JP3792666B2 - Interface device, interface system, and interface device power supply selection method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an interface device and an interface system for interfacing a personal computer to an exchange, and more particularly to power supply to the interface device.
[0002]
[Prior art]
Conventionally, an interface device that accommodates a personal computer and interfaces the personal computer to an exchange is supplied with power from the personal computer through a USB (Universal Serial Bus) interface.
[0003]
[Problems to be solved by the invention]
However, high-frequency noise during operation of the personal computer and switching noise of the power supply system enter the power supply circuit of the interface device via the USB interface, and these noises limit the transmission speed of the link between the interface device and the exchange. .
[0004]
Therefore, the link transmission speed depends on the transmission speed of the personal computer used by the user, and there is a problem that a stable transmission speed cannot be expected for each user.
[0005]
In particular, an interface device that interfaces with an exchange via ADSL (asymmetric digital subscriber line) has a problem that the link transmission speed when connecting the exchange and the link is limited by these noises and decreases.
[0006]
Further, since the interface device is supplied with power from a personal computer, the interface device cannot be powered on alone. For this reason, at the time of maintenance, the personal computer and the interface device cannot be separated, and there is a problem that it takes time for maintenance.
[0007]
As one solution to this problem, a technique is disclosed in which power is supplied to an interface circuit by selecting a plurality of power supplies according to priority (for example, Patent Document 1).
[0008]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-125686 (pages 3-4, figure)
An object of the present invention is to provide a technique for solving such a conventional problem and supplying power by selecting from a plurality of power supplies so that the link transmission speed can be increased.
[0009]
[Means for Solving the Problems]
The interface device of the present invention is an interface device that is connected to a computer and interfaces the computer to an exchange,
A main power supply,
A first power supply circuit that generates a first in-device power supply from a power supply fed from the computer;
A second power supply circuit that generates a second in-device power supply from the main power supply;
According to the selection instruction from the signal processing unit, one of the first in-device power source and the second in-device power source is selected, and the selected in-device power source is supplied to the interface device. A power supply selection unit,
When the in-device power supply from the first power supply circuit and the in-device power supply from the second power supply circuit are established, a link connection is established between the exchanges to obtain a transmission rate, and based on these transmission rates, the device The signal processing unit for causing the power source selection unit to select an internal power source; and
It is characterized by having.
[0010]
The interface system of the present invention is an interface system comprising a computer, a first interface device connected to the computer, and a switch door. The switch is connected to the first interface device through a communication line. An interface system including two interface devices,
The computer has means for supplying power to the first interface device,
The second interface device includes means for transmitting and receiving signals to and from the first interface device via the communication line;
The first interface device includes:
A main power supply,
A first power supply circuit that generates a first in-device power supply from a power supply fed from the computer;
A second power supply circuit that generates a second in-device power supply from the main power supply;
In accordance with a selection instruction from the signal processing unit, one of the first in-device power source and the second in-device power source is selected, and the selected in-device power source is set in the own device. A power supply selection section to supply,
When supplying power in the first device and supplying power in the second device, at the time of supply, a link connection between the exchanges is established to determine a transmission rate, and based on these transmission rates The signal processing unit for causing the power source selection unit to select the power source in the apparatus;
It is characterized by having.
[0011]
Further, the interface device power supply selection method of the present invention is a method for selecting a power supply for an interface device, which is provided between a computer and an exchange, has a main power supply, and can also supply power from the computer,
During power feeding from the main power supply, establish a link with the exchange, and determine the first transmission speed that is the transmission speed at that time ,
Establishing a link with the exchange at the time of power supply from the computer, and obtaining a second transmission rate that is a transmission rate at that time,
Based on the first transmission rate and the second transmission rate, the power supply from the main power source or the computer is selected.
It is characterized by that.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings.
[0016]
FIG. 1 is a configuration block diagram of an embodiment of the present invention.
[0017]
Referring to FIG. 1, an interface system according to an embodiment of the present invention includes a personal computer 201 that is a communication terminal and a terminal-side first ADSL interface that connects the personal computer 201 with a USB interface including a USB (Universal Serial Bus) cable 140. An apparatus 101, a main power supply 110 for supplying commercial power to the terminal-side first ADSL interface apparatus 101, an exchange-side second ADSL interface apparatus 301 provided in the exchange, a terminal-side first ADSL interface apparatus 101, and an exchange-side second ADSL interface apparatus 201 And an ADSL (Asymmetric Digital Subscriber Line) line 150 for connecting the two.
[0018]
The terminal-side first ADSL interface apparatus 101 includes a digital signal processing unit 102, a storage unit 103, an analog signal processing unit 104, a line driving unit 105, a line interface unit 106, a first power supply circuit 107, and a second power supply. The circuit 108, the power source selection unit 109, and the personal computer interface unit 120 are included.
[0019]
The digital signal processing unit 102 has a function for controlling the terminal-side first ADSL interface apparatus 101, a function for link-connecting to the exchange-side second ADSL interface apparatus 301 on the ADSL line 150, a personal computer 201, and an analog The function of exchanging digital signals with the signal processing unit 104 and the state of the first power supply circuit 107 and the second power supply circuit 108 are monitored, and either the first power supply circuit 107 or the second power supply circuit 108 is selected. A function of sending a selection instruction to the power source selection unit 109;
[0020]
The storage unit 103 stores a connection procedure for the digital signal processing unit 102 to link-connect (link up) with the exchange-side second ADSL interface device 301 on the ADSL line 150, and the link transmission speed when the link connection is established. Remember.
[0021]
The analog signal processing unit 104 performs AD (analog-digital) conversion of the ADSL signal from the ADSL line 150 into a digital signal, sends the digital signal to the digital signal processing unit 102, and the digital signal from the digital signal processing unit 102 DA (digital-analog) conversion from ADSL signal to ADSL signal, a function of sending this ADSL signal to the line driver 105, a gain adjustment function of the ADSL signal, and a low-pass filter function of the ADSL signal.
[0022]
The line driving unit 105 outputs an ADSL signal including transmission data from the analog signal processing unit 104 to the line interface unit 106.
[0023]
The line interface unit 106 includes a line transformer that converts a signal suitable for the ADSL line 150 and a protection circuit for protecting the internal circuit, and transmits and receives ADSL signals via the ADSL line 150.
[0024]
The personal computer interface unit 120 has a USB interface, and interfaces with the personal computer 201 via a USB cable 140 composed of a power feeding line and a digital signal carrying line, and digital signals transmitted to and received from the personal computer 201 are converted into digital signals. The power is supplied from the personal computer 201 to the first power supply circuit 107 while being relayed to the processing unit 102.
[0025]
The first power supply circuit 107 uses the power supplied from the personal computer 201 via the personal computer interface unit 120 to generate power used in the terminal-side first ADSL interface apparatus 101, and selects the generated power as the power supply. Output to the unit 109.
[0026]
The second power supply circuit 108 generates power to be used inside the terminal-side first ADSL interface apparatus 101 using the power supplied from the main power 110 and outputs the generated power to the power selection unit 109.
[0027]
The power source selection unit 109 selects one of the power source from the first power source circuit 107 and the power source from the second power source circuit 108 according to the selection instruction from the digital signal processing unit 102, and the selected power source is selected. Power is supplied to each of the components constituting the terminal-side first ADSL interface apparatus 101.
[0028]
The exchange-side second ADSL interface device 301 transmits and receives ADSL signals to and from the terminal-side first ADSL interface device 101 via the ADSL line 150.
[0029]
Next, the operation of the embodiment of the present invention will be described in detail with reference to the drawings.
<Power supply from personal computer only>
First, an operation in which power is supplied from the personal computer 201 without supplying power from the main power supply 110 to the terminal-side first ADSL interface apparatus 101 will be described.
[0030]
Referring to FIG. 1, when power is not supplied from the main power supply 110 to the terminal-side first ADSL interface apparatus 101, the personal computer 201 and the personal computer interface unit 120 of the terminal-side first ADSL interface apparatus 101 are connected by the USB cable 140. Then, the first power supply circuit 107 uses the power supplied from the personal computer 201 to generate a power supply for supplying power to the components constituting the terminal-side first ADSL interface apparatus 101, and uses the generated power supply as a power supply. The data is output to the selection unit 109.
[0031]
Since the second power supply circuit 108 is not supplied with power from the main power supply 110, nothing is output to the power supply selection unit 109.
[0032]
The power source selection unit 109 selects the power source from the first power source circuit 107 and supplies the power source to each of the constituent units constituting the terminal-side first ADSL interface apparatus 101.
[0033]
Based on the connection procedure stored in the storage unit 103, the digital signal processing unit 102 performs negotiation for link connection with the exchange-side second ADSL interface device 201.
[0034]
That is, the digital signal processing unit 102 sends a negotiation signal for negotiation to the analog signal processing unit 104.
[0035]
The analog signal processing unit 104 performs D / A conversion on the negotiation signal and sends it to the line driving unit 105.
[0036]
The line driving unit 105 sends the DA-converted negotiation signal from the analog signal processing unit 104 to the line interface unit 106.
[0037]
The line interface unit 106 transmits this negotiation signal to the exchange-side second ADSL interface apparatus 201 via the ADSL line 150.
[0038]
On the other hand, the exchange-side second ADSL interface apparatus 201 transmits a negotiation signal to the terminal-side first ADSL interface apparatus 101 via the ADSL line 150.
[0039]
The line interface unit 106 of the terminal-side first ADSL interface apparatus 101 receives the negotiation signal from the exchange-side second ADSL interface apparatus 201 and sends it to the analog signal processing unit 104.
[0040]
The analog signal processing unit 104 converts this negotiation signal from analog to digital and sends it to the digital signal processing unit 102.
By transmitting and receiving such a negotiation signal, the terminal-side first ADSL interface apparatus 101 and the exchange-side second ADSL interface apparatus 201 negotiate to complete the link connection.
[0041]
When the link connection is completed, the digital signal processing unit 102 of the terminal-side first ADSL interface apparatus 101 sends state information including that the link connection is completed to the personal computer 201 via the personal computer interface 120. This status information includes the transmission rate of the link.
[0042]
The personal computer 201 receives status information from the digital signal processing unit 102 and recognizes whether link connection is possible and the transmission speed.
<Power supply from main power only>
Next, an operation when power is supplied from the main power supply 110 to the terminal-side first ADSL interface apparatus 101 and the personal computer 201 and the personal computer interface 120 of the terminal-side first ADSL interface apparatus 101 are not connected by the USB cable 140 will be described. explain.
[0043]
Referring to FIG. 1, when power is supplied from main power supply 110, second power supply circuit 108 generates power for each component in terminal-side first ADSL interface apparatus 101 using this power supply and supplies this power supply. Output to the power source selection unit 109.
[0044]
On the other hand, the first power supply circuit 107 outputs nothing to the power supply selection unit 109 because no power is supplied from the personal computer 201.
[0045]
The power supply selection unit 109 selects the power supply from the second power supply circuit 108 and supplies this power supply to each component of the terminal-side first ADSL interface apparatus 101.
[0046]
Thereafter, for link connection, the terminal-side first ADSL interface apparatus 101 performs the same operation as the link connection described in the section <Power supply from only a personal computer>.
<Selection of power supply from main power supply and personal computer>
FIG. 2 is a flowchart of a power source selection operation.
[0047]
The operation when power is supplied from the main power supply 110 to the terminal-side first ADSL interface apparatus 101 and then the personal computer 201 and the personal computer interface 120 of the terminal-side first ADSL interface apparatus 101 are connected by the USB cable 140 will be described.
[0048]
Referring to FIG. 2, terminal-side first ADSL interface apparatus 101 first selects and supplies power from second power supply circuit 108 by main power supply 110 (step S10), and digital signal processing unit 102 performs link connection. Is executed (step S11). At this time, the digital signal processing unit 102 stores the link transmission rate (hereinafter, second transmission rate) when the link connection is established using the main power source 110 in the storage unit 103 (step S12).
[0049]
Next, when the personal computer 201 is connected to the terminal-side first ADSL interface apparatus 101, the personal computer 201 supplies power to the first power supply circuit 107 via the USB cable 140 (step S13).
[0050]
At this time, the first power supply circuit 107 generates power using the main power supply 110, and the second power supply circuit 108 generates power using the personal computer 201.
[0051]
Next, the digital signal processing unit 102 checks the states of the first power supply circuit 107 and the second power supply circuit 108 and recognizes that both the first power supply circuit 107 and the second power supply circuit 108 generate power. To do.
[0052]
Then, the digital signal processing unit 102 that has recognized that the second power supply circuit 108 generates power supplies a power supply circuit switching instruction that is an instruction to switch the power supply circuit to be used to the power supply selection unit 109.
[0053]
When receiving the power supply circuit switching instruction, the power supply selection unit 109 switches the power supply used in the terminal-side first ADSL interface apparatus 101 from the second power supply circuit 108 to the first power supply circuit 107 (step S13).
[0054]
When the digital signal processing unit 102 checks the state of the power supply selection unit 109 and confirms that the second power supply circuit 108 has been switched to the first power supply circuit, the digital signal processing unit 102 performs link connection again (step S15). At this time, the digital signal processing unit 102 stores the link transmission rate (hereinafter referred to as the first transmission rate) when the link connection is made using the first power supply circuit in the storage unit 103 (step S16). Here, the first transmission speed of the link depends on the personal computer 201 and is different from the second transmission speed of the link when the main power supply 110 is used for link connection.
[0055]
Next, the digital signal processing unit 102 refers to the storage unit 103, the first transmission speed of the link when the first power supply circuit 101 from the personal computer 201 is linked and the second power supply from the main power supply 110. The second transmission rate of the link when the link is connected by the circuit 108 is compared (step S17), and it is determined which of the first transmission rate and the second transmission rate is higher.
[0056]
Then, the digital signal processing unit 102 sends a power supply circuit switching instruction to the power supply selection unit 109 so as to select a power supply circuit that can be linked with a higher transmission rate.
[0057]
For example, when the first transmission rate is higher than the second transmission rate (high in step S17), the digital signal processing unit 102 instructs the power supply selection unit 109 to select the first power supply circuit 107 (step S18).
[0058]
On the other hand, when the second transmission rate is higher than the first transmission rate (No in step S17), the digital signal processing unit 102 instructs the power supply selection unit 109 to select the second power supply circuit 108 (step S19).
[0059]
The power source selection unit 109 switches and selects one of the first power circuit 107 and the second power circuit 108 based on a power circuit switching instruction from the digital signal processing unit 102.
[0060]
【The invention's effect】
As described above, according to the present invention, when the terminal-side first ADSL interface device is linked to the switch-side second ADSL interface device, the link transmission speed by each of the plurality of power sources including the power source from the personal computer and the main power source is increased. Compared to the above, it is configured to select a power supply that can obtain a higher link transmission speed, so it is not limited to a link transmission speed determined by only one type of power supply, and communication between interfaces at a stable and higher transmission speed. Can be obtained.
[0061]
Further, the present invention is configured so that link connection can be performed by supplying power from the main power supply without using a personal computer. Therefore, when a failure occurs in the field, the personal computer and the first ADSL interface device on the terminal side are separated. Therefore, it is possible to obtain an effect that the failure evaluation can be easily performed and the maintenance time can be shortened.
[Brief description of the drawings]
FIG. 1 is a configuration block diagram of an embodiment of the present invention.
FIG. 2 is a flowchart of a power source selection operation.
[Explanation of symbols]
101 First ADSL Interface Device 102 Digital Signal Processing Unit 103 Storage Unit 104 Analog Signal Processing Unit 105 Line Drive Unit 106 Line Interface Unit 107 First Power Supply Circuit 108 Second Power Supply Circuit 109 Power Supply Selection Unit 120 Personal Computer Interface Unit 140 USB Cable 150 ADSL Line 201 personal computer 301 second ADSL interface device

Claims (3)

An interface device connected to a computer and interfacing the computer to an exchange,
A main power supply,
A first power supply circuit that generates a first in- device power supply from a power supply fed from the computer;
A second power supply circuit that generates a second in-device power supply from the main power supply;
According to the selection instruction from the signal processing unit, one of the first in-device power source and the second in- device power source is selected, and the selected in-device power source is supplied to the interface device. A power supply selection unit,
When the in-device power supply from the first power supply circuit and the in-device power supply from the second power supply circuit are established, a link connection is established between the exchanges to obtain a transmission rate, and based on these transmission rates, the device The signal processing unit for causing the power source selection unit to select an internal power source; and
An interface device comprising: An interface system comprising a computer, a first interface device connected to the computer, and an exchange door, wherein the exchange is an interface system including a second interface device connected to the first interface device via a communication line. And
The computer has means for supplying power to the first interface device,
The second interface device includes means for transmitting and receiving signals to and from the first interface device via the communication line;
The first interface device includes:
A main power supply,
A first power supply circuit that generates a first in-device power supply from a power supply fed from the computer;
A second power supply circuit that generates a second in-device power supply from the main power supply;
In accordance with a selection instruction from the signal processing unit, one of the first in-device power source and the second in-device power source is selected, and the selected in-device power source is set in the own device. A power supply selection section to supply,
When supplying power in the first device and supplying power in the second device, at the time of supply, a link connection between the exchanges is established to determine a transmission rate, and based on these transmission rates The signal processing unit for causing the power source selection unit to select the power source in the apparatus;
An interface system comprising: A power supply selection method for an interface device that is provided between a computer and an exchange, has a main power supply, and can also be fed from the computer,
When power is supplied from the main power source, a link is established with the switch, and the transmission speed at that time is 1 The transmission speed of
Establishing a link with the exchange at the time of power supply from the computer, and obtaining a second transmission rate that is a transmission rate at that time,
Said 1 Transmission speed and number 2 Select power supply from the main power supply or the computer based on the transmission speed of
A method for selecting a power supply for an interface device.

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