JP4729153B2 - Measuring instrument control adapter, measuring system, measuring instrument control method, and recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a measuring instrument control adapter connected to one network and connected to a measuring instrument that performs a predetermined measurement process via another network, a measuring system having the measuring instrument control adapter, a measuring instrument control method, and The present invention relates to a recording medium.
[0002]
[Prior art]
A measuring instrument that performs a predetermined measurement process is controlled by a computer such as a personal computer, for example. When a measuring instrument is controlled by a computer, generally, the computer and the measuring instrument are connected by GPIB (General Purpose Interface Bus, IEEE488). When a measuring instrument is controlled by a computer via GPIB, it is necessary to use a GPIB communication card dedicated to measuring instrument control.
By the way, in recent years, the development of computer networks such as Ethernet has been remarkable, the communication speed has been improved, and the communication cost has been reduced. Therefore, computers and measuring instruments are connected via Ethernet, and measuring instruments equipped with Ethernet ports as standard equipment have been developed.
[0003]
On the other hand, an Ether-GPIB converter that mediates between GPIB and Ethernet is used to control existing measuring instruments via Ethernet. In this case, the computer transmits a control command for the measuring instrument to the Ether-GPIB exchange, and the Ether-GPIB exchange transmits the received control command to the measuring instrument via the GPIB. The Ether-GPIB exchange transmits measurement data from the measuring instrument to the computer via the Ethernet.
[0004]
[Problems to be solved by the invention]
When the Internet or an intranet is used as the Ethernet, there are communication packets other than the communication command, and therefore the time until the control command transmitted from the computer reaches the Ether-GPIB converter is indefinite. For this reason, the problem that a measuring instrument cannot be controlled appropriately arises. Furthermore, the time for the measurement data transmitted from the measuring device to reach the computer from the Ether-GPIB converter is also indefinite. In addition, since Ethernet is intended to transfer packet data that is, for example, about 1000 bytes, there is a problem that when a large number of tens of bytes of data is transmitted, the so-called overhead ratio increases, which is the worst case. Causes a problem that the measuring instrument cannot be properly controlled.
[0005]
Accordingly, an object of the present invention is to provide a measuring instrument control adapter, a measuring system having the measuring instrument control adapter, a measuring instrument control method, and a recording medium that can solve the above-described problems. This object is achieved by a combination of features described in the independent claims. The dependent claims define further advantageous specific examples of the present invention.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the measuring instrument control adapter according to the first embodiment of the present invention is connected to a measuring instrument that is connected to the first network and performs a predetermined measuring process via the second network. A measuring instrument control adapter that receives a control program for performing measurement processing from a first network, a storage section that stores the control program, and a measuring instrument via the first network When a start instruction is received by the start instruction receiving unit that receives a measurement process start instruction and the start instruction receiving unit, a control command for controlling the measuring device is generated based on a control program stored in the storage unit A command generator,
It has a command transmission part which transmits the said control command to a measuring device via a 2nd network, and a measurement result receiving part which receives the measurement result of a measurement process from a measuring device, It is characterized by the above-mentioned.
[0007]
You may make it further provide the measurement result transfer part which transmits a measurement result via a 1st network. It may further include a transmission destination storage unit that stores identification information of the transmission destination of the measurement result, and the measurement result transfer unit may transmit the measurement result to the transmission destination based on the identification information. A transmission destination receiving unit that receives the identification information of the transmission destination of the measurement result via the first network, and a transmission destination registration unit that stores the received identification information of the transmission destination in the transmission destination storage unit Also good.
[0008]
The program receiving unit receives at least a part of each of the plurality of control programs, the storage unit stores the plurality of control programs, and the command generation unit selects a control program to be executed from the storage unit based on the start instruction Then, the control command may be generated based on the control program. The measurement result transfer unit converts an object having a measurement result converted into a predetermined data format, the measurement result converted into a predetermined data format, and information or a program for converting the measurement result into a data format before conversion. You may make it transmit to a 2nd network.
[0009]
You may make it further provide the error detection part which detects the predetermined | prescribed error at the time of a measurement process, and the error information transmission part which transmits the information regarding an error via a 1st network. The first network may be an Ethernet. The second network may be GPIB (GPIB). A program execution unit capable of executing a program written in Java language, the control program is written in Java language, and at least one of the command generation unit and the command transmission unit is a program The execution unit may be configured by executing a control program.
[0010]
In order to achieve the above object, a measuring instrument system according to a first aspect of the present invention includes a measuring instrument that performs a predetermined measuring process, a control host that controls the measuring process by the measuring instrument, and a first network. A measuring system connected to a control host and having a measuring instrument control adapter connected to the measuring instrument via a second network, the control host transmitting a control program to the measuring instrument control adapter; A start instruction transmission unit that transmits a measurement process start instruction by the measuring instrument, and the measuring instrument control adapter receives a control program for controlling the measuring instrument via the first network; and A storage unit for storing the control program, a start instruction receiving unit for receiving an instruction to start measurement processing by the measuring instrument via the first network, and a start instruction When a command is received, the command generation unit generates a control command based on the control program stored in the storage unit, and the control command is transmitted via the second network based on the control program stored in the storage unit. A command transmission unit for transmitting to the measuring instrument, and a measurement result receiving unit for receiving a measurement result of the measurement process from the measuring instrument, the measuring instrument performing a measurement process based on the transmitted control command; It has a measurement result transmission part which transmits the measurement result of a measurement process to a measuring instrument control adapter.
[0011]
The measuring system is further connected to the measuring instrument control adapter via the first network, and further includes a display host for displaying the result of the measuring process by the measuring instrument. The measuring instrument control adapter transmits the measuring result via the first network. The display host includes a measurement result transfer unit that transmits to the display host, and the display host includes a second measurement result reception unit that receives the measurement result transmitted from the measurement result transfer unit, and a display unit that displays the measurement result. You may do it.
[0012]
The measuring instrument control adapter includes a transmission destination storage unit that stores identification information of a display host that is a transmission destination of a measurement result, and a transmission that receives identification information of a display host that is a transmission destination of the measurement result via the first network. The receiver further includes a destination receiver and a destination registration unit that stores the received identification information in the destination storage unit, and the measurement result transfer unit transmits the measurement result to the display host of the destination based on the identification information, The display host may further include a transmission destination information transmission unit that transmits the identification information of the display host to the measuring instrument control adapter via the first network.
[0013]
The measuring instrument control adapter further includes an error detection unit that detects a predetermined error during the measurement process, and an error information transmission unit that transmits information about the error to the control host via the first network. An error information receiving unit that receives information about errors transmitted via the first network and an error display unit that displays information about received errors may be further included.
[0014]
In order to achieve the above object, a measuring instrument control method according to a first aspect of the present invention is a measuring instrument that is connected via a first network and performs a predetermined measurement process via a second network. A measuring instrument control method for controlling a measuring instrument in a measuring instrument control adapter connected to a program receiving step for receiving a control program for controlling the measuring instrument from the first network, and starting execution of the control program A start receiving step for receiving the instruction, a command generating step for generating a control command based on the control program when the start instruction is received, and transmitting the generated control command to the measuring device via the second network. A measurement command transmission step, a measurement result reception step for receiving the measurement result via the second network, and a measurement result The and having a measurement result transmitting step of transmitting through the first network.
[0015]
In order to achieve the above object, the recording medium according to the first embodiment of the present invention is connected to the measuring device that is connected via the first network and performs a predetermined measurement process via the second network. A recording medium on which a program to be executed by the measuring instrument control adapter is recorded, a program receiving module for receiving the control program for controlling the measuring instrument from the first network, and a storage module for storing the control program And a start receiving module for receiving an instruction to start execution of the control program.
The above summary of the invention does not enumerate all necessary features of the present invention, and sub-combinations of these feature groups can also be the invention.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described through embodiments of the invention. However, the following embodiments do not limit the invention according to the claims, and all combinations of features described in the embodiments are included. It is not necessarily essential for the solution of the invention.
FIG. 1 is a configuration diagram of a measurement system according to the first embodiment of the present invention. This measurement system includes a control host system 10, a display host system 30, a measurement instrument control adapter 60, and a measurement instrument 100. The control host system 10 and the display host system 30 and the measuring instrument control adapter 60 are connected by an Ethernet 50 which is an example of a network. The measuring instrument 100 and the measuring instrument control adapter 60 are connected by a GPIB 90 as an example of a network.
[0017]
The control host system 10 includes a display unit 12, an input unit 14, a control program creation unit 16, a program storage unit 18, a control program transmission unit 20 as an example of a program transmission unit, a start instruction transmission unit, and error information. And a control program execution control unit 22 as an example of a reception unit. In this embodiment, the control host system 10 is a personal computer equipped with Windows 95 (Windows is a trademark) of Microsoft (trademark) as an operating system. In the present embodiment, each of the above-described units is configured by a personal computer executing an application.
[0018]
The input unit 14 includes an input device such as a mouse and a keyboard, for example, and receives various inputs from the user. In the present embodiment, the input unit 14 receives an input of a Java (trademark) language control program in text format from a user. Further, the input unit 14 receives identification information (for example, a name) of a control program to be transmitted and a transmission instruction. Further, the input unit 14 receives identification information (for example, name) and a start instruction of a control program to be executed. Further, the input unit 14 receives an instruction to stop execution of the executed control program.
[0019]
The display unit 12 includes a display device and displays various types of information.
FIG. 2 is an example of a display screen displayed on the display unit of the control host system according to the first embodiment of the present invention. The display screen displayed by the display unit 12 of the control host system 10 includes a control program name designation field 130A, a control program transmission button 130B, an execution control program name designation field 130C, and a control program execution start command transmission button 130D. It has a control program execution stop command transmission button 130E and a control program execution error notification field 130F.
[0020]
The control program name designation field 130A is an area for receiving an input of the name of the control program transmitted by the input unit 14. The control program transmission button 130B is a button for receiving an instruction to transmit a control program. The execution control program name designation field 130C is an area for receiving an input of the name of the control program to be executed. The control program execution start command transmission button 130D is a button for receiving an instruction to execute the control program. The control program execution stop command transmission button 130E is a button for receiving an instruction to stop execution of the control program. The control program execution error notification field 130F is an area for displaying information relating to an error during execution of the control program.
[0021]
Returning to FIG. 1, the control program creation unit 16 displays a user interface for describing the control program on the display unit 12 and creates and edits the control program by inputting to the user interface by the input unit 14. Provide a development environment. In this embodiment, the control program is created in the Java language, and the control program creation unit 16 does not illustrate a program that provides a Java program development environment such as VisualCafe (trademark) of Symantec (trademark), for example. It is configured by being executed by the CPU. In the present embodiment, the control program creating unit 16 compiles a text-format Java language control program input from the user and converts it into an intermediate language format, that is, a Java bytecode.
[0022]
The program storage unit 18 stores the control program created by the control program creation unit 16. The control program transmission unit 20 reads the created control program from the program storage unit 18 and transmits it to the measuring instrument control adapter 60. In the present embodiment, the control program transmission unit 20 takes out a control program to be transmitted input from the input unit 14 from the program storage unit 18, and uses a socket (control program transfer) for transferring the control program over the Ethernet 50. The program is transmitted to the program receiving unit 62 using a socket.
Here, when transmitting the measuring instrument control program, other protocols such as FTP (File Transfer Protocol) and HTTP (Hyper Text Transfer Protocol) may be used without using a socket.
[0023]
The control program execution control unit 22 transmits the start instruction to the start instruction receiving unit 66 based on the input of the start instruction by the input unit 14. In the present embodiment, the control program execution control unit 22 uses the socket (execution start / stop socket) for transmitting an execution start or stop instruction on the Ethernet 50 for the name of the control program to be executed. Send to. Further, the control program execution control unit 22 receives information (error information) related to an error from the error transmission unit 80 using a socket (program execution error socket) for transmitting a program execution error in the Ethernet 50, and the error information Is displayed on the display unit 12.
[0024]
The display host system 30 includes an input unit 34, a display unit 32, a transmission destination registration reception unit 36, a transmission destination information transmission unit 38, and a measurement data reception unit 40 as an example of a second measurement information reception unit. Have. In this embodiment, the control host system 10 is a personal computer equipped with Microsoft Windows 95 as an operating system.
[0025]
The input unit 34 receives input of various information from the user.
The display unit 32 has a display device and displays various types of information.
FIG. 3 is an example of a display screen displayed on the display unit of the display host system according to the first embodiment of the present invention. The display screen displayed by the display unit 32 of the display host system 30 includes a measurement data transmission source designation field 140A, a registration button 140B, and a measurement data display field 140C. The measurement data transmission source designation field 140A is an area for inputting identification information of the measuring instrument control adapter 60 that causes the display host system 30 to transmit a measurement result. The registration button 140B is a button for instructing the measuring instrument control adapter 60 described in the measurement data transmission source designation field 140A to register the identification information of the display host system 30. The measurement data display field 140C is an area for displaying measurement results.
[0026]
Returning to FIG. 1, the transmission destination registration receiving unit 36 receives the identification information and registration instruction of the measuring instrument control adapter 60 that transmits the measurement result from the input unit 34. The transmission destination information transmission unit 38 transmits the identification information of the display host system 30 to the control adapter 60 corresponding to the identification information received by the transmission destination registration reception unit 36. In the present embodiment, the transmission destination information transmission unit 38 transmits identification information using a socket (transmission destination transfer socket) for transmitting identification information on the Ethernet 50.
[0027]
Here, identification information such as an Internet Protocol (IP) address is assigned to a device connected to the network in order to identify the device. This IP address is numerical and difficult for the user to handle. Therefore, in the present embodiment, the transmission destination registration receiving unit 36 receives the name of a character string that is uniquely assigned to the measuring instrument control adapter 60 on the network as identification information, for example, “adapter1”. Then, the transmission destination information transmission unit 38 converts the name of the character string into an IP address by a DNS (Domain Name Service) server (not shown) connected to the Ethernet 50, and displays the IP address as a destination. 30 IP addresses are transmitted.
[0028]
The measurement data receiving unit 40 receives measurement data from the measuring instrument control adapter 60 via the Ethernet 50, and outputs the measurement data to the display unit 32 for display. In the present embodiment, the measurement data receiving unit 40 receives measurement data using a measurement data socket on the Ethernet 50.
[0029]
The measuring instrument control adapter 60 includes a program reception unit 62, a storage unit 64 as an example of a transmission destination storage unit, a start instruction reception unit 66, a transmission destination reception unit 68, and a program execution unit 70. The program receiving unit 62 receives a control program from the control host system 10 via the Ethernet 50. In the present embodiment, the program receiving unit 62 receives a control program and a program name using a control program transfer socket on the Ethernet 50. The transmission destination receiver 68 receives the identification information of the display host system 30 that is the transmission destination of the measurement result from the display host system 30 via the Ethernet 50. In the present embodiment, the transmission destination receiver 68 receives the identification information using a transmission destination transfer socket in the Ethernet 50.
[0030]
The storage unit 64 stores the control program received by the program receiving unit 62. In the present embodiment, the control program received by the program receiving unit 62 is stored in association with the received name. The storage unit 64 stores identification information of the display host system 30 that is a transmission destination of the measurement result. Here, identification information of a plurality of display host systems 30 that are transmission destinations of measurement results may be stored. The storage unit 64 stores various programs that are called by the control program. In the present embodiment, command creation software for generating a control command unique to the measuring instrument 100 is stored as a called program. The command creation software may be transmitted together with the control program from the control host system. Further, it may be read from another computer via the Ethernet 50. In the present embodiment, command creation software is stored in the storage unit 64 in advance.
[0031]
The start instruction receiving unit 66 receives an instruction to start execution of the control program from the control host system 10 via the Ethernet 50. In the present embodiment, the start instruction receiving unit 66 receives the name of the control program to be executed using the execution start / stop socket in the Ethernet 50.
[0032]
The program execution unit 70 executes the control program stored in the storage unit 64 when the start instruction receiving unit 68 receives the start instruction. In the present embodiment, the program execution unit 70 extracts the control program associated with the name received by the start instruction reception unit 66 from the storage unit 64 and executes it. The program execution unit 70 includes a command generation unit 72, a communication unit 74 as an example of a command transmission unit and a measurement result reception unit, a measurement data transfer unit 76 as an example of a measurement result transfer unit, and an example of an error information transmission unit. As an error transmission unit 80 and an error detection unit 78. These units are configured by the program execution unit 70 executing the control program. In the present embodiment, the command generation unit 72 is configured by the program execution unit 70 executing command creation software.
[0033]
The command generation unit 72 generates a control command for causing the measuring instrument 100 to perform measurement processing. The communication unit 74 transmits the control command generated by the command generation unit 72 to the measuring device 100 via the GPIB 90. Further, the communication unit 74 receives the measurement result from the measuring instrument 100 via the GPIB 90.
[0034]
The measurement data transfer unit 76 transmits the measurement result received by the communication unit 74 to the display host system 30 via the Ethernet 50. In the present embodiment, the measurement data transfer unit 76 converts the measurement result into a predetermined data format, the measurement result converted into the predetermined data format, and information for converting the measurement result into the data format before conversion. Alternatively, a measurement data object having a program is generated and the measurement data object is transmitted.
In the present embodiment, the measurement data transfer unit 76 transmits the measurement data object using the measurement data socket in the Ethernet 50.
[0035]
The error detection unit 78 detects an error that occurs when the control program is executed. Examples of the error to be detected include a failure in transfer of a control command from the measuring instrument control adapter 60 to the measuring instrument 100. The error transmission unit 80 transmits error information to the control host system 10 via the Ethernet 50 when the error detection unit 78 detects an error. In the present embodiment, the error transmission unit 80 transmits error information using a program execution error socket in the Ethernet 50.
[0036]
The measuring instrument 100 performs a predetermined measurement process according to a control command transmitted from the measuring instrument control adapter 60 via the GPIB 90, and transmits a measurement result to the measuring instrument control adapter 60 via the GPIB 90. Part 104. In the present embodiment, the measuring instrument 100 is a spectrum analyzer that performs measurement processing of the occupied frequency bandwidth (OBW) and adjacent channel leakage power (ACP) of the mobile phone.
[0037]
FIG. 4 is a diagram showing a hardware configuration of the measuring instrument control adapter according to the first embodiment of the present invention. The measuring instrument control adapter 60 includes an Ethernet card 110, a CPU (Central Processing Unit) 112, a RAM (Random Access Memory) 114, a ROM (Read Only Memory) 116, a magnetic disk 118, and a CD-ROM drive 120. , GPIB card 122. The Ethernet card 110, CPU 112, RAM 114, ROM 116, magnetic disk 118, CD-ROM drive 120, and GPIB card 122 are connected by a bus 126. The Ethernet card 110 relays data communication between the Ethernet 50 and the bus 126. The GPIB card 122 relays communication between the GPIB 90 and the bus 126.
[0038]
The program execution unit 70 is provided by reading a predetermined program stored in the magnetic disk 118 into the RAM 114 and executing it by the CPU 112. In this embodiment, the program execution unit 70 is configured by a JVM (Java Virtual Machine) that can execute Java bytecode. The program receiving unit 62, the start instruction receiving unit 66, the transmission destination receiving unit 68, and the storage unit 64 read a predetermined program stored in the magnetic disk 118 into the RAM 114, and are executed by the CPU 112 to operate with the above hardware. It is constituted by doing.
[0039]
In the present embodiment, a program for configuring the program execution unit 70, a program receiving module for configuring the program receiving unit 62, a start receiving module for configuring the start instruction receiving unit 66, and a transmission destination receiving unit 68 are configured. The transmission destination receiving module and the storage module for configuring the storage unit 64 are recorded in advance on a CD-ROM 124 as an example of a recording medium, read by the CD-ROM drive 120, and so-called installed on the magnetic disk 118. Is done. Here, examples of the recording medium include an optical recording medium such as a DVD (Digital Video Disc), a magneto-optical recording medium such as an MO (Magneto-Optical) disk, and a magnetic recording medium such as a floppy disk.
[0040]
FIG. 5 is a diagram showing an example of a control program for the measurement system according to the first embodiment of the present invention. In this embodiment, the control program is written in the Java language. In this control program, an instruction for generating an OBW measurement object is described in the part P1. The OBW measurement object has data and operations (methods) in the OBW measurement process. In the part P2, an instruction for generating an ACP measurement object is described. The ACP measurement object has data and methods in the ACP measurement process. In the part P3, an instruction for generating a measurement data transfer object is described. The measurement data transfer object has data and methods in transmission of measurement results. In the part P4, an instruction for setting a value of data used in each object is described.
[0041]
The process to be executed is described below the part P5. In part P6, a command for executing the transport method in the measurement data transfer object for transferring the measurement data object including the measurement result by the OBW measurement process, and the measurement data transfer for transferring the measurement data object including the measurement result by the ACP measurement process An instruction for executing the transport method in the object is described.
[0042]
FIG. 6 is an operation sequence diagram of the measurement system according to the first embodiment of the present invention. In the control host system 10 of this measurement system, the control program creation unit 16 creates a control program based on a user input from the input unit 14, and the program storage unit 18 stores the created control program (step S100). . Next, when the name of the control program and the transmission instruction by the user are input by the input unit 14, the control program transmission unit 20 transmits the corresponding control program to the program reception unit 62 of the measuring instrument control adapter 60 via the Ethernet 50. (Step S102). In the measuring instrument control adapter 60 that has received the control program, the storage unit 64 stores the control program received by the program receiving unit 62 (step S104).
[0043]
On the other hand, in the display host system 30, the transmission destination registration receiving unit 36 receives the identification information of the measuring instrument control adapter 60 that transmits the measurement result from the user via the input unit 34, and the identification information received by the transmission destination information transmission unit 38. The identification information of the self-display host system is transmitted to the corresponding measuring instrument control adapter 60 via the Ethernet 50 (step S106). In the measuring instrument control adapter 60, the transmission destination receiving unit 68 receives the identification information of the display host system 30 via the Ethernet 50, and registers the identification information in the storage unit 64 as the transmission destination of the measurement data (step S108).
[0044]
Next, in the control host system 10, when the name of a program to be executed by the user is input from the input unit 14 and an execution instruction is input, the control program execution control unit 22 uses the input program name as an execution start instruction to execute Ethernet. It transmits to the measuring instrument control adapter 60 via 50 (step S110). In the measuring instrument control adapter 60, the start instruction receiving unit 66 receives the name of the program via the Ethernet 50 and notifies the program executing unit 70 of it. The program execution unit 70 retrieves the notified control program from the storage unit 64 and executes the control program.
[0045]
Thereby, the command generation unit 72 generates a control command based on the control program (step S112), and the communication unit 74 transmits the generated control command to the measuring device 100 via the GPIB 90 (step S114). In the measuring instrument 100, the measuring unit 104 performs measurement processing (step S116) according to the control command, and the measurement result transmitting unit 102 transmits the measurement result to the measuring instrument control adapter 60 via the GPIB 90 (step S118). In the measuring instrument control adapter 60, the communication unit 74 receives the measurement result via the GPIB 90, and the measurement data transfer unit 76 converts the measurement result into a measurement data object. Next, the measurement data transfer unit 76 transmits the measurement data object to the display host system 60 registered in the recording unit 64 via the Ethernet 50 (step S120).
[0046]
If there is a control command to be generated, the above processing (steps S112 to S120) is repeated. Further, during the above process, an error generated by the error detection unit 78 is detected. If an error is detected, the error transmission unit 80 transmits error information to the control host system 30 via the Ethernet 50. In this case, in the control host system 10, the control program execution control unit 22 receives the error information and causes the display unit 12 to display the error information.
[0047]
In the display host system 30, the measurement data receiving unit 40 receives the measurement data object, extracts the measurement result from the measurement data object, and displays the measurement result on the display unit 32 (step S122).
[0048]
As described above, in the first embodiment, when the control command is transmitted to the measuring instrument 100, it is not necessary to use the Ethernet 50. Therefore, the control command can be appropriately transmitted to the measuring instrument 100. Further, a measuring instrument that can be connected only via a conventional GPIB can be controlled by a control host system connected to Ethernet, and a measurement result can be displayed on a display host system connected via Ethernet.
[0049]
FIG. 7 is a configuration diagram of a measurement system according to the second embodiment of the present invention. The measurement system shown in FIG. 7 is configured by configuring the control host system and the display host system in the measurement system according to the first embodiment shown in FIG. 1 as a control display host system. The components having the same functions as those of the functional units shown in FIG. In this embodiment, the control display host system 150 is a personal computer equipped with Microsoft Windows 95 as an operating system. The display unit 152 has the function of the display unit 12 of the control host system 10 and the function of the display unit 32 of the display host system 30 shown in FIG. The input unit 154 has the function of the input unit 14 of the control host system 10 shown in FIG. 1 and the function of the input unit 34 of the display host system 30.
[0050]
FIG. 8 is an example of a display screen displayed on the display unit of the control display host system according to the second embodiment of the present invention. Elements having the same function shown in FIGS. 2 and 3 are denoted by the same reference numerals, and redundant description is omitted. The display unit 152 displays the screen 130 displayed by the display unit 12 of the first embodiment and the screen 140 displayed by the display unit 32 as the same screen 152.
[0051]
The present invention is not limited to the above-described embodiment, and various modifications can be made. For example, in the above embodiment, the control host system 10 and the display host system 30 or the control display host system 150 and the measuring instrument control adapter 60 are connected by the Ethernet 50, but the present invention is not limited to this. You may connect with other network. Further, the measuring instrument control adapter 60 and the measuring instrument 100 are connected by the GPIB 90, but the present invention is not limited to this, and may be another network. In the above embodiment, a spectrum analyzer is used as the measuring instrument 100. However, the present invention is not limited to this, and may be, for example, an oscilloscope, a distortion rate meter, a power meter, a semiconductor test apparatus, or the like. In short, it may be a passive or active device necessary for evaluating, testing, repairing, adjusting, etc. a predetermined measurement object.
[0052]
As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiment. It is apparent from the description of the scope of claims that embodiments with such changes or improvements can be included in the technical scope of the present invention.
[0053]
【The invention's effect】
As is clear from the above description, according to the present invention, the measuring instrument can be appropriately controlled.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a measurement system according to a first embodiment of the present invention.
FIG. 2 is an example of a display screen displayed on the display unit of the control host system according to the first embodiment of the present invention.
FIG. 3 is an example of a display screen displayed on the display unit of the display host system according to the first embodiment of the present invention.
FIG. 4 is a diagram showing a configuration of a measuring instrument control adapter according to the first embodiment of the present invention.
FIG. 5 is a diagram showing an example of a control program for the measurement system according to the first embodiment of the present invention.
FIG. 6 is an operation sequence diagram of the measurement system according to the first embodiment of the present invention.
FIG. 7 is a configuration diagram of a measurement system according to a second embodiment of the present invention.
FIG. 8 is an example of a display screen displayed on the display unit of the control display host system according to the second embodiment of the present invention.
[Explanation of symbols]
10 Control host system 12 Display section
14 Input unit 16 Control program creation unit
18 Program storage unit 20 Control program transmission unit
22 Control Program Execution Control Unit 30 Display Host System
32 Display unit 34 Input unit
36 Destination Registration Reception Unit 38 Destination Information Transmission Unit
40 Measurement data receiver 50 Ethernet
60 Measuring instrument control adapter 62 Program receiver
64 storage unit 66 start instruction receiving unit
68 Destination receiver 70 Program execution unit
72 Command generation unit 74 Communication unit
76 Measurement data transfer unit 78 Error detection unit
80 Error transmitter 90 GPIB
100 Measuring instrument 102 Measurement result transmitter
104 Measuring unit 150 Control display host system

Claims (17)

A measuring instrument control adapter connected to a measuring instrument that is connected to the first network and performs a predetermined measurement process via the second network,
A program receiving unit for receiving a control program for performing the measurement process from the first network;
A storage unit for storing the control program;
A start instruction receiving unit for receiving an instruction to start the measurement process by the measuring device via the first network;
A program execution unit that executes the control program stored in the storage unit when the start instruction is received by the start instruction reception unit ;
With
The program execution unit is
A command generator for executing a command creation software by calling from the control program, and generating a control command for causing the measuring instrument to perform a measurement process ;
A command transmission unit for transmitting the control command to the measuring device via the second network;
A measuring instrument control adapter, comprising: a measuring result receiving unit that receives a measuring result of the measuring process from the measuring instrument. The program execution unit is
Instrument control adapter according to claim 1, further comprising a measurement result transfer unit that transmits the measurement results via the first network. Further comprising a transmission destination storage section for storing identification information of the destination of the measurement results,
3. The measuring instrument control adapter according to claim 2, wherein the measurement result transfer unit transmits the measurement result to the transmission destination based on the identification information. A destination receiver that receives the identification information of the destination of the measurement result via the first network;
Instrument control adapter according to claim 3, further comprising a transmission destination registration section that stores the received the identification information of the transmission destination to the transmission destination storage section. The program receiving unit receives at least a part of each of the plurality of control programs,
The storage unit stores a plurality of the control programs,
The command generation unit selects the control program to be executed from the storage unit based on the start instruction, and generates the control command by executing the command creation software by calling from the control program. instrument control adapter according to any one of claims 1, wherein the fourth. The measurement result transfer unit, the measurement result is converted into a predetermined data format, measurement results and that has been converted into a data format predetermined information or program converts the measurement result to the pre-conversion data format The measuring instrument control adapter according to any one of claims 2 to 4, wherein an object including: is transmitted to the first network. The program execution unit is
An error detection unit for detecting a predetermined error during the measurement process;
Instrument control adapter according to any one of claims 1 to 6, characterized in further Yusuke Rukoto the error information transmitting unit that transmits information regarding the errors via the first network. Instrument control adapter according to any one of claims 1 to 7, wherein the first network is an Ethernet. It said second network, instrument control adapter according to any one of claims 1 to 8, characterized in that the GP Ivy (GPIB). The program execution unit is capable of executing a program written in Java Java ( registered trademark) language,
The control program is written in Java language,
The at least one of the command generation unit and the command transmission unit is configured by the program execution unit executing the control program, according to any one of claims 1 to 9. Instrument control adapter. A measuring instrument for performing a predetermined measuring process, a control host that instructs execution transmits a control program, connected to the control host through the first network, and the measuring device via the second network A measuring system having a measuring instrument control adapter connected thereto,
The control host is
A program transmitting unit that transmits the control program to the instrument control adapter,
And a start instruction transmitting unit that transmits an instruction to start the measurement process by the measuring device,
The measuring instrument control adapter is
A program receiver for receiving via the first network the control program for controlling the measuring device,
A storage unit for storing the control program;
A start instruction receiving unit for receiving an instruction to start the measurement process by the measuring device via the first network;
A program execution unit that executes the control program stored in the storage unit when the start instruction is received ;
The program execution unit is
A command generator for executing a command creation software by calling from the control program, and generating a control command for causing the measuring instrument to perform a measurement process ;
A command transmission unit for transmitting the control command to the measuring device via the second network;
A measurement result receiving unit for receiving a measurement result of the measurement process from the measuring device;
The measuring instrument is
A measurement unit that performs measurement processing based on the transmitted control command;
Measurement system according to claim Rukoto a measurement result transmission unit which transmits the measurement result of the measurement process to the instrument control adapter. The measurement system includes:
Is connected to the instrument control adapter via said first network, further comprising a display host for displaying the results of the measurement process by the measuring device,
The measuring instrument control adapter is
Comprises a measurement result transfer unit that transmits the measurement result to the display host through the first network,
The display host is
A second measurement result receiving unit for receiving the measurement result transmitted from the measurement result transfer unit;
Measurement system according to claim 11, wherein Rukoto and a display unit for displaying the measurement results. The measuring instrument control adapter is
A transmission destination storage unit that stores identification information of the display host that is a transmission destination of the measurement result;
A destination receiving unit that receives the identification information of the display host that is the destination of the measurement result via the first network;
Further comprising a transmission destination registering section for storing the received the identification information to the transmission destination storage section,
The measurement result transfer unit transmits the measurement result to the display host of the transmission destination based on the identification information,
The display host is
Measurement system according to claim 12, further comprising said Rukoto destination information transmitting unit that transmits the identification information of the display host to the instrument control adapter via said first network. The measuring instrument control adapter is
An error detection unit for detecting a predetermined error during the measurement process;
Further comprising an error information transmitting unit that transmits information about the error to the control host through the first network,
The control host is
An error information receiving unit for receiving information on an error transmitted via the first network;
Measurement system according to any of claims 11 13, an error display section for displaying information about received the error, characterized in further comprising Rukoto a. A measuring instrument control method for controlling a measuring instrument in a measuring instrument control adapter that is connected via a first network and connected to a measuring instrument that performs a predetermined measurement process via a second network. ,
A program receiving step of receiving a control program for controlling the measuring instrument from the first network;
A start receiving step of receiving an instruction to start execution of the control program;
When receiving an instruction of the start, the program execution step of executing the control program,
A command generation step of executing a command creation software by calling from the control program and generating a control command for causing the measuring instrument to perform a measurement process ;
A measurement command transmission step of transmitting the generated control command to the measuring device via the second network;
A measurement result receiving step of receiving a measurement result via the second network;
And a measurement result transmission step of transmitting the measurement result via the first network. A recording medium on which a program to be executed by a measuring instrument control adapter connected to a measuring instrument connected via a first network and connected to a measuring instrument that performs a predetermined measurement process via a second network is recorded,
A program receiving module for receiving a control program for controlling the measuring instrument from the first network;
A storage module for storing the control program; a start receiving module for receiving an instruction to start execution of the control program ;
A command generation module for generating a control command for executing measurement processing on the measuring instrument by executing command creation software by calling from the control program;
A recording medium comprising:   A measurement unit that performs a predetermined measurement process, a control host that transmits a control program and instructs execution thereof, and is connected to the control host via a first network, and the measurement unit via a second network A semiconductor test apparatus having a measurement unit control adapter connected thereto,
  The control host is
  A program transmission unit for transmitting the control program to the measurement unit control adapter;
  A start instruction transmission unit for transmitting a measurement process start instruction by the measurement unit,
  The measurement unit control adapter is
  A program receiving unit for receiving the control program for controlling the measuring unit via the first network;
  A storage unit for storing the control program;
  A start instruction receiving unit that receives an instruction to start the measurement process by the measurement unit via the first network;
  A program execution unit that executes the control program stored in the storage unit when the start instruction is received;
  The program execution unit is
  A command generation unit that executes command creation software by calling from the control program, and generates a control command for causing the measurement unit to perform measurement processing;
  A command transmission unit that transmits the control command to the measurement unit via the second network;
  A measurement result receiving unit for receiving a measurement result of the measurement process from the measurement unit;
  The measuring unit is
  A measurement processing unit that performs measurement processing based on the transmitted control command;
  A semiconductor test apparatus comprising: a measurement result transmission unit that transmits a measurement result of the measurement process to the measurement unit control adapter.

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