JPH0480613A - Data recorder - Google Patents

Abstract

PURPOSE:To eliminate the need for fine adjustment as required in analog recording and enable labor and time required for preparation for recording signal to be reduced by providing an amplifier, and I/O device, a data processing device and a plotter. CONSTITUTION:An amplifier 12 has a switching function of a plurality of types of fixed gains and is set to a fixed gain which matches an input voltage range of an analog process data 11. Then, the data 11 is converted into an analog signal 16 within a a fixed output voltage range and is fed to an I/O device 13. The device 13 converts analog value of voltage into a digital signal 17 and sends it to a data processing device 14. The device 14 has a function for preserving the input data and for converting the input signal 17 into an engineering unit quantity. Then, when a time axis is set and signal plot gain is entered in plotting, a time sequence data is plotted on a plotter 15 under the set conditions, thus eliminating the need for fine adjustment operation in preparatory work of signal recording and enabling labor and time required for preparation for recording signal to be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to a data recording device used for measuring and recording general industrial process data such as flow rate and pressure.

(Prior art) When measuring and recording various process signals, conventional
As shown in the figure, analog process data (analog signals) 1 converted into voltage, current, etc. are amplified via an amplifier 2, and usually sent directly to a plotter 4 or to a data processing device 3 with a data storage function. It is outputted to the plotter 4 via.

At this time, the gain of amplifier 2 is the gain at the plotter output, that is, if the X direction on the chart is the time axis and the Y direction is the axis showing the signal magnitude, how much is the gain per unit length in the Y direction? The decision is made by considering whether to expand the plot to the width of the engineering unit span. At this time, as shown in Figure 4, the amplifier gain and plotter start position are repeatedly fine-tuned for each signal channel in a loop. There is a need.

That is, in the example shown in FIG. 4, first, the range of the input signal is investigated (A), and the gain of the amplifier is selected (B).
.

Next, connect the simulated input for calibration (C), apply the simulated input (D), and adjust the swing width of the chart to the desired width (
E), Fine-tune the amplifier gain (F).

Then, when the swing range of the chart reaches a desired range, calibration data is collected (G).

After this, remove the simulated input (H) and connect the signal (1)
, preparation is completed (J).

In addition, if the span of the input signal or the expected change width is a mix of large and small signals, consider the required signal swing width on the plot and the margin for saturation of the electric circuit. , it is necessary to consider the amplifier gain settings and the type of amplifier.

(Problem to be Solved by the Invention) As described above, when recording temporal changes in various process signals using a conventional data recording device, the preparatory work is to plot the target chart on the chart when the signal changes. Is it necessary to calibrate in a loop to match the swing width? At this time, analog adjustment such as amplifier gain adjustment is required for each signal point as a calibration work.
There was a problem in that it took a lot of effort and time to perform the work to record the signals.

The present invention has been made in response to such conventional circumstances, and can eliminate the need for analog fine-tuning, significantly reducing the labor and time required for signal recording preparation work compared to the past. The aim is to provide a data processing device that can perform the following tasks.

[Structure of the Invention] (Means for Solving the Problems) In order to achieve the above object, the present invention has a function of switching between multiple types of fixed gains, and by selecting the fixed gains, each input voltage range can be changed. an amplification means configured to output a signal in a certain voltage range to the input voltage; and an engineering unit span, data processing means for converting the digital signal from the input/output means into process data, and output means for outputting a chart according to the output of the data processing means. shall be.

(Function) According to the data recording device of the present invention having the above configuration, when the gain of the amplification means (amplifier) is selected according to the output voltage range of the object to be measured, the voltage of the input/output means (PIlo) and the count value can be changed. Since the relationship is known, the relationship between the count value and the engineering unit can be determined by inputting the relationship between the engineering unit of the measurement signal and the voltage into the data processing means. By inputting the amount of change per unit length during plotting into the data processing means, the output means (block) can output.

Therefore, in the preparatory work for signal recording, analog fine adjustment work is no longer necessary, and the labor and time required for the preparatory work for signal recording can be significantly reduced compared to the conventional art.

(Example) Hereinafter, the details of the data recording device of the present invention will be described with reference to the drawings.

FIG. 1 shows the configuration of a data recording apparatus according to an embodiment of the present invention, and in the figure, reference numeral 11 indicates an analog process data signal to be recorded.

The data recording device also includes an amplifier 12 and an input/output device (
PIlo) 13, data processing device 14, and plotter 1
It consists of 5.

The amplifier 12 has a function of switching between a plurality of types of fixed gains, and is set to a fixed gain that matches the input voltage range of the analog process data 11. For example, ±0. I
Analog process data 11 input at V, ±1v, ±5V, etc. is converted into a signal within a certain output voltage range, for example ±
Convert it to the IOV analog signal 16 and send it to the input/output device 13
Enter.

The input/output device], 3 converts the analog value of the voltage into a digital signal 17 (count value, for example, ±10V/±2000 counts) and outputs it to the data processing device 14 according to a specified sampling rate.

The data processing device 14 has a function of storing input data and a function of converting the input digital signal 17 into an engineering unit quantity. That is, the relationship between the digital value of the input digital signal [7], the voltage span of the analog process data 11, and the engineering unit span is specified in advance in the data processing device 14, and the following equation (1) is calculated. Convert to engineering unit quantity by.

Engineering unit amount - (input count value - count value equivalent to 0 human power) x (engineering unit span / input voltage count span)
・(1) When plotting, if you manually set the time axis and the signal plot gain (width in engineering units per unit length), the time series data will be plotted accurately on the plotter 15 under the set conditions. Ru.

The position of the plot is determined by calculating the following equation (2).

Plot position - Specified plot writing position + (Signal size at a certain time - Initial value of signal) / Plot scale (2
That is, in the data recording apparatus of this embodiment, as shown in the flowchart of FIG. 2, the range of the input signal is investigated (100), and the fixed cane of the amplifier 12 is selected (101).

Then, the relationship between the voltage and the process amount is specified to the data processing device 14 (102), signal connections are made (103), and the preparation is completed (104).

Therefore, there is no need for analog fine-tuning as in the case of the conventional data recording device shown in the flowchart of FIG. This makes it possible to perform all management including adjustments, and it is possible to significantly reduce the labor and time required for preparation work for signal recording compared to the past.

In addition, since the data is held in the data processing device 14, offline data playback such as re-plotting after data collection is possible, and the plot key can be easily changed at that time, so online plotting is possible. Even if the gain selection is inappropriate, re-output can be easily performed, and re-testing due to measurement failure can be prevented.

[Effects of the Invention] As explained above, the data recording device of the present invention eliminates the need for analog fine-tuning, and requires less effort and time for preparation work for signal recording than in the past. and can be significantly reduced.

[Brief explanation of drawings]

FIG. 1 is a diagram showing the configuration of a data recording device according to an embodiment of the present invention, FIG. 2 is a flowchart showing data recording preparation work in the data recording device shown in FIG. 1, and FIG. 3 is a diagram showing a conventional data recording device. FIG. 4 is a flowchart showing the data recording preparation work in the data recording apparatus shown in FIG. 3. 11...Analog process signal 12...
...... Amplifier (fixed gain switching type) 13...
...Input/output device 14...Data processing device 15...
...Plotter applicant Toshiba Corporation

Claims (1)

[Claims] (1) an amplifying means having a function of switching between a plurality of types of fixed gains and configured to output a signal in a fixed voltage range for each input voltage range by selecting the fixed gain; and the amplifying means. An input/output means converts the voltage value of an analog signal inputted from the means into a digital count value at a constant cycle, and the digital signal from the input/output means is converted into process data based on the relationship between the span of the input voltage and the span of engineering units. What is claimed is: 1. A data recording device comprising: a data processing means for converting into a data processing means; and an output means for outputting a chart according to the output of the data processing means.