JP3380217B2 - measuring device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a measuring apparatus for measuring an electric characteristic of an object to be measured. In particular, the present invention relates to a measuring device having a function of turning off display of characteristic data or the like when performing continuous measurement. [0002] Mobile phones in mobile communication systems,
Measure and analyze the electrical characteristics of PHS, car phone, etc., for example, various characteristics of the modulated signal transmitted to and received from the base station, and confirm that the characteristics are within the allowable range of the predetermined standard There is a need to. Normally, a series of characteristic waveforms indicating the characteristics of an analysis target signal of an object to be measured are converted into digital value characteristic data. When displaying the characteristic data on the screen, first, the binary data is converted into ASCII data, and the characteristic data is written into the video memory by the drawing circuit based on the ASCII data. This is read out and displayed on the display.
The measurer confirms those characteristics based on the displayed contents. Alternatively, the characteristic data is read from the measurement unit by external control, and the characteristics are confirmed. FIG. 5 shows a configuration of a measuring apparatus of such a display system. In this measuring device, a series of characteristic data indicating the characteristic of the analysis target signal S input to the input terminal 1a is acquired by the measuring unit 2 and output to the control unit 40. The control unit 40 internally stores the characteristic data obtained by the measurement unit 2, converts the binary data into ASCII data, sends the data to the drawing circuit 5, and instructs erasing and writing. The drawing circuit 5 erases the characteristic data in the video memory 6 when receiving an erasing instruction from the control unit 40, and stores the characteristic data including the characteristic data acquired by the measuring unit 2 in the video memory 6 when receiving the writing instruction. Write. This drawing circuit 5
Reads out the characteristic data of the video memory 6 and outputs it to the signal conversion circuit 7 irrespective of writing or erasing. [0007] The signal conversion circuit 7 converts the characteristic data read from the video memory 6 into a display signal for displaying at a position corresponding to the address, and outputs the display signal to the display 8. The display 8 receives the display signal output from the signal conversion circuit 7, plots and displays the output drawing data at a screen position corresponding to the address, and displays display information and a series of characteristic data (spectral waveform and the like). Is displayed. [0008] Regarding the display processing, for example, "12.34"
Will be described. The binary data of 12.34 is stored in the control unit 40. Control unit 40
First converts this to ASCII data, and then the control unit 40 checks whether the drawing circuit 5 is currently performing any processing. If no processing is performed, the drawing circuit 5 is instructed to write “1”. Next, the control unit 40 confirms whether or not the drawing circuit 5 has completed the process of writing “1”. If not, wait until it is completed, and after confirming the completion, instruct "2" to be written. Hereinafter, the process proceeds similarly. On the other hand, in a production line or the like, a measuring device is externally controlled to continuously measure various electrical characteristics of an object to be measured such as a plurality of mobile phones. In this case, the characteristic data of the object to be measured is not read by the operator from the display, but is read by the externally controlled personal computer (PC) or the like by the GPIB from the measuring device. Is a useless process. Further, in a production line or the like, since more production is desired in a short time, a shorter measurement time is more desirable. [0010] However, in the above-described conventional measuring apparatus, the measuring time = the measuring processing time +
Display processing time. The reason why the measurement time is delayed is that the drawing circuit 5 waits until the previous processing ends.
This is because the control unit 40 cannot issue the next instruction. In a measuring apparatus that repeatedly updates the waveform display of a series of characteristic data of a signal to be analyzed by repeatedly erasing and writing to the video memory 6, the speed at which the measuring section 2 repeatedly acquires the series of characteristic data is as follows. The time is the sum of the erasing time and the writing time for the video memory, and the cycle of acquiring characteristic data cannot be shortened. for that reason,
The efficiency of the production line cannot be increased,
There are problems such as overlooking the characteristic fluctuation occurring in a short time. The present invention has been made in view of such circumstances, and the inventor has focused on the fact that a screen display is not often required when the measurement device is externally controlled. It is an object of the present invention to provide a measuring device for shortening the measuring time by eliminating the above. [0013] In order to solve the above problems, the measuring apparatus of the present invention has a function of not performing screen display processing (screen off). It is composed of a part for performing the measurement processing, a part for performing the display processing, and a flag for storing the presence or absence of the display processing. When the display is not required, only the measurement processing is executed, and when the display is required, the measurement processing and the display processing are executed. Specifically, a measuring unit for acquiring a series of characteristic data indicating characteristics of a signal to be analyzed of an object to be measured;
A display for waveform-displaying a series of characteristic data obtained by the measuring unit, a video memory for storing characteristic data for one screen of the display, and writing and erasing of characteristic data to and from the video memory A drawing circuit for reading the stored characteristic data, a signal conversion circuit for converting the characteristic data stored in the video memory into a display signal and outputting the display signal to the display, and the measurement unit measures The characteristic data is stored in the video memory, the drawing circuit reads the characteristic data from the video memory, and further displays the characteristic data converted by the signal conversion circuit on the display device. A measurement control unit that controls the measurement unit to perform measurement, wherein the measurement control unit receives an instruction from the outside and performs measurement performed by the measurement unit. After the data is stored in the video memory, the measurement unit can directly execute the next measurement, so that each operation of the drawing circuit, the signal conversion circuit, and the display unit can be performed without labor. A measuring device characterized in that: FIG. 1 is a block diagram showing a configuration of an embodiment of a measuring apparatus according to the present invention. FIG. 2 is a flowchart showing the operation. Hereinafter, description will be given based on the drawings. The measuring section 2 acquires a series of spectrum data and the like indicating the spectrum characteristics of the signal S to be analyzed inputted to the input terminal 1a by the measuring section 2, and when the measurement is completed, controls the acquired spectrum data and the like. Output to the unit 4 (S1). The spectrum data and the like output from the measurement unit 2 are stored in the RAM 4c of the control unit 4. The control unit 4 takes in the data of the display control flag 3 to determine whether to display the data. The display control flag 3 is controlled by a command input from the input terminal 1c. If the data of the display control flag indicates that the display is OFF, the control unit 4 jumps the display processing (S2), and if all types of measurements have not been completed, proceeds to the next measurement processing (S8). When the data of the display control flag indicates that the display is ON, the control section 4 proceeds to the display processing (S2). Hereinafter, it is the same as the display processing described in the conventional example, except that the control unit 4 converts the characteristic data input from the measurement unit 2 from binary to ASCII in the case of a numerical result, and converts the frequency and frequency in the case of a waveform.
The information such as the level is converted into coordinate information (S3). Then, it is confirmed whether or not the display processing of the data drawing means 5a of the drawing circuit 5 has been completed, and if it has been completed, the drawing circuit 5 is instructed to display the converted characteristic data (S4). ). The data drawing means 5a erases the characteristic data of the video memory 6 which receives the erasure instruction from the control unit 4 (S
5. Upon receiving the write instruction, the characteristic data including the latest characteristic data acquired by the measurement unit 2 is written to the video memory 6 (S6). The data reading means 5b reads the characteristic data of the video memory 6 and outputs it to the signal conversion circuit 7 irrespective of writing or erasing. Next, referring to FIG. 3, the measuring unit 2 of the embodiment will be described.
Will be described. The measurement unit 2 is, for example, a reception frequency sweep type, in which a mixer 24 mixes an output signal Sv of a VCO 23 and a signal S to be analyzed, which are swept by a sweep control circuit 22, and outputs a predetermined intermediate signal from an output of the mixer 24. A frequency component is extracted by a filter 25, the intermediate frequency signal is amplified by a logarithmic amplifier 26, detected by a detection circuit 27, and the detected signal is sampled by an A / D converter 28 at a predetermined sampling period Ts to obtain a digital value. And output. The sweep control circuit 22 receives the observation frequency range information and the sweep time information from the control unit 4 and
Is controlled so as to continuously and repeatedly sweep a range in which the intermediate frequency is added (or reduced) to the observation frequency range at a time T corresponding to the sweep time information, and the observation signal Sv The level of each frequency component within the frequency range is output as a series of spectrum data. Therefore, a series of T / Ts spectrum data is output from the A / D converter 28 while the reception frequency of the measurement unit 2 is swept once. The control unit 4 includes a CPU 4a, a ROM 4b, an R
The information such as the observation frequency range and the sweep time designated by the command input from the external terminal 1b is set in the sweep control circuit 22. At the same time, the control unit 4 stores a series of spectrum data and the like output from the measurement unit 2 in the RAM 4c. Further, the control unit 4 creates characteristic data for displaying an observation screen from a series of spectrum data and the like stored in the RAM 4c, and gives a writing instruction to the drawing circuit 5 for erasing. The data drawing means 5a in the drawing circuit 5 erases old characteristic data stored in the video memory 6 and writes new characteristic data in the video memory 6 based on an instruction from the control unit 4. The display control flag 3, measurement conditions and the like are input from the external terminals 1b and 1c. For example, in a measuring instrument such as a spectrum analyzer, a GP-IB (General Purpose Interface Bulk) is transmitted from an external computer such as a personal computer.
s) The measurement is performed according to a message (control command) sent via the standard interface bus. Although the embodiment using the GP-IB interface has been described, the content of those commands can be set from the operation unit 9. FIG. 4 is a display example of characteristic data of the measuring device. The waveform is the measured spectrum data,
Tx Power indicates the average power of one slot, and the data below it is -10, -5, 5, 1 from the center frequency.
Indicates power at a frequency separated by 0 MHz. The display control flag data is displayed ON.
Regardless of / OFF, the control unit 4 can output the characteristic data from the external terminal 1b by the external control command. In addition, since the characteristic data is stored in the RAM 4c, display processing can be performed as necessary, and the data can be displayed on the display unit 8. For example, if the characteristic data of the measured object is out of the standard and you want to see the data on the screen,
Since all the data acquired by the measurement unit 2 is stored in the RAM 4C, when the control unit 4 receives an instruction to turn on the display, the data stored in the RAM 4C is converted from binary to ASCII and drawn in the drawing circuit 5. By issuing an instruction, the characteristic data can be written and displayed in the video memory 6. As described above, the measuring apparatus according to the present invention has a portion for performing a measurement process, a portion for performing a display process,
It consists of a flag for storing the presence or absence of the display processing. If no display is required, only the measurement process is executed, and if display is required, the measurement process and the display process are executed. Measurement time can be shortened.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a configuration of an embodiment of a measuring device according to the present invention. FIG. 2 is a flowchart showing the operation of the configuration shown in FIG. FIG. 3 is a block diagram illustrating a configuration of a measurement unit according to the embodiment. FIG. 4 is a diagram showing a display example of characteristic data of a measuring device. FIG. 5 is a block diagram showing a configuration of a conventional measuring device. [Description of Signs] 1a, 1b, 1c: external terminals, 2: measuring unit, 3: display control flag, 4: control unit, 5: drawing circuit, 6: video memory, 7: signal conversion circuit, 8: display unit , 9 ... operation unit.

──────────────────────────────────────────────────続 き Continued on the front page (58) Fields surveyed (Int. Cl. ⁷ , DB name) G01R 13/00-13/42 G01D 7/00

Claims (1)

(57) [Claims] 1. A measuring unit (2) for acquiring a series of characteristic data indicating characteristics of an analysis target signal of an object to be measured, and a series of characteristic data acquired by the measuring unit. (8) for displaying a waveform of the display, a video memory (6) for storing characteristic data for one screen of the display, and writing and erasing of characteristic data to and from the video memory. A drawing circuit (5) for reading the characteristic data, a signal conversion circuit (7) for converting the characteristic data stored in the video memory into a display signal, and outputting the display signal to the display, The video memory stores the measured characteristic data, the drawing circuit reads out the video data from the video memory, and further displays the characteristic data converted by the signal conversion circuit on the display, and after the display, performs the measurement. A measurement control unit that controls the unit to perform the next measurement, wherein the measurement control unit receives an external instruction and stores the measurement data measured by the measurement unit in the video memory. After the storage, the measurement unit can directly execute the next measurement, so that each operation of the drawing circuit, the signal conversion circuit, and the display unit can be performed with reduced labor. measuring device.