JP2012044311A - Communication circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication circuit which has achieved both a function necessary for an IC to communicate with a source device and cost reduction.SOLUTION: A communication circuit mounted on a sink device provided with an HDMI connector at least comprises a port connected to a first signal line for inputting power source voltage supplied by a source device connected to the HDMI connector via the HDMI connector and a port connected to a second signal line for returning an H level signal as a hot-plug detection signal to the source device via the HDMI connector. The communication circuit returns the hot-plug detection signal to the source device by switching the voltage level of the second signal line from an L level to an H level after detecting input of the power source voltage. The communication circuit makes the port connected to the first signal line and the port connected to the second signal line common, and after detecting input of the power source voltage via the common port, switches the voltage of the second signal line from the L level to the H level by switching an output state of the port.

Description

  The present invention relates to a communication circuit that is mounted on a sink device having an HDMI connector and performs communication with a source device compatible with HDMI.

  When a source device that supports HDMI is connected to the HDMI connector, a sink device (such as a television) having an HDMI (High-Definition Multimedia Interface) connector first detects that the source device is connected, and then HPD Returns the (Hot Plug Detect) signal to the source device. The source device that has received the HPD signal reads EDID (Extended Display Identification Data) from the sink device, determines a video signal to be supplied to the sink device based on the read information, and supplies the video signal.

Here, as a process when the CPU of the television receiver performs a detection operation on the HDMI input, the CPU determines whether or not the voltage of the power supply line is 5V, and when it is 5V, the voltage of the HPD line is determined. There is known a process of changing from low (L) to high (H) and requesting transmission of function information or the like to the source device on the other side (see Patent Document 1).
The wireless transmission unit waits for the video signal source to start supplying 5V power, adds “H” to the HPD upon receiving the 5V supply start, and receives data from the EDID storage unit of the video signal source from the EDID storage unit. A system that permits reading is known (see Patent Document 2).
The HDMI input port of the sink device includes a pin for inputting 5V power from the source device and an HPD pin. When the source device is connected to the input port of the sink device, a 5V power signal is transmitted from the source device. There is known a configuration in which a power signal is turned back in a sink device and is returned as an HPD signal from an HPD pin to a source device (see Patent Document 3).
In addition, a technique related to a transmission / reception apparatus using an HDMI communication interface is known (see Patent Document 4).

JP 2010-4510 A JP 2009-141719 A JP 2009-3882 A JP 2009-44706 A

  In the sink device, the connection detection of the source device and the return of the HPD signal as described above are executed by an IC (integrated circuit) including a plurality of ports (pins) connected to each signal line from the HDMI connector. ICs mounted on such sink devices tend to increase the number of pins in accordance with the recent increase in the number of sink devices, and this increase in the number of pins leads to an increase in the cost of the sink device on which the IC is mounted. It was.

  The present invention has been made in order to solve the above-described problems, and a communication circuit capable of realizing cost reduction by reducing some parts while maintaining a function necessary for communication with a source device compatible with HDMI. I will provide a.

  One aspect of the present invention is a port mounted on a sink device having an HDMI connector and connected to a first signal line for inputting a power supply voltage supplied from a source device connected to the HDMI connector via the HDMI connector. And a port connected to a second signal line for returning a predetermined high (H) level signal as a hot plug detection signal to the source device via an HDMI connector, and receiving a power supply voltage A communication circuit that returns a hot plug detection signal to a source device by switching the voltage of the second signal line from a predetermined low (L) level to the H level after detection, and a port connected to the first signal line And a port connected to the second signal line, and after detecting the input of the power supply voltage through the shared port, By switching the output state is a configuration for switching the voltage of the second signal line from the L level to the H level.

  According to this configuration, the port for connecting the first signal line to detect the input of the power supply voltage and the port for connecting the second signal line and returning the hot plug detection signal to the source device are shared. Has been. In other words, since the two ports conventionally provided in the communication circuit are integrated into one, the number of ports (pins) of the communication circuit is reduced, and the cost of the product is reduced. Even when the number of ports is reduced in this way, the connection detection of the source device based on the detection of the power supply voltage and the process of returning the hot plug detection signal to the source device can be executed, and the function to be provided as the communication circuit is maintained. .

FIG. 2 is a diagram schematically showing a part of an IC or a sink device. It is a figure which shows a part of internal structure of IC. It is a timing chart which shows a state change when a source device is connected to an HDMI connector. It is a figure which shows the conventional structure.

As an embodiment of the present invention, the communication circuit makes the output of the common port an open collector output so that the output can be switched between a high impedance and the L level. At the same time that the input of the power supply voltage is detected, the output of the port is switched to the L level, and then the output of the port is output at the timing when the source device can read the EDID describing the characteristics of the sink device from the sink device. The voltage of the second signal line may be switched from the L level to the H level by switching to high impedance and returning the power supply voltage to the source device via the second signal line.
Further, as an embodiment of the present invention, the communication circuit is mounted on the sink device including a plurality of HDMI connectors and is connected to each HDMI connector through a signal line, and an external input connected to the source device is from the first HDMI connector. When switching to another HDMI connector and switching to the first HDMI connector again, the output of the common port is simultaneously switched to the L level, and then the output of the port is switched to high impedance so that the power supply voltage is The voltage of the second signal line may be switched from the L level to the H level by returning to the source device via the second signal line.

  Further, as an embodiment of the present invention, the first is a device for inputting a power supply voltage supplied from a source device externally connected to an HDMI connector via an HDMI cable, via a HDMI connector. A communication circuit comprising at least a port connected to a signal line and a port connected to a second signal line for returning a predetermined H level signal as a hot plug detection signal to the source device via an HDMI connector, A communication circuit that returns a hot plug detection signal to the source device by switching the voltage of the second signal line from a predetermined L level to the H level after detecting the input of the first signal line, the port connected to the first signal line And the port connected to the second signal line are shared, and the first operational amplifier is connected to the shared port. Connected to the second operational amplifier, the input of the power supply voltage can be detected via the first operational amplifier, and the output of the port via the second operational amplifier is set as an open collector output, thereby making the output high impedance. And the L level, the source device is connected to the HDMI connector with the output of the common port set to high impedance, and the input of the power supply voltage is detected via the port and the first operational amplifier. When the detection is performed, the output of the port is switched to the L level at the same time as the detection, and then the EDID describing the characteristics of the television monitor is read at the timing when the source device can read from the television. Switch the output to high impedance, and the above power supply voltage The voltage of the second signal lines by such return to the scan device may be configured to switch from the L level to the H level.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 schematically shows an IC (Integrated Circuit) 10 as a communication circuit according to the present embodiment, a part of a television as a sink device 20 on which the IC 10 is mounted, and the like. The sink device 20 includes a plurality of HDMI connectors 21 and 22. The source device 30 can be connected to the HDMI connectors 21 and 22 from the outside via the HDMI cable 40. The source device 30 corresponds to, for example, a DVD player. In the sink device 20, the HDMI connectors 21 and 22 are connected to the IC 10 through signal lines, respectively.

  Since the connection mode between the IC 10 and one HDMI connector is the same for any HDMI connector (see FIG. 1), the connection mode between the HDMI connector 21 and the IC 10 will be described here representatively. The IC 10 and the HDMI connector 21 are connected by a plurality of signal lines. In FIG. 1, the signal lines L1, L2, L3, and L4 extend from the HDMI connector 21. The signal line L1 is a signal line for inputting a 5V power supply voltage supplied from the source device 30 connected to the HDMI connector 21 via the HDMI cable 40, and is connected to the signal line L2 via the 1 kΩ resistor R1. is doing. The signal line L1 is grounded to the ground GND via the resistor R2 at a connection point closer to the connector than the resistor R1. The signal line L2 is a signal line for returning an H level signal as a hot plug detection signal (HPD signal) to the source device 30 via the HDMI connector 21, and is connected to the HPD port 10c included in the IC 10.

  That is, the signal line L1 and the signal line L2 are connected to one port (pin) of the IC 10. The HPD port 10c is a general-purpose input / output port provided in the IC 10. In addition, the signal line L3 is connected to the SCL port 10a included in the IC 10, and the signal line L4 is connected to the SDA port 10b included in the IC 10. The signal line L4 is a line used for transmission of SDA (Serial Data) such as EDID, and the signal line L3 is a line used for transmission of an SCL (Serial Clock) signal. Of course, the IC 10 has a plurality of other ports, and between the HDMI connector 21 and other signal lines (for example, signal lines for transmitting signals of TMDS (Transition Minimized Differential Signaling) channels and CEC (Consumer Electronics). Control), signal lines for transmitting signals, etc.), but are omitted as appropriate in FIG.

  As shown in FIG. 4, an IC 100 as a conventional communication circuit has a port 100d connected to the signal line L1 and a port 100c connected to the signal line L2. The IC 100 detects the power supply voltage (connection detection of the source device) via the port 100d, and returns the HPD signal to the source device via the port 100d. However, in the present embodiment, such two ports are shared to form one port (HPD port 10c). 1 and 4, the same reference numerals are given to the same components.

  FIG. 2 shows a part of the internal configuration of the IC 10 that is connected to the HPD port 10c. FIG. 3 is a timing chart showing state changes that occur when the source device 30 is connected to the HDMI connector 21 (or the HDMI connector 22) via the HDMI cable 40. In the following, unless otherwise specified, reference numerals L1, L2, and 10c indicate signal lines and ports connected to the HDMI connector 21. As shown in FIG. 2, in the IC 10, an operational amplifier 11 is connected to the HPD port 10c by a signal line, and an operational amplifier 12 is branched on the signal line. The operational amplifiers 11 and 12 are also ICs. The operational amplifier 11 can input a 5V withstand voltage, and the IC 10 recognizes the connection of the source device 30 by detecting the power supply voltage input via the HPD port 10 c and the operational amplifier 11. On the other hand, the operational amplifier 12 is connected between the HPD port 10c and the ground GND, and an output to the HPD port 10c via the operational amplifier 12 is an open collector output. That is, the IC 10 can switch the open collector output between the L level (0 V) and the high impedance by controlling the base voltage of the transistor built in the operational amplifier 12 and switching the transistor on and off. Further, the IC 10 sets the HPD port 10c to an input state (a state in which an external signal can be input) by setting the open collector output to high impedance.

  As shown in FIG. 3, the IC 10 is in the input state of the HPD port 10c before the source device 30 is connected to the HDMI connector 21 (at this time, the potential of the HPD port 10c is L level). In this state, the IC 10 detects the input of the power supply voltage via the signal lines L1, L2, the HPD port 10c, and the operational amplifier 11 when the source device 30 is connected to the HDMI connector 21, and at the same time, sets the open collector output to the L level. (HPD port 10c is set to the L level output state). After that, the IC 10 executes predetermined preparation processing so that the source device 30 can read the EDID describing the characteristics of the sink device 20 from the predetermined memory, and at the timing when the reading becomes possible, the IC 10 sets the open collector output high. Switch to impedance. Then, the HPD port 10c is in an input state, and at this time, the source device 30 is connected to the HDMI connector 21 and the power supply voltage is input. Therefore, the potential of the HPD port 10c changes from L level to H level.

  In this way, simultaneously with the HPD port 10 c becoming H level, the signal line L 2 also changes from L level to H level, and as a result, an H level signal as an HPD signal is supplied to the source device 30 via the HDMI connector 21. The source device 30 that has received the HPD signal reads the EDID from the sink device 20 as in the prior art, determines the video signal to be supplied to the sink device 20 based on the read information, and supplies the video signal. The EDID is information describing characteristics of a monitor (for example, characteristics such as frequency and resolution on the monitor) included in the sink device 20 that is a television.

  Since the sink device 20 includes various external input terminals including an HDMI connector, the user can arbitrarily switch inputs among a plurality of external inputs. As an example of such a case, in FIG. 3, the state when the external input is switched from the HDMI connector 21 to the HDMI connector 22 (the source device is also connected to the HDMI connector 22) and switched to the HDMI connector 21 again. It also shows changes. It is assumed that the source device 30 is continuously connected to the HDMI connector 21 in a situation where the external input is switched from the HDMI connector 21 to the HDMI connector 22 and then switched to the HDMI connector 21 again.

  When it is detected that the external input is switched again to the HDMI connector 21, the IC 10 switches the open collector output to the L level simultaneously with the switching (the HPD port 10c is set to the L level output state). After that, the IC 10 executes a predetermined preparation process so that the source device 30 can read the EDID of the sink device 20, and switches the open collector output to high impedance at the timing when the reading becomes possible. Then, the HPD port 10c is in an input state, the potential of the HPD port 10c becomes H level, and an H level signal as an HPD signal is supplied to the source device 30 through the signal line L2 and the HDMI connector 21 again.

  As described above, according to the present embodiment, the IC 10 is connected to the signal line L1 that has been conventionally separated and connected to the port for detecting the input of the power supply voltage and the signal line L2, and returns the HPD signal to the source device. Port is shared. Since the two ports that the communication circuit has conventionally provided are integrated into one, the number of ports (pins) of the communication circuit is reduced, and the cost of the product is reduced. Even if the number of ports is reduced in this way, the connection detection of the source device by the detection of the power supply voltage and the process of returning the HPD signal to the source device can be executed, and the function to be provided as the communication circuit is maintained.

DESCRIPTION OF SYMBOLS 10 ... IC, 10c ... HPD port, 11, 12 ... Operational amplifier, 20 ... Sink device, 21, 22 ... HDMI connector, 30 ... Source device, 40 ... HDMI cable, L1, L2 ... Signal line

Claims (4)

A port connected to the first signal line for inputting the power supply voltage supplied from the source device connected to the HDMI connector via the HDMI connector and the source device connected to the source device via the HDMI connector. A communication circuit having at least a port connected to a second signal line for returning a predetermined high-level signal as a hot plug detection signal, and after detecting the input of the power supply voltage, the voltage of the second signal line is determined A communication circuit that returns a hot plug detection signal to the source device by switching from the low level to the high level.
By sharing the port connected to the first signal line and the port connected to the second signal line, and detecting the input of the power supply voltage through the shared port, and then switching the output state of the port A communication circuit for switching the voltage of the second signal line from the low level to the high level. By making the output of the common port an open collector output, the output can be switched between high impedance and low level,
At the same time that the input of the power supply voltage is detected through the common port, the output of the port is switched to the low level, and then the EDID describing the characteristics of the sink device can be read from the sink device by the source device. At this timing, the output of the port is switched to high impedance so that the power supply voltage is returned to the source device via the second signal line, thereby switching the voltage of the second signal line from the low level to the high level. The communication circuit according to claim 1.   It is mounted on the sink device having a plurality of HDMI connectors and is connected to each HDMI connector via a signal line, and the external input connected to the source device is switched from the first HDMI connector to another HDMI connector, and again the first HDMI When switching to the connector, the output of the common port is switched to the low level at the same time, and then the output of the port is switched to high impedance so that the power supply voltage is returned to the source device via the second signal line. The communication circuit according to claim 1, wherein the voltage of the second signal line is switched from the low level to the high level. A port connected to a first signal line for inputting a power supply voltage supplied from a source device externally connected to the HDMI connector via an HDMI cable and being input to the HDMI signal through the HDMI connector. A communication circuit including at least a port connected to a second signal line for returning a predetermined high-level signal as a hot plug detection signal to the source device via an HDMI connector. A communication circuit that returns a hot plug detection signal to a source device by switching the voltage of the two signal lines from a predetermined low level to the high level,
The port connected to the first signal line and the port connected to the second signal line are shared,
The first operational amplifier and the second operational amplifier are connected to the common port, the input of the power supply voltage can be detected via the first operational amplifier, and the output of the port via the second operational amplifier is opened. By making the collector output, the output can be switched between high impedance and the low level,
When the source device is connected to the HDMI connector with the output of the common port set to high impedance and the input of the power supply voltage is detected via the port and the first operational amplifier, simultaneously with the detection, Switch the port output to the above low level,
After that, when the source device can read the EDID describing the characteristics of the television monitor from the television, the output of the port is switched to high impedance, and the power supply voltage is sourced via the second signal line. A communication circuit, wherein the voltage of the second signal line is switched from the low level to the high level by returning to the device.

Images