JP2000293479A - Peripheral device and signal transmission device using the same - Google Patents

Abstract

(57) [Problem] To provide a peripheral circuit capable of correctly detecting a connection state with a peripheral device and performing normal communication between the host device and the peripheral device, and a configuration using the same. The signal transmission device is realized. A host-side device and a peripheral device are connected via a signal transmission line, and a signal terminal of an interface circuit is pulled down by resistance elements in the host-side device. One of the signal terminals 21 is a pull-up resistor element 2
3. When the peripheral device 2 is initialized by connecting to the supply line of the power supply voltage V _DD via the switching element 24, the control circuit 25
To turn off the switching element 24, turn on the switching element 24 after the initialization is completed, and detect the voltage level of the signal terminal of the interface circuit 11 in the host-side device 1 so that the connection status of the peripheral device 2 and the response It is possible to determine whether or not it is possible.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a host device as a main device, for example, a host computer including a personal computer and peripheral devices, for example, a modem,
The present invention relates to a signal transmission device for transmitting a signal between a printer and the like and a configuration of the peripheral device.

[0002]

2. Description of the Related Art At present, as an interface for connecting a personal computer and its peripheral devices, US
B (Universal serial bus) is attracting attention. USB
One of the features that has attracted attention as a next-generation interface is that peripheral devices can be connected to a personal computer without turning off the power while the personal computer is operating.

In order to realize this function, a personal computer as a host device is connected to a USB device even during operation.
It must be able to detect that a peripheral device has been connected. In order to make this possible, it is determined in the USB specification as follows. The USB host device connects both of the two signal lines in the connected USB cable to 15
Pull down to ground potential, that is, 0 V, with kΩ. And
The USB peripheral device pulls up one of two signal lines in the connected USB cable to 3.0 to 3.6 V with 1.5 kΩ.

FIG. 3 shows an example of a signal transmission device including a host device and peripheral devices in accordance with the above-mentioned USB agreement. As illustrated, in the signal transmission device, a host device 101 and a peripheral device 102 are connected via a signal transmission line (cable) 103. In the host device 101, the interface circuit 111
Are connected to two signal lines constituting the cable 103 with the connector 112 interposed therebetween. Then, both signal terminals are connected to the resistance element 113, respectively.
And 114 are pulled down to the ground potential 0V. The resistance values of these resistance elements 113 and 114 are set to, for example, 15 kΩ in accordance with the USB specification described above. In the peripheral device 102, both signal terminals of the interface 121 are respectively connected to two signal lines constituting the cable 103 via the connector 122. One of the two signal terminals is pulled up to the power supply voltage V _DD via the resistance element 123. According to the USB specification described above, the resistance value of the pull-up resistance element 123 is set to, for example, 1.5 kΩ, and the pull-up power supply voltage V _DD is set to 3.0 to 3.0.
It is set to 6V.

[0005] In the signal transmission device configured as shown in FIG. 3, when the peripheral device 102 is not connected, both signal terminals of the interface circuit 111 are controlled by pull-down resistance elements 113 and 114 provided in the host device 101. Are kept at a low potential. On the other hand, cable 103
When the peripheral device 102 is connected via the peripheral device 102, one of the two signal lines of the cable 103 is connected to the peripheral device 102.
_Is connected to the power supply voltage V _DD via the pull-up resistor element 123 provided at Since the resistance value of the pull-up resistance element 123 of the peripheral device 102 is smaller than the resistance value of the pull-down resistance element of the host-side device 101, the cable 1
One of the two signal lines 03 is held at a low potential, and the other is held at a high potential.

[0006] As described above, the host device 101
By detecting the voltage levels of both signal terminals of the interface circuit 111, it can be determined whether or not the peripheral device 102 is connected. For example, when both signal terminals are held at a low potential, the peripheral device 102 is not connected. Conversely, when one signal terminal is at a low potential and the other signal terminal is at a high potential, the peripheral device 10 is not connected.
2 can be determined to be connected. And
The host device 101 responds to the detection result of the potential level of the signal terminal of the interface circuit 111 by using the peripheral device 1.
When it is determined that No. 02 is connected, communication with the peripheral device is started.

[0007]

In the conventional signal transmission apparatus described above, the peripheral device which is already turned on is not always connected to the host-side device 101 in the actual use condition. It is also conceivable that the power of the peripheral device is turned on from the state where the peripheral device that is not already connected is already connected. In such a situation, when the peripheral device 102 whose power is normally off is connected to the host-side device 101 via the cable 103, when the peripheral device 102 is in the power off state, the pull-up resistor 123
The two signal lines constituting the cable 103 are connected to the pull-down resistance elements 113 and 114 of the host-side device 101 without pulling up one of the signal terminals connected to
, Both remain at a low potential. Therefore, as a result of the determination based on the voltage levels of both signal terminals of the interface circuit 111 of the host-side device 101, it is recognized that the peripheral device 102 is not connected. After that, when the power of the peripheral device 102 is turned on,
Since one of the two signal lines of the cable 103 is held at a high potential by the pull-up resistor element 123 of the peripheral device 102, the host device 101 detects this and detects that the peripheral device 102 has been connected. And the peripheral device 102
Start communication with.

[0008] However, among various types of peripheral devices, some peripheral devices cannot execute normal operations unless some kind of initialization processing is performed after the power is turned on. Such a peripheral device cannot operate in response to a communication request from the host device immediately after the power is turned on. In this case, the host device detects that the peripheral device is connected and starts communication, but the communication cannot be performed normally, but the signal transmission device cannot transmit a signal correctly. There is.

The present invention has been made in view of the above circumstances, and an object of the present invention is to enable a host-side device to correctly detect the connection status of a peripheral device and to normally perform communication between the host-side device and the peripheral device. It is an object of the present invention to provide a peripheral device that can perform the operation and a signal transmission device configured using the peripheral device.

[0010]

In order to achieve the above object, a peripheral device according to the present invention comprises at least two signal lines including first and second signal lines held at a first potential by a main unit. A peripheral device for transmitting a signal to and from the main device via a line, wherein the first signal line is different from the first potential and a second potential at which the main device can confirm connection; A potential setting circuit to set, when in a state that can not respond to the main device, control the potential setting circuit to a non-operating state,
The first and second signal lines are held at the first potential, and when in a state capable of responding to the main device, the potential setting circuit is operated, and the first signal line is connected to the second signal line. A control circuit for holding the potential.

In the present invention, preferably, the potential setting circuit includes a resistance element and a switching element connected in series between the first signal line and a predetermined power supply voltage supply line. And the control circuit turns on / off the switching element according to a response state to the main device. Specifically, for example, the control circuit turns off the switching element until the initialization process is completed after power-on,
After the initialization processing is completed, the switching element is turned on.

In the present invention, preferably, the potential setting circuit includes a resistor having one terminal connected to the first signal line, and a resistor connected to a predetermined power supply voltage. A switching circuit connected to any one of the supply line and the reference potential line, and the control circuit connects the resistance element to the reference potential line when the main device is in a state where it cannot respond to the main device. The switching circuit is controlled so as to connect the resistance element to the power supply voltage when it is in a state capable of responding to the main device. Specifically, for example, the control circuit connects the resistance element to the reference potential line after the power is turned on until the initialization processing is completed, and after the initialization processing is completed, connects the resistance element to the power supply voltage. The above-mentioned switching circuit is controlled so as to be connected to the supply line.

A signal transmission device according to the present invention transmits a signal between a main device and a peripheral device via at least two signal lines including first and second signal lines. Wherein the main device is connected between the first signal line and the reference potential and a first resistive element is connected between the second signal line and the reference potential. A second resistance element, and the peripheral device includes a third resistance element and a switching element connected in series between the first signal line and a supply line of a predetermined power supply voltage; When the peripheral device cannot respond to the main device, the switching device is turned off. When the peripheral device is responsive to the main device, the switching device is turned on. A control circuit for maintaining the potential at a potential corresponding to the power supply voltage.

In the present invention, preferably, the control circuit turns off the switching element until the initialization processing is completed after power-on, and turns on the switching element after the initialization processing is completed. .

In the present invention, preferably, the main device has an interface circuit for transmitting and receiving signals to and from the peripheral device via the first and second signal lines. An interface circuit is provided for transmitting and receiving signals to and from the main device via the first and second signal lines.

According to the present invention, when signal transmission is performed between a main device, for example, a host computer and a peripheral device such as a printer, the main device and the peripheral device transmit signals via at least two signal lines. The exchange is performed. These signal lines are pulled down to, for example, a reference potential on the main device side. On the peripheral device side, for example, by pulling up one of the two signal lines to a potential corresponding to the power supply voltage, and detecting the potential of the two signal lines on the main device side, It is possible to determine the connection state and whether or not a response is possible. For example, after the peripheral device is connected and before the initialization process is completed, it is impossible to respond to a communication request from the main device. In this case, the potential setting circuit in the peripheral device controls so that the potential of the signal line does not change. It is appropriately controlled by a circuit. On the other hand, when the initialization processing of the peripheral device is completed and a response to the main device becomes possible, the potential setting circuit pulls up one of the two signal lines according to the control of the control circuit. To maintain the potential higher than the reference potential. By detecting a change in the potential of the signal line on the main device side, it is determined that the peripheral device is connected and is in a responsive state, and communication with the peripheral device is performed.

[0017]

DESCRIPTION OF THE PREFERRED EMBODIMENTS First Embodiment FIG. 1 is a circuit diagram showing a first embodiment of a signal transmission device according to the present invention. As illustrated, the signal transmission device according to the present embodiment includes a host device 1, a peripheral device 2, and a signal transmission line 3.
It consists of. The host device 1 is a connector 1
The peripheral device 2 is connected to the signal transmission line 3 via the connector 22.

The host device 1 includes an interface circuit 11 and pull-down resistance elements 13 and 14,
The peripheral device 2 includes an interface circuit 21 and a control circuit 2
5. Pull-up resistance element 23 and switching element 24
It consists of. In the host-side device 1, two signal terminals of the interface circuit are connected to two signal lines of the signal transmission line 3 via the connector 12, respectively. These signal terminals are connected to a ground potential, that is, a potential of 0 V, via pull-down resistance elements 13 and 14, respectively. In the peripheral device 2, two signal terminals of the interface circuit 21 are connected to two signal lines of the signal transmission line 3 via the connector 22. One of the two signal terminals of the interface circuit 21 is connected to the supply line of the power supply voltage V _DD via the resistance element 23 and the switching element 24. On / off of the switching element 24 is controlled by the control circuit 25. When the switching element 24 is turned on, the signal terminal connected to the pull-up resistance element 23 is pulled up by the power supply voltage _VDD .

The operation of the signal transmission device according to the present embodiment will be described below with reference to FIG. First, peripheral device 2
The operation of the switching element 24 and the control circuit 25 for controlling the switching element 24 will be described. The control element 25 controls the switching element 24 to be turned off immediately after the power is turned on. Therefore, when the peripheral device 2 in the power-off state is connected to the host device 1 via the signal transmission line 3,
The two signal lines of the signal transmission line 3 are held at a low potential by the pull-down resistance elements 13 and 14 connected to the signal terminals of the interface circuit 11 of the host device 1. In this state, the host-side device 1 detects the voltage level of the signal terminal of the interface circuit 11 and recognizes that the peripheral device 2 is not connected.

Thereafter, when the power of the peripheral device 2 is turned on, the peripheral device 2 performs a predetermined initialization process. Then, the control circuit 25 keeps the switching element 24 in the off state until the initialization processing ends. Therefore, during the initialization operation of the peripheral device 2, the signal line connected to the pull-up resistance element 24 is not pulled up, and the host device 1 recognizes that the peripheral device 2 is not connected. Keep doing.

When the initialization process in the peripheral device 2 is completed, the control circuit 25 turns on the switching element 24. Therefore, the interface circuit 21 of the peripheral device 2
Of the two signal terminals, the signal terminal connected to the pull-up resistor element 23 is pulled up by the power supply voltage V _DD and held at a high potential.

Since one of the two signal lines of the signal transmission line is held at a high potential and the other at a low potential due to the pull-up of the peripheral device 2, this state is detected by the host-side device 1. Since it is recognized that the peripheral device 2 is connected, communication with the peripheral device 2 is started. At this time, since the peripheral device 2 has already completed the initialization process, it can correctly respond to the host-side device 1.

In the signal transmission device of the present embodiment, the host-side device 1 detects the voltage level of the signal terminal of the interface circuit 11, and determines whether or not the peripheral device 2 is connected and the state thereof in accordance with the voltage level. For example, when both signal terminals of the interface circuit 11 are held at a low potential, the peripheral device 2 is not connected, or the peripheral device 2 is connected, but a response occurs due to an initialization operation or the like. It can be determined that the state is impossible. On the other hand, one of the two signal terminals of the interface circuit 11 has a low potential,
When the other is at a high potential, it can be determined that the peripheral device is connected and can operate normally. The host device 1
When the peripheral device 2 recognizes that it can respond based on the result of the above-described determination, communication with the peripheral device 2 is performed.

The peripheral device 2 is connected to the host device 1 via the signal transmission line 3 while the power is off. Then, when the power is turned on, an initialization process is performed, during which the control element 25 sets the switching element 24 to the off state. For this reason, the pull-up resistance element 23 does not perform the pull-up operation, and the two signal lines of the signal transmission line 3 are kept at a low potential, so that the peripheral device 2 is connected to the host-side device 1. It recognizes that there is no response or is in a non-response state, and does not perform communication with the peripheral device 2.

After the initialization of the peripheral device 2 is completed, the control circuit 25 sets the switching element 24 to the ON state. In response to this, 2 of the interface circuit 21
Of the two signal terminals, the signal terminal connected to the pull-up resistor element 23 is pulled up by the power supply voltage V _DD and held at a high potential, so that the two signal terminals of the interface circuit 11 in the host device 1 One is at a high potential and the other is at a low potential, and recognizes that the peripheral device 2 is in a state where it can respond normally.
Communication with the peripheral device 2 is started.

As described above, according to this embodiment, the host-side device 1 and the peripheral device 2 are connected via the signal transmission line 3, and the signal terminal of the interface circuit 11 in the host-side device 1 is connected to the pull-down resistance element. 13 and 14, and one of the signal terminals of the interface circuit 21 is connected to the pull-up resistor element 2 in the peripheral device 2.
3. When the peripheral device 2 is connected to the supply line of the power supply voltage V _DD via the switching element 24 and is initialized, the control circuit 25
By setting the switching element 24 to the off state, turning on the switching element after the initialization is completed, and detecting the voltage level of the signal terminal of the interface circuit 11 in the host-side device 1, the connection state of the peripheral device 2 and Since it is possible to determine whether or not a response is possible, the peripheral device 2 can be correctly recognized, and communication between the host-side device and the peripheral device 2 can be performed normally.

In the above-described embodiment, the connection order of the pull-up resistance element 23 and the switching element 24 is not limited as shown in FIG. 1 and is the same even if reversed. That is, even if the switching element 24 is connected to the signal terminal of the interface circuit 21 and the pull-up resistance element 23 is connected to the power supply voltage _VDD ,
Operates in the same manner as described above.

Second Embodiment FIG. 2 is a circuit diagram showing a second embodiment of the signal transmission device according to the present invention. As shown in FIG. 2, in the signal transmission device of the present embodiment, the other parts of the peripheral device 2a except for the switching element 24a have substantially the same configuration as that of the first embodiment shown in FIG. Therefore, in FIG. 2, the same components as those in FIG. 1 are denoted by the same reference numerals. Hereinafter, the switching element 24a in the present embodiment
And the configuration and operation of the control circuit 25a will be mainly described, and detailed description will be omitted for avoiding duplication of other portions.

The host device 1 in the signal transmission device of the present embodiment is the same as the host device 1 of the first embodiment described above.
And has the same operation. That is, the host-side device 1 detects the voltage levels of both signal terminals of the interface circuit 11, and according to the detection result, the peripheral device 2a
Is determined, and whether the peripheral device 2a can respond is determined.

The peripheral device 2a includes an interface 21,
It is composed of a pull-up resistance element 23, a switching element 24a, and a control circuit 25a. The switching element 24a is not of the on / off type like the switching element 24 in the first embodiment, but of the type that switches the connection destination. FIG.
As shown in the figure, the contact a of the switching element 24a is connected to the pull-up resistance element 23, and the contacts b and c are connected to the supply line of the power supply voltage V _DD and the ground line, respectively. The control circuit 25a controls connection of the contact a of the switching element 24a to either the contact b or c.

The operation of the control circuit 25a and the switching element 24a will be described below. After the peripheral device 2a is powered on and before the initialization process is completed, the control circuit 25a
Controls so that the contact a of the switching element 24a is connected to the contact c. Therefore, the pull-up resistance element 23
Is connected to the ground potential, and the pull-up resistance element 23
Is held at a low potential. In this case, since both signal terminals of the interface circuit 11 of the host-side device 1 are pulled down by the pull-down resistance elements 13 and 14, respectively, both signal terminals are held at a low potential. The host device 1 detects the voltage level of the signal terminal of the interface circuit 11 and recognizes that the peripheral device 2a is not connected or is in a state where it cannot respond normally.

After the initialization of the peripheral device 2a is completed, the control circuit 25a controls the contact a of the switching element 24a to switch to the contact b. In response, the signal terminal of the interface circuit 21 connected to the resistance element 23 is pulled up by the power supply voltage V _DD and is kept at a high potential. In this case, the two signal lines of the signal transmission line 3 are pulled down by the host-side device 1, but the resistance values of the pull-down resistance elements 13 and 14 provided according to the USB specification are the pull-up values of the peripheral device 2a. Since the resistance value is larger than the resistance value of the resistance element 23, the peripheral device 2
a, the signal terminal connected to the pull-up resistance element 23 is held at a high potential, and in the host-side device 1,
One of the two signal terminals of the interface circuit 11 is held at a high potential and the other at a low potential. The host-side device 1 detects this state, recognizes that the peripheral device 2a can normally respond, and starts communication with the peripheral device 2a.

As described above, according to the present embodiment, in the peripheral device 2a, the interface circuit 21
Is connected to the switching element 24a via the pull-up resistor element 23, and the control circuit 25a connects the contact a of the switching element 24a to the contact c until the initialization is completed after the peripheral device 2a is turned on. After the initialization of the peripheral device 2a is completed, the control circuit 25a connects the contact a of the switching element 24a to the contact b.
The interface circuit 11 in the host device 1
By detecting the voltage level of the signal terminal, it can be determined whether the peripheral device 2a is connected or responsive, and communication between the host-side device and the peripheral device 2a can be performed normally.

[0034]

As described above, according to the peripheral device of the present invention and the signal transmission device configured using the same, the host device detects the voltage level of each signal line constituting the signal transmission line. By doing so, there is an advantage that the connection state and the operation state of the peripheral device can be correctly recognized, and the communication between the host device and the peripheral device can be performed normally.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing a first embodiment of a signal transmission device according to the present invention.

FIG. 2 is a circuit diagram showing a second embodiment of the signal transmission device according to the present invention.

FIG. 3 is a circuit diagram illustrating a configuration example of a signal transmission device according to the USB specification.

[Explanation of symbols]

1, 101: Host-side device, 2, 2a, 102: Peripheral device, 3, 103: Signal transmission line (cable), 11, 11
1: Interface circuit of host-side device, 21, 12
1: Interface circuit of peripheral device, 12, 22, 1
12, 122 ... connector, 13, 14, 113, 114
... pull-down resistance element, 23, 123 ... pull-up resistance element, 24, 24a ... switching element, 25, 25a
... Control circuit, V _DD ... power supply voltage, GND ... ground potential.

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Masaaki Matsumoto 1-6-4 Osaki, Shinagawa-ku, Tokyo FSC Co., Ltd. F-term (reference) 5B014 EA04 EB03 FA02 FB04 GC01 GD26 GD35 GE02 GE05 5K035 AA07 BB02 CC01 CC10 DD03 EE04 FF01 FF04 GG03 GG15 HH05

Claims (10)

[Claims] 1. A peripheral device for transmitting signals to and from the main unit via at least two signal lines including a first and a second signal line held at a first potential by the main unit. A potential setting circuit that sets the first signal line to a second potential different from the first potential so that the main device can confirm connection, and is in a state where it cannot respond to the main device. When the potential setting circuit is controlled to a non-operating state, the first and second signal lines are held at the first potential, and when the potential setting circuit is responsive to the main device, the potential setting circuit is activated. And a control circuit that operates to hold the first signal line at the second potential. 2. The control circuit according to claim 2, wherein the potential setting circuit has a resistor and a switching element connected in series between the first signal line and a supply line of a predetermined power supply voltage. 2. The peripheral device according to claim 1, wherein the switching element is turned on / off according to a response state to the main device. 3. The peripheral device according to claim 2, wherein said control circuit turns off said switching element until initialization processing is completed after power-on, and turns on said switching element after said initialization processing is completed. 4. The peripheral device according to claim 1, further comprising an interface circuit for transmitting and receiving signals to and from said main device via said first and second signal lines. 5. The potential setting circuit according to claim 1, wherein one of the terminals is connected to the first signal line, and the other terminal of the resistor is connected to a predetermined power supply voltage supply line or a reference potential line. A switching circuit connected to any one of the control circuits, wherein the control circuit connects the resistance element to the reference potential line when in a state in which the main device cannot respond to the main device, so that the control device can respond to the main device. 2. The peripheral device according to claim 1, wherein the control circuit controls the switching circuit to connect the resistance element to the power supply voltage. 6. The control circuit connects the resistance element to the reference potential line until the initialization process is completed after power-on,
6. The peripheral device according to claim 5, wherein after the initialization processing is completed, the switching circuit is controlled to connect the resistance element to the power supply voltage supply line. 7. The main device has an interface circuit for transmitting and receiving signals to and from the peripheral device via the first and second signal lines. The peripheral circuit includes the first and second signal lines. 6. The peripheral device according to claim 5, further comprising an interface circuit for transmitting / receiving a signal to / from the main device via a line. 8. A signal transmission device for transmitting a signal between a main device and a peripheral device via at least two signal lines including first and second signal lines, wherein the main device is A first resistor connected between the first signal line and the reference potential, and a second resistor connected between the second signal line and the reference potential. The peripheral device comprises: a third resistive element and a switching element connected in series between the first signal line and a supply line for a predetermined power supply voltage; The switching element is turned off when it is in a state in which it cannot respond, and the switching element is turned on when it is in a state in which it can respond to the main device, and the first signal line is held at a potential corresponding to the power supply voltage. A signal transmission device having a control circuit for causing the signal to be transmitted. 9. The signal transmission device according to claim 8, wherein said control circuit turns off said switching element until initialization processing is completed after power-on, and turns on said switching element after said initialization processing is completed. . 10. The main device has an interface circuit for transmitting and receiving signals to and from the peripheral device via the first and second signal lines. The peripheral circuit includes the first and second signal lines. 9. The signal transmission device according to claim 8, further comprising an interface circuit that exchanges signals with the main device via a line.