JP2000009759A5 - - Google Patents

Description

[Document name] Specification [Title of invention] Measuring device [Claims]
1. In a measuring device configured so that the setting items can be set in a state where the cursor is aligned with a display portion corresponding to any of a plurality of setting items displayed on the display unit.
A measuring device characterized in that the setting item corresponding to the display portion where the cursor is located and other setting items are displayed in a distinguishable manner.
2. A row direction setting item heading and a column direction setting item heading corresponding to a plurality of setting items are displayed on the display unit, and when the cursor is aligned with a predetermined display portion, the display portion is displayed. The measurement according to claim 1, wherein the row direction setting item and the column direction setting item heading corresponding to the above and the other row direction setting item heading and the column direction setting item heading are displayed in a distinguishable manner. apparatus.
3. A plurality of the row direction setting item headings are displayed per unit row direction in the display unit, and the cursor is positioned at a display portion corresponding to any one of the plurality of the row direction setting item headings. The measuring device according to claim 2, wherein when combined, any one of the row direction setting item headings and the other row direction setting item headings are displayed in a distinguishable manner.
4. A plurality of the column direction setting item headings are displayed per unit column direction in the display unit, and the cursor is positioned at a display portion corresponding to any one of the plurality of column direction setting item headings. The measuring device according to claim 2, wherein when combined, any one of the column direction setting item headings and the other column direction setting item headings are displayed so as to be discriminating.
5. Any of claims 1 to 4, wherein the characters or symbols to be displayed on the display portion where the cursor can be aligned are displayed at least larger than the characters or symbols to be displayed fixedly. The measuring device described in.
6. The measuring device according to claim 1, wherein the characters or symbols of the setting items having a high frequency of setting are enlarged and displayed.
Description: TECHNICAL FIELD [Detailed description of the invention]
[0001]
[Technical field to which the invention belongs]
The present invention relates to a measuring device configured to enable setting of a plurality of setting items displayed on a display unit in a state where the cursor is aligned with a display portion corresponding to any of the plurality of setting items. ..
0002.
[Conventional technology]
As this type of measuring device, the applicant has already developed the waveform display device 51 shown in FIG. As shown in the figure, the waveform display device 51 includes a display unit 52 capable of switching and displaying various display screens and an operation unit 53, and the operation unit 53 includes a CHAN key 4, a DISP key 5, and a jog dial. Various operation switches such as 6a, a shuttle dial 6b, a cursor movement key unit 7, and a function key unit 8 are arranged. Further, the waveform display device 51 is provided with a plurality of measurement unit insertion slots (not shown) for inserting various measurement units capable of electrical measurement on the right side surface side of the main body. In this case, when the measurement unit corresponding to the measurement purpose is inserted into the measurement unit insertion slot, the waveform display device 51 assigns a channel number to the inserted measurement unit according to a predetermined rule. Therefore, the operator sets the operating conditions such as the input range and the display magnification for each assigned channel, so that the voltage, current, and the voltage and current measured by the measuring unit corresponding to the channel can be measured with respect to the waveform display device 51. Various signal waveforms such as temperature and distortion can be displayed on the display unit 52, printed by a printer (not shown), and recorded on a floppy disk.
0003
In the waveform display device 51, for example, when the input range for the channel 2 is set to 5 mV, the channel setting screen is first operated by operating the CHAN key 4 of the operation unit 53, as shown in FIG. 62 is displayed on the display unit 52. Next, by operating the keys 7a to 7d of the cursor movement key unit 7, the cursor 60 is moved to the display portion corresponding to the "range" for CH "2" displayed on the display unit 52 (). The figure shows the state in which the cursor 60 has already been moved). Next, the range of the channel 2 is changed to "5 mV" by operating the keys 8a and 8b of the function key unit 8 and the jog dial 6a or the shuttle dial 6b. If the key 8e of the function key unit 8 is operated in this state, the input range of the channel 2 is changed to "5 mV". After that, when the DISP key 5 is operated, as shown in FIG. 6, the waveform display screen 61 is displayed on the display unit 2, and the waveform display screen 61 displays the signal waveform of the recording target signal corresponding to the channel 2. It is displayed with the amplitude according to the input range whose setting has been changed.
0004
On the other hand, when removing the noise of the recording target signal input to the channel 2, the keys 7a to 7d of the cursor movement key unit 7 are pressed while the channel setting screen 62 is displayed on the display unit 2. By operating, as shown in FIG. 8, the cursor 60 is moved to the display portion corresponding to the "filter" for CH "2". Next, by operating the key 8a of the function key unit 8, the key 8e is operated after the noise filter function is set to "ON". As a result, the noise filter functions for the channel 2, and the noise filter removes the noise superimposed on the recording target signal input to the channel 2. After that, by starting the recording of the recording target signal by a predetermined operation, the recording target signal input to each measurement unit is recorded on a floppy disk or the like corresponding to the assigned channel number.
0005
[Problems to be Solved by the Invention]
However, the waveform display device 51 already developed by the applicant has the following points to be improved.
First, in the waveform display device 51, for example, when setting operating conditions for each channel, when the channel setting screen 62 is displayed on the display unit 52, the cursor 60 is at which position on the channel setting screen 62. It is difficult for the operator to immediately determine whether is displayed. For this reason, there is a possibility that the quick movement of the cursor 60 to the display part corresponding to the setting item to be changed by the operator and the accurate setting such as the operating condition may be hindered, and there is a request to improve this. is there.
0006
Secondly, on the channel setting screen 62 and the like, a plurality of setting items are displayed in a matrix arranged vertically and horizontally in an orderly manner. Therefore, when displaying a large number of channels due to the addition of measurement units, when the cursor 60 is moved by key operation, the operating condition items and channel numbers corresponding to the display positions of the cursor 60 after the movement are performed. , The operator may misidentify the operating condition setting item due to the illusion of the row direction or the column direction. Specifically, for example, when trying to change the setting of the "range" for the channel 2, the "range" for the channel 3 is erroneously set due to the illusion of the column direction, or the "0 position" is set. When trying to change it, it may cause an erroneous setting of "range" due to the illusion of the column direction.
0007
Thirdly, in the waveform display device 51, since the contents of the setting items displayed on the display unit 52 are displayed with a small number of points, before the setting and when performing the setting operation on the channel setting screen 62 or the like. There is a problem that it is difficult to read the contents after setting. In this case, for example, it is possible to display with a large number of points. However, for example, when all the set values of the operating conditions corresponding to a plurality of channels are displayed with a large number of points, it is necessary to enlarge the display screen of the display unit 52, which leads to an increase in the size of the device. Further, when the number of channels displayed on one screen is reduced, the operator is forced to switch screens more than necessary.
0008
The present invention has been made in view of such improvements, and an object of the present invention is to provide a measuring device capable of quick and accurate setting operation. Another object of the present invention is to provide a measuring device capable of easily reading the setting contents while maintaining the miniaturization of the device.
0009
[Means for solving problems]
In order to achieve the above object, the measuring device according to claim 1 can set the setting item in a state where the cursor is aligned with the display portion corresponding to any of the plurality of setting items displayed on the display unit. The configured measuring device is characterized in that the setting item corresponding to the display portion where the cursor is located and other setting items are displayed in a distinguishable manner.
0010
In this measuring device, when the cursor is positioned on an arbitrary setting item to set the operating conditions, the setting item corresponding to the display part where the cursor is displayed and other setting items can be discriminated and displayed. To do. Therefore, as a result of being able to easily determine the setting item specified by the cursor, it is possible to quickly and accurately perform setting operations such as operating conditions.
0011
The measuring device according to claim 2 displays the row direction setting item heading and the column direction setting item heading corresponding to a plurality of setting items on the display unit in the measuring device according to claim 1, and the cursor is placed on a predetermined display portion. When aligned, the row direction setting item and column direction setting item headings corresponding to the display portion are displayed so as to be distinguishable from other row direction setting item headings and column direction setting item headings. ..
0012
In this measuring device, when displaying a setting screen consisting of a plurality of setting items on the display unit, the row direction setting item heading and the column direction setting item heading corresponding to the display part where the cursor is aligned are highlighted. Then, it is displayed on the display unit so as to be distinguishable from other row direction setting item headings and column direction setting item headings. Therefore, the operator can easily determine the setting item specified by the cursor, and as a result, the operating conditions and the like can be set quickly and more accurately.
0013
The measuring device according to claim 3 displays a plurality of row direction setting item headings per unit row direction in the display unit in the measuring device according to claim 2, and makes one of the plurality of row direction setting item headings. When the cursor is aligned with the corresponding display portion, one of the row direction setting item headings and the other row direction setting item headings are displayed so as to be distinguishable.
0014.
The measuring device according to claim 4 displays a plurality of column direction setting item headings per unit column direction in the display unit in the measuring device according to claim 2, and makes one of the plurality of column direction setting item headings. When the cursor is aligned with the corresponding display portion, any one of the column direction setting item headings and the other column direction setting item headings are displayed so as to be distinguishable.
0015.
In the measuring device according to claims 3 and 4, when a plurality of setting item headings are provided for each unit row direction (or unit column direction) in the display unit, a plurality of row direction setting item headings are provided according to the display position of the setting items. Or display multiple column orientation setting headings. Then, when the cursor is aligned with the display portion corresponding to any one of the plurality of row direction setting item headings (or the plurality of column direction setting headings), any one of the row direction setting item headings (or) The column direction setting heading) and other row direction setting item headings (or column direction setting headings) are displayed in a distinguishable manner. Therefore, the operator can easily determine the setting item specified by the cursor and the contents of the setting item even when there are a plurality of setting items per unit row direction or per unit column direction in the display unit. As a result, it becomes possible to perform setting operations such as operating conditions more quickly and accurately.
0016.
The measuring device according to claim 5 is the measuring device according to any one of claims 1 to 4, wherein the characters or symbols to be displayed on the display portion where the cursor can be aligned are at least fixedly displayed. Is also characterized by being enlarged.
[0017]
In this measuring device, the characters or symbols displayed on the display area where the cursor can be aligned (that is, the display area of the setting item) are displayed in a larger size than the characters or symbols that are fixedly displayed. Therefore, as compared with the case where all the characters are enlarged and displayed, it is possible to display the contents of the setting items in an easy-to-read manner while maintaining the miniaturization of the device.
0018
The measuring device according to claim 6 is the measuring device according to any one of claims 1 to 4, wherein characters or symbols for frequently set setting items are enlarged and displayed.
0019
In this measuring device, characters or symbols for setting items that are frequently set are enlarged and displayed. Therefore, the operator can accurately and easily perform the setting operation for the setting item having a high setting frequency. In addition, the display area of the display unit can be effectively used as compared with the case where characters and symbols for all the setting items are enlarged and displayed.
0020
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments in which the measuring device according to the present invention is applied to a waveform display device will be described with reference to the accompanying drawings. The same components as those of the waveform display device 51 already developed by the applicant are designated by the same reference numerals, and duplicate description will be omitted.
0021.
First, the configuration of the waveform display device 1 will be described with reference to FIGS. 1 and 2.
0022.
As shown in FIG. 1, the waveform display device 1 includes a display unit 2 and an operation unit 3. The display unit 2 employs a color LCD, and displays a waveform display screen 21 for displaying the signal waveform of the signal to be recorded, a channel setting screen 22 to be described later, and the like. The operation unit 3 has a CHAN key 4 for displaying the channel setting screen 22 and the like on the display unit 2, a DISP key 5 for displaying the waveform display screen 21 on the display unit 2, a channel setting screen 22 and the like. A jog dial 6a and a shuttle dial 6b for changing the set value, a cursor movement key unit 7 having keys 7a, 7b, 7c, and 7d for moving the cursor 20 up / down / left / right on the display unit 2, and a display unit. Function key unit 8 having keys 8a to 8e to which various functions corresponding to the function display displayed in 2 are assigned according to the situation, and keys 9a to 9p for directly specifying the channel number to be changed by a numerical value. A channel designation key portion 9 having the above is arranged.
[0023]
Further, as shown in FIG. 2, the waveform display device 1 includes a measurement unit insertion unit 11, a CPU 12, a ROM 13, a RAM 14, a printer 15, and an FDD 16. In this case, the measurement unit insertion unit 11 is provided with a plurality of measurement unit insertion slots, and is configured to be capable of inserting up to four various measurement units for measuring voltage, current, temperature, strain, etc., for example. There is. Further, as each measurement unit UN, for example, three types having two signal input connectors, four signal input connectors, or two signal input connectors and two signal input terminals are used. On the other hand, in the waveform display device 1, when the measurement units UN1 to UN4 (hereinafter, also referred to as “measurement unit UN” when not distinguished) according to the measurement purpose are inserted into the measurement unit insertion unit 11, the inserted measurement unit is inserted. Channel numbers are assigned to UN signal input connectors and signal input terminals according to predetermined rules. Therefore, the operator sets the operating conditions such as the input range and the display magnification for each assigned channel to the waveform display device 1 via the signal input connector or the signal input terminal corresponding to the channel. Various signal waveforms that have been input and measured by the measurement unit UN can be displayed on the display unit 2, printed by the printer 15, and recorded on the floppy disk by the FDD 16.
0024
The CPU 12 executes display control when displaying various display screens on the display unit 2, calculation of measurement results measured by each measurement unit UN, and the like. The ROM 13 stores the operation program of the CPU 12, and the RAM 14 temporarily stores the calculation result of the CPU 12. A thermal printer is used as the printer 15, and a signal waveform of a recording target signal measured by each measurement unit UN, a hard copy of a display screen displayed on the display unit 2, and the like are printed. The FDD 16 records a recording target signal, an operating condition setting value of the waveform display device 1, and the like on a 3.5-inch floppy disk (not shown).
0025
Next, the setting operation when setting the operating conditions of the waveform display device 1 will be described with reference to the drawings.
0026
First, when the power switch (not shown) is turned on, the waveform display screen 21 is displayed on the display unit 2 as shown in FIG. On the waveform display screen 21, for example, signal waveforms W1 to W4 corresponding to channels 1 to 4 input to the measurement units UN1 and UN2 having two signal input connectors, respectively, are displayed. In this case, for example, when the input range for the channel 2 is set to "20 mV", the channel setting screen 22 shown in FIG. 3 is displayed on the display unit 2 by first operating the CHAN key 4 of the operation unit 3. Let me. Next, by operating the keys 7a to 7d of the cursor movement key unit 7, the cursor 20 is moved to the display portion corresponding to the "range" of the CH "2". At this time, a setting value candidate display unit 31 for displaying a plurality of setting candidates that can be selected as an input range is displayed on the upper right of the screen.
[0027]
In this case, on the channel setting screen 22, a thick frame 25a is displayed so as to surround the character "range" in the column direction setting heading 25 indicating the contents of the setting items for each channel, and the channel 2 is displayed. A thick frame 26a is displayed so that the entire setting item surrounds one line (corresponding to the unit line in the present invention) including the character "2" which is the line direction setting heading for the channel 2. Therefore, the display position of the cursor 20 in the channel setting screen 22 can be immediately determined, and the content of the setting item in which the cursor 20 is aligned can be easily determined. Further, on the channel setting screen 22, the setting values for the setting items (for example, "range", "magnification", and "0 position") that are frequently set are the numerical values and characters (for example, filters) for other setting items. It is displayed in characters with a large number of points compared to "ON" and "OFF" for, and numerical values for the upper and lower limits. Therefore, in the waveform display device 1, while maintaining the miniaturization of the display unit 2, the contents of the setting items having a high setting frequency are displayed to the operator in an easy-to-read manner.
[0028]
Next, by operating the key 8a, the jog dial 6a, or the shuttle dial 6b of the function key unit 8, the cursor 30 is moved to the portion of "20 mV" in the set value candidate display unit 31 (in the figure, the cursor 30 has already moved). Shows the state of being forced). Subsequently, by operating the key 8e, "20 mV" selected by the cursor 30 is determined as the input range value for the channel 2. After that, by operating the DISP key 5, the waveform display screen 21 is displayed again on the display unit 2, and the signal waveform W2 is displayed corresponding to the changed input range value (not shown). ).
[0029]
Further, in the waveform display device 1, the upper limit value and the lower limit value (that is, the measurable signal level range) in the A / D converter in the measurement unit can be set for each channel. For example, when setting the lower limit value for the channel 3, first, by operating the CHAN key 4, the variable setting screen 23 shown in FIG. 4 is displayed on the display unit 2. Next, by operating the keys 7a to 7d of the cursor movement key unit 7, the cursor 20 is moved to the display portion corresponding to the "lower limit value" for CH "3" (the figure already shows the cursor 20). Indicates the moved state). At this time, on the variable setting screen 23, a thick frame 27a is displayed so as to surround the characters of the "lower limit value" in the column direction setting heading 27 indicating the contents of the setting items for each channel, and the channel 3 is displayed. A thick frame 28a is displayed so that the entire setting item surrounds the entire line including the character "3" which is the line direction setting heading for the channel 3. Also in this case, the display position of the cursor 20 in the variable setting screen 23 can be immediately determined, and the content of the setting item in which the cursor 20 is aligned can be easily determined.
[0030]
Next, by operating the key 8a of the function key unit 8, as shown in FIG. 5, the setting value input screen 41 is displayed on the variable setting screen 23. In this case, the set value display unit 42 of the set value input screen 41 displays the set value of the display portion where the cursor 20 is aligned on the variable setting screen 23. In addition, the up / down arrow display and "+/-" display displayed on the setting value input screen 41, and the keys 9a to 9p of the channel designation key unit 9 located below these displays. In this example, for example, the numerical value "9" in the fourth decimal place of the numerical value displayed on the setting value display unit 42 is one each time the associated key 9m is operated. Decrease. Next, the set values displayed on the set value display unit 42 are changed by operating the keys 9a to 9p of the channel designation key unit 9, and then the change is performed by operating the key 8e of the function key unit 8. The set value is input to the display position of the cursor 20 on the variable setting screen 23. After that, the upper limit value is also changed and set as necessary. After that, by operating the DISP key 5 of the operation unit 3, the waveform display screen 21 is displayed again on the display unit 2, and the waveform display screen 21 displays signals corresponding to the set upper limit value and lower limit value. Waveform W3 is displayed (not shown).
0031
The present invention is not limited to the configuration shown in the above-described embodiment of the present invention. For example, in the embodiment of the present invention, on the channel setting screen 22 and the variable setting screen 23, thick frames 25a and 27a are displayed for the column direction setting headings 25 and 27 corresponding to the setting item on which the cursor 20 is displayed. At the same time, by displaying the thick frames 26a and 28a for all the setting items in the row direction of the channel on which the cursor 20 is displayed, they are displayed so as to be distinguishable from other column direction setting headings and row direction setting items. Not limited to this, for the row direction, it is displayed so as to surround only the part of the character "CH" of the channel where the cursor 20 is displayed, and for the column direction, the setting item where the cursor 20 is displayed. It is also possible to display the entire column direction with respect to the above so as to be surrounded by the thick frame 27a. Further, in the embodiment of the present invention, the embodiment in which the measuring device of the present invention is applied to the waveform display device is described, but it can also be suitably used for various measuring devices such as a wattmeter and a multimeter. ..
[0032]
Further, in the embodiment of the present invention, characters having a large number of points are always displayed for the setting items having a high setting frequency, but for example, only when the cursor 20 is aligned, the characters corresponding to the setting items or the characters corresponding to the setting items or The symbol can also be enlarged.
0033
【Effect of the invention】
As described above, according to the measuring device according to claim 1, the cursor is displayed by displaying the setting item corresponding to the display portion where the cursor is located and the other setting items in a distinguishable manner. As a result of being able to easily distinguish the setting items corresponding to the parts from other setting items, it is possible to quickly and accurately perform setting operations such as operating conditions.
0034
Further, according to the measuring device according to claim 2, when displaying a setting screen or the like composed of a plurality of setting items on the display unit, the row direction setting items and columns corresponding to the display portion where the cursor is aligned are displayed. By displaying the direction setting item heading and the other row direction setting item headings and the column direction setting item headings in a distinguishable manner, the operator can easily distinguish the setting item specified by the cursor. Therefore, the operating conditions and the like can be set quickly and more accurately.
0035.
Further, according to the measuring apparatus according to the third and fourth aspects, when the cursor is aligned with the display portion corresponding to any one of the plurality of row direction setting item headings (or the plurality of column direction setting headings). , Any one of the row direction setting item headings (or column direction setting headings) and the other row direction setting item headings (or column direction setting headings) are displayed so as to be discriminable, so that the unit row direction in the display unit can be displayed. Even when there are multiple setting items per hit or unit column direction, the setting item specified by the cursor and the contents of the setting item can be easily determined, whereby the operator can be made even faster. Moreover, it is possible to accurately perform setting operations such as operating conditions.
0036
Further, according to the measuring device according to claim 5, all the characters are displayed by enlarging the characters or symbols displayed on the display portion where the cursor can be aligned at least more than the characters or symbols displayed fixedly. Compared with the case of enlarged display, the contents of the setting items can be displayed in an easy-to-read manner while maintaining the miniaturization of the device.
0037
Further, according to the measuring device according to claim 6, by enlarging the characters or symbols for the setting items with high setting frequency, the operator can accurately and easily perform the setting operation for the setting items with high setting frequency. It can be executed, and in addition, the display area of the display unit can be effectively used and the size of the device can be maintained as compared with the case of enlarging the characters and symbols for all the setting items. Can be done.
[Simple explanation of drawings]
FIG. 1
It is an external front view of the waveform display device 1 which concerns on embodiment of this invention.
FIG. 2
It is a block diagram which shows the electrical structure of the waveform display device 1 which concerns on embodiment of this invention.
FIG. 3
It is a display screen view of the channel setting screen of the waveform display device 1 which concerns on embodiment of this invention.
FIG. 4
It is a display screen view of the variable setting screen of the waveform display device 1 which concerns on embodiment of this invention.
FIG. 5
It is a display screen view of the variable setting screen and the setting value input screen of the waveform display device 1 which concerns on embodiment of this invention.
FIG. 6
It is an external front view of the waveform display device 51 which the applicant has already developed.
FIG. 7
It is a display screen view of the channel setting screen of the waveform display device 51 which the applicant has already developed.
FIG. 8
It is another display screen figure of the channel setting screen of the waveform display device 51 which the applicant has already developed.
[Explanation of symbols]
1 Waveform display device 2 Display unit 3 Operation unit 12 CPU
20 Cursor 21 Waveform display screen 22 Channel setting screen 23 Variable setting screen 25 Column direction setting heading 25a Thick frame 26a Thick frame 27 Column direction setting heading 27a Thick frame 28a Thick frame 30 Cursor