JPH0814956A - Measuring system - Google Patents

Abstract

PURPOSE:To easily set the generation condition of a trigger signal in the case of a constitution in which a plurality of card modules have been combined by a method wherein the generation function of the trigger signal is incorporated in a virtual measuring instrument, data is input in an interactive form with reference to a set item on a screen and the generation condition of the trigger signal is set. CONSTITUTION:The operating condition, of a virtual measuring instrument 6, which contains the generation condition of a trigger signal is input via a keyboard 51 with reference to a control-signal definition screen displayed on a CRT display device 5. The operating condition, of the virtual measuring instrument, which has been input by this processing is set in a main card module 31 and a subcard module 32 inside a measuring system. Then, the number of revolutions generating the trigger signal is set in the subcard module 32. The subcard module 32 receives a pulse signal from a rotation system, and a trigger signal is generated when the rotation system reaches the set number of revolutions. Then, the main card module 31 acquires a measuring signal, the acquired measuring signal is converted into measuring data, and the measuring data which is given to the virtual measuring instrument 6 is processed.

Description

Detailed Description of the Invention

[0001]

The present invention relates to LA (Laborat).
The present invention relates to improvement of a measurement system used in the field of ory Automation.

[0002]

2. Description of the Related Art In recent years, LA technology has been introduced to improve the efficiency of product development. In the field of LA, a virtual measurement system in which a CPU module and a plurality of measurement modules are combined on one bus is developed by simulating an actual measurement system composed of a computer and various measuring instruments. . Here, the CPU module and the measuring module are a virtual computer and a measuring instrument configured by using software and a card. By constructing the virtual measurement system, the measurer can perform the measurement by simulation without actually constructing the measurement system.

In the process of measurement, the timing of starting measurement is controlled by a trigger signal. There are various ways of generating the trigger signal depending on the measurement target and the measuring means. The measurer will generate this timing signal in some way. The trigger signal is generated by using a function of the measurement card module or a card module that is not related to the measurement card module. In a virtual measurement system, unlike a real measurement instrument, there is no hardware setting switch, and the measurement operation is often specified by programming software commands to the card module. Therefore, the designation of the trigger signal is to generate the target measurement start timing by programming by the measurer. However, when a trigger signal generation condition is specified by command programming, the more complicated the trigger signal generation timing, the more complicated the programming becomes. Further, when the measurement processing and the generation of the trigger signal are performed by the configuration in which a plurality of card modules are combined, programming considering all the card modules to be used is required. Therefore, when designating the trigger signal generation condition by such programming, a sophisticated programming technique is required, and it is difficult for the measurer to generate the desired measurement start timing. .

[0004]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and incorporates a trigger signal generation function into the function of a virtual instrument to set items on the screen. By setting the trigger signal generation condition by inputting data interactively, it is possible to easily set the trigger signal generation condition even when the trigger signal is generated by the configuration in which a plurality of card modules are combined. The purpose is to realize a measurement system.

[0005]

According to the present invention, a virtual instrument is constructed by software, and a virtual measurement system constructed by combining the virtual instruments is used to execute a simulation of measurement. Display means for displaying the control signal definition screen prepared in
Inputting data to the setting items on this control signal definition screen, input means for specifying the trigger signal generation condition that determines the timing of measurement start, and the trigger signal generation condition specified by this input means are set. , A sub card module that generates a trigger signal when the operating condition reaches the trigger signal generation condition, and collects the measurement data of the virtual instrument when the sub card module generates the trigger signal, and the collected measurement data And a main card module for processing the.

[0006]

According to the present invention as described above, data is input to the setting items on the control signal definition screen by the input means to specify the trigger signal generation condition. The sub card module is
The specified trigger signal generation condition is set, and the trigger signal is generated when the operating condition reaches the trigger signal generation condition. The main card module collects the measurement data of the virtual instrument when the trigger signal is generated and processes the collected measurement data.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings. FIG.
FIG. 1 is a configuration diagram showing an embodiment of the present invention. FIG. 1 is a block diagram of hardware that constitutes a virtual measurement system. In FIG. 1, 1 is a VME (Versa Bus Mod).
It is a chassis of a ural Europe bus, has a backboard, and connects a card module inserted in the backboard onto the VME bus. Reference numeral 2 is a CPU card module, and 3 and 4 are measurement card modules, which are connected to the backboard of the chassis 1. The CPU card module 2 has a screen display function and is connected to the CRT display device 5. CPU card module 2 is C
The RT display device 5 is caused to display, and the entire measurement system is controlled. Reference numeral 51 is a keyboard for performing screen input and the like on the display screen of the CRT display device 5. The measurement card module 3 comprises a main card module 3 ₁ and a sub card module 3 ₂ , and the measurement card module 4 has only a main card module 4 ₁ . 6
And 7 are virtual instruments provided for the main card modules 3 ₁ and 4 ₁ , respectively. The main card modules 3 ₁ and 4 ₁ are measurement processing cards that collect analog input, pulse input, and the like and perform main measurement processing.
As for the virtual instrument 6, the main card module 3 ₁ and the sub card module 3 ₂ can be used together. The sub card module 3 ₂ generates a trigger signal and the like. Thereby, the function of generating the trigger signal is incorporated as a part of the function of the virtual instrument 6. That is, the function of generating the trigger signal can be used as the function of the virtual instrument 6.
The sub card module 3 ₂ is the main card module 3 ₁
Is a control card for controlling the timing of collecting measurement signals. The virtual instrument 6 is composed of separate cards for the main card module and the sub card module. Since the virtual instrument 7 is not provided with a sub card module, this instrument does not have a function of generating a trigger signal.

The trigger signal generation condition is set on the control signal definition screen prepared for each virtual instrument. This screen is displayed on the CRT display device 5. FIG. 2 is a diagram showing an example of the control signal definition screen. In FIG. 2, on the control signal definition screen, setting items related to the trigger function that can be used as the function of the virtual instrument are displayed in the "trigger signal condition" and "trigger condition" portions. The trigger signal generation condition is set in a conversational form in which the setting items in the “trigger signal condition” and the “trigger condition” are screen-input with the keyboard 51. In Fig. 2, a "step trigger function" that receives a pulse signal with a pulse rate that corresponds to the rotation speed of the rotation system and that triggers when the rotation speed reaches the specified rotation speed based on this pulse signal. It is a control signal definition screen when performing the setting of.

The operation of the measurement system shown in FIG. 1 will be described. An example will be described where the trigger signal generation condition is set using the screen shown in FIG. Input pulse signals from the rotation system in the sub-card module 3 _2, until 140rpm rotational speed from 100rpm in step triggering 10rp
A trigger signal is generated 5 times in total each time m is increased. The generation of such a trigger signal is performed, for example, when measuring the vibration and noise each time the rotation speed of the rotary shaft reaches the specified rotation speed. A case where the above measurement is performed will be described. FIG. 3 is an operation explanatory diagram of the measurement system of FIG. In FIG. 3, the same parts as those in FIG. 1 are designated by the same reference numerals. In Fig. 3
Corresponds to the following processing of ~. The operation when setting conditions is as follows. An operating condition setting screen such as a control signal definition screen is displayed on the CRT display device 5. On the control signal definition screen, the operating condition of the virtual instrument including the trigger signal generation condition is input by the keyboard 51. The operation when the measurement process is executed is as follows. The operating condition of the virtual instrument input in the processing of the main card module 3
Set to ₁ and sub card module 3 ₂ . The rotation speed at which the trigger signal is generated is set in the sub card module 3 ₂ . Sub card module 3 ₂ receives a pulse signal from the rotation system, generates a trigger signal when the rotation system has reached the set speed. The main card module 3 ₁ collects the measurement signals, converts the collected measurement signals into measurement data (digital signals), and gives the measurement data to the virtual instrument 6. The virtual instrument 6 processes the given measurement data. Here, the measurement signal is a signal in which a signal corresponding to vibration or noise is artificially generated by a signal source. The processing from to is repeated the number of times the trigger signal is generated. By performing such an operation, the virtual instrument controls the sub-card module 3 ₂ based on the occurrence condition of the set trigger signal, process the occurrence of the trigger signal necessary for the measurement process in the instrument inside.

[0010]

According to the present invention, the trigger signal generation function realized by the card module is supported as the function of the virtual instrument, and the trigger signal generation condition is set by interactive screen input. As a result, even when a trigger signal is generated by a configuration in which a plurality of card modules are combined, the trigger signal generation condition can be easily set without performing complicated programming.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an embodiment of the present invention.

FIG. 2 is a diagram showing an example of a control signal definition screen.

FIG. 3 is an operation explanatory diagram of the measurement system of FIG.

[Explanation of symbols]

3,4 Measurement card module 3 ₁ , 4 ₁ Main card module 3 ₂ Sub card module 5 CRT display device 51 Keyboard 6,7 Virtual instrument

Claims (1)

[Claims] 1. A virtual instrument is constructed by software,
In a measurement system that executes a simulation of measurement using a virtual measurement system constructed by combining these virtual instruments, display means for displaying a control signal definition screen prepared for each virtual instrument, and Inputting data to the setting items of, and specifying the trigger signal generation condition that determines the timing of measurement start, and the trigger signal generation condition specified by this input device is set, and the operating condition is the trigger signal. And a main card module that collects the measurement data of the virtual instrument when the sub card module generates the trigger signal and processes the collected measurement data. And a measuring system comprising: