JP2011174996A - Signal measuring device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a signal measuring device having a display screen configuration with high flexibility of usage in which display forms of individual display items can be arbitrarily set in accordance with the purpose of measurement. <P>SOLUTION: The signal measuring device is configured to display at least either a measurement value of a signal or a result of mathematical operation based on the measurement value as a character sequence of a display item on a display screen, wherein the display screen is a compounded screen of a background screen edited individually in accordance with the purpose of the measurement and a measurement and/or operation data display screen. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a signal measurement device, and more particularly to improvement of a display screen for displaying a signal measurement result.

  One type of signal measuring device is a power measuring device. The power measuring device is a device for measuring the power consumption of electrical equipment, and is widely used in research and development and production lines of home appliances, lighting equipment, industrial equipment and the like. In particular, in recent years, power measurement has become one of the important items from the viewpoint of global environmental problems and effective use of energy resources.

  By the way, in the power measurement device, in addition to basic measurement items such as voltage, current, and power, DC power, alternating current power, efficiency measurement, and energy saving measures such as solar power generation and wind power generation, which are new energy and alternative energy. It is also used for measuring minute power, standby power, sleep power, operating power, etc., and measuring PWM (Pulse Width Modulation) signals in inverter / motor evaluation in hybrid vehicles.

  In the conventional power measuring apparatus, a plurality of types of display screens in which a plurality of display items to be displayed at once are arranged on one screen are prepared in advance, and the user meets the measurement purpose from these display screens. The display screen of the display format determined to be selected is selected, and each display item is selected and set on the display screen so that the user corresponds to the measurement purpose.

  FIG. 6 is a block diagram illustrating a configuration example of a conventional power measurement apparatus. In FIG. 6, the CPU 1 performs overall control of the operation of the entire apparatus and performs predetermined arithmetic processing, and is connected to each unit via a bus B.

  The display item selection / designation unit 2 is a functional block for selecting and setting a desired display item, and is executed when the user operates a menu area provided on the display screen.

  The measurement / calculation data storage unit 3 sequentially stores measurement data such as voltage, current, and frequency measured by the measurement unit 4 and converted into digital signals, and is calculated by the CPU 1 based on these measurement data, for example. Calculation data such as power, power factor and phase is stored.

  The display data creation unit 5 reads the measurement / calculation data stored in the measurement / calculation data storage unit 3 and creates display data, for example, ASCII-converted.

  The measurement / computation data display screen creation unit 6 creates a bitmapped display screen of the measurement / computation data based on the display data created by the display data creation unit 5, and the measurement / computation data display screen storage unit 7 is stored.

  The background screen data storage unit 8 stores plain background screen data as a bitmap.

  The display screen synthesizing unit 9 is a bitmapped display screen stored in the measurement / computation data display screen storage unit 7 and a bitmapped display screen of the measurement / computation data stored in the background screen data storage unit 8. The screen data for background is synthesized and stored in the synthesized screen storage unit 10.

  The display control unit 11 displays a composite screen for displaying the measurement results stored in the composite screen storage unit 10 on the display unit 12.

  FIG. 7 is an example of an initial display screen in such a conventional power measuring apparatus, (A) shows an example of four display items, (B) shows an example of eight display items, and (C ) Shows an example of 16 display items, and (D) shows an example of all display items. Each of these display screens is provided with a display item area A and a menu area B for the user to select and set a desired display item.

  FIG. 8 is a flowchart for explaining the flow of processing for displaying numerical data for each display item on the display screen of FIG. 7, and shows a case where the number of display items is “4”. In FIG. 8, first, based on the display item selected and set by the user (step S1), display item data of item number N = 1 is acquired (step S2).

  Subsequently, predetermined measurement / calculation corresponding to the display item data obtained from the measurement / calculation data storage unit 3 in which the measurement data separately measured and the calculation data subjected to the predetermined calculation based on the measurement data are stored. Data is read out (step S3), for example, display data subjected to ASCII conversion is created (step S4).

  Then, a display image of numerical data converted into a bitmap is created based on the created display data (step S5), and the display image is pasted on the measurement / calculation data display screen storage unit 7 (step S6).

  In step S7, steps S1 to S6 are repeated while incrementing the item number N until the item number N reaches the display item number “4”.

  When the item number N reaches the number of display items “4”, the plain background screen converted into a bitmap is read (step S8) and pasted to the background screen data storage unit 8 (step S9).

  Thereafter, a combined screen of the screen of the measurement / calculation data display screen storage unit 7 and the background screen data storage unit 8 (step S10) is output as the display screen of the display unit 12 (step S11).

  Patent Document 1 describes a configuration of a body measuring device with a personalized output format customization function that can obtain information on measurement results in a personalized output format.

JP 2008-104849 A

  However, according to the display screen of FIG. 7, the display item can be changed only within the determined number of display items (4, 8, 16). For example, if five items are to be displayed, the 8-value display is selected and five items are selected, and the remaining three items are left empty or unnecessary items are set as dummy items.

  In addition, the drawing position of each item is fixed on the display screen of FIG. That is, in the display format of FIG. 7, since each display item is arranged at equal intervals, it is not possible to make a change such as grouping and arranging related display items.

  Also, the font size and color of each display item are fixed. For this reason, it is not possible to increase the font size of the display item that is most noticed or to emphasize it with a color.

  Furthermore, the background of the display screen is plain, and a picture or the like corresponding to the application cannot be displayed.

  The present invention solves these problems, and an object thereof is to realize a signal measuring apparatus having a display screen configuration with a high degree of freedom capable of arbitrarily setting the display form of each display item according to the measurement purpose. There is to do.

In order to achieve the above object, the invention described in claim 1 of the present invention is:
In the signal measurement device configured to display at least one of the measurement value of the signal and the calculation result based on the measurement value on the display screen as a character string of the display item,
The display screen is a combination of a background screen edited individually according to a measurement purpose and a measurement / computation data display screen.

The invention according to claim 2 is the signal measuring apparatus according to claim 1,
The display form of each character string of the display item on the display screen can be individually set by drawing information corresponding to each display item.

The invention described in claim 3 is the signal measuring apparatus according to claim 1 or 2, wherein
The drawing information includes at least one of a position, a size, and a color on a display screen.

The invention according to claim 4 is the signal measuring apparatus according to any one of claims 1 to 3,
The signal measuring device is a power measuring device.

  Thus, the display form of each display item can be arbitrarily set according to the measurement purpose, and a display screen configuration with a high degree of freedom can be obtained.

It is a block diagram which shows one Example of this invention. It is a flowchart explaining the flow of operation | movement of FIG. It is explanatory drawing which shows the specific example of the background screen in this invention. It is explanatory drawing which shows the specific example of the drawing information in this invention. It is explanatory drawing which shows the specific example of the synthetic | combination screen based on this invention. It is a block diagram which shows the structural example of the conventional electric power measuring apparatus. It is an initial display screen example figure in the conventional electric power measuring apparatus. It is a flowchart explaining the flow of the process which displays numerical data about each display item in the display screen of FIG.

  Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of the present invention, and the same reference numerals are given to portions common to FIG. The difference between FIG. 1 and FIG. 6 is that a drawing information storage unit 13 for storing drawing information for individually setting the position, size, color, etc. of the character string of measurement / calculation data is provided, and the background screen is stored. The section 9 is not plain and stores background screen data customized according to the user's measurement application.

  In FIG. 1, the CPU 1 controls the overall operation of the apparatus and performs predetermined arithmetic processing, and is connected to each unit via a bus B.

  The display item selection / designation unit 2 is a functional block for selecting and setting a desired display item, and is executed by the user operating, for example, a menu area provided on the display screen, as in the prior art. In addition, the number of display items can be set here.

  The measurement / calculation data storage unit 3 sequentially stores measurement data such as voltage, current, and frequency measured by the measurement unit 4 and converted into digital signals, and is calculated by the CPU 1 based on these measurement data, for example. Calculation data such as power, power factor and phase is stored.

  The display data creation unit 5 reads the measurement / calculation data stored in the measurement / calculation data storage unit 3 and creates display data, for example, ASCII-converted, as in the conventional case.

  The measurement / calculation data display screen creation unit 6 is a position set individually in advance for each of the display data created by the display data creation unit 5 and the character strings of the measurement / calculation data stored in the drawing information storage unit 13. Based on drawing information including size and color, a display screen in which the measurement / computation data is converted into a bitmap is created and stored in the measurement / computation data display screen storage unit 7.

  The background screen data storage unit 8 stores background screen data customized according to the user's measurement application in a bitmap format.

  The display screen synthesizing unit 9 is a bitmapped display screen stored in the measurement / computation data display screen storage unit 7 and a bitmapped display screen of the measurement / computation data stored in the background screen data storage unit 8. The background screen data is video-synthesized as a screen for displaying a measurement result customized according to the user's measurement application, and stored in the combined screen storage unit 10.

  The display control unit 11 displays on the display unit 13 a composite screen that displays measurement results customized according to the user's measurement application stored in the composite screen storage unit 10.

  FIG. 2 is a flowchart for explaining the flow of the display process of the composite screen for displaying the measurement result customized according to the measurement application of the user in the apparatus of FIG. 1, and shows the case where the number of display items is “5”. . The number of display items is not 4/8/16 set in advance as in the prior art, but can be customized according to the measurement application of the user.

  In FIG. 2, first, based on the display item selected and set by the user (step S1), display item data of item number N = 1 is acquired (step S2).

  Subsequently, predetermined measurement / calculation data corresponding to the display item data is read from the measurement / calculation data storage unit 3 (step S3), and for example, ASCII-converted display data is created (step S4).

  Then, based on the display information created in step S4 and the drawing information including the position, size, and color set in advance for each of the character strings of the measurement / calculation data stored in the drawing information storage unit 13 ( In step S5), a display screen in which the measurement / calculation data is converted into a bitmap is created (step S6), and the display image is pasted on the measurement / calculation data display screen storage unit 7 (step S7). Here, the position of the character string of the measurement result can be specified in dot units so as not to overlap with the background bitmap pattern.

  In step S8, steps S1 to S7 are repeated while incrementing the item number N until the item number N reaches the display item number “5”.

  When the item number N reaches the number of display items “5”, predetermined background screen data customized according to the user's measurement application and bitmapped is read (step S9), and the background screen data is stored. Affixed to the part 8 (step S10).

  Thereafter, a composite screen of the screen of the measurement / calculation data display screen storage unit 7 and the background screen data storage unit 8 (step S11) is output as a display screen of the display unit (step S12).

  FIG. 3 is an explanatory diagram showing a specific example of the background screen in the present invention. The background screen of FIG. 3 is customized so that necessary information can be accurately grasped in real time with respect to the operation status of the inverter.

  In FIG. 3, a DC voltage “1” of 100 to 250 V generated by the solar cell module is input to the power conditioner, and the voltage level fluctuates due to weather, so that the signal is boosted and converted to a DC voltage of 300 V by the boost converter. “2” is converted into a commercial AC voltage “3” of 100 V (50 Hz / 60 Hz) by a DC / AC converter and output. “1” to “3” represent numbers surrounded by circles in FIG.

As information to accurately grasp the operating status of such a system,
1) Information of power generated by the solar cell module 2) Information of power boosted by the boost / boost converter 3) Information of power converted by the DC / AC converter 4) Boosting efficiency of the boost converter 5) DC / AC converter 6) Total conversion efficiency is required.

  Therefore, as shown in FIG. 3, a block diagram of the system configuration is drawn as a bitmap, and a window W2 displaying the boosting efficiency of the boost converter, a window W3 displaying the conversion efficiency of the DC / AC converter, and the total conversion efficiency. In addition, a window W1 for displaying the DC voltage value, a window W5 for displaying the DC current value, and a window W6 for displaying the DC power value are provided for information on the power generated by the solar cell module. The information about the power boosted by the boost / boost converter is converted by the DC / AC converter by providing a window W7 for displaying the DC voltage value, a window W8 for displaying the DC current value, and a window W9 for displaying the DC power value. For power information, a window W10 for displaying an AC voltage value, a window W11 for displaying an AC current value, a window W12 for displaying an AC power value, and a window W13 for displaying a frequency value are provided. There.

  Note that the windows W1 to W13 for displaying these pieces of information are arranged in a hierarchical tree structure so that the operating status of the system can be accurately grasped.

  FIG. 4 is a specific example of a drawing information file stored in the drawing information storage unit 13. For the windows W1 to W13 displaying the respective values in FIG. 3, the X coordinate position, the Y coordinate position, the font size, the display color of the values, etc. are listed as a drawing information file.

  FIG. 5 is a specific example of a composite screen in the present invention based on FIGS. 3 and 4. As shown in FIG. 5, the window W2 displaying the boosting efficiency of the boost converter, the window W3 displaying the conversion efficiency of the DC / AC converter, and the window W1 displaying the total conversion efficiency are the power generated by the solar cell module. Are displayed in a font having a size larger than the windows W4 to W6 for displaying the information of the windows, the windows W7 to W9 for displaying the information of the power boosted by the boost / boost converter, and the windows W10 to W13 for displaying the conversion efficiency of the DC / AC converter. Has been. The display value in FIG. 5 is not an actual measurement value but a dummy value for confirming the display form.

  As described above, according to the present invention, the display form of each display item is read for the purpose of measurement by causing the main body to read the description related to the display form of each display item as a text file of drawing information. Accordingly, it is possible to realize a display screen configuration with a high degree of freedom that can be arbitrarily set according to the display screen, and the display screen setting menu is not complicated.

  In the above-described embodiment, the example of the power measurement device has been described as the signal measurement device. However, the present invention is not limited to this, and a signal for displaying and recording various signal changes such as a digital oscilloscope or a paperless recorder as a waveform or a trend. It can also be applied to a measuring device.

  As described above, according to the present invention, it is possible to realize a signal measuring device having a display screen configuration with a high degree of freedom in which the display form of each display item can be arbitrarily set according to the measurement purpose.

1 CPU
2 Display item selection / designation section 3 Measurement / calculation data storage section 4 Measurement section 5 Display data creation section 6 Measurement / calculation data display screen creation section 7 Measurement / calculation data display screen storage section 8 Data section reuse rate calculation section 9 Background screen Data storage unit 10 Display screen composition unit 11 Composition screen storage unit 12 Display control unit 13 Display unit 14 Drawing information storage unit

Claims (4)

In the signal measurement device configured to display at least one of the measurement value of the signal and the calculation result based on the measurement value on the display screen as a character string of the display item,
The signal display device according to claim 1, wherein the display screen is a combination of a background screen edited individually according to a measurement purpose and a measurement / calculation data display screen.   2. The signal measuring device according to claim 1, wherein a display form of each character string of the display item on the display screen can be individually set by drawing information corresponding to each display item.   The signal measurement apparatus according to claim 1, wherein the drawing information includes at least one of a position, a size, and a color on a display screen.   The signal measuring device according to claim 1, wherein the signal measuring device is a power measuring device.