JP2016180726A - Disconnection detection device, device with disconnection detection function, and disconnection detection method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique with which it is possible to specify the disconnected position of a differential line using a simple configuration.SOLUTION: A disconnection detection device 1 comprises a detection unit 2 and a voltage measurement unit 3. The voltage measurement unit 3 is electrically connected via an inductor 21 to a line section between a constant-voltage connection portion 14 to which a constant-voltage source 11 is electrically connected via an inductor 12 to one end of lines 6, 7 constituting a differential line 5 and a reference potential connection portion 18 to which a reference unit 15 is electrically connected via an inductor 16 to the other end of the lines 6, 7, and measures the voltage of the line section. The detection unit 2 detects whether or not there is disconnection in the lines 6, 7 and, when disconnected, detects the disconnected position on the basis of determination data that includes the reference data of a voltage value measured by the voltage measurement unit 3 when there is no disconnection in the lines 6, 7 and the reference data of a voltage value corresponding to a disconnected position that is measured by the voltage measurement unit 3 when there is disconnection in the lines 6, 7 and a measured voltage value by the voltage measurement unit 3.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a technique for detecting disconnection of a transmission line (differential line) for transmitting a differential signal.

  With the speeding up of data transfer, differential signals that can transmit data with high accuracy even at high speed are increasingly used for data transfer. For example, there are PCI Express (Peripheral Component Interconnect Express) (registered trademark) and SAS (Serial Attached SCSI (Small Computer System Interface)) (registered trademark) as interfaces related to differential signals.

  By the way, in a computer device or storage device including a plurality of circuit boards, for example, as shown in FIG. 7, a differential signal transmission path (hereinafter referred to as a differential line) passing through the plurality of circuit boards 72, 73, 74. 70) may be formed. In the example shown in FIG. 7, the circuit boards 73 and 74 constitute, for example, a control unit. Further, the circuit board 72 constitutes a backboard on which a plurality of transmission paths for electrically connecting the electric circuits formed on the circuit boards 73 and 74 are formed. The circuit boards 72 to 74 are accommodated in a common casing 71. Furthermore, electric circuits (control units) formed on the circuit boards 73 and 74 are connected to computer devices (for example, host computers) 75 and 76. The electric circuits of the circuit boards 73 and 74 are connected to a storage device (for example, a disk enclosure) 77.

  In the device as described above, when a disconnection occurs in the differential line 70, a failure may occur that prevents the device from operating normally due to the disconnection. In such a case, for example, a maintenance worker performs an operation of replacing the circuit board in which the disconnection has occurred with a normal circuit board while the apparatus is in operation. However, it is difficult to specify the disconnection position of the differential line 70 in the apparatus in operation. For this reason, the maintenance worker mistakenly replaces the circuit board in which the disconnection has not occurred, instead of the circuit board in which the disconnection has occurred. There was a situation that would occur.

  Patent Documents 1 and 2 disclose techniques for determining whether or not a disconnection has occurred in a differential line. Patent Document 3 discloses a circuit configuration for determining whether a cable connected to a device is a cable based on a conventional standard or a cable based on a new standard. Patent Document 4 discloses a technique for preventing a current higher than the rated current from being supplied to the semiconductor laser element in order to prevent the semiconductor laser element from being damaged due to the current higher than the rated current being applied to the semiconductor laser element. It is shown.

Japanese Patent Publication No. 5-65110 Japanese Patent No. 5234374 International Publication No. 2008/056719 JP 2004-152375 A

  The technique described in Patent Document 1 can specify the disconnection position of the differential line. However, there is a problem that the circuit configuration for specifying the disconnection position of the differential line shown in Patent Document 1 is complicated.

  The technique described in Patent Document 2 can determine whether or not a disconnection has occurred in the differential line. However, this technique cannot identify the disconnection position. Furthermore, in the techniques described in Patent Documents 3 and 4, it is not possible to determine whether or not a disconnection has occurred in the differential line and to specify the disconnection position when the disconnection has occurred.

  The present invention has been devised to solve the above problems. That is, the main object of the present invention is to detect whether or not a disconnection has occurred in the differential line with a simple configuration, and to specify the position of the disconnection when a disconnection has occurred. To provide technology.

In order to achieve the above object, the disconnection detection device of the present invention is:
A constant voltage connection part where a constant voltage source is electrically connected to each one end side of a pair of lines constituting a differential line for transmitting a differential signal via an inductor, and another end side of each line The voltage of the line section electrically connected via the inductor to the line section of each line between the reference potential connection portion to which the reference portion having the reference potential is electrically connected via the inductor. A voltage measuring unit for measuring
According to the reference data of the voltage value measured by the voltage measuring unit when the line is not broken, and the broken position measured by the voltage measuring unit when the line is broken. Based on the determination data including the reference data of the measured voltage value and the voltage value actually measured by the voltage measuring unit, whether or not the line is broken and whether or not the line is broken In some cases, a detection unit for detecting the disconnection position is provided.

Moreover, the device with a disconnection detection function of the present invention is
A pair of lines constituting a differential line for transmitting a differential signal; and
The disconnection detecting device of the present invention is provided.

Furthermore, the disconnection detection method of the present invention includes:
A constant voltage source is electrically connected to one end side of each pair of lines constituting a differential line for transmitting a differential signal via an inductor, and a reference potential is connected to the other end side of each line via an inductor. In the line section of the line between the connection part to which the constant voltage source is connected and the connection part to which the reference part is connected in each line. Connect the voltage measurement unit,
The voltage measuring unit measures the voltage of the line section to which the voltage measuring unit is connected,
According to the reference data of the voltage value measured by the voltage measuring unit when the line is not broken, and the broken position measured by the voltage measuring unit when the line is broken. Based on the determination data including the reference data of the measured voltage value and the voltage value actually measured by the voltage measuring unit, whether or not the line is broken and whether or not the line is broken In this case, the computer detects the disconnection position.

  According to the present invention, it is possible to detect whether or not a disconnection has occurred in a differential line with a simple configuration, and when a disconnection has occurred, the position of the disconnection can be specified.

It is a figure explaining the disconnection detection apparatus and disconnection detection method of 1st Embodiment which concern on this invention. It is a figure showing an example of the data for determination which the detection part which comprises the disconnection detection apparatus of 1st Embodiment refers. It is a figure explaining the disconnection detection apparatus and disconnection detection method of 2nd Embodiment which concern on this invention. It is a figure showing an example of the data for determination which the detection part which comprises the disconnection detection apparatus of 2nd Embodiment refers. It is a figure explaining the disconnection detection apparatus and disconnection detection method of 3rd Embodiment which concern on this invention. It is a figure showing an example of the data for determination which the detection part which comprises the disconnection detection apparatus of 3rd Embodiment refers. It is a figure showing an example of the wiring form of a differential line.

  Embodiments according to the present invention will be described below with reference to the drawings.

<First Embodiment>
FIG. 1 is a diagram illustrating a disconnection detection device and a disconnection detection method according to the first embodiment of the present invention. The disconnection detection apparatus 1 of the first embodiment is provided in an apparatus (an apparatus with a disconnection detection function (for example, a server or a storage device)) in which a differential line 5 that transmits a differential signal is formed. It is a device that performs operations related to disconnection detection.

  The differential line 5 has a mode in which lines (for example, microstrip lines) 6 and 7 forming a pair are arranged in parallel with a gap therebetween. In the first embodiment, a constant voltage source 11 is connected to an inductor 12 and a resistance portion on one end side of each of the lines 6 and 7 (on the end portion side connected to a transmission portion (driver) 9 that transmits a differential signal). 13 is electrically connected. Here, in each of the lines 6 and 7, a part to which the constant voltage source 11 is electrically connected is referred to as a constant voltage connection part 14.

  Further, a reference portion (ground) having a reference potential (for example, a ground potential) is provided on the other end side of each of the lines 6 and 7 (the end portion connected to the receiving portion (receiver) 10 that receives a differential signal). 15 is electrically connected to the inductor 16 via the resistance portion 17. Here, in each of the lines 6 and 7, a portion where the reference portion 15 is electrically connected is referred to as a reference potential connection portion 18.

  In the example of FIG. 1, a decoupling capacitor 20 is interposed on each of the lines 6 and 7 on the transmitter 9 side and the receiver 10 side.

  The disconnection detection device 1 according to the first embodiment includes a detection unit 2 and a voltage measurement unit 3. The voltage measuring unit 3 is electrically connected to the line section between the constant voltage connection portion 14 and the reference potential connection portion 18 in each of the lines 6 and 7 of the differential line 5 via the inductor 21. It has a configuration for measuring the voltage in the section. In the lines 6 and 7, the line part to which the voltage measuring unit 3 is connected is referred to as a measurement part 19.

  The detection unit 2 is provided with determination data 22 as shown in FIG. The determination data 22 includes reference data of voltage values measured by the voltage measuring unit 3 when no disconnection occurs on the lines 6 and 7. Further, the determination data 22 includes reference data of a voltage value corresponding to the disconnection position measured by the voltage measurement unit 3 when the lines 6 and 7 are disconnected. Specifically, for example, it is assumed that the voltage of the constant voltage source 11 is 1.0 volt (V) and the resistance values of the resistance units 13 and 17 are 10 kilo ohms (kΩ). In this case, as reference data of the voltage value measured by the voltage measuring unit 3 when the lines 6 and 7 are not disconnected (not generated), the determination data 22 has 0.5 volts (V). The data is given in the form associated with “None” which is data on the presence / absence of disconnection. When the lines 6 and 7 are disconnected, and the disconnection position is between the constant voltage connection part 14 and the measurement part 19 (A section), the voltage value measured by the voltage measurement unit 3 As reference data, the determination data 22 is given 0 volts (V). This reference data “0 volt (V)” is associated with “present”, which is data on the presence / absence of disconnection, and “A”, which is data on the disconnection position, in the determination data 22. Further, when the lines 6 and 7 are disconnected, and the disconnection position is between the measurement site 19 and the reference potential connection site 18 (B section), the voltage value measured by the voltage measurement unit 3 As reference data, 1.0 volts (V) is applied to the determination data 22. This reference data “1.0 volt (V)” is associated with “present”, which is data on the presence or absence of disconnection, and “B”, which is data on the disconnection position, in the determination data 22.

  Based on the determination data 22 as described above and the voltage value actually measured by the voltage measurement unit 3, the detection unit 2 determines whether or not a disconnection has occurred in the differential line 5 (lines 6 and 7). In the case of disconnection, it has a function of detecting the disconnection position. Specifically, when the voltage measurement unit 3 measures a voltage of 0.5 (V) on the line 6, the detection unit 2 refers to the determination data 22 to obtain the reference data “0.5. (V) It is detected that the disconnection presence / absence data associated with “No” is “None”. And the detection part 2 detects that the track | line 6 does not have a disconnection. In addition, when the voltage measuring unit 3 measures the voltage of 0 (V) on the line 6, the detecting unit 2 has a disconnection presence / absence associated with the reference data “0 (V)” in the determination data 22. Is detected and the disconnection position data is “A”. And the detection part 2 detects that the track | line 6 has a disconnection in A section. Further, when the voltage measurement unit 3 measures a voltage of 1.0 (V) on the line 6, the detection unit 2 is associated with the reference data “1.0 (V)” in the determination data 22. It is detected that the disconnection presence / absence data is “present” and the disconnection position data is “B”. And the detection part 2 detects that the track 6 has a disconnection in the B section. Similarly to the above, the detection unit 2 detects whether or not a disconnection has occurred and detects the disconnection position in the case of the disconnection.

  In the first embodiment, as described above, a bias voltage is applied to the lines 6 and 7 by connecting the constant voltage source 11 to the lines 6 and 7 of the differential line 5, and the lines 6 and 7 are connected to the reference portion. 15 is connected. In such an aspect, the disconnection detection device 1 according to the first embodiment is configured such that, in such an aspect, whether or not a disconnection has occurred in the lines 6 and 7, and if a disconnection has occurred, in the measurement site 19 according to the disconnection position. Utilizing the fact that the measured voltage is different, the presence / absence of the disconnection and the disconnection position are detected.

  As described above, the disconnection detection device 1 of the first embodiment has not only the presence or absence of disconnection in the lines 6 and 7 of the differential line 5, but also the disconnection position when there is a disconnection (occurs). Detection is possible with a simple configuration.

Second Embodiment
The second embodiment according to the present invention will be described below. In the description of the second embodiment, the same reference numerals are given to the same components as those constituting the disconnection detection device of the first embodiment and the device with the disconnection detection function including the same, and A duplicate description is omitted.

  FIG. 3 is a diagram for explaining a disconnection detection device and a disconnection detection method according to the second embodiment of the present invention. A device (for example, a server or a storage device) in which the disconnection detecting device 1 of the second embodiment is incorporated includes a plurality of circuit boards 24 and 25. CPUs 27 and 28 are mounted on the circuit boards 24 and 25, respectively. Each circuit board 24, 25 is formed with a differential line 5 (5a) for transmitting a differential signal from the CPU 27 to the CPU 28 and a differential line 5 (5b) for transmitting a differential signal from the CPU 28 to the CPU 27. Has been. In the second embodiment, the differential line 5 (5a, 5b) formed on the circuit board 24 and the differential line 5 (5a, 5b) formed on the circuit board 25 are connected via the connector 26. Are electrically connected.

  In the second embodiment, in the differential line 5 (5a, 5b), the constant voltage connection portion 14 is disposed on the end side close to the CPU 27, and the reference potential connection portion 18 is located on the end side close to the CPU 28. Is arranged. In other words, in the differential line 5 (5a, 5b), the constant voltage source 11 is connected to the end near the CPU 27 via the inductor 12 and the resistor 13, and the end close to the CPU 28 is The inductor 16 and the resistance portion 17 are grounded.

  The voltage measuring unit 3 constituting the disconnection detecting device 1 in the second embodiment is connected to a portion of the lines 6 and 7 constituting the differential line 5 close to the connector 26, and measures the voltage at the connecting portion. The voltage measuring unit 3 measures a voltage by using, for example, an AD (Analog to Digital) converter that performs I2C (Inter Integrated Circuit) communication with multiple channels. That is, the analog terminal of the AD converter is connected to the lines 6 and 7 of the differential line 5, and the digital terminal of the AD converter is connected to the CPU 27. The AD converter outputs a digital signal having a level corresponding to the voltage of the measurement site 19 in the lines 6 and 7 by performing analog-digital conversion on the signals input from the lines 6 and 7.

  In the second embodiment, the detection unit 2 constituting the disconnection detection device 1 is realized by a CPU 27 mounted on a circuit board (circuit board on which the voltage measurement unit 3 is provided) 24. As in the first embodiment, the detection unit 2 determines whether or not there is a disconnection in each of the lines 6 and 7 of the differential line 5 based on the determination data 22 and the voltage value actually measured by the voltage measurement unit 3. When it is disconnected, the disconnection position is detected.

  As a specific example, for example, the voltage applied to the lines 6 and 7 by the constant voltage source 11 is 3.3 volts (V), and the resistance values of the resistance portions 13 and 17 are 4.7 kiloohms (kΩ). It is assumed that the determination data 22 includes data as shown in FIG. In this case, for example, the actual measurement voltage of the measurement site 19 in the line 6 of the differential line 5a is 3.3 (V), and the actual measurement voltage of the measurement site 19 in the other lines 6 and 7 is 1.65 (V). If it is, the detection unit 2 detects as follows. That is, since the actually measured voltage of the measurement site 19 in the line 6 of the differential line 5a is 3.3 (V), the detection unit 2 determines the line of the differential line 5a based on the determination data 22 in FIG. 6, it is detected that the wire is disconnected at the position of the B section (that is, the circuit board 25). Further, since the actually measured voltage of the measurement site 19 in the other lines 6 and 7 is 1.65 (V), the detection unit 2 applies the other lines 6 and 7 to the other lines 6 and 7 based on the determination data 22 in FIG. Detects that there is no disconnection. In this way, the detection unit 2 is based on the determination data 22 and the voltage value actually measured by the voltage measurement unit 3, and whether or not there is a disconnection in each of the lines 6 and 7 of the differential line 5. In this case, the disconnection position (circuit board that is disconnected) is detected.

  Thus, the result detected by the detection unit 2 is output from the detection unit 2 to a display control unit (not shown), for example, and displayed on the display device by the display control unit. Or the detection result by the detection part 2 is output to the communication control part (not shown) from the detection part 2, and is transmitted toward the communication other party (for example, monitoring apparatus and the apparatus used for a maintenance) set beforehand. Also good. Thus, the detection result by the detection unit 2 is notified to, for example, a maintenance worker of the device (server or storage device) on which the disconnection detection device 1 is mounted by an appropriate method. And when the disconnection has occurred in the differential line 5, for example, the maintenance worker can detect the circuit board in which the disconnection has occurred in the differential line 5 based on the detection result by the detection unit 2, The detected circuit board is replaced with a normal circuit board.

  Similarly to the first embodiment, the disconnection detection device 1 according to the second embodiment detects the presence / absence of the disconnection and the disconnection position using the difference in the measurement voltage at the measurement site 19 according to the presence / absence of the disconnection and the disconnection position. doing. For this reason, this disconnection detection apparatus 1 can detect not only the presence or absence of disconnection, but also the disconnection position with a simple configuration when disconnection occurs.

  In the second embodiment, the differential line 5 is formed across the two circuit boards 24 and 25, and the measurement site 19 is disposed in the vicinity of the connection portion of the differential line 5 on the circuit boards 24 and 25. Has been. Thereby, when the differential line 5 is disconnected, the disconnection detection device 1 determines whether the disconnection position is the circuit board 24 (that is, the A section) or the circuit board 25 (that is, the B section). Can be detected.

  As described above, the disconnection detection device 1 can identify the circuit board in which the disconnection has occurred in the differential line 5 when the disconnection has occurred in the differential line 5. For this reason, for example, when the circuit board in which the differential line 5 is disconnected is replaced with a normal circuit board, the maintenance worker can replace the circuit board to be replaced based on the detection result of the disconnection detection device 1. Can be specified without hesitation, thereby improving work efficiency.

<Third Embodiment>
The third embodiment according to the present invention will be described below. In the description of the third embodiment, the same reference numerals are given to the same parts as those constituting the disconnection detection device of the first embodiment or the second embodiment and the device with the disconnection detection function provided therewith. , Overlapping description of common parts is omitted.

  FIG. 5 is a diagram illustrating a disconnection detection device and a disconnection detection method according to the third embodiment. A device (for example, a server or a storage device) in which the disconnection detecting device 1 of the third embodiment is incorporated includes three circuit boards 24, 25, and 30. Similarly to the second embodiment, CPUs 27 and 28 are mounted on the circuit boards 24 and 25, respectively. A differential line 5 for transmitting a differential signal between the CPUs 27 and 28 extends from the circuit board 24 through the circuit board 30 to the circuit board 25 from the CPU 27 to the CPU 28. In the third embodiment, the differential lines 5 formed on the circuit boards 24 and 30 are electrically connected by the connector 31 and the differential lines 5 formed on the circuit boards 30 and 25 are The connector 32 is electrically connected.

  In the third embodiment, in the differential line 5, the constant voltage connection portion 14 is disposed on the end portion side close to the CPU 27, and the reference potential connection portion 18 is disposed on the end portion side close to the CPU 28. Furthermore, in the differential line 5, the reference potential connection portion 18 is disposed in a line portion near the connector 32 in the circuit board 30. The arrangement position of the reference potential connection part 18 is determined in consideration of the arrangement position of the measurement part 19. That is, in the third embodiment, the measurement site 19 where the voltage measurement unit 3 of the disconnection detection device 1 connects to the lines 6 and 7 is a line portion close to the connector 31 in the circuit board 24. The reference potential connection portion 18 in the circuit board 30 is disposed in a line portion close to the connector 32 that is electrically separated from the connector 31 (in other words, the measurement portion 19).

  The voltage measuring unit 3 uses an AD converter as in the second embodiment. Further, the detection unit 2 by the CPU 27 disconnects the presence or absence of disconnection in the lines 6 and 7 of the differential line 5 based on the determination data 22 as shown in FIG. 6 and the actually measured voltage by the voltage measurement unit 3. If it is, the disconnection position (circuit board that is disconnected) is detected. In the determination data 22 shown in FIG. 6, the voltage applied from the constant voltage source 11 to the lines 6 and 7 is 1.0 (V), and the resistance values of the resistance units 13 and 17 are 10 (kΩ). ) Based on the condition that

  As a specific example, for example, it is assumed that the actually measured voltage of the line 6 by the voltage measuring unit 3 is 1.0 (V) and the actually measured voltage of the line 7 is 0.33 (V). In this case, the detection unit 2 relates to the line 6 based on the data on the presence / absence of the disconnection and the disconnection position associated with the reference data 1.0 (V) in the determination data 22. The circuit board 30) is detected as being disconnected. In addition, the detection unit 2 detects that the line 7 is not disconnected based on the disconnection presence / absence data associated with the reference data 0.33 (V) in the determination data 22 with respect to the line 7.

  In the disconnection detecting device 1 of the third embodiment, even if the differential line 5 is formed across the three circuit boards 24, 25, and 30, the differential line is the same as in the second embodiment. 5 is disconnected, it is possible to identify the circuit board that is disconnected. Thereby, the disconnection detection apparatus 1 of 3rd Embodiment can also acquire the effect similar to 2nd Embodiment.

<Other embodiments>
In addition, this invention is not limited to the 1st-3rd embodiment, Various embodiments can be taken. For example, in the third embodiment, an example in which the differential line 5 is formed across the three circuit boards 24, 25, and 30 is described. On the other hand, by applying the third embodiment, even when the differential line 5 is formed over four or more circuit boards, the disconnection detection device 1 is configured to use the lines 6 and 7 of the differential line 5. The presence or absence of disconnection and the disconnection position (disconnected circuit board) can be detected.

  Moreover, in 2nd Embodiment, the structural example in which the disconnection detection apparatus 1 detects disconnection of the lines 6 and 7 in the two differential lines 5 (5a, 5b) is represented. Even in the configuration shown in each of the first and third embodiments, when two differential lines 5 are formed, by applying the second embodiment, the disconnection detection device 1 is The presence or absence of disconnection in the lines 6 and 7 of the differential line 5 and the disconnection position can be detected when the disconnection occurs. Furthermore, even when three or more differential lines 5 are formed, by applying each embodiment, the disconnection detecting device 1 can detect whether or not there are disconnections in the lines 6 and 7 of the differential lines 5. When it is disconnected, the disconnection position can be detected.

  Further, in each embodiment, the reference unit 15 is ground, but may be a reference unit having a preset reference potential other than the ground potential, for example. Furthermore, although specific numerical examples of the applied voltage by the constant voltage source 11 and the resistance values of the resistance units 13 and 17 are given, the numerical examples of the applied voltage and the resistance value are only examples, and the applied voltage and An appropriate numerical value is set as the resistance value.

DESCRIPTION OF SYMBOLS 1 Disconnection detection apparatus 2 Detection part 3 Voltage measurement part 5 Differential line 6,7 line 11 Constant voltage source 12,16 Inductor 13,17 Resistance part 14 Constant voltage connection part 18 Reference potential connection part 19 Measurement part 22 Data for determination 24 , 25, 30 Circuit board

Claims (7)

A constant voltage connection part where a constant voltage source is electrically connected to each one end side of a pair of lines constituting a differential line for transmitting a differential signal via an inductor, and another end side of each line The voltage of the line section electrically connected via the inductor to the line section of each line between the reference potential connection portion to which the reference portion having the reference potential is electrically connected via the inductor. A voltage measuring unit for measuring
According to the reference data of the voltage value measured by the voltage measuring unit when the line is not broken, and the broken position measured by the voltage measuring unit when the line is broken. Based on the determination data including the reference data of the measured voltage value and the voltage value actually measured by the voltage measuring unit, whether or not the line is broken and whether or not the line is broken In some cases, a disconnection detection device includes a detection unit that detects the disconnection position. A pair of lines constituting a differential line for transmitting a differential signal; and
The apparatus with a disconnection detection function provided with the disconnection detection apparatus described in Claim 1. Both end sides of the differential line each have a form formed on different circuit boards,
A constant voltage source is connected to one end side of each line forming a pair of the differential lines via an inductor, and a reference portion having a reference potential is connected to the other end side of the line via an inductor. A voltage measurement unit is connected via an inductor in the vicinity of a connection part to which the line formed on the substrate is connected,
Based on the determination data and the voltage value actually measured by the voltage measurement unit, the detection unit of the disconnection detection device is configured to select a circuit board on which a disconnection has occurred when the disconnection occurs on the line. The apparatus with a disconnection detection function according to claim 2 to be detected. Both end sides of the differential line are formed on different circuit boards, respectively, and the differential line is connected to the other end side of the differential line from the circuit board on which one end side of the differential line is formed. In the middle of extending toward the circuit board that is formed, comprising an aspect that is formed by being drawn around at least one circuit board different from the circuit board,
A constant voltage source is connected to one end side of each of the lines forming the differential line pair via an inductor, a reference portion having a reference potential is connected to the other end side of the line via an inductor, and The reference portion is connected via an inductor to a line section of the line formed on the circuit board different from the circuit board on which both end sides of the differential line are respectively formed. A voltage measurement unit is connected via an inductor in the vicinity of a connection portion where the line of the circuit board where the line part connected to the voltage source is formed and the line formed on another circuit board is connected. Connected,
The circuit board in which the disconnection has occurred when the disconnection occurs in the line based on the determination data and the voltage value actually measured by the voltage measurement unit. The apparatus with a disconnection detection function according to claim 2, wherein the device is detected. A constant voltage source is electrically connected to one end side of each pair of lines constituting a differential line for transmitting a differential signal via an inductor, and a reference potential is connected to the other end side of each line via an inductor. In the line section of the line between the connection part to which the constant voltage source is connected and the connection part to which the reference part is connected in each line. Connect the voltage measurement unit,
The voltage measuring unit measures the voltage of the line section to which the voltage measuring unit is connected,
According to the reference data of the voltage value measured by the voltage measuring unit when the line is not broken, and the broken position measured by the voltage measuring unit when the line is broken. Based on the determination data including the reference data of the measured voltage value and the voltage value actually measured by the voltage measuring unit, whether or not the line is broken and whether or not the line is broken In this case, a disconnection detection method in which the computer detects the disconnection position. Both end sides of the differential line each have a form formed on different circuit boards,
The voltage measurement unit is connected via an inductor in the vicinity of a connection part to which the line formed on each circuit board is connected,
The computer detects the circuit board in which the disconnection has occurred when the disconnection occurs in the line based on the determination data and the voltage value actually measured by the voltage measurement unit. Disconnection detection method as described in 4. Both end sides of the differential line are formed on different circuit boards, respectively, and the differential line is connected to the other end side of the differential line from the circuit board on which one end side of the differential line is formed. In the middle of extending toward the circuit board that is formed, comprising an aspect that is formed by being drawn around at least one circuit board different from the circuit board,
The reference portion is connected via an inductor to a line section of the line formed on the circuit board different from the circuit board on which both end sides of the differential line are respectively formed. The voltage measuring unit is connected via an inductor in the vicinity of a connection portion where the line of the circuit board where the line part connected to the voltage source is formed and the line formed on another circuit board is connected. Connected,
The computer detects the circuit board in which the disconnection has occurred when the disconnection occurs in the line based on the determination data and the voltage value actually measured by the voltage measurement unit. Disconnection detection method as described in 4.

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