JP2006214790A - Waveform analyzer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a waveform analyzer capable of easily regenerating the waveform of a plurality of waveform data contained in a data memory. <P>SOLUTION: The waveform analyzer for measuring waveform to be measured with a reference of trigger signal, containing in turn in the data memory as waveform data, and indicating desired waveform data from the waveform data contained in the data memory on a display comprises an operation part setting a regenerating speed and regenerating method for the waveform data contained in the data memory. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a waveform analysis apparatus that creates image data to be displayed on a display unit from waveform data stored in a data storage unit and displays the image data on a display unit. Specifically, the order of storage is continuous. The present invention relates to a waveform analysis apparatus capable of setting a waveform data display method.

  The waveform analyzer is a digital oscilloscope, for example, which converts the waveform under measurement into waveform data of a digital signal, stores it in a memory that is a waveform data storage unit, and creates image data based on the waveform data stored in the memory Displayed on the display screen of the display unit, or the displayed image data is converted into a file of a predetermined format and stored in the file storage unit. Widely used in management and maintenance work.

  Moreover, the waveform measuring apparatus can store only waveform data satisfying a desired condition in the memory using the trigger signal. The memory can store a plurality of waveform data measured and acquired for each trigger signal, and is also called a history memory.

JP 2000-292449 A JP 2003-185681 A

  FIG. 4 is a configuration diagram showing an example of a conventional waveform analysis apparatus. In FIG. 4, the measurement unit 10 receives a waveform to be measured, converts the waveform to be measured into a digital signal and outputs it as waveform data, and outputs a control signal for storing a desired waveform. Generally, the measurement unit 10 has a plurality of input channels, and an A / D conversion circuit is also provided for each input channel. However, only one channel is shown for the sake of explanation.

  The waveform to be measured is input to the measurement unit 10, the input waveform is converted into a desired amplitude level, A / D converted by the A / D converter 11, and output as waveform data. The trigger detection circuit 12 outputs a trigger signal, and the memory control circuit 13 outputs a control signal according to the trigger signal from the trigger detection circuit 12.

  The data storage unit 20 is a history memory, and sequentially stores waveform data according to instructions from the memory control circuit 13. The operation unit 30 includes a touch panel, buttons, a jog dial, and the like, and sets waveform data to be displayed, selection of channels, a format for saving in a file, and the like.

  The processing unit 40 reads the waveform data from the data storage unit 20 based on the output from the operation unit 30, and creates image data or converts the image data into a file of a desired format. The display unit 50 displays the image data created by the processing unit 40 on the display screen.

  When the trigger detection circuit 12 detects that the signal level of the waveform under measurement input to the measurement unit 10 satisfies a desired trigger condition, the trigger detection circuit 12 outputs a trigger signal. The desired trigger condition is, for example, when the signal level changes from negative to positive, or when signals from a plurality of channels exceed a specific signal level.

  Then, the memory control circuit 13 stores the waveform data from the A / D conversion circuit 11 in the data storage unit 20 for each trigger signal with reference to the trigger signal from the trigger detection circuit 12. At this time, the waveform data may be output so that waveform data for a desired time before and after the reference trigger signal can be stored in the data storage unit 20. Further, an index for identifying a plurality of waveform data stored in the data storage unit 20 by the memory control circuit 13, for example, a number indicating the stored order (in FIG. 4, the newest waveform data is numbered 0, and the number becomes smaller as it gets older) Is added to each waveform data.

  Next, an operation for displaying the waveform data stored in the data storage unit 20 on the display unit 50 will be described. First, one waveform data to be read from the data storage unit 20 is designated via the touch panel, buttons, jog dial, etc. of the operation unit 30.

  Then, the processing unit 40 reads the designated waveform data from the data storage unit 20, converts it into image data, and displays it on the display screen of the display unit 50. FIG. 5 is a general display example of the display screen provided in the display unit 50. In FIG. 5, the waveform display area 100 is an area for displaying the waveform of the waveform data designated by the operation unit 30. On the display screen outside the waveform display area 100, waveform data measurement conditions (measurement range, measurement channel, trigger conditions, etc.) and information on the apparatus main body are displayed (not shown). The information on the apparatus main body includes, for example, the current time, the number of the waveform data being displayed, the number of the waveform data stored in the data storage unit 20, and the like.

  These pieces of information are displayed on a part of the display screen so that they can be referred to when the jog dial is operated to display a desired waveform or when setting conditions are input.

  In such a waveform analysis apparatus, waveform data is generated for each trigger signal under the same measurement conditions, for example, sampling time and signal level amplification, for performance evaluation and trend measurement of equipment that performs the same operation repeatedly. Is obtained and analyzed.

  For example, in an electronic circuit, when a signal level changes from a low level to a high level, a trigger condition is set when the signal level exceeds a certain level, and the overshoot and undershoot amplitudes at the desired analysis position are analyzed from that trigger point. For example.

  In such a measurement, it is necessary to measure and analyze an enormous number of times instead of a single measurement, and to perform statistical processing. Therefore, in the waveform analyzer, the capacity of the data storage unit 20 is increased so that waveform data can be stored for a long time, and hundreds to thousands of waveforms are stored.

  However, as described above, when the waveform data stored in the data storage unit 20 is displayed, one index of the data storage unit 20 in which the desired waveform data is stored is designated by the operation unit 30 and displayed. Although displayed on the display screen of the unit 50, in order to observe the waveform data in order, it is necessary to designate an index by the operation unit 30 each time. For example, when the operation unit 30 is a jog dial, it is necessary to manually rotate the jog dial to sequentially display waveforms.

  As a result, the waveform data stored in the data storage unit 20 can be continuously reproduced. However, it is time-consuming and manual, so that when the reproduction is performed at the maximum update rate, the reproduction speed is not constant. In addition, the reproduced waveform data is not at a constant rate. In addition, since the renewed waveform data has a constant update rate, it cannot be said that the conditions for accurate analysis are satisfied.

  Further, when it is desired to view the waveform data stored in the data storage unit 20 at a high speed, that is, when it is specified to display the waveform data at a speed exceeding the maximum update rate of the screen display, all the stored waveform data Is not displayed, and is displayed after being thinned out.

  It is an object of the present invention to provide a waveform analysis device that can easily reproduce a plurality of waveform data stored in a data storage unit.

In order to achieve such a problem, the invention according to claim 1 measures a measured waveform with reference to a trigger signal, sequentially stores the waveform data in a data storage unit, and stores the waveform data in the data storage unit. In the waveform analysis apparatus for displaying desired waveform data on the display unit from the waveform data,
An operation unit is provided for setting a speed and a reproduction method for reproducing the waveform data stored in the data storage unit.

  According to a second aspect of the present invention, in the waveform analysis apparatus according to the first or second aspect, the operation unit displays the latest data with respect to the waveform data stored in the data storage unit, or The oldest data is displayed, or displayed in time series, or displayed in reverse order in time series, and a setting unit for setting the reproduction speed of the displayed data is provided.

  According to a third aspect of the present invention, in the waveform analysis apparatus according to the first aspect, the setting unit sets a speed at which the data stored in the data storage unit is reproduced and displayed, and a reproduction speed selection for displaying the data is displayed. And a reproduction method selection means for setting and displaying a method for reproducing and displaying the data stored in the data storage unit.

  According to a fourth aspect of the present invention, in the waveform analysis apparatus according to any one of the first to third aspects, the reproduction method selecting means displays the latest data with respect to the data stored in the data storage unit. 1 instruction unit, a second instruction unit for displaying the oldest data with respect to data stored in the data storage unit, and a third instruction unit for reproducing and displaying the stored data in time series , A fourth instruction unit for reproducing and displaying the stored data in reverse order in time series, and a fifth instruction unit for stopping the data reproduced and displayed at arbitrary data.

  According to a fifth aspect of the present invention, in the waveform analysis device according to the first to fourth aspects, the reproduction speed selection means increases the update rate, and a display unit that displays an update rate of displayed data. A sixth instruction unit for increasing the reproduction speed of the data stored in the data storage unit, and a seventh instruction unit for decreasing the reproduction speed of the data stored in the data storage unit by decreasing the update rate. Prepare.

  According to a sixth aspect of the present invention, in the waveform analysis apparatus according to the first to fifth aspects, a playback instruction unit is provided in a menu unit displayed on the display screen of the display unit, and by operating this, A menu of the reproduction speed selection means and the reproduction method selection means is displayed.

  According to a seventh aspect of the present invention, in the waveform analysis apparatus according to the first to sixth aspects, when the playback speed selection unit and the playback method selection unit are operated, the first to seventh instruction units are displayed. Expanded as a menu.

  According to an eighth aspect of the present invention, in the waveform analysis apparatus according to any one of the first to seventh aspects, when the update rate of data displayed by the reproduction speed selecting unit is set, the processing unit is configured to store the data storage unit. Among the waveform data stored in, the waveform data between rates are displayed in an overlapping manner.

  According to the present invention, the function for setting the waveform data display method and the display speed is added to create a menu, which can be set by the user, so that the waveform data can be displayed with a simple operation. In addition, since the update rate can be selected, the data stored in the data storage unit 20 can be continuously displayed at a constant update rate.

  Furthermore, when the display is set to display at a speed N times the maximum update rate, the display is made by superimposing the N waveform data, so even if the data is displayed at high speed, the data is not thinned out. Can be displayed.

  In addition, by adding a function for selecting a playback speed and a playback method according to the present invention, it is possible to stop playback when a desired waveform is displayed during continuous display and playback at a constant update rate. it can.

  FIG. 1 is a block diagram of a waveform analyzing apparatus according to the present invention. The same components as those in FIG. In FIG. 1, the setting unit 310 of the operation unit 300 is newly provided with a reproduction speed selection unit 310A and a reproduction method selection unit 310B.

  The reproduction speed selection unit 310A has a function of setting the display speed of the waveform data stored in the data storage unit 20, that is, the update rate, for example, [× 1/60], [× 1/30], [× 1/10], [× 1/3], [× 3], and [× 10] are provided, and the user selects and sets a desired playback speed.

  The reproduction method selection unit 310B has a function of setting the reproduction method of the waveform data stored in the data storage unit 20, that is, the waveform data reproduction start point and the time series reproduction order of the waveform data (old data direction or new data direction). ) And a desired playback start point and playback order are set by the user.

  Both the reproduction speed selection means 310A and the reproduction method selection means 310B are displayed as menu items on the display screen of the display unit 50. For example, FIG. 2 is an example of a display screen of the display unit 50, and a top menu is displayed on the right side of the display screen. By operating the waveform data playback button 2A on the top menu, the menus of the playback speed selection means 310A and the playback method selection means 310B are expanded and displayed as shown in FIG.

  In FIG. 3, the playback speed selection means 310A displays the playback speed selection menu 3A, displays “× 1/10” as an example in the speed display section A1, and displays that the update rate is set to 10 times. ing. The “UP” and “DOWN” buttons in the playback speed selection menu 3A are buttons for switching the update rate, and the user selects and switches the desired update rate.

  The reproduction method selection means 310B displays a reproduction method selection menu 3B, and displays “<” and “>” buttons for setting the reproduction start position of the waveform data stored in the data storage unit 20, and the direction of waveform data reproduction, In addition, “<PLAY” and “> PLAY” buttons for selecting whether to reproduce toward new data or toward old data, and a “STOP” button for stopping reproduction are provided. The user operates these buttons to set the waveform data display method.

  In FIG. 3, the counter unit 3 </ b> C displays the number of the currently displayed waveform among the waveform data stored in the data storage unit 20. In FIG. 3, “0” is displayed, indicating that the latest waveform data is displayed.

  The operation of FIG. 1 will be described in more detail with reference to FIG. The count value displayed on the counter unit 3C in FIG. 3 is the number of the waveform data sequentially stored in the data storage unit 20 in FIG. 1. For example, the trigger is applied to the waveform to be measured 1000 times to obtain the waveform data. When capturing 1000 times, the waveform data is stored in the storage positions 0 to -999 in the data storage unit 20, and the number of the storage position is displayed as the waveform data number.

  In FIG. 1, the count value is changed and set by the user operating the jog dial 32 or the “<” “>” button of the reproduction method selection menu 3 </ b> B in FIG. 3, processed by the processing unit 400, and displayed on the display unit 50. On the display screen. In FIG. 3, the count value is changed by the “<” and “>” buttons, but an operation button for jumping to the oldest data or the newest data may be added.

  Further, the update rate is changed and set by operating the “UP” and “DOWN” buttons of the reproduction speed selection menu 3A in FIG. For example, the update rate is [× 1 (60Hz)], [× 1/60], [× 1/30], [× 1/10], [× 1/3], [× 3], [× 10] 1 is prepared, and when a desired update rate is set by operating the “UP” and “DOWN” buttons of the playback speed selection menu 3A, the processing unit 400 in FIG. 3 is displayed on the speed display unit A1 of the display screen of the display unit 50 as shown in FIG.

  For example, when the maximum update rate of the screen display is set to MaxRate (Hz) and the speed of N × MaxRate (Hz) is specified as the display speed, the processing unit 400 in FIG. A process of displaying is performed, and a process of displaying on the display screen of the display unit 50 is performed. Thereby, even if data is browsed at high speed, it can be displayed without data loss.

  As a specific example, when an update rate 10 times (600 Hz) of MaxRate is specified, 1000 images can be browsed in about 1.67 seconds. Here, since it is realized by displaying 10 superimposed images at a timing of 60 Hz, no data loss occurs.

  Conventionally, the waveform analysis apparatus has a history search function for automatically detecting a desired waveform such as an abnormal waveform in the waveform data stored in the data storage unit 20. This is a function for detecting desired waveform data without displaying all waveform data by inputting a desired waveform condition in advance and performing a search.

  In combination with this function, the playback speed selection means 310 sets the update rate of waveform data playback, and the playback method selection means 310B sets the waveform data playback direction to drive the history search function. Thus, the processing unit 400 confirms the characteristics of the waveform while continuously displaying and reproducing at a constant update rate, and stops the reproduction when the matched waveform is displayed.

It is a block diagram of the waveform analyzer by this invention. It is an example of the display screen of the display part 50 by this invention. It is an example of the display screen of the display part 50 which expanded the menu by this invention. It is a block diagram of the conventional waveform analysis apparatus. 4 is a general display example of a display screen provided in the display unit 50. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Measurement part 11 A / D converter 12 Trigger detection circuit 13 Memory control circuit 20 Data storage part 30 Operation part 31 Setting part 32 Jog dial 40 Processing part 50 Display part 300 Operation part 310 Setting part 310A Playback speed selection means 310B Playback method selection Means 400 Processing Unit

Claims (8)

In the waveform analyzer that measures the waveform to be measured with reference to the trigger signal, sequentially stores the waveform data in the data storage unit, and displays the desired waveform data on the display unit from the waveform data stored in the data storage unit.
An apparatus for analyzing a waveform, comprising: an operation unit for setting a speed and a reproduction method for reproducing waveform data stored in the data storage unit.   The operation unit displays the latest data with respect to the waveform data stored in the data storage unit, or displays the oldest data, or displays in time series, or displays in reverse order in time series. The waveform analysis apparatus according to claim 1, further comprising a setting unit configured to set a reproduction speed of displayed data. The setting unit
A speed for reproducing and displaying the data stored in the data storage unit, and a reproducing speed selecting means for displaying the data;
Setting a method for reproducing and displaying the data stored in the data storage unit, and reproducing method selection means for displaying the method;
The waveform analysis apparatus according to claim 1, further comprising: The reproduction method selection means includes a first instruction unit for displaying the newest data with respect to the data stored in the data storage unit;
A second instruction unit for displaying the oldest data with respect to the data stored in the data storage unit;
A third instruction unit for reproducing and displaying the stored data in time series;
A fourth instruction unit for reproducing and displaying the stored data in reverse order in chronological order;
The waveform analysis apparatus according to claim 1, further comprising a fifth instruction unit that stops data to be reproduced and displayed at arbitrary data. The reproduction speed selection means includes a display unit that displays an update rate of displayed data;
A sixth instruction unit for increasing the reproduction speed of the data stored in the data storage unit by increasing the update rate;
A seventh instruction unit for reducing the reproduction speed of the data stored in the data storage unit by lowering the update rate;
The waveform analysis apparatus according to claim 1, further comprising: A playback instruction section is provided in the menu section displayed on the display screen of the display section, and by operating this, a menu of the playback speed selection means and the playback method selection means is displayed.
6. The waveform analyzing apparatus according to claim 1, wherein   7. The waveform analysis apparatus according to claim 1, wherein when the menus of the playback speed selection unit and the playback method selection unit are operated, the first to seventh instruction units are expanded as menus. When the update rate of the data displayed by the reproduction speed selection means is set, the processing unit displays the waveform data between rates in an overlapping manner among the waveform data stored in the data storage unit. The waveform analysis apparatus according to claim 1.