JP3033052B2 - Waveform analyzer - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waveform analyzer, and more particularly to storage and reading of waveform data and setting data.

[0002]

2. Description of the Related Art In a conventional waveform analyzer, waveform data and various setting data are stored and read out by storing contents written in a main storage device such as a RAM in an auxiliary storage device such as an external storage device or a battery-backed RAM. It was performed in the same shape and size as the device.

[0003]

When data is stored by such a method, an area of the same size as that existing in the main storage device is required in the auxiliary storage device. Therefore, the storage efficiency was not very good.

[0004] The present invention has been made in view of the above-mentioned problems of the prior art, and an object of the present invention is to realize a waveform analysis device with high storage efficiency of waveform data and setting data.

[0005]

A waveform analyzer for analyzing waveform data, comprising: a main storage device for storing waveform data and setting data; and an auxiliary storage device for storing waveform data and setting data. And compression decompression means for decompressing the setting data by software processing and decompressing the compressed data.

[0006]

According to the present invention, the waveform data and various setting data are compressed and stored in the external storage device, and when the waveform data and various setting data are read out from the external storage device, the compression is decompressed and loaded, thereby storing the waveform data and the setting data efficiently. Is improved.

[0007]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a configuration diagram showing the configuration of one embodiment of the present invention. In this figure, reference numeral 1 denotes an A / D converter of a plurality of channels for A / D converting external waveform data, 2 denotes a multiplexer for unifying inputs of a plurality of channels, 3
Is an acquisition processor for extracting waveform data from measurement data, and 4 is an acquisition RA for storing waveform data.
M and 5 denote arithmetic processing units for performing various operations on waveform data, 6
Is a display processing device that generates display data from waveform data that has been subjected to arithmetic processing, 7 is a CRT display device that displays the display data as an image, and 8 is a CP that totally controls the entire device.
U and 9 are display buffers for storing display data,
Reference numeral 10 denotes an RA whose stored contents are held by a battery.
M and 11 denote a RAM as a main storage device for storing setting information of various processes controlled by the CPU 8, and 12 denotes an R which stores various control programs such as a compression / decompression processing program.
OM and 13 are external storage devices such as an IC card as an auxiliary storage device.

The operation of the apparatus according to the present embodiment having the above-described structure is as follows. First, data saving will be described. The method of saving differs depending on the type of each data, and will be described separately for each case.

(1) Saving of Waveform Data in Acquisition RAM 4 The acquisition RAM 4 stores digital values that have been input to the waveform analyzer and have been A / D converted. In the case of data representing a waveform, the same value often continues.
Therefore, the digital value of the waveform data represented by one byte is divided into the number of continuous data and two
The CPU 8 executes a compression conversion process according to a compression program stored in the ROM 12 so that the data becomes byte data. If the digital value is as shown in the equation of FIG. 2, the data after compression conversion is as shown in the equation of FIG. Therefore, it is possible to greatly reduce the waveform data. Then, the data subjected to the compression conversion is stored in the external storage device 13 or the backup RAM 10.

(2) Saving the setting data of the RAM 11 The RAM 11 stores the measurement range and the sun represented by 1 byte.
Various setting data such as a pulling rate are stored.
Therefore, the CPU 8 executes the compression conversion process according to the compression program stored in the ROM 12 so that the 1-byte setting data becomes the number of continuous data and 2-byte data composed of the data. Thereby, the setting data can be significantly reduced. Then, the data thus compressed and converted is stored in the external storage device 1.
3 or the backup RAM 10.

(3) Saving Waveform Data in Display Buffer 9 In this waveform analyzer, the waveform data in the acquisition RAM 4 is compressed or interpolated and then processed into 2-byte data as display raster data shown in FIG. .
Also in the case of this display raster data, the same value often continues. Therefore, the CPU 8 performs the compression conversion process according to the compression program stored in the ROM 12 so that the digital value of the waveform data represented by 2 bytes is converted into a 3-byte data consisting of the number of continuous data and the data. Execute. Here, the data after the compression conversion is represented by the equation in FIG. Therefore, the display raster data can be significantly reduced. Then, the data subjected to the compression conversion is stored in the external storage device 13 or the backup RAM 10.

The data saved in the external storage device 13 after being compressed and converted as described above has a greatly reduced data size, and the storage capacity can be used effectively.

When loading the data compressed and converted in the external storage device 13 into a RAM or a buffer, the CPU 8 executes a decompression program for inverse conversion of the above-mentioned compression conversion algorithm stored in the ROM 12, Perform while performing the decompression process. Thus, the acquisition RAM 4, RAM 11, display buffer 9
Will be loaded in its original size.

The external storage device 13 may be a floppy disk device or a hard disk device. In this case, since the data capacity is reduced, not only the storage capacity in the external storage device 13 can be reduced, but also the time required for data transfer (save and load) can be reduced.

As described in detail above, the waveform data and various setting data are compressed and stored in the external storage device, and when the data is read from the external storage device, the waveform data and the setting data are loaded while decompressing the compression. A waveform analysis device with good data storage efficiency can be realized.

[0016]

As described in detail with the above embodiment, the waveform data and various setting data are compressed and stored in the external storage device, and when the data is read from the external storage device, the compression is decompressed and loaded. Thus, it is possible to realize a waveform analyzer having a high storage efficiency of the waveform data and the setting data. In addition, the above-described compression and decompression processing is performed by R
Processed by software stored in OM
To use the hardware of the conventional waveform analyzer
To compress and decompress waveform data and setting data
Noh can be added. Therefore, the waveform analyzer of the present invention
Change existing hardware design and production line equipment
Compression and decompression of waveform data and setting data without
Additional functions can be added, increasing costs
Storage efficiency of waveform data and setting data without
Improved cost performance waveform analyzer
It is possible to realize.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing the overall configuration of an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing a data configuration in one embodiment of the present invention.

FIG. 3 is an explanatory diagram showing a data configuration in one embodiment of the present invention.

[Explanation of symbols]

 Reference Signs List 1 D / A converter 2 Multiplexer 3 Acquisition processing device 4 Acquisition RAM 5 Arithmetic processing device 6 Display processing device 7 CRT display device 8 CPU 9 Display buffer 10 Backup RAM 11 RAM 12 ROM 13 External storage device

Claims (1)

(57) [Claims] 1. A waveform analyzer for analyzing waveform data, comprising: a main storage device for storing waveform data and setting data; and an auxiliary storage device for storing waveform data and setting data. A waveform analysis device comprising compression / decompression means for performing compression by software processing and decompressing compressed data.