JP4233622B2 - Waveform display device and display method of waveform display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a waveform display device that displays a signal waveform of an input signal corresponding to a set signal level range on a display unit, and a display method of the waveform display device.
[0002]
[Prior art]
As this type of waveform display device, the applicant has already developed the waveform display device 31 shown in FIG. The waveform display device 31 includes an operation unit 2 provided with a plurality of switches for setting display conditions of the device, and a display condition setting used when setting display conditions for displaying a signal waveform. Display unit 3 for displaying a display screen, a waveform display screen for displaying a signal waveform according to a set display condition, a range amplifier not shown, a predetermined conversion dynamic range, and the conversion dynamic range And an A / D converter that converts the analog signal into waveform data that is digital data to generate waveform data.
[0003]
The operation unit 2 is provided with a range switching key unit 4, a function key unit 5, a cursor movement key unit 6, a SYSTEM key 7, a DISP key 8, and the like. Here, the range switching key unit 4 includes a plurality of keys 4a, 4b,... Used for range switching of the range amplifier. The function key unit 5 includes keys 5a to 5e to which various functions are automatically assigned according to the operation status of the apparatus. The cursor movement key unit 6 includes keys 6 a to 6 d for moving the cursor displayed on the display unit 3 up, down, left and right. The SYSTEM key 7 has a function of causing the display unit 3 to display a display condition setting screen when setting the display conditions of the apparatus. The DISP key 8 functions as a screen switching key for switching the display screen of the display unit 3 from the display condition setting screen to the waveform display screen.
[0004]
Next, a procedure for displaying a signal waveform in the waveform display device 31 will be described with reference to FIGS.
[0005]
First, set the input range. In this operation, the gain of the range amplifier is adjusted by operating the keys of the range switching key unit 4 so that the signal waveform W1 of the input signal falls within the conversion dynamic range of the A / D conversion unit. Therefore, according to this gain adjustment, as shown in a schematic diagram 41 of FIG. 5, the amplitude value (−nV to + nV) of the signal waveform W1 input to the A / D converter varies. Here, the relationship between the input dynamic range of the input signal in the waveform display device 31 and the display signal level range that is the range of the signal level displayed on the display unit 3 will be described. In this waveform display device 31, the input dynamic range of the device is equal to the signal level range obtained by multiplying the reciprocal of the gain of the range amplifier and the conversion dynamic range of the A / D converter. For this reason, by reducing the gain of the range amplifier, both the input dynamic range and the display signal level range of the entire apparatus can be increased. Therefore, this case is suitable for displaying the entire signal waveform having a large amplitude value on the display unit 3. Conversely, by increasing the gain of the range amplifier, the input dynamic range of the entire device can be reduced. In this case, the entire signal waveform with a small amplitude value or a part of the signal waveform with a large amplitude value can be reduced. It is suitable for displaying on the display unit 3.
[0006]
Next, the display signal level range of the display unit 3 is set. In this setting operation, a display range setting operation for defining a display range corresponding to 1 div in the amplitude axis direction on the display screen of the display unit 3, and a display position for setting the display position of the signal waveform with respect to the display screen of the display unit 3 It is necessary to perform setting operation. In the following description, as shown in the schematic diagram 41, the conversion dynamic range Dr is defined as the conversion dynamic range Dr from the upper limit value UL to the lower limit value LL in the A / D conversion unit, and the lowest values in the display screens 23a to 23d of the display unit 3 are shown. Voltage values are expressed as 0 positions P0a to P0d (also referred to as “0 position” when not distinguished), and respective maximum voltage values are expressed as 1 positions P1a to P1d (also referred to as “1 position” when not distinguished). , 0 position to 1 position shall correspond to 0% to 100%.
[0007]
First, the display condition setting screen 22 shown in FIG. 7 is displayed on the display unit 3 by operating the SYSTEM key 7. At this time, the cursor 20 is displayed at a position indicating the unit of the display range of the channel 1 as shown in FIG. At this time, the keys 5b and 5c of the function key unit 5 are assigned a function for selecting a display range candidate group, and are indicated by arrow displays 25b and 25c (in this state, the arrow display). 25a and 25d are not displayed), but are displayed on the display unit 3 corresponding to the keys 5b and 5c, respectively. Next, a display range setting operation is performed. In this operation, the signal waveform displayed on the display unit 3 can be enlarged or reduced in the vertical direction by setting an arbitrary display range. This figure shows an example in which “500 mV” is designated using both keys 5b and 5c. In this case, since the magnification is set to 2 times, the display range becomes 500 mV per 2 div. As a result, the display range is set to 250 mV per div. Even if the magnification is set to 1 and 250 mV / div, a display range of 250 mV per div can be set.
[0008]
Next, a display position setting operation is performed. In this operation, the display unit 3 displays an arbitrary part of the signal waveform desired to be observed by adjusting the level of the 0 position of the display screen to an arbitrary value of the conversion dynamic range Dr in the A / D conversion unit. If it demonstrates concretely with reference to FIG. 5, in the schematic diagram 41, conversion When it is desired to display the signal waveform W1 near 0V of the dynamic range Dr on the display unit 3, after setting the display range to a predetermined voltage, conversion The dynamic range Dr of 0V is set at a position of 50% of the display screen. As a result, as shown in the display screen 23a of FIG. conversion A signal waveform W1 in the vicinity of 0V of the dynamic range Dr is displayed on the display unit 3. Similarly, in the state where the display range is the same as the display screen 23a, conversion If 0V of the dynamic range Dr is set at a virtual position of 200% on the display screen, the vicinity of the negative peak voltage of the signal waveform W1 is displayed on the display unit 3 as shown in the display screen 23b of FIG. . Similarly, with the same display range, conversion If 0V of the dynamic range Dr is set to a position of 0% of the display screen, as shown in the display screen 23c of the figure, the vicinity of 0V of the positive side voltage of the signal waveform W1 is displayed on the display unit 3, and conversion If 0 V of the dynamic range Dr is set at a virtual position of −100% on the display screen, the vicinity of the peak voltage on the plus side of the signal waveform is displayed on the display unit 3 as shown in the display screen 23 d of FIG. . Needless to say, the amplitude range of the signal waveform W1 displayed on the display screen of the display unit 3 changes according to the display range set in the display range setting process described above.
[0009]
In this operation, the cursor 20 is aligned with the position of the display position setting item (the position of “0 position” in FIG. 7) by operating the key 6d. Here, the keys 5a to 5d of the function key section 5 are assigned an up function in 1% increments, an up function in 10% increments, a down function in 10% increments, and a down function in 1% increments, respectively. Then, arrow displays 25a to 25d showing the assigned functions are displayed. Next, in this state, the display position of the signal waveform is set by operating the keys 5a to 5d.
[0010]
As described above, the setting of the display signal level range is finished, and the signal waveform display screen 23 is displayed on the display unit 3 by operating the DISP key 8 of the operation unit 2. For example, as shown in FIG. 8, the signal waveform W2 of the part corresponding to the set signal level range is displayed. In the case where only a part of the signal waveform W2 is displayed on the display unit 3 as shown in FIG. Is set. In such a case, as described above, by operating the SYSTEM key 7, the display condition setting screen 22 is displayed again, and by repeating the above-described display position setting operation, the signal intended by the measurer is obtained. The entire waveform W2 can be displayed on the signal waveform display screen 23.
[0011]
[Problems to be solved by the invention]
However, the waveform display device 31 has the following points to be improved.
That is, in the waveform display device 31, any part of the signal waveform can be displayed on the display unit 3 by the above-described operation. However, it is difficult for a measurer who is unfamiliar with the operation to accurately grasp a numerical value for displaying a signal waveform that matches the purpose of the measurer in setting the display position and display range. For this reason, the measurer first displays the signal waveform set with the numerical value predicted to be correct on the display unit 3, and when the displayed signal waveform does not match the purpose, the signal waveform matching the purpose is displayed. It is necessary to repeat this setting. For this reason, the waveform display device 31 has a problem that the work until the signal waveform that matches the purpose is displayed is complicated.
Further, a signal waveform may not be displayed on the display unit 3 due to a setting error or the like. In such a case, it is not possible to immediately determine whether the device has failed, whether a display target signal has not been input to the device, or a setting error. Therefore, the waveform display device 31 also has a problem that it is difficult to specify the cause when the signal waveform that matches the purpose is not displayed.
[0012]
The present invention has been made in view of such improvements, Easily recognize the relationship between the signal level range for displaying the signal waveform and the conversion dynamic range of the A / D converter. It is a main object of the present invention to provide a waveform display device and a display method for the waveform display device.
[0013]
[Means for Solving the Problems]
In order to achieve the above object, the waveform display device according to claim 1 includes an A / D converter for generating waveform data for an input signal by analog-digital conversion of the input signal, and a signal set by a predetermined operation. In a waveform display device comprising a display control unit that displays a signal waveform of an input signal corresponding to a level range on a display unit based on generated waveform data, the display control unit converts conversion dynamics of the A / D conversion unit A first chart showing a relative relationship between the range and the set signal level range is displayed on the display unit.
[0014]
In this waveform display device, when the signal level range to be displayed on the display unit is set by the measurer, the display control unit displays the first chart on the display unit. In this case, the first chart shows the relative relationship between the conversion dynamic range of the A / D conversion unit and the set signal level range. Therefore, the measurer can easily recognize how the signal level range set by the measurer is related to the conversion dynamic range of the A / D conversion unit. Therefore, for example, when it is desired to display a signal waveform over the entire conversion dynamic range of the A / D conversion unit, the conversion dynamic range and the signal level range to be set are relatively equal in the first chart. The signal level range only needs to be set, and when it is desired to display a signal waveform corresponding to a specific part of the conversion dynamic range of the A / D converter, the part and the signal level range to be set are relative to each other. Should be set equal to. Thus, the measurer can easily display the signal waveform that matches the purpose on the display unit 3 by referring to the first diagram. Further, when the set signal level range is out of the dynamic range of the A / D converter, the fact can be recognized immediately by referring to the first chart, so that a setting error can be immediately noticed. It becomes possible.
[0015]
The waveform display device according to claim 2 is the waveform display device according to claim 1, wherein the display control unit displays the first diagram together with a signal level setting screen for setting a signal level range by a predetermined operation. It is characterized by being displayed.
[0016]
Although it is not always necessary to display the first chart and the signal level setting screen at the same time, in this waveform display device, the display range control unit displays the first chart together with the signal level setting screen. Therefore, since the measurer can refer to the first chart when setting the signal level, it is possible to quickly and accurately set the signal level range that matches the purpose.
[0017]
The waveform display device according to claim 3 is the claim 1 In the mounted waveform display device, the display control unit displays the first chart together with the signal waveform corresponding to the set signal level range on the display unit.
[0018]
In this waveform display device, the display control unit causes the display unit to display the first chart together with the signal waveform corresponding to the set signal level range. For this reason, when a signal waveform that does not match the purpose is displayed on the display unit, the measurer can immediately recognize the setting error by referring to the first chart.
[0019]
The waveform display device according to claim 4 is the waveform display device according to any one of claims 1 to 3, wherein the display control unit includes a conversion dynamic range and a maximum value of an input signal input to the A / D conversion unit. And a second chart showing a relative relationship with the minimum value is displayed on the display unit.
[0020]
In this waveform display device, the display control unit causes the display unit to display the first chart and the second chart. In this case, the second chart shows a relative relationship between the conversion dynamic range and the maximum value and the minimum value of the input signal input to the A / D conversion unit. Therefore, the measurer can immediately recognize the relationship between the maximum and minimum values of the input signal and the set signal level range. For this reason, when it is desired to display the entire signal waveform on the display unit, the signal level range in the first chart is relatively equal to the maximum value and the minimum value of the input signal in the second chart. By setting in this way, it is possible to display quickly and easily.
[0021]
The waveform display device according to claim 5 is the waveform display device according to any one of claims 1 to 4, wherein the display control unit is set so that the signal level range includes a range outside the conversion dynamic range. Further, a notification display for notifying that effect is displayed on the display unit.
[0022]
In this waveform display device, when the measurer sets a signal level range including a range outside the conversion dynamic range, the display control unit displays a notification display for notifying that effect on the display unit. Therefore, the measurer can immediately recognize an erroneous setting of the signal level range.
[0023]
The waveform display device according to claim 6 is the device according to claim 1. 4 In the waveform display device according to any one of the above, the display control unit sets the first bar-shaped display indicating the range range of the converted dynamic range and the ratio of the length of the first bar-shaped display to the range range of the converted dynamic range. And a second bar-shaped display arranged in parallel with the first bar-shaped display so that the signal level of the set signal level range with respect to the signal level in the conversion dynamic range can be compared with a length equal to the ratio of the set signal level range. A first chart is displayed.
[0024]
The first chart can also be displayed by numerical values. On the other hand, in this waveform display device, the display control unit displays the set signal level range and the conversion dynamic range in a bar shape in parallel. For this reason, the measurer can visually intuition the relative relationship between the two, so that the signal level range can be set more quickly and accurately.
[0025]
The waveform display device according to claim 7 is the waveform display device according to claim 6, wherein the display control unit includes: When the signal level range is set to include a range outside the conversion dynamic range, As a notification display, the signal level range is set within the range of the conversion dynamic range. Mushroom The second bar display is displayed in a display color different from the display color or blinking display.
[0026]
In this waveform display device, when the signal level range set by the measurer is set so as to include outside the range of the conversion dynamic range of the A / D conversion unit, the signal level range is set correctly within the conversion dynamic range. The second bar display is displayed in a display color different from the display color of FIG. Therefore, the measurer can immediately recognize the error when the error is set.
[0027]
The waveform display device display method according to claim 8, wherein the input signal is analog-to-digital converted by an A / D converter to generate waveform data for the input signal, and a signal level range is set by a predetermined operation. Sometimes, in the display method of the waveform display device for displaying the signal waveform of the input signal corresponding to the signal level range on the display unit based on the generated waveform data, the conversion dynamic range of the A / D conversion unit and the set signal A chart showing a relative relationship with the level range is displayed on the display unit.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of a waveform display device according to the invention will be described with reference to the accompanying drawings. Note that the same components as those of the waveform display device 31 already developed by the applicant are denoted by the same reference numerals, and redundant description is omitted, and redundant description of the same operation method is also omitted.
[0029]
First, the electrical configuration of the waveform display device 1 according to the embodiment of the present invention will be described with reference to the block diagram of FIG.
[0030]
As shown in the figure, the waveform display device 1 includes an operation unit 2, a display unit 3, a range amplifier 11, an A / D conversion unit 12, a DMA controller 13, a data RAM 14, a CPU 15, a ROM 16, a RAM 17, a printer 18, and an interface unit. 19.
[0031]
The display unit 3 is composed of an LCD panel, but is not limited to this, and a cathode ray tube (CRT) or the like can also be used. The range amplifier 11 amplifies or attenuates the inputted display target input signal SIN with a predetermined gain under the control of the CPU 15 and outputs the amplified signal to the A / D converter 12. The A / D converter 12 samples the input signal SIN input via the range amplifier 11 in synchronization with a predetermined sampling signal and performs analog-digital conversion to generate waveform data DS. The DMA controller 13 directly transfers the waveform data DS generated by the A / D converter 12 to the data RAM 14. The data RAM 14 is constituted by a storage RAM, stores the waveform data DS input by the DMA controller 13, and outputs the waveform data DS to the CPU 15 via the DMA controller 13.
[0032]
The CPU 15 corresponds to a display control unit according to the present invention, and inputs key signals by operating various keys arranged in the operation unit 2, display control of the display condition setting screen 22, and on the display condition setting screen 22. Display control of the signal waveform for the input signal SIN corresponding to the signal level range set in step 1, measurement of the maximum and minimum values of the input signal SIN, and a range amplifier corresponding to a predetermined key signal output from the operation unit 2 11 and control of communication with an external device via the interface unit 19 are executed. The ROM 16 stores an operation program for the CPU 15, and the RAM 17 temporarily stores a calculation result of the CPU 15. Although not particularly limited, the printer 18 is configured by a thermal printer, and prints a signal waveform displayed on the display unit 3 and a hard copy of the display screen under the control of the CPU 15. The interface unit 19 exchanges output data DOUT and input data DIN with a memory card, PC card, RS232C communication card, or the like as an external device.
[0033]
Next, display control of signal waveforms in the waveform display device 1 will be described.
[0034]
When the power switch is turned on, an initial screen 21 shown in FIG. Next, when the display target signal is input via the measurement probe (not shown), when the key of the range switching key unit 4 is operated, the A / D conversion unit 12 is input via the range amplifier 11. The waveform data DS is generated by analog-digital conversion of the input signal SIN, and the generated waveform data DS is output to the DMA controller 13. The DMA controller 13 sequentially transfers and stores the waveform data DS to the data RAM 14 and outputs a transfer end signal STE to the CPU 15 each time the transfer is completed. On the other hand, when displaying the signal waveform of the input signal SIN on the display unit 3, the CPU 15 outputs a data transfer command signal STS to the DMA controller 13, thereby transferring waveform data from the data RAM 14 via the DMA controller 13. DS is read, and the signal waveform is displayed on the display unit 3 based on the read waveform data DS. At this time, the CPU 15 displays a signal waveform corresponding to the display signal level set by the display signal level range setting operation.
[0035]
Next, the display signal level range setting operation will be specifically described.
[0036]
In this operation, first, by operating the SYSTEM key 7 of the operation unit 2, a display condition setting screen 22 shown in FIG. (Corresponding to “signal level setting screen” in the present invention) Is displayed on the display unit 3. At this time, a display state confirmation screen 24 corresponding to the first and second diagrams in the present invention is displayed superimposed on the display condition setting screen 22. On the display state confirmation screen 24, as shown in the figure, a dynamic range display 26 showing the range range from the upper limit value to the lower limit value of the conversion dynamic range Dr of the A / D converter 12 on the vertical axis. (Corresponding to “first bar display” in the present invention) And a display bar 27 indicating the signal level range of the signal waveform set on the display condition setting screen 22 and displayed on the display unit 3. (Corresponds to “second bar-like display” in the present invention) And a waveform bar 28 indicating the signal level range of the input signal SIN input to the A / D converter 12 is displayed. In this case, the display bar 27 is displayed in green, and the length and position of the display bar 27 look at the relative relationship between the signal level range of the set signal waveform and the range range of the conversion dynamic range Dr. It is displayed so that it can be understood. On the other hand, the waveform bar 28 is displayed in green, and its length and position are relative to the signal level range of the input signal SIN input to the A / D converter 12 and the range range of the conversion dynamic range Dr. The relationship is displayed so that it can be understood at a glance.
[0037]
Next, while the display condition setting screen 22 and the display state confirmation screen 24 are displayed, by operating the keys 5b and 5c of the function key unit 5 while referring to the display state confirmation screen 24, The display range is set on the display condition setting screen 22. Note that the setting method itself can be performed in the same manner as the operation method in the waveform display device 31 already developed by the applicant. In this case, when the gain of the range amplifier 11 is changed by the keys 4a and 4b of the input key unit 4, if the gain is increased, the waveform bar 28 is lengthened accordingly. Therefore, in order to display the entire input signal SIN with high accuracy, the gain of the range amplifier 11 is adjusted by the keys 4a and 4b so that the waveform bar 28 is equal to the length from the upper limit value to the lower limit value of the dynamic range display 26. adjust. On the other hand, when changing the size of the display range, if the display range is increased, the display bar 27 is lengthened accordingly. When changing the display magnification to a large value, the display magnification is increased. Accordingly, the display bar 27 is shortened. When the display position is set to 0% in the display position setting operation, the lower end of the display bar 27 is positioned at a portion corresponding to 0 V of the dynamic range display 26. If it is set to a large value, it moves so as to be located on the lower side of the dynamic range display 26 in the vertical axis direction. Move so that it is located on the upper side.
[0038]
Therefore, in order to display the entire input signal SIN in the above operation, the display bar 27 and the waveform bar 28 have the same length and are displayed in parallel at the same position with respect to the vertical axis of the dynamic range display 26. Next, adjust the display range and display position. In order to enlarge and display a specific part of the signal waveform, the display bar 27 is equal to the length of the specific part of the waveform bar 28 and is arranged in parallel at the same position with respect to the vertical axis of the dynamic range display 26. Adjust the display range and display position so that they are displayed. In this way, it is possible to confirm on the display state confirmation screen 24 how the signal waveform displayed on the display unit 3 changes according to the setting result of the display range and the display position. For this reason, the display signal level range can be set quickly and easily so as to meet the display purpose. At the same time, erroneous settings can be prevented.
[0039]
Further, when the display signal level range is set and the display signal level range is set to include a range outside the conversion dynamic range Dr of the A / D conversion unit 12, as shown in FIG. In addition, the CPU 15 changes the display color of the display bar 27 on the display state confirmation screen 24 from green to, for example, red, and causes the display to blink. (Corresponds to “notification display” in the present invention) . As a result, the measurer can immediately recognize that the setting of the signal level range includes the range outside the conversion dynamic range Dr, and can thereby change the setting to a correct value.
[0040]
When the setting of the display signal level range is completed, the CPU 15 displays the signal waveform display screen 23 on the display unit 3 in accordance with the setting of the display signal level range as shown in FIG. In this case as well, by performing a predetermined operation, the CPU 15 causes the display state confirmation screen 24 to be superimposed on the signal waveform display screen 23. At this time, the CPU 15 assigns a display position setting change function to the keys 5a to 5d of the function key unit 5, and causes the display unit 3 to display arrow displays 25a to 25d indicating the assigned functions. Therefore, the measurer can change the display position of the displayed signal waveform while the signal waveform W3 is displayed on the display unit 3. Specifically, the measurer operates the keys 5a to 5d while comparing and referring to the waveform bar 28 and the display bar 27 on the display state confirmation screen 24, thereby displaying an arbitrary part of the signal waveform W3 on the display unit 3. Can be displayed. For this reason, when the display position is to be changed, it is possible to omit the work of displaying the display condition setting screen 22 again, and refer to the actually displayed signal waveform W3 and the display state confirmation screen 24. However, since the display position can be set, the display position setting operation can be performed very easily and quickly. The display state confirmation screen 24 can be displayed on the display unit 3 at any time by performing a predetermined operation, and can be deleted at any time by a predetermined operation.
[0041]
As described above, in the waveform display device 1, the range of the conversion dynamic range Dr of the A / D conversion unit 12, the set signal level range, and the signal of the input signal SIN input to the A / D conversion unit 12. By displaying the display state confirmation screen 24 showing the relative relationship with the level on the display unit 3, the measurer can easily, quickly and accurately set the display signal level range, which has been difficult and complicated conventionally. Can be set.
[0042]
The present invention is not limited to the embodiment described above. For example, in the embodiment of the present invention, the example in which the display bar 27 and the waveform bar 28 on the display state confirmation screen 24 are displayed in a bar shape has been described. However, the conversion dynamic range Dr of the A / D conversion unit 12 and the display unit It is only necessary to understand the relative relationship between the signal level range of the signal waveform displayed in 3 and the signal level of the input signal SIN input to the A / D converter 12, and it can also be displayed numerically. In addition, the display method, display color, notification display, and the like in the display state confirmation screen 24 can be changed as appropriate. Furthermore, in the present invention, when displaying a signal waveform, a method of directly setting a signal level range to be displayed on the display unit 3 by a numerical value can be adopted.
[0043]
【The invention's effect】
As described above, according to the waveform display device of claim 1 and the display method of the waveform display device of claim 8, the relative dynamic range of the A / D converter and the set signal level range are relative to each other. By displaying a chart showing the relationship on the display unit, the operator can easily recognize the relationship between the signal level range set by the operator and the conversion dynamic range of the A / D conversion unit. Can be made. Accordingly, the measurer can easily display the signal waveform that matches the purpose on the display unit by referring to the chart, and can immediately know the cause of the setting error.
[0044]
According to the waveform display device of the second aspect, the display control unit displays the first chart on the display unit together with the signal level setting screen for setting the signal level range by a predetermined operation. The measurer can quickly and accurately set the signal level range that matches the purpose.
[0045]
Furthermore, according to the waveform display device of the third aspect, the display control unit displays the first chart together with the signal waveform corresponding to the set signal level range on the display unit, so that the signal waveform that does not meet the purpose is displayed. Is displayed on the display unit, the measurer can immediately recognize the setting error by referring to the first chart.
[0046]
According to the waveform display device of the fourth aspect, the display control unit indicates the relative relationship between the conversion dynamic range and the maximum value and the minimum value of the input signal input to the A / D conversion unit. By displaying the chart of 2 on the display unit, the measurer can immediately recognize the relationship between the maximum and minimum values of the input signal and the set signal level range. As a result, the measurer can quickly and easily display the signal waveform that matches the purpose on the display unit.
[0047]
According to the waveform display device of claim 5, when the signal level range is set to include a range outside the conversion dynamic range, the display control unit displays a notification display for notifying that effect. By displaying on the screen, the measurer can immediately recognize an erroneous setting of the signal level range.
[0048]
According to the waveform display device of the sixth aspect, the display controller displays the first chart with the first bar-shaped display and the second bar-shaped display, so that the measurer can determine the relative relationship between the two. As a result of being visually intuitive, it is possible to set the signal level range more quickly and accurately.
[0049]
According to the waveform display device of claim 7, when the display control unit is set as the notification display, the signal level range is set within the range of the conversion dynamic range. Mushroom By displaying the second bar-shaped display in a display color different from the display color or blinking display, the measurer can immediately recognize the error at the time of incorrect setting.
[Brief description of the drawings]
FIG. 1 is a block diagram of a waveform display device according to an embodiment of the present invention.
FIG. 2 is a display screen diagram in a state in which a display condition setting screen and a display state confirmation screen are displayed superimposed on the display unit of the waveform display device according to the embodiment of the present invention.
FIG. 3 is a display screen diagram in a state where a notification display is displayed on a display state confirmation screen in the display unit of the waveform display device according to the embodiment of the present invention.
FIG. 4 is a display screen diagram showing a state in which a signal waveform display screen and a display state confirmation screen are superimposed and displayed on the display unit of the waveform display device according to the embodiment of the present invention.
FIG. 5 shows the signal level range of the signal waveform displayed on the signal waveform display screen and the conversion dynamics of the A / D converter in the waveform display device according to the embodiment of the present invention and the waveform display device already developed by the applicant. It is explanatory drawing which shows the relative relationship with a range.
FIG. 6 is an external view of a waveform display device according to an embodiment of the present invention and a waveform display device already developed by the applicant.
FIG. 7 is a display screen diagram in a state where a display condition setting screen is displayed on the display unit of the waveform display device already developed by the applicant.
FIG. 8 is a display screen diagram showing a state in which a signal waveform display screen is displayed on the display unit of the waveform display device already developed by the applicant.
[Explanation of symbols]
1 Waveform display device
3 Display section
12 A / D converter
15 CPU
22 Display condition setting screen
23 Signal waveform display screen
24 Display status confirmation screen
26 Dynamic range display
27 Display bar
28 Wave Bar

Claims (8)

An A / D converter that generates waveform data for the input signal by analog-to-digital conversion of the input signal, and the signal waveform of the input signal corresponding to a signal level range set by a predetermined operation is generated. In the waveform display device comprising a display control unit for displaying on the display unit based on the waveform data obtained,
The display control unit causes the display unit to display a first chart showing a relative relationship between a conversion dynamic range of the A / D conversion unit and the set signal level range. apparatus.   The waveform display according to claim 1, wherein the display control unit causes the display unit to display the first chart together with a signal level setting screen for setting the signal level range by the predetermined operation. apparatus. The display controller, the set signal level range to be displayed on the display unit the first figure with the corresponding signal waveforms, characterized in claim 1 Symbol placement of the waveform display device.   The display control unit causes the display unit to display a second chart indicating a relative relationship between the conversion dynamic range and the maximum value and the minimum value of the input signal input to the A / D conversion unit. The waveform display device according to any one of claims 1 to 3.   When the signal level range is set to include a range outside the range of the conversion dynamic range, the display control unit causes the display unit to display a notification display for notifying that effect. The waveform display device according to claim 1. The display control unit includes a first bar-shaped display indicating the range range of the conversion dynamic range and a ratio of the length of the first bar-shaped display to the set signal level range with respect to the range range of the conversion dynamic range. A second bar-shaped display having a length equal to the ratio and arranged in parallel with the first bar-shaped display so that the signal level in the set signal level range can be compared with the signal level in the conversion dynamic range. waveform display apparatus according to any one of the possible to display the chart claim 1, wherein 4. The display controller, when the signal level range is set include a range outside the range of the conversion dynamic range, as the notification display for notifying to that effect, the signal level range of the conversion dynamic range waveform display device according to claim 6, wherein the displaying the second rod-like displayed in a different display color, or blinking display that is set in the range range as Kino display color. Waveform data for the input signal is generated by analog-digital conversion of the input signal by an A / D converter, and when the signal level range is set by a predetermined operation, the input corresponding to the signal level range In the display method of the waveform display device for displaying the signal waveform of the signal on the display unit based on the generated waveform data,
A display method of a waveform display device, wherein a chart showing a relative relationship between a conversion dynamic range of the A / D conversion unit and the set signal level range is displayed on the display unit.

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