JP2010287473A - Hdmi cable - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inexpensive HDMI cable for charging the battery of an external device with power voltage output from a HDMI port in the state that the external device is connected to the HDMI port of AV equipment. <P>SOLUTION: The pin array of an input connector 100 consists of only two pins, namely, a power voltage pin 118 for inputting a power voltage of +5 produced by a TV receiver 2 from the HDMI port 200 and a ground pin 117 at a ground level. The power voltage pin 118 and the ground pin 117 are therefore used for inputting the power voltage of +5 from an output connector 300 to a cell phone 3 when a user connects the input connector 100 to the HDMI port 200 and connects the output connector 300 to an outlet 3A of the cell phone 3. Thus, the user can charge the battery of the cell phone 3 with the power voltage output from the HDMI port 200 in the state that the cell phone 3 is connected to the HDMI port 200 of the TV receiver 2. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an HDMI cable connected to an HDMI port provided in an AV device.

  In recent years, the HDMI (High Definition Multimedia Interface) standard has been proposed as an interface standard for connecting AV devices to each other. In addition, products having an interface compliant with the HDMI standard are widely distributed. The HDMI standard is based on DVI (Digital Video Interface), which is a standard for connection between a personal computer and a display, and has a function for supporting home appliances added to DVI.

  In the HDMI standard, for example, an optical disk playback device and a television receiver are connected by an HDMI cable. Then, the video / audio signal read from the optical disc by the optical disc playback device is input to the television receiver via the HDMI cable, and the television receiver processes the video / audio signal to display the video and emit the sound. Yes. As a result, the user is viewing the content recorded on the optical disc on the television receiver.

On the other hand, in recent years, the use of mobile phones has become a daily routine. In recent mobile phones, not only a call function but also an excellent memory function and display function are installed. Specifically, not only a telephone number but also data such as an address, a name, and a ringing melody related to the telephone number can be recorded in a memory, and the data can be displayed or reproduced. These functions are achieved by receiving a supply voltage from a battery built in the mobile phone.
In Patent Document 1, a video output device is proposed.

JP 2007-274065 A

  However, in the case of an external device that requires charging, such as a mobile phone, the battery often runs out during actual use, or the battery runs out during use. In this case, the user generally charges the external device from a commercial power source with a dedicated charger, but there has been an industry demand for charging the external device from an AV device having a sufficient power circuit.

  The present invention is to solve such a conventional problem, and with the external device connected to the HDMI port of the AV device, the battery of the external device is charged with the power supply voltage output from the HDMI port of the AV device. The purpose is to provide an inexpensive HDMI cable that can.

  The HDMI cable of the present invention has the following configuration in order to solve the above problems.

(1) In an HDMI cable with an input connector connected to the HDMI port provided on the AV device,
The pin layout of the input connector is composed of only two pins, a first power supply voltage pin for inputting a power supply voltage generated by the AV device from the HDMI port, and a first ground pin at the ground level. And
An output connector is provided that outputs the power supply voltage at the first power supply voltage pin and the first ground pin.

In this configuration, the AV device is, for example, a television receiver or an optical disk playback device. The external device connected to the AV device via the HDMI cable is, for example, a mobile phone, a portable game machine, or an imaging device.
The pin arrangement of the input connector is composed of only two pins, a first power supply voltage pin for inputting a power supply voltage generated by the AV device from the HDMI port and a first ground pin at the ground level. . Therefore, when the user connects the input connector to the HDMI port and connects the output connector to the external device, the power supply voltage is input from the output connector to the external device through the first power supply voltage pin and the first ground pin.
Therefore, the user can charge the battery of the external device with the power supply voltage output from the HDMI port of the AV device in a state where the external device is connected to the HDMI port of the AV device via the HDMI cable. Furthermore, the input connector in this configuration has only pins necessary for charging, and the number of pins is minimized. Therefore, the manufacturing cost of the HDMI cable can be reduced.

(2) The input connector has a first protrusion at a line-symmetric position with respect to the first power supply voltage pin, with a center line having a line-symmetric outer peripheral shape at the tip of the input connector connected to the HDMI port as an axis. It has a member and a 2nd protrusion member in a position symmetrical with the 1st ground pin.

In this configuration, when the input connector is connected to the HDMI port, the force applied to the first power supply voltage pin or the first ground pin is equal to the force applied to the first protruding member or the second protruding member. .
Therefore, the connection portion is stably fixed when the input connector is connected to the HDMI port.

(3) In an HDMI cable with an input connector connected to an HDMI port provided on an AV device,
The pin arrangement of the input connector is:
A first power supply voltage pin for inputting the power supply voltage generated by the AV device from the HDMI port;
The first ground pin at ground level,
With the center of the outer peripheral shape of the tip of the input connector connected to the HDMI port as the center point, a second power supply voltage pin provided at a point symmetrical with the first power supply voltage pin,
A second ground pin provided at a point-symmetrical position with respect to the first ground pin with the center point as a center,
It consists of only four pins,
A voltage conversion circuit that transforms the power supply voltage input from the second power supply voltage pin into a predetermined voltage in a state where the input connector is reversed and connected to the HDMI port,
An output connector is provided that outputs the power supply voltage at the first power supply voltage pin and the first ground pin, and outputs the predetermined voltage at the second power supply voltage pin and the second ground pin. To do.

In this configuration, the AV device is, for example, a television receiver or an optical disk playback device. The external device connected to the AV device via the HDMI cable is, for example, a mobile phone, a portable game machine, or an imaging device.
The pin layout of the input connector includes the first power supply voltage pin for inputting the power supply voltage generated by the AV device from the HDMI port, the first ground pin at the ground level, and the first power supply with the center point as the center. Consists of only four pins: a second power supply voltage pin provided at a point symmetrical with the voltage pin, and a second ground pin provided at a point symmetrical with the first ground pin around the center point. ing.
In this configuration, when the user connects the input connector to the HDMI port and the output connector to the charging port of the external device, the power supply voltage is externally output from the output connector at the first power supply voltage pin and the first ground pin. Enter into the device.
On the other hand, when the user connects the input connector upside down and connects to the HDMI port and connects the output connector to the charging port of the external device, the second power supply voltage pin and the second ground pin use the predetermined power supply voltage. Is input to the external device from the output connector.
Therefore, the user can charge the battery of the external device with the power supply voltage output from the HDMI port of the AV device or the predetermined power supply voltage in a state where the external device is connected to the HDMI port of the AV device. Furthermore, the input connector in this configuration has only pins necessary for charging, and the number of pins is minimized. Therefore, the manufacturing cost of the HDMI cable can be reduced.

  According to the present invention, the user can charge the battery of the external device with the power supply voltage output from the HDMI port of the AV device while the external device is connected to the HDMI port of the AV device. Furthermore, the manufacturing cost of the HDMI cable can be reduced.

FIG. 1 is an external view showing an HDMI cable according to an embodiment of the present invention and a television receiver and a mobile phone connected to each other by the HDMI cable. Enlarged view of the HDMI port provided on the back of the TV receiver Diagram showing pin assignments defined by the HDMI standard The enlarged view of the input connector of the HDMI cable which is embodiment of this invention The enlarged view of the HDMI port of the television receiver connected with the HDMI cable which is other embodiment of this invention The enlarged view of the input connector of the HDMI cable which is other embodiment of this invention

  Hereinafter, an HDMI cable according to an embodiment of the present invention will be described.

  FIG. 1 is an external view showing an HDMI cable according to an embodiment of the present invention and a television receiver and a mobile phone connected to each other by the HDMI cable. The HDMI cable 1 includes an input connector 100, an output connector 300, and a cable 500 that connects the input connector 100 and the output connector 300. The television receiver 2 and the mobile phone 3 are connected to each other via the HDMI cable 1. The flat type television receiver 2 is, for example, a liquid crystal television or a plasma television, and an HDMI port 200 is provided on the back cabinet thereof. The mobile phone 3 has a built-in rechargeable battery and has not only a call function but also a memory function and a display function.

  The input connector 100 is a connector connected to the HDMI port 200 provided in the rear cabinet of the television receiver 2. The output connector 300 is a connector connected to the charging port 3 </ b> A of the mobile phone 3.

  In this embodiment, when the user wants to charge the battery of the mobile phone 3, the user connects the input connector 100 to the HDMI port 200 and connects the output connector 300 to the charging port 3 </ b> A of the mobile phone 3.

  FIG. 2 is an enlarged view of the HDMI port provided on the back of the television receiver. FIG. 3 is a diagram showing pin assignments defined by the HDMI standard. The HDMI port 200 is formed with 19 pins according to the pin assignment shown in FIG. Specifically, the first pin 201, the second pin 202, the third pin 203,..., The ground level 17th pin 217, and the + 5V power supply voltage generated by the power supply circuit of the television receiver 2 are output. An 18th pin 218 and a 19th pin 219 are formed.

  FIG. 4 is an enlarged view of the input connector of the HDMI cable according to the embodiment of the present invention. The front end of the input connector 100 includes a shield frame 132 that has been plated and a molded member 131 that is injection molded. The mold member 131 is shaped so that a hole for arranging pins is formed at the center thereof. Here, the pin arrangement of the input connector 100 includes a first power supply voltage pin 118 for inputting a +5 power supply voltage generated by the television receiver 2 from the HDMI port 200 and a first ground pin 117 at the ground level. And only two pins.

  Therefore, when the user connects the input connector 100 to the HDMI port 200, the first power supply voltage pin 118 contacts the 18th pin 218 of the HDMI port 200, and the first ground pin 117 is the 17th pin of the HDMI port 200. 217 is contacted. Therefore, when the user connects the output connector 300 to the charging port 3A of the mobile phone 3, the output connector 300 supplies a +5 power supply voltage between the first power supply voltage pin 118 and the first ground pin 117. 3 is output.

  Therefore, in this embodiment, the user connects the battery of the mobile phone 3 with the power supply voltage of +5 output from the HDMI port 200 of the television receiver 2 while the mobile phone 3 is connected to the HDMI port 200 of the television receiver 2. Can be charged. Furthermore, the input connector 100 in this embodiment is provided only with pins necessary for charging, and the number of pins is minimized. Therefore, the manufacturing cost of the HDMI cable 1 can be reduced.

  In this embodiment, the output connector 300 is provided for the mobile phone 3. However, in implementation, a DC jack 400 for a portable game machine or the like is provided instead of the output connector 300, and the portable game machine or the like is provided. May be connected to the DC jack 400 and charged.

  Further, when the input connector 100 having the pin arrangement shown in FIG. 4 is connected to the HDMI port 200, the connection portion cannot be fixed with only the two pins of the first power supply voltage pin 118 and the first ground pin 117. May become stable. Accordingly, the first projecting member 102, the first ground pin 117, and the first ground pin 117 are positioned symmetrically with the first power supply voltage pin 118, with the center line 130 having a line-symmetric outer peripheral shape at the tip of the shield frame 132 as an axis. The input connector 100 may be provided with the second protruding member 103 at a line-symmetrical position. The 1st protrusion member 102 and the 2nd protrusion member 103 are comprised by the insulating member, for example. The first protruding member 102 has the same shape as the first power supply voltage pin 118, and the second protruding member 103 has the same shape as the first ground pin 117. Therefore, when the user connects the input connector 100 to the HDMI port 200, the first power supply voltage pin 118 contacts the 18th pin 218, the first ground pin 117 contacts the 17th pin 217, and the first The protruding member 102 contacts the second pin 202, and the second protruding member 103 contacts the third pin 203. Thereby, the force applied to the first power supply voltage pin 118 or the first ground pin 117 and the force applied to the first projecting member 102 or the second projecting member 103 are equalized. Therefore, fixing of the connection portion is stable.

  Hereinafter, an HDMI cable according to another embodiment of the present invention will be described.

In this other embodiment, the HDMI port 200 and the input connector 100 shown in FIGS. 2 and 4 are replaced with the HDMI port 250 and the input connector 150 shown in FIGS. 5 and 6 so that the output connector 300 can also output a power supply voltage other than + 5V. It has changed to. Other configurations are the same as those in the above embodiment (see FIGS. 1, 2, and 4). Specifically, the configuration is as follows.
FIG. 5 is an enlarged view of an HDMI port of a television receiver connected to an HDMI cable according to another embodiment of the present invention. FIG. 6 is an enlarged view of an input connector of an HDMI cable according to another embodiment of the present invention.

  As shown in FIG. 5, the distal end of the HDMI port 250 includes a plurality of pins 201 to 219 and a rectangular shield frame 251 that surrounds the plurality of pins 201 to 219.

  As shown in FIG. 6, the tip of the input connector 150 is composed of a rectangular shield frame 162 that has been plated and a rectangular mold member 161 that has been injection molded. The mold member 161 is shaped such that a hole for arranging pins is formed at the center thereof. Here, the pin arrangement of the input connector 150 includes a first power supply voltage pin 118 for inputting a +5 power supply voltage generated by the television receiver 52 from the HDMI port 200 and a first ground pin 117 at the ground level. A second power supply voltage pin 153 provided in a point-symmetrical position with respect to the first power supply voltage pin 118 around the center point 180, and a point-symmetrical position with respect to the first ground pin 117 around the center point 180 And the second ground pin 152 provided on the four pins. Here, the center point 180 is the center of the outer peripheral shape (rectangular in this embodiment) at the tip of the shield frame 162.

  Further, the input connector 150 is a voltage for stepping down or boosting the + 5V power supply voltage input from the second power supply voltage pin 153 to a predetermined power supply voltage with the front and back sides of the input connector 150 reversed and connected to the HDMI port 250. A conversion circuit 155 is incorporated. The predetermined power supply voltage is, for example, + 9V or + 3V, and is adjusted in advance according to the type of external device connected to the output connector 300. In this embodiment, it is assumed that the voltage is adjusted to + 3V. The voltage conversion circuit 155 is constituted by a DC-DC converter, for example, and is connected to the pins 152 and 153.

  In this configuration, when the user connects the input connector 150 to the HDMI port 250 (see FIG. 6A), the first power supply voltage pin 118 contacts the 18th pin 218 of the HDMI port 250 and the first ground. The pin 117 contacts the 17th pin 217 of the HDMI port 250. Therefore, when the user connects the output connector 300 to the charging port 3A of the mobile phone 3, the first power supply voltage pin 118 and the first ground pin 117 provide a power supply voltage of +5. 3 is output.

  On the other hand, when the user connects the input connector 150 upside down and connects to the HDMI port 250 (see FIG. 6B), the second power supply voltage pin 153 contacts the 18th pin 218 of the HDMI port 250, and the second The ground pin 152 contacts the 17th pin 217 of the HDMI port 250. Therefore, when the user connects the output connector 300 to the charging port 3A of the mobile phone 3, the output connector 300 generates a + 3V power supply voltage between the second power supply voltage pin 153 and the second ground pin 152. 3 is output.

  Therefore, in this embodiment, the user connects the mobile phone 3 to the HDMI port 250 of the television receiver 52, and uses the + 5V or + 3V power supply voltage output from the HDMI port 250 of the television receiver 52. The battery can be charged. Furthermore, the input connector 150 in this embodiment is provided only with pins necessary for charging, and the number of pins is minimized. Therefore, the manufacturing cost of the HDMI cable 51 can be reduced.

Note that the power supply voltage values (+5 V and +3 V in this embodiment) are input connectors as shown in FIGS. 6A and 6B so that the user can check the power supply voltage value output from the output connector 300 at the time of connection. It is preferable to display on the front and back surfaces of 150.
Also in this embodiment, a DC jack 400 for a portable game machine or the like may be provided in place of the output connector 300 during implementation.

DESCRIPTION OF SYMBOLS 1 ... HDMI cable 2 ... Television receiver 3 ... Mobile phone 3A ... Charging socket 51 ... HDMI cable 52 ... Television receiver 100 ... Input connector 102, 103 ... Projection member 131 ... Mold member 132 ... Shield frame 150 ... Input Connector 153 ... Power supply voltage pin 155 ... Voltage conversion circuit 161 ... Mold member 162 ... Shield frame 200 ... HDMI port 250 ... HDMI port 251 ... Shield frame 300 ... Output connector 400 ... Jack 500 ... Cable

Claims (3)

In an HDMI cable with an input connector connected to the HDMI port provided on the AV device,
The pin layout of the input connector is composed of only two pins, a first power supply voltage pin for inputting a power supply voltage generated by the AV device from the HDMI port, and a first ground pin at the ground level. And
An HDMI cable comprising an output connector for outputting the power supply voltage at the first power supply voltage pin and the first ground pin.   The input connector has a first projecting member at a line-symmetrical position with the first power supply voltage pin, with a center line that is symmetrical about the outer peripheral shape of the tip of the input connector connected to the HDMI port as an axis, The HDMI cable according to claim 1, further comprising a second projecting member at a position symmetrical to the first ground pin. In an HDMI cable with an input connector connected to the HDMI port provided on the AV device,
The pin arrangement of the input connector is:
A first power supply voltage pin for inputting the power supply voltage generated by the AV device from the HDMI port;
The first ground pin at ground level,
With the center of the outer peripheral shape of the tip of the input connector connected to the HDMI port as the center point, a second power supply voltage pin provided at a point symmetrical with the first power supply voltage pin,
A second ground pin provided at a point-symmetrical position with respect to the first ground pin with the center point as a center,
It consists of only four pins,
A voltage conversion circuit that transforms the power supply voltage input from the second power supply voltage pin into a predetermined voltage in a state where the input connector is reversed and connected to the HDMI port,
An output connector is provided that outputs the power supply voltage at the first power supply voltage pin and the first ground pin, and outputs the predetermined voltage at the second power supply voltage pin and the second ground pin. HDMI cable to use.