JP5405852B2 - Waveform display device and waveform display method - Google Patents

Description

  The present invention relates to a waveform display device and a waveform display method for displaying a signal waveform based on waveform data.

  For example, in the waveform display device disclosed in Japanese Patent Application Laid-Open No. 2002-257864, a signal waveform based on waveform data and a line indicating an arbitrary position on the time axis are displayed in a waveform display area in a display screen. A configuration is adopted in which a character string related to the displayed signal waveform (for example, a memo regarding the time indicated by the above line) is displayed outside the waveform display area. Further, in this waveform display device, the display magnification in the time axis direction of the signal waveform is an arbitrary magnification (“time length of signal waveform to be displayed in waveform display region” with respect to “reference display time length of waveform display region”: for example , “Same size” and “1/5 times”). Further, this waveform display device is configured such that the display position of the character string with respect to the above-mentioned line can be arbitrarily changed. Thereby, in this waveform display device, the overlap of the character strings when displaying a plurality of character strings (marks) within a narrow range in the display screen, or changing the overlapping order of the character strings, The displayed character string can be easily recognized.

Japanese Patent Laid-Open No. 2002-257864 (page 2-3, FIG. 1)

  However, the conventional waveform display device has the following problems. In other words, the conventional waveform display device employs a configuration in which the signal waveform can be displayed by setting the display magnification in the time axis direction to an arbitrary magnification. In this case, in this type of waveform display device, the display magnification in the time axis direction is “1/10 times”, “1/5 times”, “1/2 times”, “same size”, “2 times”. A plurality of types of magnifications such as “5 times” and “10 times” are defined, and a configuration in which an arbitrary display magnification is selected from these defined magnifications to display a signal waveform is employed. On the other hand, the recording time length of the waveform data that is the basis of the signal waveform is set by the user to an arbitrary time length according to the purpose or when the user operates the stop switch at an arbitrary timing. The recording process can be ended. For this reason, when this type of waveform display device is used, the reference display time length of the waveform display area for displaying the signal waveform is defined as, for example, 10 seconds (from one end of the waveform display area to the other end. In a state in which a signal waveform for 10 seconds is defined to be displayed) until the recording time length of the waveform data on which the signal waveform is to be displayed is, for example, 17 seconds unrelated to the reference display time length. Sometimes.

  In this case, in the above example, when “same size” is selected as the display magnification of the signal waveform, the waveform data for an arbitrary 10 seconds out of the waveform data for 17 seconds (for example, after the start of recording from the recording start time) A signal waveform (a signal waveform for 10 seconds) based on waveform data for 10 seconds until 10 seconds elapses is displayed in the waveform display area. For this reason, in order to refer to all the signal waveforms based on the waveform data for 17 seconds (signal waveforms for 17 seconds), for example, it is necessary to scroll the signal waveform in the waveform display area in the time axis direction. Therefore, the conventional waveform display device has a problem that the operation for displaying the entire signal waveform is complicated.

  On the other hand, in the above example, by selecting “½ times” as the display magnification of the signal waveform, the entire signal waveform for 17 seconds can be displayed in the waveform display area. However, when a signal waveform is displayed at a display magnification of “1/2” in the waveform display area where the standard display time length is defined as 10 seconds, the signal waveform for 20 seconds is displayed in the waveform display area. In spite of this, in the above example, only 17 seconds of waveform data exists, and therefore, a blank area in which no signal waveform is displayed is generated in the waveform display area for (20-17) = 3 seconds. Become. In this case, this type of waveform display device tends to be equipped with a display that is somewhat small (the displayable area is narrow) in order to avoid a situation where the size of the device increases. Therefore, in the conventional waveform display device, there is a problem that the current situation in which a blank area where a signal waveform is not displayed in a valuable displayable area should be improved should be improved.

  The present invention has been made in view of such problems and problems to be improved, and does not perform complicated operations and does not cause an unnecessary blank area in the waveform display area. It is a main object of the present invention to provide a waveform display device and a waveform display method capable of displaying an entire signal waveform based on data in a waveform display region.

In order to achieve the above object, a waveform display device according to claim 1 is a measurement unit that performs measurement processing for measuring electrical parameters of an input signal and outputting waveform data; and a storage unit that stores the waveform data. , the recording process, and a waveform display that displays a predetermined time length of the signal waveform in the waveform display area based on the recorded the waveform data in the storage unit to store the waveform data outputted from the measuring unit in the storage unit a waveform display apparatus and a control unit for executing processing, the waveform in which the control unit executes the recording process in parallel with the measurement process by the measuring portion is output from the measurement unit A display process for storing the data in the storage unit and displaying the signal waveform based on the waveform data recorded in the storage unit in the waveform display area, and the recording process are completed. After that, two types of display processing including display processing for displaying the signal waveform based on the waveform data recorded in the storage unit in the waveform display area can be executed as the waveform display processing. In the display process, when the recording time length of the waveform data is longer than the reference display time length of the signal waveform defined in the waveform display area, the recording is performed over the entire area in the time axis direction in the waveform display area. The signal waveform based on the waveform data is reduced in the time axis direction and displayed in the waveform display area at a first display magnification at which the signal waveform of the time length is displayed, and the signal waveform is displayed more than the reference display time length. When the recording time length is short, the signal waveform of the recording time length is displayed at a second display magnification over the entire area in the time axis direction in the waveform display area. Expanding the signal waveform based on the waveform data to the time axis direction Ru is displayed on the waveform display area. The “reference display time length of the signal waveform defined in the waveform display area” in the present invention is “a reference time length for displaying the signal waveform in the waveform display area”, and specifically, As an example, the state that “the reference display time length is defined as 10 seconds (10 s)” is “the recording time length is 10 seconds so that the display magnification in the time axis direction is equal (1 time)”. This means a state defined such that when a minute signal waveform is displayed, the signal waveform is displayed in the entire time axis direction in the waveform display region. In this case, the reference display time length is set not only by the time length specified as a (fixed) time length inherent to the waveform display device when the waveform display device is manufactured, but also by the user of the waveform display device as a reference value. This includes the length of time.

According to a second aspect of the present invention, there is provided a waveform display method for performing measurement processing for measuring an electrical parameter of an input signal and outputting waveform data, and recording processing for storing the waveform data in a storage unit. A waveform display method for executing a waveform display process for displaying a signal waveform of a predetermined time length in a waveform display area based on the waveform data already recorded in the unit, wherein the recording process is executed in parallel with the measurement process. Display the signal waveform based on the waveform data recorded in the storage unit while storing the waveform data in the storage unit, and display in the waveform display area, and after completing the recording process in the storage unit One of two types of display processing, that is, display processing for displaying the signal waveform based on the recorded waveform data in the waveform display area, is the waveform display processing. When run, when the recording time length of the waveform data than the reference display time length of the signal waveform are defined in the waveform display area is long, the entire region in the time axis direction in the waveform display area The signal waveform based on the waveform data is reduced in the time axis direction and displayed in the waveform display area at a first display magnification at which the signal waveform of the recording time length is displayed , and the reference display time length The signal based on the waveform data at a second display magnification at which the signal waveform of the recording time length is displayed over the entire area in the time axis direction in the waveform display area when the recording time length is shorter than an enlarged waveform to the time axis Ru is displayed on the waveform display area.

According to the waveform display device according to claim 1 and the waveform display method according to claim 2 , when the recording time length of the waveform data is longer than the reference display time length of the signal waveform defined in the waveform display area, A signal waveform based on waveform data is reduced in the time axis direction and displayed in the waveform display area at a first display magnification in which a signal waveform having a recording time length is displayed over the entire time axis direction in the display area; When the recording time length of waveform data is longer than the reference display time length area, an unnecessary blank area is generated in the waveform display area without performing complicated operations such as scrolling the signal waveform in the time axis direction. The entire signal waveform based on the waveform data corresponding to the recording time length can be displayed in the waveform display area without performing the operation. For this reason, even a user unfamiliar with the operation can quickly and easily display a signal waveform that is very easy to see.

Also, in parallel with the measurement process, by displaying on the waveform display area signal waveform based on the waveform data outputted by the measurement process by reducing the time axis direction in the first display magnification it is already recorded Not only when displaying the signal waveform based on the waveform data, but also when displaying the signal waveform in real time in parallel with the recording process (measurement process) of the waveform data, an unnecessary blank area is generated in the waveform display area. Without doing so, the signal waveform based on the waveform data for the length of the recording time can be reduced and displayed.

In addition, when the recording time length than criteria display time length is short, based on the waveform data in the second display magnification signal waveform of the recording time length over the entire time axis in the waveform display area is displayed By expanding the signal waveform in the time axis direction and displaying it in the waveform display area, an unnecessary blank area is generated in the waveform display area when the recording time length of the waveform data is shorter than the reference display time length area. The entire signal waveform based on the waveform data corresponding to the recording time length can be displayed sufficiently large in the waveform display area. For this reason, even a user unfamiliar with the operation can quickly and easily display a signal waveform that is very easy to see.

Also, in parallel with the measurement process, by displaying on the waveform display area signal waveform based on the waveform data outputted by the measurement process to expand the time axis direction in the second display magnification, it is already recorded Not only when displaying the signal waveform based on the waveform data, but also when displaying the signal waveform in real time in parallel with the recording process (measurement process) of the waveform data, an unnecessary blank area is generated in the waveform display area. The signal waveform based on the waveform data for the length of the recording time can be enlarged and displayed without doing so.

1 is a block diagram of a waveform display device 1. FIG. It is explanatory drawing for demonstrating the relationship between input signal S1, S2 and recording time length Tn. It is a flowchart of the waveform display process 20. FIG. 3 is a display screen diagram of a signal waveform display screen 10 in which signal waveforms W1 and W2 based on waveform data D1 and D2 up to a time point of recording time length Tn = 3 seconds (3 s) are normally displayed in a waveform display region 11; FIG. 3 is a display screen diagram of a signal waveform display screen 10 in which signal waveforms W1 and W2 based on waveform data D1 and D2 up to a time point of recording time length Tn = 6 seconds (6 s) are normally displayed in a waveform display region 11; FIG. 4 is a display screen diagram of a signal waveform display screen 10 in which signal waveforms W1 and W2 based on waveform data D1 and D2 up to a time point of recording time length Tn = 6 seconds (6 s) are enlarged and displayed in a waveform display region 11; FIG. 3 is a display screen diagram of a signal waveform display screen 10 in which signal waveforms W1 and W2 based on waveform data D1 and D2 up to a time point of a recording time length Tn = 10 seconds (10 s) are normally displayed in a waveform display region 11; Signal waveforms W1 and W2 based on 10 seconds of waveform data D1 and D2 from the time point of the recording time length Tn = 7 seconds (7 s) to the time point of the recording time length Tn = 17 seconds (17 s) are usually stored in the waveform display area 11 It is a display screen figure of the signal waveform display screen 10 displayed. FIG. 3 is a display screen diagram of a signal waveform display screen 10 in which signal waveforms W1 and W2 based on waveform data D1 and D2 up to a time point of recording time length Tn = 17 seconds (17 s) are reduced and displayed in a waveform display region 11. 5 is a flowchart of a waveform display process 30. FIG. 4 is a display screen diagram of a signal waveform display screen 10 in which signal waveforms W1 and W2 based on waveform data D1 and D2 up to a time point of recording time length Tn = 12 seconds (12 s) are reduced and displayed in a waveform display region 11. FIG. 3 is a display screen diagram of a signal waveform display screen 10 in which signal waveforms W1 and W2 based on waveform data D1 and D2 up to a time point of recording time length Tn = 14 seconds (14 s) are reduced and displayed in a waveform display region 11; 5 is a flowchart of a waveform display process 40. FIG. 4 is a display screen diagram of a signal waveform display screen 10 in which signal waveforms W1 and W2 based on waveform data D1 and D2 up to a time point of a recording time length Tn = 3 seconds (3 s) are enlarged and displayed in a waveform display region 11;

  Embodiments of a waveform display device and a waveform display method according to the present invention will be described below with reference to the accompanying drawings.

  A waveform display device 1 shown in FIG. 1 is an example of a waveform display device according to the present invention, and includes a measurement unit 2, an operation unit 3, a display unit 4, a storage unit 5, and a control unit 6, and includes a waveform according to the present invention. The signal waveforms W1 and W2 (see FIG. 9) can be displayed on the display unit 4 in accordance with the display method. The measurement unit 2 is an example of the measurement unit in the present invention, and includes two measurement channels “CH1” and “CH2” as an example. The measurement unit 2 measures electrical parameters (for example, a voltage value, a current value, a phase, and the like) for the input signals S1, S2 (see FIG. 2) under the control of the control unit 6, and waveform data D1, D2 (Measurement data of electrical parameters: an example of waveform data in the present invention) is generated, and measurement processing for outputting the generated waveform data D1 and D2 to the control unit 6 is executed. The operation unit 3 includes various operation switches (not shown) such as an operation switch for setting operation conditions of the waveform display device 1 and a start switch and a stop switch for starting / ending recording of the waveform data D1 and D2. And an operation signal corresponding to the switch operation is output to the control unit 6.

  The display unit 4 operates according to the control of the control unit 6, an operation condition setting screen (not shown) for setting the operation conditions of the waveform display device 1, and a signal waveform display screen 10 (FIG. 5) for displaying the signal waveforms W 1 and W 2. 4-9) is displayed. In this case, for example, as shown in FIG. 4, the signal waveform display screen 10 includes a waveform display area 11 for displaying the signal waveforms W1 and W2, and signal waveforms W1 and W2 displayed in the waveform display area 11. A channel display area 12 indicating whether the signal waveform is based on the waveform data measured in any of the measurement channels “CH1” and “CH2” (which is the signal waveform based on which of the waveform data D1 and D2); An elapsed time display area 13 indicating how much the signal waveforms W1 and W2 displayed in the waveform display area 11 are based on the waveform data D1 and D2 measured at the time when the measurement has started. It is defined and configured. In the waveform display device 1, as an example, the reference display time length of the waveform display region 11 (hereinafter also referred to as “reference display time length Ts”) is defined as 10 seconds. Therefore, as described later, when the signal waveforms W1 and W2 are normally displayed in the waveform display area 11 at the same magnification, the signal waveforms W1 and W2 based on the waveform data D1 and D2 for 10 seconds are stored in the waveform display area 11. It is displayed in the whole area from the left end to the right end.

  The storage unit 5 stores the waveform data D1 and D2 output from the measurement unit 2 according to the control of the control unit 6. The control unit 6 is an example of a control unit in the present invention, and comprehensively controls the waveform display device 1. As will be described later, the control unit 6 selects one of the waveform display process 20 shown in FIG. 3, the waveform display process 30 shown in FIG. 10, and the waveform display process 40 shown in FIG. The process corresponding to the operation mode set by (1) is executed. Specifically, the control unit 6 controls the measurement unit 2 to execute measurement processing for the input signals S1 and S2 (processing for generating waveform data D1 and D2 corresponding to the input signals S1 and S2) and perform measurement. The waveform data D1 and D2 output from the unit 2 are stored in the storage unit 5 (execution of “recording process”). In addition, the control unit 6 displays the signal waveforms W1 and W2 based on the waveform data D1 and D2 stored in the storage unit 5 in the waveform display area 11 in the signal waveform display screen 10 in the display unit 4.

  Next, display processing of the signal waveforms W1, W2 by the waveform display device 1 will be described with reference to the attached drawings.

  In this waveform display device 1, the signal waveforms W 1 and W 2 based on the recorded waveform data D 1 and D 2 are displayed on the waveform display screen 10 in parallel with the recording processing of the waveform data D 1 and D 2 based on the input signals S 1 and S 2. The signal waveforms W1 and W2 based on the waveform data D1 and D2 recorded after the display processing to be displayed in the area 11 and the recording processing of the waveform data D1 and D2 based on the input signals S1 and S2 are completed on the signal waveform display screen 10. Two types of display processing, that is, display processing to be displayed in the waveform display area 11, can be executed. As for the display process executed in parallel with the recording process, the signal waveforms W1 and W2 are not enlarged or reduced in the time axis direction, and the normal display (eg, specified in advance) is displayed at the same magnification as the conventional waveform display device. Display in a state in which the set reference display time length Ts and the maximum recording time lengths of the signal waveforms W1 and W2 that can be displayed in the waveform display area 11 are set to coincide with each other (in this example, in the waveform display area 11) And the signal waveforms W1 and W2 are displayed in a time according to the waveform display method according to the present invention, with the maximum recording time length of the signal waveforms W1 and W2 set to 10 seconds equal to the reference display time length Ts). One of two types of modes, that is, an enlarged / reduced display (enlarged display or reduced display) that is enlarged or reduced in the axial direction can be selected. Hereinafter, in order to facilitate understanding of the present invention, first, normal display is performed at the time of display processing executed in parallel with the recording processing, and according to the waveform display method according to the present invention at the time of display processing executed after completion of the recording processing. A mode of displaying the signal waveforms W1 and W2 (hereinafter, also referred to as “first mode”) will be described.

  In the first embodiment, when a start switch (not shown) of the operation unit 3 is operated, the control unit 6 starts the waveform display process 20 shown in FIG. In the waveform display process 20, the control unit 6 first controls the measurement unit 2 to start the measurement process of the electrical parameters for the input signals S1 and S2, and the waveform data D1, output from the measurement unit 2 D2 is sequentially stored in the storage unit 5 (recording process of waveform data D1, D2: step 21). Next, the control unit 6 displays the signal waveform display screen 10 on the display unit 4 and also displays the signal waveforms W1 and W2 based on the waveform data D1 and D2 stored in the storage unit 5 in the waveform display area of the signal waveform display screen 10. 11 is normally displayed (step 22). In this case, as described above, in the waveform display device 1, the reference display time length Ts of the waveform display area 11 is defined as 10 seconds. Therefore, at the time when, for example, 3 seconds have elapsed from the start of the recording process of the waveform data D1 and D2, as shown in FIG. The signal waveforms W1, W2 based on the data D1, D2 are displayed.

  Next, the control unit 6 determines whether or not the recording of the waveform data D1 and D2 has been completed (whether or not the recording end conditions of the waveform data D1 and D2 have been satisfied) (step 23). At this time, when it is determined that the recording end condition is not satisfied, the control unit 6 stores the waveform data D1 and D2 output from the measurement unit 2 in the storage unit 5 (step 21). Signal waveforms W1, W2 based on the waveform data D1, D2 are displayed in the waveform display area 11 (step 22). As a result, at the time when, for example, 6 seconds have elapsed from the start of the recording process of the waveform data D1 and D2, as shown in FIG. The signal waveforms W1, W2 based on the waveform data D1, D2 are displayed.

  In this case, for example, when a stop switch (not shown) of the operation unit 3 is operated at, for example, 6 seconds after the start of the recording process of the waveform data D1 and D2, the control unit 6 causes the waveform data D1, It is determined that the recording end condition of D2 is satisfied (recording of waveform data D1 and D2 to be recorded has been completed) (step 23). Next, the control unit 6 determines whether or not the recording time lengths of the waveform data D1 and D2 (hereinafter also referred to as “recording time length Tn”) are equal to the reference display time length Ts of the waveform display area 11 (see FIG. Step 24). In this example, the control unit 6 determines that the recording time length Tn (6 seconds) is shorter than the reference display time length Ts (10 seconds) (the recording time length Tn and the reference display time length Ts are not equal). One case).

  When determining that the recording time length Tn is shorter than the reference display time length Ts, as shown in FIG. 6, the control unit 6 uses the signal waveforms W1, W2 based on the waveform data D1, D2 for the recording time length Tn. In the time axis direction with reference display time length Ts / recording time length Tn times (an example of “second display magnification” in the present invention: in this example, a magnification of a value obtained by dividing the reference display time length by the recording time length). The waveform is enlarged and displayed in the waveform display area 11 (step 25), and the waveform display processing 20 is terminated. As a result, the entire signal waveforms W1 and W2 based on the waveform data D1 and D2 corresponding to the recording time length Tn shorter than the reference display time length Ts are displayed without generating an unnecessary blank area in the waveform display area 11. The area 11 is displayed sufficiently large. In the above example, when it is determined that the recording time length Tn is shorter than the reference display time length Ts, the control unit 6 immediately displays the signal waveforms W1 and W2 in the time axis direction at the second display magnification according to the present invention. However, the present invention is not limited to this, and after the control unit 6 determines that the recording time length Tn is shorter than the reference display time length Ts, When a prescribed switch operation is performed, the signal waveforms W1 and W2 can be enlarged and displayed in the time axis direction at the second display magnification according to the present invention.

  In the above example, the waveform display process 20 is continuously executed without operating the stop switch when 6 seconds have elapsed from the start of recording of the waveform data D1 and D2, and for example, 10 seconds from the start of recording. When the stop switch is operated at the time when elapses, the control unit 6 determines that the recording end condition is satisfied (recording is completed) (step 23), the recording time length Tn, and the reference display time length Ts. Are equal to each other (step 24). In this example, the control unit 6 determines that the recording time length Tn (10 seconds) is equal to the reference display time length Ts (10 seconds).

  In this case, in this example in which the recording time length Tn and the reference display time length Ts are equal, in the normal display (step 22) of the signal waveforms W1 and W2 executed in parallel with the measurement processing described above, as shown in FIG. In addition, the signal waveforms W1 and W2 based on the waveform data D1 and D2 for 10 seconds are displayed in the entire area from the left end to the right end in the waveform display area 11. Therefore, when it is determined that the recording time length Tn is equal to the reference display time length Ts, the control unit 6 ends the waveform display processing 20 while maintaining the display state of the signal waveforms W1 and W2 shown in FIG. . As a result, the entire signal waveforms W1 and W2 based on the waveform data D1 and D2 for the recording time length Tn equal to the reference display time length Ts are generated in the waveform display area without generating an unnecessary blank area in the waveform display area 11. The state displayed sufficiently large in 11 is maintained.

  On the other hand, in the above example, the waveform display process 20 is continuously executed without operating the stop switch when 6 seconds have elapsed from the start of recording of the waveform data D1 and D2 or when 10 seconds have elapsed. For example, when the stop switch is operated when 17 seconds elapse from the start of recording, the control unit 6 determines that the recording end condition is satisfied (recording is completed) (step 23), and the recording time is reached. It is determined whether or not the length Tn is equal to the reference display time length Ts (step 24). In this example, the control unit 6 determines that the recording time length Tn (17 seconds) is longer than the reference display time length Ts (10 seconds) (the recording time length Tn and the reference display time length Ts are not equal). Another example).

  In this case, in this example in which the recording time length Tn is longer than the reference display time length Ts, as shown in FIG. 8 in the normal display (step 22) of the signal waveforms W1 and W2 executed in parallel with the measurement processing described above. Further, 10 seconds immediately before the recording processing of the waveform data D1 and D2 is completed over the entire area from the left end to the right end in the waveform display area 11 (in this example, 10 seconds from the time when 7 seconds have elapsed from the start of recording). The signal waveforms W1 and W2 based on the waveform data D1 and D2 are displayed. For this reason, in this example, the signal waveforms W1, W2 based on the waveform data D1, D2 for 7 seconds until 7 seconds have elapsed from the recording start time are not displayed.

  Therefore, when the control unit 6 determines that the recording time length Tn is longer than the reference display time length Ts, as shown in FIG. 9, the signal waveforms W1, W2 based on the waveform data D1, D2 for the recording time length Tn. In the time axis direction with reference display time length Ts / recording time length Tn times (an example of “first display magnification” in the present invention: in this example, a magnification of a value obtained by dividing the reference display time length by the recording time length). The waveform is reduced and displayed in the waveform display area 11 (step 25), and the waveform display processing 20 is terminated. As a result, the entire signal waveforms W1, W2 based on the waveform data D1, D2 corresponding to the recording time length Tn longer than the reference display time length Ts are displayed without generating an unnecessary blank area in the waveform display area 11. The area 11 is displayed sufficiently large. In the above example, when it is determined that the recording time length Tn is longer than the reference display time length Ts, the control unit 6 immediately outputs the signal waveforms W1, W2 in the time axis direction at the first display magnification in the present invention. However, the present invention is not limited to this, and after the control unit 6 determines that the recording time length Tn is longer than the reference display time length Ts, When a prescribed switch operation is performed, the signal waveforms W1, W2 can be reduced in the time axis direction and displayed at the first display magnification according to the present invention.

  On the other hand, as described above, in the waveform display device 1, the signal waveforms W1 and W2 are displayed in the time axis direction in accordance with the waveform display method according to the present invention in the display process executed in parallel with the recording process of the waveform data D1 and D2. An enlarged / reduced display that is displayed in an enlarged or reduced manner can be executed. Further, in this waveform display device 1, any of the following second and third modes can be selected and executed as an enlargement / reduction display method executed in the display process executed in parallel with the recording process. It is configured as follows.

  Specifically, in the second embodiment, when a start switch (not shown) of the operation unit 3 is operated, the control unit 6 starts the waveform display process 30 shown in FIG. In the waveform display process 30, the control unit 6 first controls the measurement unit 2 to start the measurement process of the electrical parameters for the input signals S1 and S2, similarly to the waveform display process 20 described above. The waveform data D1 and D2 output from the measurement unit 2 are sequentially stored in the storage unit 5 (recording processing of the waveform data D1 and D2: step 31). Next, the control unit 6 determines whether or not the recording time length Tn of the waveform data D1 and D2 exceeds the reference display time length Ts (whether the recording time length Tn is longer than the reference display time length Ts) ( Step 32).

  In this case, when the recording time length Tn of the waveform data D1 and D2 is equal to or shorter than the reference display time length Ts (for example, when 3 seconds have elapsed from the recording start time, when 6 seconds have elapsed, or when 10 seconds have elapsed) ), The signal waveforms W1 and W2 based on the waveform data D1 and D2 corresponding to the recording time length Tn are displayed in the same manner as the normal display of the signal waveforms W1 and W2 during the recording process in the waveform display process 20 described above. Normal display is performed in the waveform display area 11 in the screen 10 (step 33). As a result, as shown in FIGS. 4, 5, and 7, the signal waveforms W <b> 1 and W <b> 2 based on the waveform data D <b> 1 and D <b> 2 for the recording time length Tn are displayed in the waveform display region 11 at the same magnification. Next, the control unit 6 determines that the recording of the waveform data D1 and D2 has not been completed (the recording end condition is not satisfied) (step 34), and continues to record the waveform data D1 and D2. (Step 31).

  Further, when the recording time length Tn of the waveform data D1 and D2 exceeds the reference display time length Ts (for example, when 12 seconds have elapsed from the recording start time: step 32), the control unit 6 as shown in FIG. In addition, the signal waveforms W1 and W2 based on the waveform data D1 and D2 corresponding to the recording time length Tn are converted into the reference display time length Ts / recording time length Tn times (another example of the “first display magnification” in the present invention: this example) Then, the reference display time length is reduced in the time axis direction by a magnification of a value obtained by dividing the reference display time length by the recording time length, and is displayed in the waveform display area 11 (step 35). As a result, the entire signal waveforms W1, W2 based on the waveform data D1, D2 for 12 seconds are displayed in the entire region from the left end to the right end in the waveform display region 11.

  When the stop switch of the operation unit 3 is operated when 17 seconds have elapsed from the start of recording of the waveform data D1 and D2, the control unit 6 satisfies the recording end condition of the waveform data D1 and D2 (recording). It is determined that the recording of the waveform data D1 and D2 to be completed has been completed (step 34), and the waveform display processing 30 is terminated. In this case, when the recording time length Tn exceeds the reference display time length Ts in the display processing executed in parallel with the recording processing of the waveform data D1 and D2, the signal waveforms W1 and W2 corresponding to the recording time length Tn are “ In this example in which the display is reduced in the time axis direction by “reference display time length Ts / recording time length Tn times”, the reduced display of the signal waveforms W1 and W2 executed immediately before the end of the recording process results in the display as shown in FIG. The signal waveforms W1 and W2 based on the waveform data D1 and D2 for 17 seconds from the processing start time to the end time are “standard display time length Ts / recording time length Tn times (in this example, 10/17)”. The image is reduced and displayed in the axial direction.

  As described above, in the second embodiment, when the recording time length Tn of the waveform data D1 and D2 is equal to or smaller than the reference display time length Ts in the display processing executed in parallel with the recording processing of the waveform data D1 and D2, as described above. As in the first embodiment, the signal waveforms W1, W2 based on the waveform data D1, D2 for the recording time length Tn are normally displayed in the waveform display area 11 at the same magnification, and the recording time length Tn of the waveform data D1, D2 is the reference. When the display time length Ts is exceeded (when the recording time length Tn is longer than the reference display time length Ts), the signal waveforms W1, W2 based on the waveform data D1, D2 corresponding to the recording time length Tn are “reference display time”. The length is reduced and displayed in the time axis direction at “length Ts / recording time length Tn times”. On the other hand, in the third embodiment, the waveform display area is displayed when the recording time length Tn of the waveform data D1, D2 is equal to or less than the reference display time length Ts in the display processing executed in parallel with the recording processing of the waveform data D1, D2. The signal waveforms W1 and W2 based on the waveform data D1 and D2 corresponding to the recording time length Tn are enlarged and displayed in the time axis direction without generating a blank area on the right side of 11.

  Specifically, in the third embodiment, when a start switch (not shown) of the operation unit 3 is operated, the control unit 6 starts the waveform display process 40 shown in FIG. In the waveform display process 40, the control unit 6 first controls the measurement unit 2 to start the measurement process of the electrical parameters for the input signals S1 and S2, similarly to the waveform display processes 20 and 30 described above. At the same time, the waveform data D1 and D2 output from the measurement unit 2 are sequentially stored in the storage unit 5 (recording processing of the waveform data D1 and D2: step 41). Next, as shown in FIG. 14, the control unit 6 converts the signal waveforms W1 and W2 based on the waveform data D1 and D2 corresponding to the recording time length Tn to the reference display time length Ts / recording time length Tn times (“first” in the present invention). Another example of “display magnification of 2”: In this example, the display is enlarged in the time axis direction by the reference display time length divided by the recording time length) and displayed in the waveform display area 11 (step 42).

  In the figure, as an example, the signal waveform W1, based on the waveform data D1, D2 at the time when 3 seconds have elapsed from the start of recording (an example in which the recording time length Tn = 3 seconds is equal to or less than the reference display time length Ts). A state in which W2 is displayed in the waveform display area 11 is illustrated. As a result, the entire signal waveforms W1, W2 based on the waveform data D1, D2 corresponding to the recording time length Tn shorter than the reference display time length Ts are displayed sufficiently large in the waveform display area 11. Thereafter, when the recording time length Tn becomes equal to or longer than the reference display time length Ts, the signal waveforms W1 and W2 are displayed in the waveform display area 11 as in the waveform display processing 30 described above. Further, when the stop switch of the operation unit 3 is operated, for example, when 17 seconds have elapsed from the start of recording of the waveform data D1, D2, the control unit 6 satisfies the recording end condition of the waveform data D1, D2. It is determined that the recording of the waveform data D1 and D2 to be recorded has been completed (step 43), and the waveform display processing 30 is terminated.

  Thus, in the third embodiment, when the recording time length Tn of the waveform data D1 and D2 is shorter than the reference display time length Ts in the display processing executed in parallel with the recording processing of the waveform data D1 and D2, the waveform is displayed. The signal waveforms W1 and W2 having the recording time length Tn are displayed in the display area 11 over the entire area in the time axis direction, and are enlarged and displayed in the time axis direction at the second display magnification. The recording time length Tn of the waveform data D1 and D2 is displayed. Is equal to the reference display time length Ts, the signal waveforms W1 and W2 based on the waveform data D1 and D2 for the recording time length Tn are normally displayed in the waveform display area 11 at the same magnification, and the recording time length of the waveform data D1 and D2 When Tn exceeds the reference display time length Ts (when the recording time length Tn is longer than the reference display time length Ts), the recording time length Tn is equal to the first mode and the second mode described above. Signal waveforms W1, W2 based on the shape data D1, D2 are collapsed in the time axis direction in the first display magnification.

  Thus, according to the waveform display device 1 and the waveform display method by the waveform display device 1, the recording time of the waveform data D1, D2 is longer than the reference display time length Ts of the signal waveform defined in the waveform display region 11. When the length Tn is long, the first display magnification (in this example, the reference display time length Ts is used as the recording time length) in which the signal waveform of the recording time length Tn is displayed over the entire time axis direction in the waveform display region 11. By reducing the signal waveforms W1 and W2 based on the waveform data D1 and D2 in the time axis direction and displaying them in the waveform display area 11 by the magnification of the value divided by Tn), the recording time length Tn of the waveform data D1 and D2 is obtained. When it is longer than the reference display time length Ts, an unnecessary blank area is not included in the waveform display area 11 without performing a complicated operation such as scrolling the signal waveforms W1 and W2 in the time axis direction. Without causing, it is possible to display the entire signal waveform W1, W2 based on the waveform data D1, D2 of the recording time length Tn min in the waveform display area 11. For this reason, even a user who is unfamiliar with the operation can quickly and easily display the signal waveforms W1 and W2 that are very easy to see.

  Further, according to the waveform display device 1 and the waveform display method by the waveform display device 1, the signal waveforms W1 and W2 based on the waveform data D1 and D2 output by the measurement process are first displayed in parallel with the measurement process. Is reduced in the time axis direction at a display magnification of, and displayed in the waveform display area 11, not only when displaying the signal waveforms W1, W2 based on the already recorded waveform data D1, D2, but also when displaying the waveform data D1, D2. When the signal waveforms W1 and W2 are displayed in real time in parallel with the recording process (measurement process), waveform data D1 corresponding to the recording time length Tn is generated without generating an unnecessary blank area in the waveform display area 11. , D2 based on the signal waveforms W1, W2 can be reduced and displayed.

  Furthermore, according to the waveform display device 1 and the waveform display method by the waveform display device 1, when the recording time length Tn is shorter than the reference display time length Ts, the waveform display region 11 extends over the entire time axis direction. Signals based on the waveform data D1, D2 at the second display magnification (in this example, the magnification obtained by dividing the reference display time length Ts by the recording time length Tn) at which the signal waveforms W1, W2 of the recording time length Tn are displayed. By expanding the waveforms W1, W2 in the time axis direction and displaying them in the waveform display area 11, when the recording time length Tn of the waveform data D1, D2 is shorter than the reference display time length Ts, the waveform display area 11 is displayed. The entire signal waveforms W1 and W2 based on the waveform data D1 and D2 for the recording time length Tn can be displayed sufficiently large in the waveform display area 11 without causing unnecessary blank areas.For this reason, even a user who is unfamiliar with the operation can quickly and easily display the signal waveforms W1 and W2 that are very easy to see.

  Further, according to the waveform display device 1 and the waveform display method by the waveform display device 1, the signal waveforms W1 and W2 based on the waveform data D1 and D2 output by the measurement processing are secondly output in parallel with the measurement processing. Is displayed in the waveform display area 11 with a display magnification of ## EQU3 ## not only when displaying the signal waveforms W1, W2 based on the already recorded waveform data D1, D2, but also when displaying the waveform data D1, D2. When the signal waveforms W1 and W2 are displayed in real time in parallel with the recording process (measurement process), waveform data D1 corresponding to the recording time length Tn is generated without generating an unnecessary blank area in the waveform display area 11. , D2 based on the signal waveforms W1, W2 can be enlarged and displayed.

  In addition, this invention is not limited to said structure. For example, the waveform display device 1 integrally including the display unit 4 has been described as an example. However, the configuration of the waveform display device in the present invention is not limited to this, and the present invention is applied to a display device as an external device. A configuration in which the signal waveforms W1 and W2 are displayed according to the waveform display method can be employed. In addition, the example in which the signal waveforms W1 and W2 are displayed in the waveform display area 11 in which the time axis direction is defined as the left-right direction in the present invention has been described. Further, it is possible to adopt a configuration in which a signal waveform is displayed according to the waveform display method according to the present invention. Further, the example in which the recording process of the waveform data D1, D2 is started when the start switch of the operation unit 3 is operated and the recording process is ended when the stop switch is operated has been described. However, the waveform data D1, D2 is described. The recording start and end of the recording is not limited to the above example, and recording is started when a preset start condition (time, time, signal level, etc.) is satisfied, and a preset end condition (time, It is also possible to perform recording at the timing when recording is completed when the time and signal level are satisfied.

DESCRIPTION OF SYMBOLS 1 Waveform display apparatus 2 Measuring part 4 Display part 6 Control part 10 Signal waveform display screen 11 Waveform display area 20, 30, 40 Waveform display processing D1, D2 Waveform data S1, S2 Input signal Tn Recording time length Ts Reference display time length W1 , W2 signal waveform

Claims (2)

A measurement unit that performs a measurement process of measuring electrical parameters of an input signal and outputting waveform data;
A storage unit for storing the waveform data;
Recording processing for storing the waveform data output from the measurement unit in the storage unit, and waveform display processing for displaying a signal waveform having a predetermined time length in the waveform display area based on the waveform data recorded in the storage unit a waveform display apparatus and a control unit for execution,
The control unit executes the recording process in parallel with the measurement process by the measurement unit, stores the waveform data output from the measurement unit in the storage unit, and records the waveform data in the storage unit. Display processing for displaying the signal waveform based on waveform data in the waveform display area, and display for displaying the signal waveform based on the waveform data recorded in the storage unit after completion of the recording processing in the waveform display area And two types of display processing can be executed as the waveform display processing, and in the waveform display processing, the waveform data is more than the reference display time length of the signal waveform defined in the waveform display region. When the recording time length is long, the signal waveform of the recording time length is displayed over the entire area in the time axis direction in the waveform display area. The signal waveform based on the waveform data when and reduced to the time axis direction is displayed on the waveform display area, and the reference display time the recording time length than length is short at a rate, the in the waveform display area The signal waveform based on the waveform data is enlarged in the time axis direction and displayed in the waveform display area at a second display magnification at which the signal waveform of the recording time length is displayed over the entire area in the time axis direction. Waveform display device. A measurement process for measuring the electrical parameters of the input signal and outputting the waveform data, and a recording process for storing the waveform data in the storage unit, and executing a predetermined process based on the waveform data recorded in the storage unit A waveform display method for executing waveform display processing for displaying a signal waveform of time length in a waveform display area,
Display processing for displaying the signal waveform based on the waveform data recorded in the storage unit in the waveform display area while executing the recording processing in parallel with the measurement processing and storing the waveform data in the storage unit One of the two types of display processing, that is, display processing for displaying the signal waveform based on the waveform data recorded in the storage unit after completion of the recording processing in the waveform display area is used as the waveform display processing. When executing, when the recording time length of the waveform data is longer than the reference display time length of the signal waveform defined in the waveform display area, the waveform display area covers the entire time axis direction. The signal waveform based on the waveform data is reduced in the time axis direction and displayed in the waveform display area at a first display magnification at which the signal waveform of the recording time length is displayed. Allowed, and the when the reference display time the recording time length than length is short, the second display magnification by the signal waveform of the recording time length over the entire region of the time axis direction in the waveform display area is displayed the signal waveform waveform display method Ru is displayed on the waveform display area is enlarged to the time axis direction based on the waveform data in.

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