JP3934224B2 - Waveform display method and waveform display device for waveform display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a waveform display method for a waveform display device that displays the signal waveform on a display unit while storing the waveform data generated by sampling a display target signal in a data storage means, and the waveform display method. The present invention relates to a waveform display device configured to be executable.
[0002]
[Prior art]
As this type of waveform display device, the applicant has already developed the waveform recording device 31 shown in FIG. The waveform recording device 31 can display the signal waveform of the measurement target signal input via a measurement probe (not shown) on the display unit, and can print the signal waveform of the measurement target signal with a built-in printer. It is configured to be able to.
[0003]
In this waveform recording device 31, measurement is started by operating the START key 21 provided in the operation unit 2 shown in the figure, and when the STOP key 22 is operated, or using various keys of the operation unit 2. At the time when the set measurement time has elapsed, the measurement with the previous period as a unit ends. In this case, in each measurement, the waveform recording device 31 generates a waveform data by sampling the measurement target signal input via the probe, and stores the generated waveform data in a data RAM built in the apparatus main body. On the other hand, the waveform data stored in the data RAM is read and the signal waveform W1 is displayed on the display unit 3 as shown in FIG. In this case, the waveform recording device 31 reads the waveform data generated in the measurement period corresponding to the time axis of the display screen of the display unit 3 from the data RAM, and the signal waveform is displayed on the display unit 3 based on the read waveform data. Display repeatedly. As a result, the signal waveform is continuously displayed on the display unit 3 as a still image. As a result, the measurer can reliably and carefully observe the signal waveform displayed on the display unit 3.
[0004]
Next, when restarting the measurement, when the START key 21 is operated again, the waveform recording device 31 generates the waveform data of the measurement target signal and overwrites and stores the generated waveform data in the data RAM. The written waveform data is read and displayed on the display unit 3. As described above, in this waveform recording device 31, unless the START key 21 is operated, the waveform data on the signal waveform of the measurement target signal related to the immediately previous measurement is always stored in the data RAM, and the signal waveform based on the waveform data is stored. Is displayed on the display unit 3 and the START key 21 is operated, the latest generated waveform data is stored in the data RAM, and the signal waveform based on the waveform data is displayed on the display unit 3.
[0005]
[Problems to be solved by the invention]
However, the waveform recording apparatus 31 already invented by the applicant has the following points to be improved.
First, for example, when the waveform of a predetermined portion of the measurement target signal is observed in detail, the signal waveform displayed on the display unit 3 is displayed to the maximum with respect to the amplitude axis direction of the display screen. It is preferable to adjust as follows. In this case, changing the amplitude value of the signal waveform to be displayed on the display unit 3 itself adjusts the gain of the unshown range amplifier disposed on the signal input unit side by using various keys of the operation unit 2. This can be done easily. On the other hand, in the waveform recording device 31, when measurement is resumed when the START key 21 is operated, the waveform data generated during the measurement period is overwritten and stored in the data RAM. For this reason, the maximum amplitude value of the signal waveform displayed on the display unit 3 before the gain adjustment of the range amplifier is performed and the maximum amplitude value of the signal waveform displayed on the display unit 3 after the gain adjustment are directly performed. Cannot be compared. Therefore, the measurer must always determine whether or not the gain adjustment has been appropriately performed based on the signal waveform currently displayed on the display unit 3. For this reason, in some cases, such gain adjustment work must be performed many times. As a result, the waveform recording apparatus 31 is subjected to various setting work such as adjustment of the amplitude value of the signal waveform to be displayed on the display unit 3. There is a problem that it is inconvenient to do.
[0006]
Secondly, if the START key 21 is mistakenly operated while observing the signal waveform displayed on the display unit 3, the measurement is immediately resumed and stored in the data RAM. Both the waveform data related to the previous measurement and the signal waveform displayed on the display unit 3 are erased. For this reason, the same measurement target signal has to be measured again under the same conditions, and there is a problem that the subsequent restoration work is complicated when an erroneous operation is performed.
[0007]
Third, when a signal waveform is printed by a printer each time measurement is performed, the signal waveform on the recording paper is printed in time series and there is no possibility of being erased. For this reason, when adjusting the amplitude value of the signal waveform displayed on the display screen of the display unit 3, both signal waveforms related to the current measurement and the immediately preceding measurement can be simultaneously compared. Therefore, a measurer who is unfamiliar with the operation does not observe the signal waveform on the screen of the display unit 3 in operations such as gain adjustment of the range amplifier, but rather, the signal waveform printed on the recording paper by the printer, In general, the setting contents of the range amplifier at the time of the current and previous measurement are taken into consideration. However, each time the gain of the range amplifier is adjusted, printing on a recording sheet such as a thermal sheet is not preferable because it increases the running cost.
[0008]
The present invention has been made in view of such improvements, and is a signal of a waveform display device capable of simultaneously observing a signal waveform related to the latest measurement and a signal waveform related to the previous measurement on the display unit. A main object is to provide a waveform display method and a waveform display device.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the waveform display method of the waveform display apparatus according to claim 1, wherein sampling is performed within a unit measurement period from when a measurement start signal is input to when a measurement end signal is input or when a predetermined time elapses. A waveform display method for a waveform display device for displaying a signal waveform of a display target signal on a display unit based on the waveform data stored in the data storage unit while storing the waveform data of the generated display target signal in the data storage unit In the method, the waveform data generated in each of the plurality of continuous unit measurements is stored in the data storage means by a ring method, and each of the unit measurements related to the plurality of continuous unit measurements is based on the waveform data stored in the data storage means. The signal waveform of the display target signal is displayed on the display unit in time series.
[0010]
In this waveform display method of the waveform display device, the signal waveform of each display target signal related to a plurality of continuous unit measurements is displayed on the display unit in time series based on the waveform data stored in the data storage means. . Therefore, it is possible to directly compare the signal waveform related to the immediately previous measurement and the signal waveform related to the latest measurement, and it is possible to easily perform various setting operations such as the adjustment of the amplitude value. In addition, even a measurer who is familiar with the observation using the signal waveform printed on the recording paper can observe the display screen of the display section on which the signal waveform is displayed in the same way as the recording paper. As a result of eliminating the need for paper, the running cost can be reduced. Furthermore, even when the measurement is restarted due to an erroneous operation while observing the signal waveform displayed on the display unit, the waveform data related to the previous measurement is stored. The signal waveform related to the immediately previous measurement can be easily reproduced on the display unit.
[0011]
The waveform display method of the waveform display device according to claim 2 is the waveform display method of the waveform display device according to claim 1, wherein the signal waveform of the display target signal related to the latest measurement is displayed from a predetermined reference position on the display unit. When a predetermined operation is performed, a signal waveform of each display target signal related to a plurality of continuous unit measurements is displayed in time series on the display unit according to the operation.
[0012]
As long as the signal waveform related to the latest measurement is displayed on the display unit in succession to the signal waveform related to the previous measurement, the signal waveform related to the previous measurement and the latest measurement can be observed in direct contrast. It is expected that it will be difficult to specify the signal waveform related to the measurement. In this waveform display method, the signal waveform related to the latest measurement is displayed from the reference position of the display unit. In this case, the left end of the display unit on the screen is generally preferable as the reference position. By displaying in this way, the signal waveform related to the current measurement can be immediately specified to the measurer, and the signal related to the latest measurement can be performed by performing a predetermined operation as necessary. It is possible to directly compare and observe the waveform and the signal waveform related to the previous measurement.
[0013]
The waveform display device according to claim 3 samples data storage means for storing waveform data, and samples within a unit measurement period from when a measurement start signal is input to when a measurement end signal is input or when a predetermined time elapses. Data storage control means for storing waveform data for the display target signal generated by the data storage means, and a display for displaying the signal waveform of the display target signal on the display unit based on the waveform data stored by the data storage means In the waveform display device comprising the control means, the data storage control means stores the waveform data respectively generated in a plurality of consecutive unit measurements in the data storage means by a ring method, and the display control means is the data storage means Each display pair for a plurality of consecutive unit measurements based on the waveform data stored in Characterized in that to chronologically display on the display unit a signal of the signal waveform.
[0014]
In this waveform display device, in the same manner as the waveform display method of the waveform display device according to claim 1, it is possible to directly compare and observe the signal waveform related to the latest measurement and the signal waveform related to the previous measurement. It becomes possible.
[0015]
The waveform display device according to claim 4 is the waveform display device according to claim 3, wherein the display control means displays the signal waveform of the display target signal related to the latest measurement from a predetermined reference position on the display unit, and When the operation is performed, the signal waveform of each display target signal related to a plurality of continuous unit measurements is displayed in time series on the display unit according to the operation.
[0016]
In this waveform display device, the signal waveform related to the current measurement is displayed to the measurer by displaying the signal waveform related to the latest measurement from the reference position of the display unit in the same manner as the waveform display method according to claim 2. Can be identified immediately.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Embodiments in which a waveform display method and a waveform display apparatus according to the invention are applied to a waveform recorder will be described below with reference to the accompanying drawings. In addition, about the same component as the waveform recording apparatus 31 which the applicant has already developed, the same code | symbol is attached | subjected and the overlapping description is abbreviate | omitted.
[0018]
First, the electrical configuration of the waveform recording apparatus 1 will be described with reference to the block diagram of FIG.
[0019]
As shown in the figure, the waveform recording apparatus 1 includes an operation unit 2, a display unit 3, a range amplifier 4, an A / D conversion unit 5, a DMA (Direct Memory Access) controller 6, a data RAM 7, a CPU 8, a ROM 9, a RAM 10, An interface unit 11 and a printer 12 are provided. Here, in addition to the above-described START key 21 and STOP key 22, the operation unit 2 includes various operation keys.
[0020]
Next, each component will be described in detail. 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 4 amplifies or attenuates the input measurement target input signal SIN with a predetermined gain under the control of the CPU 8 and outputs the amplified signal to the A / D converter 5. The A / D converter 5 samples the input signal SIN input via the range amplifier 4 in synchronization with a predetermined sampling signal and performs analog-digital conversion to generate waveform data DS. The DMA controller 6 corresponds to the data storage control means in the present invention, and directly transfers the waveform data DS generated by the A / D converter 5 to the data RAM 7. The data RAM 7 is composed of a storage RAM and corresponds to the data storage means in the present invention. The data RAM 7 stores the waveform data DS by the ring method under the control of the DMA controller 6. That is, the data RAM 7 is overwritten and recorded by the DMA controller 6 in order from the storage area written first, only when the waveform data DS is written in all the storage areas.
[0021]
The CPU 8 corresponds to the display control means in the present invention. Input of key signals by key operations of various keys in the operation unit 2 and display of signal waveforms on the display unit 3 based on the waveform data DS stored in the data RAM 7. Control and print control for the printer 12, gain control of the range amplifier 4 in response to a key signal from the operation unit 2, and communication control with an external device via the interface unit 11 are executed. The ROM 9 stores an operation program for the CPU 8, and the RAM 10 temporarily stores a calculation result of the CPU 8, and the like. The interface unit 11 exchanges output data DOUT and input data DIN with a memory card, PC card, RS232C communication board, or the like as an external device. Although not particularly limited, the printer 12 is configured by a thermal printer, and hard copies the display screen displayed on the display unit 3 under the control of the CPU 8.
[0022]
Next, the overall operation of the waveform recording apparatus 1 will be described. The external appearances of the waveform recording device 31 and the waveform recording device 1 already developed by the applicant are common except that the display contents of the display unit 3 are different from each other, and will be described below with reference to FIG.
[0023]
When the START key 21 of the operation unit 2 is operated, the A / D conversion unit 5 performs analog-to-digital conversion on the input signal SIN input via the range amplifier 4 and supplies the converted waveform data DS to the DMA controller 6. Output. The DMA controller 6 sequentially transfers and stores the input waveform data DS in the order of the address numbers of the data RAM 7 and outputs a transfer end signal STE to the CPU 8 each time the transfer is completed. At this time, the CPU 8 reads the waveform data DS stored in the data RAM 7 via the DMA controller 6 by outputting a data transfer command signal STS to the DMA controller 6. Next, the CPU 8 displays a signal waveform on the display unit 3 based on the read waveform data DS. As a result, the signal waveform W1 is displayed on the display unit 3 as shown in FIG.
[0024]
In this case, when it is desired to observe each part of the signal waveform W1 shown in the figure in more detail, it is displayed on the display unit 3 by using the range switching keys 23a and 23b provided in the operation unit 2. The amplitude value of the signal waveform can be changed. Specifically, first, the gain of the range amplifier 4 is increased by operating the keys 23a and 23b. Next, the START key 21 of the operation unit 2 is operated. As a result, the signal waveform starts to be displayed with reference to the display start reference position A of the display unit 3 shown in the figure. By operating the STOP key 22, the signal waveform related to the measurement up to that point is displayed on the display unit 3. Is done. If the amplitude value of the signal waveform in this case is the signal waveform W2 shown in FIG. 3, the amplitude value of the signal waveform W3 has been set to exceed the maximum width in the amplitude axis direction of the display screen of the display unit 3. It is necessary to reduce the gain of the range amplifier 4. In this case, by operating the jog 24 of the display unit 3, the time corresponding to the display start reference position A of the display unit 3 is traced back to the start time of the previous measurement time. Thereby, as shown in FIG. 4, the signal waveform W1 related to the immediately previous measurement and the signal waveform W2 related to the latest measurement are simultaneously displayed on the display unit 3. Therefore, the measurer considers the gain and amplitude value of the range amplifier 4 set at the time of the previous measurement and the gain and amplitude value of the range amplifier 4 set at the time of the latest measurement, and at the time of the previous measurement. A new gain of the range amplifier 4 is set by using the keys 23a and 24b so that the gain is larger than the current gain and smaller than the gain at the latest measurement.
[0025]
Next, the START key 21 of the operation unit 2 is operated again. Thereby, the signal waveform is displayed from the display start reference position A of the display unit 3, and by operating the STOP key 22, the signal waveform related to the measurement up to that point is displayed on the display unit 3. If the signal waveform in this case is the signal waveform W3 in FIG. 1, the amplitude value of the signal waveform W3 is displayed with an appropriate magnitude with respect to the amplitude axis direction of the display screen of the display unit 3. This figure shows a state when the time of the display start position A is set to the measurement start time of the signal waveform W1 by operating the jog 24.
[0026]
As described above, according to the waveform recording apparatus 1, the data RAM 7 stores the waveform data DS of the signal waveform by the ring method, and the CPU 8 stores the waveform data stored in the data RAM 7 in accordance with the measurement person's operation. Since DS is read out and displayed on the display unit 3, the measured signal waveforms can be displayed on the display unit 3 in chronological order. As a result, the measurer can directly compare a plurality of signal waveforms measured in the past, thereby easily making various settings of the apparatus.
[0027]
In this embodiment, the display start position A of the signal waveform is set at the left end of the display unit 3, but the present invention is not limited to this. For example, when the signal waveform related to the immediately previous measurement is displayed on the display unit 3, the center or right end of the display screen of the display unit 3 can be set as the display start position. Further, the present invention is not limited to the configuration shown in the embodiment of the present invention, and various modifications can be made within the scope of the gist of the present invention. In addition, as a method for storing waveform data in the data storage means, the ring method is employed in the embodiment of the present invention, but a method of storing the waveform data by a first-in first-out method can also be employed.
[0028]
【The invention's effect】
As described above, according to the waveform display method of the waveform display device of the first aspect, the waveform data generated in each of a plurality of consecutive unit measurements is stored in the data storage means by the ring method, and the data storage means Based on the stored waveform data, the signal waveform of each display target signal related to a plurality of continuous unit measurements is displayed in time series on the display unit, so that the signal waveform related to the previous measurement and the latest measurement are displayed. Therefore, it is possible to directly compare the two with the signal waveform according to the above, and to easily perform various setting operations of the apparatus. Further, even a measurer who is familiar with the observation using the signal waveform printed on the recording paper can observe the display screen of the display unit in the same manner as the recording paper. As a result, the recording paper can be dispensed with, and the running cost can be reduced. In addition, while observing the signal waveform displayed on the display unit, even if the measurement is restarted due to an erroneous operation, because the waveform data related to the previous measurement is stored, The signal waveform related to the immediately previous measurement can be easily reproduced on the display unit.
[0029]
According to the waveform display method of the waveform display device according to claim 2, when the signal waveform of the display target signal related to the latest measurement is displayed from the predetermined reference position on the display unit and a predetermined operation is performed. In addition, by displaying the signal waveform of each display target signal related to a plurality of continuous unit measurements in time series on the display unit according to the operation, it is possible to immediately specify the signal waveform related to the current measurement, By performing a predetermined operation as necessary, the measurer can directly observe the signal waveform related to the immediately previous measurement with the signal waveform related to the latest measurement.
[0030]
Further, according to the waveform display device of the third aspect, the data storage control means stores the waveform data respectively generated in a plurality of consecutive unit measurements in the data storage means by the ring method, and the display control means 2. The waveform display device according to claim 1, wherein a signal waveform of each display target signal related to a plurality of continuous unit measurements is displayed in time series on the display unit based on the waveform data stored in the storage means. In the same way as the waveform display method, the signal waveform related to the latest measurement can be directly compared with the signal waveform related to the previous measurement.
[0031]
According to the waveform display device of the fourth aspect, similarly to the waveform display method of the second aspect, the signal waveform related to the current measurement is displayed by displaying the signal waveform related to the latest measurement from the reference position of the display unit. The waveform can be immediately identified to the measurer.
[Brief description of the drawings]
FIG. 1 is a display screen diagram in a state in which signal waveforms W1, W2, and W3 are displayed on a display unit of a waveform recording apparatus according to an embodiment of the present invention.
FIG. 2 is a block diagram of a waveform recording apparatus according to an embodiment of the present invention.
FIG. 3 is a display screen diagram in a state where a signal waveform W2 is displayed on the display unit of the waveform recording apparatus according to the embodiment of the present invention.
FIG. 4 is a display screen diagram in a state where signal waveforms W1 and W2 are displayed on the display unit of the waveform recording apparatus according to the embodiment of the present invention.
FIG. 5 is an external view of a waveform recording apparatus according to an embodiment of the present invention and a waveform recording apparatus already developed by the applicant.
[Explanation of symbols]
1 Waveform Recording Device 3 Display Unit 6 DMA Controller 7 Data RAM
8 CPU
W1 signal waveform W2 signal waveform W3 signal waveform

Claims (4)

While storing the waveform data for the display target signal generated by sampling within the unit measurement period from the input of the measurement start signal to the input of the measurement end signal or the lapse of a predetermined time, the data storage means stores the data. In the waveform display method of the waveform display device for displaying the signal waveform of the display target signal on the display unit based on the waveform data stored by the storage means,
The waveform data generated in each of the plurality of continuous unit measurements is stored in the data storage unit by a ring method, and the plurality of continuous unit measurements are performed based on the waveform data stored in the data storage unit The waveform display method of the waveform display apparatus characterized by displaying the signal waveform of each said display object signal which concerns on the said display part in time series. The signal waveform of the display target signal related to the latest measurement is displayed from a predetermined reference position on the display unit, and each of the display target signals related to the plurality of consecutive unit measurements when a predetermined operation is performed. The waveform display method of the waveform display apparatus according to claim 1, wherein the signal waveform is displayed in time series on the display unit according to the operation. Data storage means for storing waveform data, and the display target signal generated by sampling within a unit measurement period from the input of the measurement start signal to the input of the measurement end signal or the elapse of a predetermined time Data storage control means for storing waveform data in the data storage means, and display control means for displaying a signal waveform of the display target signal on a display unit based on the waveform data stored in the data storage means. In the waveform display device
The data storage control means stores the waveform data respectively generated in a plurality of successive unit measurements in the data storage means by a ring method, and the display control means is stored in the data storage means A waveform display device, wherein a signal waveform of each display target signal related to the plurality of continuous unit measurements is displayed in time series on the display unit based on waveform data. The display control means displays a signal waveform of the display target signal related to the latest measurement from a predetermined reference position in the display unit, and relates to the plurality of continuous unit measurements when a predetermined operation is performed. 4. The waveform display device according to claim 3, wherein a signal waveform of each display target signal is displayed in time series on the display unit according to the operation.

Images