;
10 is a view for explaining an interface structure according to a second embodiment of the present invention;
11 is a view showing an interface structure on a connector according to a second embodiment;
12 is a view showing an example of a cable cross section when the interface method according to the second embodiment is used;
13 is a view for explaining an interface structure according to a third embodiment of the present invention;
14 is a view for explaining the structure of the connector according to the third embodiment;
FIG. 15 is a diagram showing an example of a cable cross section when the interface method according to the third embodiment is used; FIG.
16 is a view for explaining an interface structure according to a fourth embodiment of the present invention;
17 and 18 are views illustrating a structure of a connector according to a fourth embodiment;
19 is a diagram showing an example of a cable cross section when the interface method according to the fourth embodiment is used;
20 is a view for explaining an interface structure according to a fifth embodiment of the present invention;
21 is a diagram showing an example of a cable cross section when the interface method according to the fifth embodiment is used;
22 is a view for explaining an example of a method of charging and waking up an external device connected to the interface device 200 through an interface according to the above-described embodiment;
23 is a diagram showing the structure of a wake-up signal according to the present embodiment;
24 illustrates a structure of a wakeup start command according to the present embodiment.
25 is a view for explaining the role of each signal included in the wakeup start command;
FIG. 26 is a diagram illustrating the kind of wakeup mode described in FIG. 25, and
FIG. 27 is a view for explaining another example of a method of charging and waking up an external device connected to the interface device 200 through the interface according to the above-described embodiment.

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

1 is a block diagram showing the configuration of a media player device according to an embodiment of the present invention.

Referring to FIG. 1, the media player device 100 includes a power supply unit 110, a microcomputer 120, a user interface unit 130, and an interface device 200.

The media player device 100 is connected to other external media player devices 10-1, 10-2,... 10-n (hereinafter referred to as external devices) using the cable connector 300. The media player device 100 includes not only a broadcasting receiver such as a digital television (DTV), a DVD player, a set-top box, but also a personal computer, a laptop, an MP3, a PMP, a mobile phone, and the like which store various contents.

The power supply unit 110 supplies power to each component in the media player device 100. The power supply unit 110 may be implemented as a switched-mode power supply (SMPS) or may be implemented using a transformer or a rectifier circuit.

The power supply unit 110 may output different power according to the operating state of the media player device 100. For example, when the media player device 100 is in the normal mode, the power supply unit 110 may output a general mode power supply for supplying power to all components in the media player device 100. When the media player device 100 is in the standby mode, the power supply unit 110 may output the standby mode power supplying power only to some components for the standby mode. When the media player device 100 operates in a charging mode for only charging the external device 10, the power supply unit 110 supplies power only to some components for standby and the interface device 200 used to charge the external device. The charging mode power supply can be output.

The microcomputer 120 may control each component in the media player device 100. In detail, the microcomputer 120 may control each component in the media player device 100 to perform an operation corresponding to the operation mode according to the operation mode of the media player device 100. The media player device 100 may operate in an off mode, a standby mode, a plurality of wakeup modes, a normal mode, or the like.

In addition, when the microcomputer 120 receives a wake-up signal for the media player device 100 from the user's control or interface device 200, the microcomputer 120 may control the power supply unit 110 to output power corresponding thereto.

In addition, the microcomputer 120 may generate a wakeup start command for the wakeup process for the external device 10. Specifically, the microcomputer 120 generates a wake-up start command for waking up the external device 10-1 according to a user's control command or an internal rule, and sends the generated wake-up start command to the interface device 200. I can deliver it. For example, if the media player device 100 is a DVD player, and the user instructs the DVD player to play the DVD, the microcomputer 120 may use the external device 10 to wake up the external device 10-1, which is a DTV. A wakeup start command for −1) may be generated and transmitted to the interface device 200. A detailed configuration of the wakeup start command generated at this time will be described later with reference to FIGS. 24 to 26.

In addition, when the rechargeable external device 10-1 is connected to the interface device 200, the microcomputer 120 may control the power supply unit so that the power supply unit 110 supplies power to the external device 10-1. In detail, when the external device 10-1 connected through the interface device 200 is recognized as a chargeable device, the charging mode power or the normal mode power is supplied to the external device 10-1 through the interface device 200. The power supply unit 110 may be controlled to be supplied. At this time, when charging of the external device 10-1 is completed or the connection is released, the microcomputer 120 may cut off the power supplied to the external device 10-1.

The user interface unit 130 includes a plurality of function keys for setting or selecting various functions supported by the media player device 100, and implemented as a device in which input and output are simultaneously implemented, such as a touch pad. It may be implemented by combining an input device such as a keyboard, a mouse, a wireless remote controller and an output device such as an LCD, a CRT, or a speaker.

The user interface 130 may output content in the media player device 100 or output content of the external device 10 delivered through the interface device 200.

When the connected external device 10-1 is charging, the user interface 130 may display a charging state of the corresponding external device 10-1.

The interface device 200 is formed to connect the media player device 100 to the external device 10. Specifically, the interface device 200 is connected to a plurality of external devices 10-1, 10-2, ..., 10-n through a plurality of cable connectors 300-1, 300-2, ..., 300-n. It may be connected, and may transmit the AV signal with the connected external devices 10-1, 10-2, ..., 10-n. The interface device 200 transmits a wake-up signal for waking up the external devices 10-1, 10-2,..., 10-n, or the external devices 10-1, 10-2,. -n) can supply a charging power for charging.

In FIG. 1, the interface device 200 has been described with respect to an embodiment in which one interface device is connected to one external device 10-1 using one cable connector 300-1, but the cable connector is 1: n. In the case of a cable connector, the interface device 200 may be connected to a plurality of external devices using one cable connector.

Hereinafter, a detailed configuration of the interface device 200 will be described with reference to FIG. 2.

2 is a view for explaining a specific configuration of the interface device 200 according to the present embodiment.

The interface device 200 includes a communication interface 210, a controller 220, a plurality of accommodation units 230, and a plurality of switching units 240.

The communication interface 210 is formed to be connected to each component in the media player device 100, and transmits / receives an A / V signal and a control signal to each component in the media player device 100, and supplies power from the power supply unit 110. Get input.

The controller 220 controls each component in the interface device 200. Specifically, the controller 220 determines whether the external devices 10-1, 10-2,..., 10-n are connected to each of the plurality of accommodation units 230-1, 230-2,..., 230-n. It can be detected. When it is detected that the external device is connected, the controller 220 may notify the microcomputer 120 of the connection of the external device 10.

If the controller 220 receives the wake-up signal from the connected external device 10, the controller 220 may transmit the received wake-up signal to the microcomputer 120. The controller 220 generates a wakeup start command by combining the received wakeup signal and port information corresponding to the external device 10 that has transmitted the wakeup signal, and sends the wakeup start command to the microcomputer 120. Can transmit

The controller 220 may determine whether the connected external device 10 is a chargeable device. When the external device 10 is a chargeable device, the controller 220 may transfer the information about the external device 10 to the microcomputer 120 so that the external device 10 may be charged. In this case, when the media player device 100 is in the standby mode, the controller 220 may transmit a wakeup signal to the microcomputer 120.

When the charging of the external device 10 is completed or the connection with the external device 10 is released, the controller 220 transmits information on the external device 10 to the microcomputer 120 to charge the external device 10. It can be done.

When the controller 220 receives a wake up start command for the specific external device 10-2 from the microcomputer 120 or the external device 10-1, the controller 220 needs to wake up based on the received wake up start command. The external device 10-2 may be determined, and a wakeup signal may be transmitted through the receiving unit 230-2 connected to the external device 10-2.

The controller 220 determines the interface type of the connected external device 10 and controls the switching unit 240 to apply an interface according to the determined interface type. In detail, the interface device 200 may transmit and receive various data and control signals with the external device 10 through a high definition multimedia interface (HDMI) interface method and a new interface method. Herein, the new interface scheme refers to the interface scheme according to the first to fifth embodiments to be described later. Hereinafter, the new interface will be referred to as a new interface (NIF). Therefore, the controller 220 determines whether the connected external device 10 uses the HDMI interface method or the NIF interface method, and the switching unit 240 corresponding to the external device 10 so that the determined interface method is used. ) Can be controlled.

The accommodation unit 230 is connected to the external device 10 through the cable connector 300. In detail, the accommodation unit 230 may include a plurality of contact locations sequentially numbered. The contact location is a pin or terminal that is electrically connected to the connector 310 of the cable connector 300. A detailed shape of the accommodation unit 230 will be described later with reference to FIG. 3.

The switching unit 240 switches so that an interface method corresponding to the interface type applied to the external device 10 is selected under the control of the controller 220. In FIG. 2, a plurality of switching units are provided to correspond to the number of the respective accommodation units. However, some accommodation units may be implemented for a specific interface. In this case, the switching unit may accommodate a plurality of interfaces. It may also be implemented in the form provided only in the part.

3 is a view showing a specific form of the receiving portion of FIG.

Referring to FIG. 3, the receiver 230 includes a plurality of contact locations 231, a support 233, and a metal support 235. The receiver 230 may have a shape compatible with the HDMI connector.

The plurality of contact locations 231 may have a pin arrangement such as an interface scheme as illustrated in FIGS. 6, 10, 13, 16, and 20, and a high definition multimedia as illustrated in FIG. 7. Interface) connector.

4 is an example of a cable connector according to the present embodiment.

Referring to FIG. 4, cable connector 300 may be used to transfer electrical signals between two media player devices 100. In detail, the cable connector 300 includes a cable 320 and a connector 310 positioned at both ends of the cable.

The cable 320 is formed with one or more signal lines in the sheath. When cable connector 300 is connected to two media player devices 100, electrical signals and power are transferred between the two media player devices through one or more signal lines in cable 320. The cable 320 may have a cross section as shown in FIGS. 9, 12, 14, 19, and 21.

The connector 310 is formed at both ends of the cable 320. In detail, the connector 310 may include a plurality of contact locations sequentially numbered. The contact location is a pin or a terminal electrically connected to the accommodation unit 230 described above. A detailed shape of the connector 310 will be described later with reference to FIG. 5.

In FIG. 4, only an example in which the connector 310 having the same shape is provided at both ends of the cable 320 is illustrated and described. However, in an implementation, the connector 310 having a different shape may be connected to both ends of the cable 320. have. In addition, in the implementation, one connector 310 may be located at one side of the cable 320, and a plurality of connectors may be disposed at the other side of the cable 320.

5 is a view showing a specific form of the connector of FIG.

Referring to FIG. 3, the connector 310 includes a plurality of contact locations 311 and housings 313 and 315 to fix and receive the plurality of contact locations. The connector 310 may have a shape compatible with the HDMI connector.

The plurality of contact locations 311 may have a pin arrangement such as an interface scheme as illustrated in FIGS. 6, 10, 13, 16, and 20, and a high definition multimedia as illustrated in FIG. 7. Interface) connector.

6 is a diagram for describing an interface structure according to a first embodiment.

In detail, the interface according to the first exemplary embodiment includes a plurality of contact location groups and a contact location for transmitting various control signals and power so as to perform communication between the plurality of media player devices. A contact location group is a set of pins or terminals for transmitting and receiving AV signals, control signals, etc. in differential signaling between a pair of media player devices.

Referring to FIG. 6, contact locations (or terminals) 1, 2, and 3 are fourth device pair contact location groups designated for data transmission between devices of a fourth pair. Specifically, the fourth device pair contact location group may include a fourth device pair plus contact location NIF3 + and a fourth device pair negative contact location NIF3- for differential signaling, and a fourth device for ground processing. Includes fair ground contact location (NIF3 GND). The fourth device pair contact location group may correspond to TMDS data2 +, TMDS data2 shield, and TMDS data2-, which are the TMDS (Transition Minimized Differential Signaling) contact locations of HDMI as shown in FIG. 7. Here, differential signaling is a technique of transmitting a signal and a signal having a phase opposite to that of the signal in pairs.

The contact locations 4, 5, and 6 are third device pair contact location groups designated for data transmission between devices of the third pair. Specifically, the third device pair contact location group may include a third device pair plus contact location NIF2 + and a third device pair negative contact location NIF2- for differential signaling, and a third device for ground processing. Includes fair ground contact location (NIF2 GND). The third device pair contact location group may correspond to TMDS data1 +, TMDS data1 shield, and TMDS data1- of HDMI as shown in FIG. 7.

 The contact locations 7, 8, and 9 are second device pair contact location groups designated for data transmission between devices of the second pair. In detail, the second device pair contact location group may include a second device pair plus contact location NIF1 + for differential signaling and a second device pair minus contact location NIF1- and a second device for ground processing. It includes a fair ground contact location (NIF1 GND). The second device pair contact location group may correspond to TMDS data0 +, TMDS data0 shield, and TMDS data0- of HDMI as shown in FIG. 7.

 The contact locations 10, 11, and 12 are first device pair contact location groups designated for data transmission between devices of the first pair. Specifically, the first device pair contact location group may include a first device pair plus contact location NIF0 + and a first device pair negative contact location NIF0- for differential signaling, and a first device for ground processing. Includes Fair Ground Contact Location (NIF GND). This first device pair contact location group may correspond to TMDS Clock +, TMDS Clock shield, and TMDS Clock- of HDMI as shown in FIG. 7.

The contact location 13 is a consumer electronics control (CEC) contact location. Specifically, the CEC contact location is a contact location for transferring control commands between media player devices, and may be used to perform a wake-up procedure in the present invention.

And, the contact locations 14 and 19 are HEAC (Ethernet and Audio Return Channel) contact location groups. Specifically, the Ethernet and Audio Return Channel (HEAC) contact location group includes a HEAC plus contact location (HEAC +) contact location and a HEAC negative contact location (HEAC-). These HEAC contact location groups enable Ethernet channel connectivity, audio return, and 3D image transmission.

The contact location 15 is a serial clock (SCL) contact location, and the contact location 16 is a serial data (SDL) contact location. Such a serial clock (SCL) contact location and a serial data (SDL) contact location may be used to perform serial communication with an external media player device.

The contact location 17 is a ground contact location for ground processing.

The contact location 18 is a power contact location that transmits a specific power source. Specifically, the power contact location is a contact location for supplying power.

As described above, the interface structure according to the first embodiment is compatible with the HDMI interface as shown in FIG. 7 and supports an interface that can be simultaneously connected to four media player devices.

6, only the use of the contact locations 14 and 19 as the HEAC contact location group has been described, but the fifth device for the data transmission between devices of the fifth pair by tying together the ground contact location (DDC / CEC GND) Available as a pair contact location group. The first to fifth device pair location groups are displayed on the connector as shown in FIG. 8. And when the interface method according to the first embodiment is used, the cable 320 of the cable connector 300 may have a cross section as shown in FIG.

10 is a diagram for describing an interface structure according to a second embodiment.

Referring to FIG. 10, the interface according to the second embodiment includes a plurality of contact location groups and contact locations for transmitting various control signals and powers to perform communication between a plurality of media player devices.

First, contact locations 1, 2, and 3 are fourth device pair contact location groups designated for data transmission between devices of a fourth pair. The contact locations 4, 5, and 6 are third device pair contact location groups designated for data transmission between devices of the third pair. The contact locations 7, 8 and 9 are second device pair contact location groups designated for data transmission between devices of the second pair. The contact locations 10, 11, and 12 are a first device pair contact location group designated for data transmission between devices of the first pair. The first to fourth device pair contact location groups perform the same functions as the first to fourth device pair contact location groups described with reference to FIG. 6, and thus descriptions thereof will not be repeated.

 The contact locations 15 and 16 are first device pair contact location groups designated for data transmission between devices of the fifth pair. In detail, the fifth device pair contact location group includes a fifth device pair plus contact location NIF4 + and a first device pair minus contact location NIF4-. The fifth device pair contact location group may correspond to SCL (Serial Clock) and SDA (Serial Data) of HDMI as shown in FIG. 7.

The contact location 13 is a Consumer Electronics Control (CEC) contact location, and the contact locations 14 and 19 are an Ethernet and Audio Return Channel (HEAC) contact location group. The contact location 17 is a ground contact location for ground processing, and the contact location 18 is a power contact location for transmitting a specific power source. The functions of the contact locations 13, 14, 17, 18, and 19 are the same as those of FIG.

As described above, the interface structure according to the second embodiment is compatible with the HDMI interface as shown in FIG. 7 and supports an interface that can be simultaneously connected to five media player devices.

Meanwhile, although only the use of contact locations 14 and 19 as the HEAC contact location group has been described with reference to FIG. 10, a sixth device for data transmission between devices of a sixth pair by tying together ground contact locations (DDC / CEC GND) Available as a pair contact location group. Meanwhile, the first to sixth device pair location groups are displayed on the connector as shown in FIG. 11. And when the interface method according to the second embodiment is used, the cable 320 of the cable connector 300 may have a cross section as shown in FIG.

FIG. 13 is a diagram for describing an interface structure according to a third embodiment. FIG.

Referring to FIG. 13, the interface according to the third embodiment includes a plurality of contact location groups and contact locations for transmitting various control signals and powers to perform communication between a plurality of media player devices.

First, contact locations 1, 2, and 3 are fourth device pair contact location groups designated for data transmission between devices of a fourth pair. The contact locations 4, 5, and 6 are third device pair contact location groups designated for data transmission between devices of the third pair. The contact locations 7, 8 and 9 are second device pair contact location groups designated for data transmission between devices of the second pair. The contact locations 10, 11, and 12 are a first device pair contact location group designated for data transmission between devices of the first pair. The first to fourth device pair contact location groups perform the same functions as the first to fourth device pair contact location groups described with reference to FIG. 6, and thus descriptions thereof will not be repeated.

 And the contact locations 15, 16 and the drain wire are a fifth device pair contact location group designated for data transfer between the devices of the fifth pair. In detail, the fifth device pair contact location group may include a fifth device pair plus contact location NIF4 + and a fifth device pair minus contact location NIF4- for differential signaling, and a drain wire for ground processing. GND1). The drain wire is a wire included in the cable as shown in FIG. And, the drain wire is connected to the metal ground portion 317 of the connector 310, as shown in Figure 15, the metal ground portion 317 is the ground contact location (2, 5, 8) in the above-mentioned pair contact location group , 11, and 17 contact locations) may be connected on the connector 310. In the present exemplary embodiment, the ground processing for the fifth device pair contact location group using the drain wire has been described. However, the ground contact locations 2, 5, 8, 11, and 17 in the first to fourth device pair contact location groups are described. It may also be implemented in the form of directly using one of the contact location).

The contact location 13 is a Consumer Electronics Control (CEC) contact location, and the contact locations 14 and 19 are an Ethernet and Audio Return Channel (HEAC) contact location group. The contact location 17 is a ground contact location for ground processing, and the contact location 18 is a power contact location for transmitting a specific power source. The functions of the contact locations 13, 14, 17, 18, and 19 are the same as those of FIG.

As described above, the interface structure according to the third embodiment is compatible with the HDMI interface as shown in FIG. 7 and supports an interface that can be simultaneously connected to five media player devices. On the other hand, when compared to the second embodiment, the bandwidth of the fifth device pair contact location group according to the second embodiment may be inferior to other contact location groups as the contact location for ground processing is not provided. The fifth device pair contact location group according to the third embodiment may be grounded through the ground contact location of the drain wire or another contact location group, thereby improving bandwidth performance.

13, only the use of the contact locations 14 and 19 as the HEAC contact location group has been described, but the sixth device for data transmission between devices of the sixth pair by binding the ground contact locations (DDC / CEC GND) together Available as a pair contact location group. And when the interface method according to the third embodiment is used, the cable 320 of the cable connector 300 may have a cross section as shown in FIG.

16 is a diagram for describing an interface structure according to a fourth embodiment.

Referring to FIG. 16, an interface according to the fourth embodiment includes a plurality of contact location groups and contact locations for transmitting various control signals and powers to perform communication between a plurality of media player devices.

Referring to FIG. 16, contact locations 1 and 3 are fourth device pair contact location groups designated for data transmission between devices of a fourth pair. In detail, the fourth device pair contact location group may include a fourth device pair plus contact location NIF3 + and a fourth device pair minus contact location NIF3- for differential signaling, and a drain wire for ground processing. GND1). The drain wire is a separate wire in the inner cable that carries signals of the fourth device pair plus contact location NIF3 + and the fourth device pair minus contact location NIF3- within the cable 320 as shown in FIG. 19. In addition, the drain wire GND1 is connected to the metal ground portion 317 of the connector 310 as shown in FIG. 18, and the metal ground portion 317 is connected to the ground contact location 2, which is included in the pair contact location group. 5, 8, 11, 17 contact location) may be connected on the connector 310. The fourth device pair contact location group may correspond to TMDS data2 + and TMDS data2- which are TMDS (Transition Minimized Differential Signaling) contact locations of HDMI as shown in FIG. 7.

The contact locations 2 and 5 are fifth device pair contact location groups designated for data transmission between devices of the fifth pair. In detail, the fifth device pair contact location group includes a fifth device pair plus contact location NIF4 + and a fourth device pair minus contact location NIF4- for differential signaling, and a drain wire for ground processing ( GND5). Here, the drain wire GND5 may be connected to an internal cable carrying signals of the fifth device pair plus contact location NIF4 + and the fourth device pair minus contact location NIF4- in the cable 320 as shown in FIG. 19. It is a separate wire. The fifth device pair contact location group may correspond to TMDS data2 Shleld and TMDS data1 Shleld of HDMI as shown in FIG. 7.

The contact locations 4 and 6 are third device pair contact location groups designated for data transmission between devices of the third pair. In detail, the third device pair contact location group includes a third device pair plus contact location NIF2 + and a third device pair minus contact location NIF2- for differential signaling, and a drain wire for ground processing. GND2). Here, the drain wire GND2 is in the internal cable carrying signals of the third device pair plus contact location NIF2 + and the third device pair minus contact location NIF2- in the cable 320 as shown in FIG. 19. It is a separate wire. This third device pair contact location group may correspond to TMDS data1 + TMDS data1- of HDMI as shown in FIG. 7.

And, the contact location 7, 9 is a second device pair contact location group designated for data transmission between devices of the second pair. In detail, the second device pair contact location group may include a second device pair plus contact location NIF1 + and a second device pair minus contact location NIF1- for differential signaling, and a drain wire for ground processing. GND3). The drain wire GND3 is separate in the internal cable carrying signals of the second device pair plus contact location NIF1 + and the second device pair minus contact location NIF1- in the cable 320 as shown in FIG. 19. Wire. This second device pair contact location group may correspond to TMDS data0 + TMDS data0- of HDMI as shown in FIG. 7.

The contact locations 8 and 11 are a sixth device pair contact location group designated for data transmission between devices of the sixth pair. In detail, the sixth device pair contact location group may include a sixth device pair plus contact location NIF5 + and a sixth device pair minus contact location NIF5- for differential signaling, and a drain wire for ground processing. GND6). The drain wire GND6 is separate in the internal cable carrying signals of the sixth device pair plus contact location NIF5 + and the sixth device pair minus contact location NIF5- within the cable 320 as shown in FIG. 19. Wire. The sixth device pair contact location group may correspond to TMDS data0 Shleld and TMDS Clock shleld of HDMI as shown in FIG. 7.

The contact locations 10 and 12 are first device pair contact location groups designated for data transmission between devices of the first pair. In detail, the first device pair contact location group may include a first device pair plus contact location NIF0 + and a first device pair minus contact location NIF0- for differential signaling, and a drain wire for ground processing. GND4). The drain wire GND4 is separate in an internal cable carrying signals of the first device pair plus contact location NIF1 + and the first device pair minus contact location NIF1- in the cable 320 as shown in FIG. 19. It is a wire. This first device pair contact location group may correspond to TMDS Clock + TMDS Clock- of HDMI as shown in FIG. 7.

The contact locations 15 and 16 are a seventh device pair contact location group designated for data transmission between devices of the seventh pair. In detail, the seventh device pair contact location group may include a seventh device pair plus contact location NIF6 + and a seventh device pair minus contact location NIF6- for differential signaling, and a drain wire for ground processing. GND7). The drain wire GND7 is separate in an internal cable carrying signals of the seventh device pair plus contact location NIF6 + and the seventh device pair minus contact location NIF6- within the cable 320 as shown in FIG. 19. Wire. The seventh device pair contact location group may correspond to SCL and SDA of HDMI as shown in FIG. 7.

The contact location 13 is a consumer electronics control (CEC) contact location. Specifically, the CEC contact location is a contact location for transferring control commands between media player devices, and may be used to perform a wake-up procedure in the present invention.

And, the contact locations 14 and 19 are HEAC (Ethernet and Audio Return Channel) contact location groups. Specifically, the Ethernet and Audio Return Channel (HEAC) contact location group includes a HEAC plus contact location (HEAC +) contact location and a HEAC negative contact location (HEAC-).

The contact location 17 is a ground contact location for ground processing.

The contact location 18 is a power contact location that transmits a specific power source. Specifically, the power contact location is a contact location for supplying 5V DC power.

As described above, the interface device according to the fourth embodiment is compatible with the HDMI interface as shown in FIG. 7 and can be connected to seven media player devices.

In the meantime, in FIG. 16, only the use of the contact locations 14 and 19 as the HEAC contact location group has been described, but the eighth device for data transmission between devices of the eighth pair by binding the ground contact locations (DDC / CEC GND) together Available as a pair contact location group. 17, the first to eighth device pair location groups are displayed on the connector. And when the interface method according to the fourth embodiment is used, the cable of the cable connector 300 may have a cross section as shown in FIG.

20 is a diagram for describing an interface structure according to a fifth embodiment.

Referring to FIG. 20, the interface according to the fifth embodiment includes a plurality of contact location groups and contact locations for transmitting various control signals and powers to perform communication between a plurality of media player devices.

First, contact locations 1 and 3 are first device pair contact location groups designated for data transmission between devices of a first pair. In detail, the first device pair contact location group includes a first device pair plus contact location NIF0 + and a first device pair minus contact location NIF0- for differential signaling. Such a first device pair contact location group may correspond to TMDS data2 + and TMDS data2- which are TMDS (Transition Minimized Differential Signaling) contact locations of HDMI as shown in FIG. 7.

The contact locations 2 and 4 are second device pair contact location groups designated for data transmission between devices of the second pair. In detail, the second device pair contact location group includes a second device pair plus contact location NIF1 + and a second device pair minus contact location NIF1- for differential signaling. The second device pair contact location group may correspond to TMDS data2 Shleld and TMDS data1 + of HDMI as shown in FIG. 7.

The contact locations 5 and 7 are third device pair contact location groups designated for data transmission between devices of the third pair. Specifically, the third device pair contact location group includes a third device pair plus contact location NIF2 + and a third device pair minus contact location NIF2- for differential signaling. The third device pair contact location group may correspond to TMDS data1 shleld and TMDS data0 + which are TMDS (Transition Minimized Differential Signaling) contact locations of HDMI as shown in FIG. 7.

The contact locations 6 and 8 are fourth device pair contact location groups designated for data transmission between devices of the fourth pair. In detail, the fourth device pair contact location group includes a fourth device pair plus contact location NIF3 + and a fourth device pair minus contact location NIF3- for differential signaling. The fourth device pair contact location group may correspond to TMDS data1-TMDS data0 shleid of HDMI as shown in FIG. 7.

The contact locations 9 and 11 are fifth device pair contact location groups designated for data transmission between devices of the fifth pair. In detail, the fifth device pair contact location group includes a fifth device pair plus contact location NIF4 + and a fifth device pair negative contact location NIF5- for differential signaling. The fifth device pair contact location group may correspond to TMDS data0- and TMDS clock shleld of HDMI as shown in FIG. 7.

The contact locations 10 and 12 are a sixth device pair contact location group designated for data transmission between devices of the sixth pair. In detail, the sixth device pair contact location group includes a sixth device pair plus contact location NIF5 + and a sixth device pair negative contact location NIF5- for differential signaling. This sixth device pair contact location group may correspond to TMDS Clock + and TMDS Clock- of HDMI as shown in FIG. 7.

The contact locations 13 and 15 are a seventh device pair contact location group designated for data transmission between devices of the seventh pair. In detail, the seventh device pair contact location group includes a seventh device pair plus contact location NIF6 + and a seventh device pair minus contact location NIF6- for differential signaling. The seventh device pair contact location group may correspond to CEC and SCL of HDMI as shown in FIG. 7.

The contact locations 14 and 15 are an eighth device pair contact location group designated for data transmission between devices of the eighth pair. In detail, the eighth device pair contact location group includes an eighth device pair plus contact location NIF7 + and an eighth device pair minus contact location NIF7− for differential signaling. This eighth device pair contact location group may correspond to HEAC + and SDA of HDMI as shown in FIG. 7.

The contact location 17 is a ground contact location for ground processing.

The contact location 18 is a power contact location that transmits a specific power source. Specifically, the power contact location is a contact location for supplying power.

The contact location 19 is a contact location for hot plug detection.

As described above, the interface device according to the fifth embodiment is compatible with the HDMI interface as shown in FIG. 7 and can be connected to eight media player devices. When the interface method according to the fifth embodiment is used, the cable of the cable connector 300 may have a cross section as shown in FIG. 21.

FIG. 22 is a diagram for describing a method of charging and waking up an external device connected to the interface device 200 through an interface according to the above-described embodiment.

Referring to FIG. 22, the interface device 200 may be connected to an external device 100 'through a cable connector. The interface device 200 may connect the external device 100' using one contact location among a plurality of contact locations in the connector. I can recognize it. Specifically, the interface device 200 may determine whether the external device 100 ′ is a chargeable device by using a CEC contact location among a plurality of connected contact locations, and if the corresponding device is a chargeable device, the microcomputer 120 ) Can be notified that a chargeable device is connected. In the present embodiment, the interface device 200 recognizes the connection of the external device, but the recognition operation may be performed by the microcomputer 120.

In this case, when the media player device 100 is in the standby mode, the interface device 200 may transmit a wakeup signal to the microcomputer 120. Upon receiving the wake-up signal or the signal indicating that the chargeable device is connected, the microcomputer 120 may control the power supply 110 to output power according to the wake-up mode in the wake-up signal. When the power supply unit 110 outputs power according to the wake-up mode, the interface device 200 may supply the corresponding power to the external device 100 ′ to charge the external device 100 ′.

Meanwhile, in FIG. 22, only the charging of the external device 100 ′ using the power contact location is described. However, as illustrated in FIG. 26, the external device 100 ′ is provided using the plurality of contact locations. Can supply power. In other words, a plurality of lines may be used to supply a sufficient current to the external device 100 ′. In this case, a contact location group for A / V signal together with the above-described power contact location may be used. The implementation may be implemented in the form of supplying power to the external device 100 'using two contact location groups or in the form of using three or more contact location groups.

Hereinafter, an operation of waking up the external device 100 ′ will be described with reference to FIG. 22.

First, when the wakeup of the external device 100 'is required, the microcomputer 120 may transmit a wakeup start command as shown in FIG. 24 to the corresponding external device 100' to the interface device 200. Here, the wakeup start command may include a start field indicating a start of a wakeup command, a wakeup port field indicating a device requiring wakeup, a wakeup mode field indicating a wakeup mode, And an acknowledgment signal (Ack) field.

The interface device 200 receiving the wake up start command determines the external device to wake up with reference to the wake up port field among the received wake up start commands, and determines the external device to be waked up, that is, the external device. The wakeup signal as shown in FIG. 23 may be transferred. The wakeup signal may include a start field indicating a start of a wakeup command in which a wakeup port field is omitted, a wakeup mode field indicating a wakeup mode, and an acknowledge signal. ) Field may be included.

In this case, the interface device 200 may transmit a wake-up signal to the external device 100 ′ using the CEC contact location among the plurality of contact locations.

In the above description, the media player device 100 generates and transmits a wakeup start command for a specific external device, but the wakeup start command may be received from the external device 100 '.

Specifically, upon receiving the wake-up start command for the external device 10-2 from the external device 10-1, the interface device 200 refers to the wake-up pod field among the input wake-up start commands, and wakes up. The external device to be up may be determined, and a wakeup signal may be transmitted to the determined external device.

23 is a diagram illustrating a structure of a wakeup signal according to the present embodiment.

Referring to FIG. 23, the wakeup signal may include a start field, a wakeup mode field, and an acknowledgment signal field.

The start field is a field indicating the start of the wake-up command and may be a signal lasting for a predetermined time after being down from the high level to the low level. In some embodiments, the signal may be a signal that is raised from the low level to the high level and lasts for a predetermined time.

The wakeup mode field is a field indicating a mode of wakeup and may have a mode as illustrated in FIG. 26.

The acknowledgment signal field is a signal indicating that the external device 100 ′ receiving the wake up signal has received the wake up signal from the interface device 200 that has delivered the wake up signal.

24 is a diagram illustrating the structure of a wakeup start command according to the present embodiment.

Referring to FIG. 24, the wakeup start command includes a start field, a wakeup port field, a wakeup mode field, and an acknowledgment signal field.

The start field is a field indicating the start of the wake-up command and may be a signal lasting for a predetermined time after being down from the high level to the low level. In some embodiments, the signal may be a signal that is raised from the low level to the high level and lasts for a predetermined time.

The wakeup port is a field indicating a media player device that needs to be waked up.

The wakeup mode field indicates a mode of the wakeup and may have a mode as illustrated in FIG. 26.

The acknowledgment signal field is a signal indicating that the external device 100 ′ receiving the wake up signal has received the wake up signal from the interface device 200 that has delivered the wake up signal.

25 is a view for explaining the role of each signal included in the wakeup start command.

Referring to FIG. 25, a start field is a field for transmitting a signal down from a high level to a low level, and a wakeup port field indicates a port corresponding to a specific external device among a plurality of external devices. The designated signal is transmitted. The wakeup mode field is a field for transmitting a signal specifying an operation mode of an external device. The wakeup signal acknowledgment signal ACK receives a wakeup signal successfully. It can be seen that the signal is transmitted to the field.

FIG. 26 is a diagram illustrating the kind of wakeup mode described in FIG. 25.

Referring to FIG. 26, it can be seen that a plurality of wakeup modes (Wakeup 1 step, Wakeup 2 step, and Wakeup 3 step) and charging modes corresponding to each of the plurality of operation modes of the media player device are included. . As described above, various operation modes of the external device may be designated according to each signal to wake up the external device 100 '.

While the above has been shown and described with respect to preferred embodiments of the invention, the invention is not limited to the specific embodiments described above, it is usually in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

100: media player device 110: power unit
120: microcomputer 130: user interface unit
200: interface device 300: cable connector

Claims (77)

A connector for connecting media player devices, the connector comprising:
A plurality of contact locations sequentially numbered; And
A housing for receiving the plurality of contact locations;
The plurality of contact locations,
A first device pair contact location group designated for data transfer between devices of the first pair;
A second device pair contact location group designated for data transfer between devices of the second pair;
A third device pair contact location group designated for data transfer between devices of the third pair; And
And a fourth device pair contact location group designated for data transmission between devices of the fourth pair. The method of claim 1,
The first device pair contact location group,
And a first device pair plus contact location for differential signaling and a first device pair minus contact location, and a first device pair ground contact location for ground processing. The method of claim 1,
And the connector is compatible with a high definition multimedia interface (HDMI) connector. The method of claim 1,
And the connector is a 19 pin connector. The method of claim 1,
The plurality of contact locations,
And a power transmission contact location for transmitting a specific power. The method of claim 1,
The plurality of contact locations,
And a Consumer Electronics Control (CEC) contact location. The method of claim 1,
The connector is compatible with the HDMI connector,
And the first device pair contact location group corresponds to a transition minimized differential signaling (TMDS) contact location of HDMI. The method of claim 1,
The first device pair contact location group is designated as a number from 10 to 12,
The second device pair contact location group is designated as a number from 7 to 9,
The third device pair contact location group is designated as a number from 4 to 6,
And the fourth device pair contact location group is designated as a number from 1 to 3. The method of claim 1,
The plurality of contact locations,
And a fifth device pair contact location group designated for data transmission between devices of the fifth pair. 10. The method of claim 9,
The connector is compatible with the HDMI connector,
And the fifth device pair contact location group corresponds to an Ethernet and Audio Return Channel (HEAC) contact location of HDMI. 10. The method of claim 9,
The fifth device pair contact location group,
And grounded using at least one of a ground contact location and a drain wire of another contact location group. 10. The method of claim 9,
And the fifth device pair contact location group is designated as a number of 14, 17, and 19. The method of claim 1,
The plurality of contact locations,
And a sixth device pair contact location group designated for data transfer between the sixth pair of devices. The method of claim 13,
The connector is compatible with the HDMI connector,
And the sixth device pair contact location group corresponds to a serial data (SDA) contact location and a serial clock (SCL) contact location of the HDMI. The method of claim 13,
The sixth device pair contact location group is
And grounded using at least one of a ground contact location and a drain wire of another contact location group. The method of claim 13,
And the sixth device pair contact location group is designated as a number of fifteen and sixteen. A connector for connecting a media player device,
A plurality of contact locations sequentially numbered; And
A housing for receiving the plurality of contact locations;
The plurality of contact locations,
A first device pair contact location group designated for data transfer between devices of the first pair;
A second device pair contact location group designated for data transfer between devices of the second pair;
A third device pair contact location group designated for data transfer between devices of the third pair;
A fourth device pair contact location group designated for data transfer between the fourth pair of devices;
A fifth device pair contact location group designated for data transfer between the fifth pair of devices;
A sixth device pair contact location group designated for data transfer between the sixth pair of devices;
A seventh device pair contact location group designated for data transfer between the seventh pair of devices; and
And an eighth device pair contact location group designated for data transfer between the eighth pair of devices. The method of claim 17,
The first device pair contact location group,
And a first device pair plus contact location and a first device pair minus contact location for differential signaling. The method of claim 17,
And the connector is compatible with a high definition multimedia interface (HDMI) connector. The method of claim 17,
And the connector is a 19 pin connector. The method of claim 17,
The plurality of contact locations,
And a power transmission contact location for transmitting a specific power. The method of claim 17,
The plurality of contact locations,
And a Consumer Electronics Control (CEC) contact location. The method of claim 17,
The connector is compatible with the HDMI connector,
And the first device pair contact location group corresponds to a transition minimized differential signaling (TMDS) contact location of HDMI. The method of claim 17,
The first device pair contact location group is designated as a number of 10 and 12,
The second device pair contact location group is designated as a number of 7 and 9,
The third device pair contact location group is designated as a number of 4 and 6,
The fourth device pair contact location group is designated as a number of 1 and 3,
The fifth device pair contact location group is designated as a number of two and five,
The sixth device pair contact location group is designated as a number of 8 and 11,
The seventh device pair contact location group is designated as a number of 15 and 16,
And the eighth device pair contact location group is designated as a number of 14 and 19. The method of claim 17,
The plurality of contact locations,
Further comprising a contact location designated as 17 number for ground processing,
The eighth device pair contact location group,
And a contact location designated as said 17 number as a ground contact location. The method of claim 17,
At least one group of the plurality of device pair contact location groups,
And grounded using at least one of a ground contact location and a drain wire of another device pair contact location group. The method of claim 17,
The connector is compatible with the HDMI connector,
And the eighth device pair contact location group corresponds to an Ethernet and Audio Return Channel (HEAC) contact location of HDMI. The method of claim 17,
The connector is compatible with the HDMI connector,
The seventh device pair contact location group corresponds to a Serial Data (SDA) contact location and a Serial Clock (SCL) contact location of HDMI. An interface apparatus for interfacing media player devices, comprising:
A plurality of contact locations sequentially numbered; And
And a receiving unit having the plurality of contact locations.
The plurality of contact locations,
A first device pair contact location group designated for data transfer between devices of the first pair;
A second device pair contact location group designated for data transfer between devices of the second pair;
A third device pair contact location group designated for data transfer between devices of the third pair; And
And a fourth device pair contact location group designated for data transmission between devices of the fourth pair. The method of claim 29,
The first device pair contact location group,
And a first device pair plus contact location for differential signaling and a first device pair minus contact location, and a first device pair ground contact location for ground processing. The method of claim 29,
And the accommodation unit is compatible with the accommodation unit for a high definition multimedia interface (HDMI). The method of claim 29,
The receiving portion is an interface device, characterized in that the receiving portion for the 19-pin. The method of claim 29,
The plurality of contact locations,
And a power transmission contact location for transmitting a specific power. The method of claim 29,
The plurality of contact locations,
And a Consumer Electronics Control (CEC) contact location. The method of claim 29,
The receiver is compatible with the HDMI receiver,
And the first device pair contact location group corresponds to a transition minimized differential signaling (TMDS) contact location of HDMI. The method of claim 29,
The first device pair contact location group is designated as a number from 10 to 12,
The second device pair contact location group is designated as a number from 7 to 9,
The third device pair contact location group is designated as a number from 4 to 6,
And the fourth device pair contact location group is designated as a number from 1 to 3. The method of claim 29,
The plurality of contact locations,
And a fifth device pair contact location group designated for data transmission between devices of the fifth pair. The method of claim 37,
The receiver is compatible with the receiver for HDMI,
And the fifth device pair contact location group corresponds to an Ethernet and Audio Return Channel (HEAC) contact location of HDMI. The method of claim 37,
The fifth device pair contact location group,
And grounded using at least one of a ground contact location and a drain wire of another contact location group. The method of claim 37,
And the fifth device pair contact location group is designated as a number of 14, 17, and 19. The method of claim 29,
The plurality of contact locations,
And a sixth device pair contact location group designated for data transfer between the sixth pair of devices. The method of claim 41, wherein
The receiver is compatible with the HDMI receiver,
The sixth device pair contact location group corresponds to a Serial Data (SDA) contact location and a Serial Clock (SCL) contact location of HDMI. The method of claim 41, wherein
The sixth device pair contact location group is
And grounded using at least one of a ground contact location and a drain wire of another contact location group. The method of claim 41, wherein
And the sixth device pair contact location group is designated as a number of fifteen and sixteen. The method of claim 29,
The interface device,
And an interface device for transmitting and receiving a wake-up signal from a standby state to a media player device connected to an external device. The method of claim 45,
The plurality of contact locations,
A consumer electronics control (CEC) contact location;
And the CEC contact location transmits and receives the wakeup signal to and from the media player device. The method of claim 45,
The wakeup signal is,
And a start field for notifying the start of the wakeup command, a wakeup mode field for notifying the mode of the wakeup, and an acknowledgment field. The method of claim 47,
And the wakeup mode comprises a plurality of wakeup modes and a charging mode corresponding to each of a plurality of operation modes of a media player device. The method of claim 45,
The interface device,
And receiving an wake-up start command from the microcomputer, and determining an external media player device requiring wake-up based on the received wake-up start command. The method of claim 49,
The wakeup start command,
Start field to indicate the start of the wakeup command, Wakeup Port field to indicate the device that needs to be waked up, Wakeup Mode field to indicate the mode of wakeup, and Acknowledgment Signal (Ack) And an interface device. The method of claim 29,
The interface device,
And transmitting and receiving power to and from an external media player device using at least two contact locations among the plurality of contact locations. 52. The method of claim 51,
And at least one of the contact locations for transmitting and receiving the power is a contact location for AV data transmission. The method of claim 29,
The first device pair contact location group is designated as a number of 10 and 12,
The second device pair contact location group is designated as a number of 7 and 9,
The third device pair contact location group is designated as a number of 4 and 6,
And said fourth device pair contact location group is designated as a number of ones and threes. An interface apparatus for interfacing media player devices, comprising:
A plurality of contact locations sequentially numbered; And
And a receiving unit having the plurality of contact locations.
The plurality of contact locations,
A first device pair contact location group designated for data transfer between devices of the first pair;
A second device pair contact location group designated for data transfer between devices of the second pair;
A third device pair contact location group designated for data transfer between devices of the third pair;
A fourth device pair contact location group designated for data transfer between the fourth pair of devices;
A fifth device pair contact location group designated for data transfer between the fifth pair of devices;
A sixth device pair contact location group designated for data transfer between the sixth pair of devices;
A seventh device pair contact location group designated for data transfer between the seventh pair of devices; And
And an eighth device pair contact location group designated for data transmission between the devices of the eighth pair. The method of claim 54,
The first device pair contact location group,
And a first device pair plus contact location and a first device pair minus contact location for differential signaling. The method of claim 54,
And the accommodation unit is compatible with the accommodation unit for a high definition multimedia interface (HDMI). The method of claim 54,
And the accommodation portion is a 19-pin accommodation portion. The method of claim 54,
The plurality of contact locations,
And a power transmission contact location for transmitting a specific power. The method of claim 54,
The plurality of contact locations,
And a Consumer Electronics Control (CEC) contact location. The method of claim 54,
The receiver is compatible with the HDMI receiver,
And the first device pair contact location group corresponds to a transition minimized differential signaling (TMDS) contact location of HDMI. The method of claim 54,
The first device pair contact location group is designated as a number of 10 and 12,
The second device pair contact location group is designated as a number of 7 and 9,
The third device pair contact location group is designated as a number of 4 and 6,
The fourth device pair contact location group is designated as a number of 1 and 3,
The fifth device pair contact location group is designated as a number of two and five,
The sixth device pair contact location group is designated as a number of 8 and 11,
The seventh device pair contact location group is designated as a number of 15 and 16,
And the eighth device pair contact location group is designated as a number of 14 and 19. The method of claim 54,
The plurality of contact locations,
Further comprising a contact location designated as 17 number for ground processing,
The eighth device pair contact location group,
And a contact location designated as the 17 number as a ground contact location. The method of claim 54,
And at least one group of the plurality of device pair contact location groups is grounded using at least one of a ground contact location and a drain wire of another device pair contact location group. The method of claim 54,
The receiver is compatible with the HDMI receiver,
And the eighth device pair contact location group corresponds to an Ethernet and Audio Return Channel (HEAC) contact location of HDMI. The method of claim 54,
The receiver is compatible with the HDMI receiver,
And the seventh device pair contact location group corresponds to a Serial Data (SDA) contact location and a Serial Clock (SCL) contact location of HDMI. The method of claim 54,
The interface device,
And an interface device for transmitting and receiving a wake-up signal from a standby state to a media player device connected to an external device. 67. The method of claim 66,
The plurality of contact locations,
A consumer electronics control (CEC) contact location;
And the CEC contact location transmits and receives the wakeup signal to and from the media player device. 67. The method of claim 66,
The wakeup signal is,
And a start field for notifying the start of the wakeup command, a wakeup mode field for notifying the mode of the wakeup, and an acknowledgment field. 69. The method of claim 68,
And the wakeup mode comprises a plurality of wakeup modes and a charging mode corresponding to each of a plurality of operation modes of a media player device. 67. The method of claim 66,
The interface device,
And receiving an wake-up start command from the microcomputer, and determining an external media player device requiring wake-up based on the received wake-up start command. 71. The method of claim 70,
The wakeup start command,
A Start field for notifying the start of the wakeup command, a Wakeup Port field for notifying the media player device requiring wakeup, a Wakeup Mode field for notifying the mode of wakeup, and a confirmation signal ( Ack) field, characterized in that the interface device. The method of claim 54,
The interface device,
And transmitting and receiving power to and from an external media player device using at least two contact locations among the plurality of contact locations. The method of claim 72,
And at least one of the contact locations for transmitting and receiving the power is a contact location for AV data transmission. The method of claim 54,
The first device pair contact location group is designated as a number of 1 and 3,
The second device pair contact location group is designated as a number of two and four,
The third device pair contact location group is designated as a number of 5 and 7,
The fourth device pair contact location group is designated as a number of 6 and 8,
The fifth device pair contact location group is designated as a number of 9 and 11,
The sixth device pair contact location group is designated as a number of 10 and 12,
The seventh device pair contact location group is designated as a number of 13 and 15,
And the eighth device pair contact location group is designated as a number of 14 and 16. The method of claim 54,
The plurality of contact locations,
Consumer Electronics Control (CEC) contact location;
Ground contact location for ground processing; And
The power supply contact location for transmitting a specific power; interface device further comprises. 77. The method of claim 75,
The plurality of contact locations,
The CEC contact location is designated as 13 number,
The ground contact location is designated as 17 number,
And said power contact location is designated as an 18 number. The method of claim 74, wherein
The plurality of contact locations,
A Consumer Electronics Control (CEC) contact location, designated 19;
A ground contact location designated at number 17 for ground processing; And
And a power contact location designated by an 18 number for transmitting a specific power.

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