JP2011015539A - Display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display device with a USB terminal capable of arbitrarily changing a limiter value of the electric power supplied through the USB terminal.SOLUTION: The display device can supply electric power to an external device through a power supply line of a USB terminal, and includes a set resistor connected to a power supply line, an overcurrent detection unit which detects a current flowing the set resistor and outputs a detection signal when an overcurrent flows the set resistor, a switching part for selecting the presence of electric power supply from the power supply line, and a supply control unit which causes the switching part to cut off electric power supply from the power supply line when the detection signal is output.

Description

  The present invention relates to a display device capable of supplying power via a USB terminal.

  Conventionally, a device that can be connected to an external device via a USB (Universal Serial Bus) terminal is known. For example, a host device and an external device are connected via a USB terminal, and transmission / reception of predetermined data or commands is executed.

  The USB includes a data line for transmitting data, a power supply line (VBUS) for supplying power, and a GND line. Therefore, an external device connected to the USB terminal can receive power via this power line and drive it (see, for example, Patent Documents 1-4).

JP 2002-185548 A JP 2006-262610 A JP 2007-102444 A JP 2006-11865 A

  In a host apparatus equipped with a USB, power is supplied to an external device, but power control is performed so that the drive on the host apparatus side is not affected when the power consumption exceeds a certain value. For example, when the power consumption of the external device exceeds 1 A, the control circuit mounted on the host device side performs control to cut off the power supply.

  In the conventional USB described above, since the power consumption is controlled to a certain value, the limiter value of the current flowing through the power supply line cannot be changed. On the other hand, when the limiter value is set according to the power consumption of the external device, it is necessary to design for the countermeasure against overcurrent according to the constant of each element, so it was difficult to change the limiter value easily. .

  The present invention has been made in view of the above problems, and provides a display device that can arbitrarily change the limiter value of the power supplied via the USB terminal in a display device having a USB terminal. Objective.

  In order to solve the above-described problems, in the present invention, in a display device capable of supplying power to an external device via a power supply line of a USB terminal, a setting resistor connected to the power supply line and a current flowing through the setting resistor When an overcurrent flows through the setting resistor when the current is detected, an overcurrent detection unit that outputs a detection signal, a switching unit that switches whether power is supplied from the power supply line, and the detection signal When output, the switching unit includes a supply control unit that cuts off power supplied from the power supply line.

In the invention configured as described above, in the display device capable of supplying power to the external device via the power supply line of the USB terminal, the overcurrent detection unit detects the current flowing through the setting resistor, When an overcurrent flows, a detection signal is output, and the supply control unit causes the switching unit to cut off the power supplied from the power supply line when the detection signal is output.
For this reason, the limiter value is set according to the current value flowing through the setting resistor. Therefore, even if the constant of the setting resistor is changed, overcurrent detection can be followed, and the USB terminal can be connected by a simple change in the circuit. It is possible to arbitrarily change the limiter value of the power supplied via the power supply.

  In addition, as an example of a specific configuration of the overcurrent detection unit, the overcurrent detection unit is configured to detect a current flowing through the setting resistor by detecting a voltage drop due to the setting resistor.

As a specific configuration of the overcurrent detection unit, the current detection unit is configured to include an operational amplifier, and a difference between a voltage value obtained by dividing the voltage value on the input side of the setting resistor and the voltage value on the output side is determined. The operational amplifier may be operated as a dynamic input voltage.
In the invention configured as described above, the overcurrent detection unit can be realized with a simple configuration using an operational amplifier.

The switching unit may be configured by a switch element that cuts off the conduction of the power supply line in accordance with a switching signal output from the supply control unit.

  Furthermore, as another aspect of the present invention, in a display device capable of supplying power to an external device via a power supply line of a USB terminal, a power supply circuit that supplies power, and between the power supply circuit and the power supply line A setting resistor connected in series with the operational amplifier, and the operational amplifier is operated using a voltage value obtained by dividing the voltage value on the input side of the setting resistor and the voltage value on the output side as a differential input voltage. An overcurrent detector that detects a voltage drop due to the setting resistor and changes a level of a detection signal output from the operational amplifier according to a value of the differential input voltage; and the power supply line according to a switching signal And a switching unit that switches between the presence and absence of the supply of power supplied from the power supply line, and when the waveform of the detection signal becomes high level, The switching unit, anda supply control unit for interrupting electric power supplied from the power supply line, constant of the setting resistor may be configured to be set in accordance with the power consumption of the external device.

  As described above, according to the present invention, the limiter value of the power supplied via the USB terminal can be arbitrarily changed in the display device including the USB terminal.

It is a block block diagram explaining the display apparatus which concerns on this invention. FIG. 4 is a circuit diagram for explaining a USB control circuit 60 as an example. It is a wave form diagram explaining the waveform of the signal input into the input terminal of operational amplifier 62a, and the signal output from an output terminal.

Embodiments of the present invention will be described below in the following order with reference to the drawings.
1. First embodiment:
2. Other embodiments:

1. First embodiment:
1.1. Configuration of display device:
FIG. 1 is a block diagram illustrating a display device according to the present invention. As shown in FIG. 1, the display device 100 includes the following main parts. The display unit 90 displays a video based on the video data. In addition, the main controller 80 performs predetermined processing on video data input via an interface (not shown), and transmits the video data to the display unit 90. Then, the power supply circuit 70 generates a stabilized power supply from the power supplied from a power supply such as a commercial power supply, and supplies the power to each unit constituting the display device 100. The USB control circuit 60 can transmit and receive data or commands by connecting to the external device 50 via a USB cable.

  The USB control circuit 60 according to the present invention is configured to have the following functions. The setting resistor 61 is connected between the power supply circuit 70 and the VBUS (power supply line) 92a, and sets a limiter value of the current flowing through the VBUS 92a. The overcurrent detection unit 62 detects the current flowing through the setting resistor 61, and when the overcurrent flows through the setting resistor 61, changes the detection signal to a high level. Then, the switching unit 63 switches whether to supply power supplied from the VBUS 92 a of the USB terminal 92. Furthermore, when the detection signal changes to a high level, the microcomputer (supply control unit) 64 causes the switching unit 63 to cut off the power supplied from the VBUS 92a.

  The external device 50 according to the present embodiment includes a memory 51 in which setting data referred to by the main controller 80 is stored, and a controller (slave) for transmitting the setting data stored in the memory 51 via the USB terminal 53. 52 is provided. Therefore, when the external device 50 is connected to the USB control circuit 60 of the display device 100, the main controller 80 reads the setting data stored in the memory 51 and writes it in a PROM (Programmable ROM) mounted therein. It is possible to update the settings.

In the display device 100 according to the present invention, the limiter value of the current flowing through the VBUS 92a can be set to a desired value according to the power consumption of the external device 50 by changing the constant of the setting resistor 61. That is, when the power consumption of the external device 50 is about 0.5 A, the power supply according to the power consumption of the external device 50 can be performed by setting the constant of the setting resistor 61 according to the power consumption. .
Furthermore, when the user accidentally connects an external device with high power consumption to the USB terminal 92, the overcurrent detection unit 62 outputs a detection signal based on the current flowing through the setting resistor 61, and the microcomputer 64 switches. The unit 63 is controlled to cut off the power supplied from the VBUS 92a of the USB terminal 92. Therefore, overcurrent detection can be performed according to the constant of the setting resistor 61, and the USB control circuit 60 can be diverted by a simple circuit change. Below, the principal part of the display apparatus 100 which concerns on this invention is demonstrated in detail.

  The USB control circuit 60 is connected to the secondary circuit 71 of the power supply circuit 70 and is connected to the main controller 80 via the input / output IF 65. For this reason, data input via the data line of the USB terminal 92 is input to the microcomputer 64 and then output to the main controller 80 through the input / output IF 65.

  FIG. 2 is a circuit diagram for explaining the USB control circuit 60 as an example. The setting resistor 61 according to the present embodiment is connected in series so as to be interposed between the output terminal of the secondary circuit 71 of the power supply circuit 70 and the VBUS 92a of the USB terminal 92. Further, the constant of the setting resistor 61 is set according to the power consumption of the external device 50, and in the present embodiment, the value is set to 0.33Ω.

  The overcurrent detection unit 62 according to the present embodiment includes an operational amplifier 62a and resistors R1 to R5. Specifically, the voltage divided by the resistors R1 and R2 is supplied to the + side input terminal of the operational amplifier 62a. Further, the voltage divided by the resistors R3 and R4 is supplied to the negative input terminal of the operational amplifier 62a. The output terminal of the operational amplifier 62a is connected to the protect port 64a of the microcomputer 64 via the resistor R5.

  In this embodiment, the voltage dividing resistor 62b has a resistance value so that the 5V power supply voltage supplied from the secondary circuit 71 is divided into 2.5V and input to the + side input terminal of the operational amplifier 62a. Is set. In addition, the resistance value of the voltage dividing resistor 62c is set so that the voltage value on the output side of the setting resistor 61 is higher than 2.5V in the normal state.

  The switching unit 63 according to the present embodiment includes transistors 63a and 63b. Specifically, the transistor 63 a is connected to the output side of the setting resistor 61 by an emitter: E, and the collector: C is connected to the VBUS 92 a of the USB terminal 92. Since the base B of the transistor 63a is connected to the collector C of the transistor 63b via the resistor R7, the switching signal controls the transistor 63b via R8 to turn on / off the transistor 63a.

  The microcomputer 64 is connected to the overcurrent detection unit 62 via a protect port 64a which is an input terminal, and is connected to the switching unit 63 via a USB control port 64b which is an output terminal. Further, the microcomputer transmits a high / low switching signal from the USB control port 64b in accordance with the signal state of the detection signal input to the protect port 64a.

  With the configuration of the switching unit 63 and the microcomputer 64, when power is supplied from the secondary circuit 71 of the power supply circuit 70 in a state where the display device 100 is connected to the external device 50 via the USB terminal 92, the transistor 63a is turned on, and power is supplied to the external device 50 through the VBUS 92a. On the other hand, when a switching signal is input from the microcomputer 64 to the transistor 63b, the transistor 63b is turned off and the transistor 63a is turned off. Therefore, the VBUS 92a stops power supply to the external device 50.

1.2. Features of the invention:
Hereinafter, the function of the USB control circuit 60 will be described. First, when a power supply voltage of 5 V is supplied from the secondary circuit 71 of the power supply circuit 70, a current flows through the setting resistor 61, causing a voltage drop at both ends of the setting resistor 61. Therefore, a voltage value corresponding to the resistance ratio between the voltage dividing resistors 62b and 62c is input to each input terminal of the operational amplifier 62a as a differential input voltage.

  FIG. 3 is a waveform diagram illustrating waveforms of a signal input to the input terminal of the operational amplifier 62a and a signal output from the output terminal. First, when a current in a normal state (0.5 A or less) flows through the setting resistor 61, the voltage (2.5V) input to the + side input terminal of the operational amplifier 62a is greater than the voltage input to the − side input terminal. It is set to be low. Therefore, a low level detection signal is output from the output terminal of the operational amplifier 62a (T0 to T1 in FIG. 3).

  On the other hand, when the load of the external device 50 is large and an overcurrent flows through the setting resistor 61, the voltage generated on the output side of the setting resistor 61 becomes low due to the voltage drop, and is input to the + side input terminal of the operational amplifier 62a. The voltage is higher than the voltage input to the negative input terminal. Therefore, a high-level detection signal is output from the output terminal of the operational amplifier 62a (T1 to T2 in FIG. 3).

  When the microcomputer 64 receives the high level detection signal through the protect port 64 a, the microcomputer 64 outputs a low level switching signal from the USB control port 64 b to the switching unit 63. Therefore, the transistor 63b of the switching unit 63 is turned off and the transistor 63a is turned off. As a result, the power flowing through VBUS 92a is cut off. The first embodiment has been described above.

2. Other embodiments:
There are various modifications of the present invention. For example, mounting the microcomputer 64 in the USB control circuit 60 is an example. For example, the main controller 80 may realize the function of the microcomputer 64.

Needless to say, the present invention is not limited to the above embodiments. It goes without saying for those skilled in the art,
・ Applying mutually interchangeable members and configurations disclosed in the above embodiments by appropriately changing the combination thereof.− Although not disclosed in the above embodiments, it is a publicly known technique and the above embodiments. The members and configurations that can be mutually replaced with the members and configurations disclosed in the above are appropriately replaced, and the combination is changed and applied. It is an embodiment of the present invention that a person skilled in the art can appropriately replace the members and configurations that can be assumed as substitutes for the members and configurations disclosed in the above-described embodiments, and change the combinations and apply them. It is disclosed as.

  DESCRIPTION OF SYMBOLS 50 ... External device, 51 ... Memory, 52 ... Controller, 53 ... USB terminal, 60 ... USB control circuit, 61 ... Setting resistor, 62 ... Overcurrent detection part, 62a ... Operational amplifier, 62b, 62c ... Voltage dividing resistor, 63 ... Switching unit, 63a, 63b ... transistor, 64 ... microcomputer, 64a ... protect port, 64b ... USB control port, 65 ... input / output IF, 70 ... power supply circuit, 71 ... secondary side circuit, 80 ... main controller, 90 ... Display unit, 92 ... USB terminal, 92a ... VBUS, 100 ... display device

Claims (5)

In a display device that can supply power to an external device via a power supply line of a USB terminal,
A power supply circuit for supplying power;
A setting resistor connected between the power supply circuit and the power supply line;
An overcurrent detection unit that detects a current flowing through the setting resistor and outputs a detection signal when an overcurrent flows through the setting resistor;
A switching unit for switching presence / absence of supply of power supplied from the power supply line;
A display device comprising: a supply control unit configured to interrupt the power supplied from the power supply line when the detection signal is output.   The display device according to claim 1, wherein the overcurrent detection unit detects a current flowing through the setting resistor by detecting a voltage drop due to the setting resistor.   The overcurrent detection unit includes an operational amplifier, and operates the operational amplifier using a voltage value obtained by dividing the voltage value on the input side of the setting resistor and the voltage value on the output side as a differential input voltage. The display device according to claim 2.   4. The switch unit according to claim 1, wherein the switch unit includes a switch element that blocks conduction of the power supply line in accordance with a switch signal output from the supply control unit. The display device described in 1. In a display device that can supply power to an external device via a power supply line of a USB terminal,
A power supply circuit for supplying power;
A setting resistor connected in series between the power supply circuit and the power supply line;
An operational amplifier is configured to detect a voltage drop due to the setting resistor by operating the operational amplifier using a voltage value obtained by dividing the voltage value on the input side of the setting resistor and the voltage value on the output side as a differential input voltage. An overcurrent detection unit that changes a level of a detection signal output from the operational amplifier according to a value of the differential input voltage;
A switching unit that is configured by a switch element that cuts off the conduction of the power supply line in response to a switching signal, and that switches whether to supply power supplied from the power supply line;
A supply control unit that cuts off the power supplied from the power supply line to the switching unit when the waveform of the detection signal becomes a high level;
The display device according to claim 1, wherein the constant of the set resistance is set according to power consumption of the external device.

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