JP4488546B2 - Waveform display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a waveform display device having a numerical value continuous change setting display function for continuously changing a numerical value to be set when a numerical value changing key is continuously operated and displaying the numerical value on a display unit. It is.
[0002]
[Prior art]
For example, in a waveform display device configured to display a signal waveform for a measured AC voltage on the display unit, an upper limit value and a lower limit value of a display range to be displayed on the display unit can be arbitrarily set when the signal waveform is displayed. It is configured. In this case, for example, the display range is arbitrarily set in increments of 1 V in the range where the lower limit value is in the range of −1000 V to 999 V and the upper limit value is in the range of −999 V to 1000 V. Further, the waveform display device is provided with an UP key and a DOWN key for changing set values for changing the upper limit value and the lower limit value of the display range. Therefore, for example, when changing the upper limit value of the display range, if the UP key or DOWN key is operated once, the upper limit value is changed to a value that is increased or decreased only once with the change amount of 1 V, and the change is made. The new set value is displayed on the display unit. On the other hand, when the UP key or DOWN key is continuously pressed and, for example, 1 second or more has elapsed from the start of operation, the so-called key repeat function is activated, and the upper limit value is continuously increased or decreased at a change amount of 1 V per 0.1 second. The value is changed, and the changed value is sequentially displayed on the display unit.
[0003]
Specifically, for example, when the upper limit set to 12V is changed to 150V, the UP key is operated. At this time, as shown in FIG. 6, the set value is changed from 12V to 13V at the moment (0 seconds) when the UP key is operated. Also, when the UP key is kept pressed for more than 1 second from the start of the operation, the set value is changed from 13V to 14V. After that, as long as the UP key is kept pressed, the set value is 1V per 0.1 second. It is continuously changed with the change amount. For example, if the UP key is held down for 5 seconds, the set value is changed to 54V. If the button is held down for 10 seconds, the set value is changed to 104V. If the button is held down for 15 seconds, the set value is changed. Is changed to 154V. Therefore, when changing the upper limit value to 150V, press and hold the UP key for about 14 seconds, release it, and then display according to the difference between the set value displayed on the display unit and the target set value 150V. Operate UP key or DOWN key several times until 150V is displayed on the screen. At this time, the UP key or the DOWN key is operated intermittently so that the key repeat function does not operate. As a result, the upper limit value of the display range is changed to 150V.
[0004]
[Problems to be solved by the invention]
However, the conventional waveform display device has the following problems. That is, in the conventional waveform display device, for example, when the upper limit value of the display range is set to 12V, when changing to 800V, the UP key must be kept pressed for about 80 seconds. Therefore, when the set value is greatly changed, the UP key or the DOWN key must be kept pressed for a long time. Therefore, the conventional waveform display device has a problem that the operation takes a long time.
[0005]
Further, in the operation state of the key repeat function in the conventional waveform display device, the setting value change interval is set to be as short as 0.1 seconds, so the visibility is poor, and the setting values that are sequentially displayed on the display unit Is difficult to read. Therefore, it is difficult to release the UP key or the DOWN key in a timely manner so that the target set value is set. For this reason, when the set value is set to a value far from the target set value, the UP key or the DOWN key must be operated several times until the set value is set to the target set value. The operation is complicated and takes a long time. On the other hand, when the visibility is improved by increasing the setting value change interval, the time required for the setting change becomes longer.
[0006]
The present invention has been made in view of such problems, and a main object of the present invention is to provide a waveform display device capable of changing a setting value in a short time. Another object of the present invention is to provide a waveform display device in which setting values can be easily changed.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the waveform display device according to claim 1 is set when a numerical value changing key for changing a numerical value is continuously operated over a first predetermined time when a signal waveform is displayed. In a waveform display device having a function of continuously changing numerical values to be displayed and displaying the numerical values on the display unit, the numerical value changing key continuously exceeds a second predetermined time longer than the first predetermined time. And a function of changing the numerical value at a lower change rate than the change rate of the numerical value before that when the operation is performed manually.
[0008]
According to a second aspect of the present invention , when a numerical value changing key for changing a numerical value is continuously operated over a first predetermined time when a signal waveform is displayed, the numerical value to be set is continuously displayed. In the waveform display device having a function of displaying the numerical value on the display unit while changing to the numerical value, when the numerical value changing key is continuously operated over a second predetermined time longer than the first predetermined time. In addition, it is further provided with a function of changing the numerical value after rounding up or rounding off at least the least significant digit of the numerical value set immediately before the numerical value changing amount before that. .
[0009]
Waveform display device according to claim 3, wherein a continuous in waveform display device according to claim 1 or 2, wherein the key for numerical changes from the third operation start time exceeds a predetermined time even in a shorter time than the second predetermined time A function to change a numerical value at a speed almost the same as the amount of change in the period from the first predetermined time to the third predetermined time and at a higher speed than the change speed in the period when operated manually. It is characterized by.
[0011]
Continuous claim 4 waveform display apparatus described, in the waveform display apparatus according to any one of claims 1 to 3, the key for numerical changes beyond the fourth predetermined time is also long than the second predetermined time When operated manually, it has a function of changing the numerical value with a change amount larger than the change amount of the numerical value immediately before that.
[0012]
A waveform display device according to a fifth aspect is the waveform display device according to any one of the first to fourth aspects, wherein the waveform display device has a function capable of arbitrarily setting a numerical change amount.
[0013]
A waveform display device according to a sixth aspect is the waveform display device according to any one of the first to fifth aspects, wherein the waveform display device has a function capable of arbitrarily setting a length of a predetermined time.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, with reference to the accompanying drawings, illustrating the embodiments of the engagement Ru waveform display apparatus according to the present invention.
[0015]
This waveform display device is configured to display a signal waveform for an input signal, various operation condition setting screens, an operation unit in which various keys such as an UP key and a DOWN key are arranged, and set according to the key operation. And a control unit that displays the set value on the display unit while changing the value (none of which is shown). In this case, the UP key and the DOWN key correspond to numerical value changing keys in the present invention. On the other hand, when the operation of the UP key or the DOWN key is started, the control unit changes the set value by a predetermined change amount, and when operated continuously, as shown in FIG. The set value is continuously changed at different change intervals and change amounts according to the elapsed time from the start of the operation. Further, when the change interval setting key or the change amount setting key is operated, the control unit changes the set value at the change interval or the change amount corresponding to the operation.
[0016]
Next, the numerical value changing process in the waveform display device according to the embodiment of the present invention will be specifically described with reference to the drawings.
[0017]
For example, when changing the setting of the upper limit value of the display range, first, by operating a predetermined key, an operation condition setting screen for setting the upper limit value and the lower limit value of the display range is displayed on the display unit. Next, with the cursor positioned on the preset value for the upper limit value displayed on the display unit, the UP key or DOWN key is operated until the preset value is changed to the target set value. Hereinafter, an example in which the upper limit value set to 12V is changed to 813V will be specifically described. First, as shown in FIG. 1, the UP key as a numerical value change key is operated (step 1). At this time, as shown in FIG. 3, after changing the upper limit value from 12V to 13V with a change amount of 1V (step 2), the control unit determines whether or not the numerical value change key (UP key) is kept pressed. Discriminate (step 3). If it is determined that the button has not been pressed, the numerical value changing process is terminated (step 4).
[0018]
On the other hand, when it is determined that the UP key is kept pressed, the control unit determines whether or not one second (corresponding to the first predetermined time in the present invention) has elapsed since the start of the operation of the UP key. (Step 5). When it is determined that it has not elapsed, Steps 3 and 5 are repeatedly executed. When it is determined that 1 second or more has elapsed, 4 seconds (corresponding to the third predetermined time in the present invention) or more from the start of the operation. It is determined whether or not it has elapsed (step 6). When it is determined that the time has not elapsed, the set value is continuously changed with a change amount of 1 V per 0.5 second (step 7). As a result, as shown in FIG. 3, the setting value is changed to 14V when 1 second has elapsed since the start of the operation of the UP key, and thereafter, the setting value is continuously changed at a change amount of 1V per 0.5 seconds. When 3.5 seconds have elapsed since the start of the operation, the set value is changed to 19V.
[0019]
Further, when it is determined in step 6 that 4 seconds or more have elapsed since the start of the operation, it is determined whether or not 7 seconds (corresponding to the second predetermined time in the present invention) have elapsed since the start of the operation. (Step 8). When it is determined that the time has not elapsed, the set value is continuously changed with a change amount of 1 V per 0.2 second (step 9). As a result, as shown in FIG. 3, the set value is changed to 20 V after 4 seconds from the start of the operation of the UP key, and then continuously changed at a change amount of 1 V per 0.2 seconds. When 6.8 seconds have elapsed from the start of operation, the voltage is changed to 34V.
[0020]
Further, when it is determined in step 8 that 7 seconds or more have elapsed, the control unit determines whether or not 12 seconds (corresponding to the fourth predetermined time in the present invention) have elapsed since the start of the operation. (Step 10). If it is determined that it has not elapsed, it is determined whether or not the first digit, which is the lowest digit in the set value, is “0” (step 11). If it is determined that the first digit is not “0”, the first digit is rounded up (step 12), and then the set value is continuously changed with a change amount of 10 V per 0.5 second (step 13). ). On the other hand, when it is determined that the value is “0”, the set value is continuously changed with a change amount of 10 V per 0.5 second (step 13). As a result, as shown in FIG. 4, the set value is changed from 34V to 40V when 7 seconds have elapsed from the start of operation of the UP key, and is changed to 50V when 7.5 seconds have elapsed from the start of operation. The Thereafter, the voltage is continuously changed at a change amount of 10 V per 0.5 second, and is changed to 130 V when 11.5 seconds have elapsed from the start of the operation.
[0021]
Further, when it is determined in step 10 that 12 seconds or more have elapsed, the control unit determines whether or not the tenth digit of the set value is “0” (step 14). When it is determined that the value is not “0”, the 10th digit is rounded up (step 15), and then the set value is continuously changed with a change amount of 100 V per 0.5 second (step 16). On the other hand, when it is determined that the value is “0”, the set value is continuously changed at a change amount of 100 V per 0.5 second (step 16). As a result, as shown in FIG. 5, the setting value is changed from 130V to 200V by rounding up the 10th digit when 12 seconds have elapsed from the start of the operation of the UP key, and 12.5 seconds from the start of the operation. When the time elapses, it is changed to 300V. Thereafter, the set value is continuously changed at a change amount of 100 V per 0.5 second, and is changed to 800 V when the UP key is released when 15 seconds have elapsed from the start of the operation. Thereby, the numerical value changing process is completed.
[0022]
Next, when the UP key is operated again (step 1), the control unit changes whether the change amount is 1V and the upper limit value is changed from 800V to 801V (step 2). (Step 3), whether or not 1 second or more has passed (step 5), whether or not 4 seconds or more have passed (step 6) are sequentially executed, and determined that 4 seconds or more have not passed When this is done, the set value is continuously changed with a change amount of 1 V per 0.5 second (step 7). Thereby, the set value is changed to 802 V when 1 second has elapsed since the UP key was operated again, and changed to 807 V when 3.5 seconds have elapsed since the start of the operation. Next, when 4 seconds or more have elapsed since the start of the operation, the control unit determines whether or not 7 seconds or more have elapsed since the start of the operation (step 8). The set value is continuously changed at a change amount of 1 V per 2 seconds (step 9). As a result, the set value is changed to 808 V when 4 seconds elapses after the UP key is operated again, and is changed to 813 V when 5 seconds elapse from the start of the operation. At this time, by releasing the UP key, the setting value is changed to 813 V, and the numerical value changing process is thereby completed.
[0023]
On the other hand, if the set value is in the vicinity of 813 V when the UP key is released, the UP key is displayed until 813 V is displayed on the display unit according to the difference between the set value and the target set value of 813 V. Or, operate the DOWN key several times. At this time, the UP key or the DOWN key is operated intermittently so that the key repeat function is not activated. As a result, the upper limit value of the display range is changed to 813V.
[0024]
As described above, in this waveform display device, the set value is changed with a change amount of 10 V and 100 V per 0.5 second in a period of 7 seconds to less than 12 seconds and a period of 12 seconds or more from the start of the key operation. . For this reason, even when the setting value is largely changed, the setting change can be completed in a short time. Further, by rounding up the first digit in the set value when 7 seconds have elapsed from the start of the operation and by rounding up the tenth digit in the set value when 12 seconds have elapsed from the start of the operation, for example, 13V Compared with the case of changing with the first digit remaining, such as 23V, 33V ..., or changing with the 10th digit remaining, such as 130V, 230V, 330V ... The set values displayed on the display unit and sequentially changing can be easily recognized. For this reason, as a result of being able to release the UP key or the DOWN key in the vicinity of the target set value, the set value can be changed in a short time and easily. As described above, the waveform display device having many opportunities to set various values in increments of 10 or 100 is particularly effective.
[0025]
Furthermore, in this waveform display device, the numerical value change interval in the period from 4 seconds to less than 7 seconds from the start of key operation is set shorter than the period from 1 second to less than 4 seconds from the start of key operation. By adjusting the time for which the key is kept pressed in accordance with the difference between the set value and the target set value, the target set value can be changed in a short time. Compared to the conventional waveform display device, the numerical value change interval is extended by 0.4 second in the period from 1 second to less than 4 seconds and 0.1 second in the period from 4 seconds to less than 7 seconds from the start of key operation. Therefore, the set value displayed on the display unit and sequentially changing can be reliably read. As a result, the UP key or the DOWN key can be reliably released in the vicinity of the target set value, so that the set value can be changed in a short time and easily.
[0026]
The present invention is not limited to the embodiment of the present invention described above. For example, in the embodiment of the present invention, the example in which the change amount is changed to 1V, 10V, and 100V every predetermined time has been described. However, the present invention is not limited to this, and can be defined as an arbitrary change amount. For example, the amount of change can be changed in an irregular order such as 0.1V, 0.5V, 5V, 50V and 100V. In the embodiment of the present invention, the example in which the setting value change interval is defined as 0.5 seconds and 0.2 seconds has been described. However, the present invention is not limited to this, and the change interval is appropriately changed. be able to. Similarly, the first to fourth predetermined times in the present invention can be arbitrarily defined. Furthermore, in the embodiment of the present invention, an example in which the first digit and the tenth digit in the set value are rounded up after 7 seconds and 12 seconds from the start of the key operation has been described. The digit of the place and the digit of the tenth place may be truncated. In this case, it is preferable to round up when the set value is increased and round down when the set value is decreased, so that the set value can be changed in a shorter time without giving the operator a sense of incongruity.
[0027]
The key repeat function according to the present invention is not limited to pushbutton keys such as the UP key and the DOWN key, but can be applied to, for example, the jog dial or shuttle dial, and can be applied to various numerical value changes such as time adjustment. Is possible .
[0028]
【The invention's effect】
As described above, according to the waveform display device of the first aspect, when the numerical value changing key is continuously operated over the second predetermined time, the change amount is larger than the change amount before that. By changing the numerical value, it is possible to change the setting to the target set value in a short time. In addition, when the numerical value changing key is operated continuously beyond the second predetermined time, the numerical value is changed at a speed lower than the numerical value changing speed before that, thereby improving the visibility. The setting can be changed to the target set value in a short time.
[0029]
According to the waveform display device of the second aspect, when the numerical value changing key is operated continuously beyond the second predetermined time, the numerical value is changed by a larger change amount than the previous change amount. By doing so, it is possible to change the setting to the target set value in a short time. In addition, when the numerical value change key is operated continuously beyond the second predetermined time, it is displayed by changing the numerical value after rounding up or down the least significant digit of the numerical value set immediately before it. Since the visibility of the numerical values sequentially displayed on the part can be increased, the setting can be changed to the target set value easily in a short time.
[0030]
According to the waveform display device of the third aspect, when the numerical value changing key is operated continuously beyond the third predetermined time, the change amount is almost the same as the previous change amount and at a high speed. By changing to, the setting can be changed to the target set value in a shorter time.
[0032]
According to the waveform display device of the fourth aspect, when the numerical value changing key is continuously operated for a fourth predetermined time longer than the second predetermined time, the numerical value immediately before that is displayed. By changing the numerical value with a change amount that is larger than the change amount, the setting can be changed to the target setting in a short time even when the set value is changed greatly.
[0033]
Furthermore, according to the waveform display device according to claim 5, it is possible to arbitrarily set the amount of change in the numerical value according to the usage status of the waveform display device, it is thereby easily change settings to target setpoint it can.
[0034]
Further, according to the waveform display device according to claim 6, it is possible to arbitrarily set the length of the predetermined time in accordance with the use condition of the waveform display device, thereby, visibility is good, moreover, shorter time In addition, the setting can be easily changed to the target set value.
[Brief description of the drawings]
FIG. 1 is a flowchart of a numerical value changing process in a waveform display device according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a relationship between an elapsed time after an UP key is operated and a numerical value whose setting is changed.
FIG. 3 is a diagram showing a relationship between an elapsed time in a period from when the UP key is operated until 7 seconds elapses and a numerical value whose setting is changed.
FIG. 4 is a diagram illustrating a relationship between an elapsed time in a period from 4 seconds to 12 seconds when a UP key is operated and a numerical value whose setting is changed.
FIG. 5 is a diagram showing a relationship between an elapsed time in a period from 7 seconds to 15 seconds when a UP key is operated and a numerical value whose setting is changed.
FIG. 6 is a diagram showing a relationship between an elapsed time after an UP key is operated and a numerical value whose setting is changed in a conventional waveform display device.
[Explanation of symbols]
7 Continuous change processing at 1V change amount per 0.5 seconds 9 Continuous change processing at 1V change amount per 0.2 seconds 12 First digit round-up processing 13 Change amount of 10V per 0.5 seconds 16 Continuous change processing with a change amount of 100V per 0.5 seconds

Claims (6)

When the numerical value changing key for changing the numerical value when the signal waveform is displayed is continuously operated over the first predetermined time, the numerical value to be set is continuously changed and the numerical value is displayed on the display unit. In a waveform display device having a function of displaying ,
When the numerical value changing key is continuously operated over a second predetermined time longer than the first predetermined time, the change amount is larger than the previous numerical value change amount, and A waveform display device further comprising a function of changing the numerical value at a lower speed than the changing speed of the numerical value before that. When the numerical value changing key for changing the numerical value when the signal waveform is displayed is continuously operated over the first predetermined time, the numerical value to be set is continuously changed and the numerical value is displayed on the display unit. In a waveform display device having a function of displaying ,
When the numerical value changing key is continuously operated over a second predetermined time longer than the first predetermined time, the change amount is larger than the previous numerical value change amount, and A waveform display device further comprising a function of changing a numerical value after rounding up or down at least the least significant digit of the numerical value set immediately before. When the numerical value changing key is continuously operated from the start of operation over a third predetermined time, which is shorter than the second predetermined time, the first predetermined time to the third predetermined time. The waveform display device according to claim 1, wherein the waveform display device has a function of changing the numerical value at a change amount that is substantially the same as the change amount in a period up to time and faster than a change speed in the period. When the numerical value changing key is continuously operated over a fourth predetermined time which is longer than the second predetermined time, the numerical value changing key is changed in a larger amount than the immediately preceding numerical value changing amount. 4. The waveform display device according to claim 1, wherein the waveform display device has a function of changing a numerical value. The waveform display device according to claim 1, wherein the waveform display device has a function capable of arbitrarily setting the change amount of the numerical value. 6. The waveform display device according to claim 1, wherein the waveform display device has a function capable of arbitrarily setting the length of the predetermined time.

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