JP6183989B2 - Voltage / current generator - Google Patents

Description

  The present invention relates to a voltage / current generator, and more particularly to a voltage / current generator mainly used for calibration of an indicating instrument (meter).

  When calibrating the indicating instrument configured to change the rotation angle of the indicator needle according to the magnitude of the measurement value, the linearity test of the rotation angle of the indicator needle with respect to the measurement value magnitude of the indicator instrument being calibrated A voltage / current generator having output functions such as division, deviation, and sweep is used to perform a catch test during rotation of the indicator needle.

  The calibration points for calibrating the analog meter are, for example, in the case of a voltmeter with a full scale of 30V, 0V every 5V, 5V, 10V,..., 30V, and every 20V when the full scale is 100V. As in 0V, 20V, 40V,..., 100V, it is widely performed that the full scale value is equally divided according to the scale.

  FIG. 3 is a block diagram showing an example of a conventional voltage / current generator having such an output function. In FIG. 3, the output of the main setting unit 1 is set to a predetermined value in accordance with the full scale value of the analog meter to be calibrated, for example, and the output value is input to the output division calculation unit 2 and the output deviation calculation unit 3. Is done.

  As the output division value of the output division calculation unit 2, the output division setting unit 4 sets the denominator m corresponding to the number of scales to be calibrated by the analog meter, and selects the numerator n corresponding to the number of calibration points. As a result, a predetermined division value (n / m) is set. The calculation output of the output division calculation unit 2 is input to the addition terminal of the addition / subtraction unit 5.

  The deviation amount of the output deviation calculation unit 3 is set by the deviation setting unit 6. The output deviation calculation unit 3 multiplies the deviation amount by the main set value, and the multiplication output is input to the subtraction terminal of the addition / subtraction unit 5.

  The adder / subtractor 5 sets an output terminal 7 as a calculation result obtained by subtracting the multiplication output of the output deviation calculator 3 from the divided calculation output of the output division calculator 2. Specifically, an actual instruction deviation with respect to a predetermined scale of the needle of the analog meter to be calibrated corresponding to a predetermined division value (n / m) in a state in which the setting deviation of the deviation setting unit 6 is set to 0, The calibration value is obtained from the set value of the deviation when the meter needle is adjusted to a predetermined scale by fine adjustment by the deviation setting unit 6.

As a result, the output value output from the adder / subtractor 5 to the output terminal 7 can be expressed as Equation 1.
Output value = Main set value x Output division value (n / m)-(Main set value x Deviation) (1)

  Patent Document 1 describes the configuration of a voltage / current generator that suppresses common mode voltage interference.

JP 2008-31333 A

  By the way, in calculating the actual calibration value, it is necessary to average the calibration value when the output is raised and the calibration value when the output is lowered.

  In addition, to calculate the calibration value to be obtained when the output is increased, it is necessary to read the value adjusted without the needle exceeding the specified scale, and the calibration value to be obtained when the output is lowered is specified by the needle. You must read the adjusted value without going below the scale.

  However, it is common for the indicated value of the analog meter to be calibrated to deviate from the true value. When either the output is increased or decreased, the needle is set to a predetermined value when the division setting is changed. There is a case that exceeds the scale of.

  If the needle of the analog meter to be calibrated exceeds the predetermined scale, it must be restored to the state before the needle crosses the predetermined scale again, and the calibration work must be performed again, which hinders the efficiency of the calibration work. .

  However, in the conventional configuration shown in FIG. 3, the deviation setting and the division setting cannot be controlled in conjunction with each other, and an operator must be careful so that the needle of the analog meter to be calibrated does not exceed a predetermined scale. The above problem could not be avoided other than performing calibration work.

  The present invention solves such a problem, and its purpose is to allow the operator to easily perform the calibration work without being conscious that the needle of the analog meter to be calibrated does not exceed a predetermined scale. The object is to provide a voltage-current generator.

In order to achieve such a problem, the invention according to claim 1 of the present invention is:
A main output function for setting and outputting a predetermined main output, an output dividing function for dividing and setting the main output into predetermined values, an output deviation function for setting a deviation amount with respect to the main output, and outputs and output deviations of these output dividing functions In a voltage / current generator comprising addition / subtraction means for adding / subtracting the output of the function,
A preset function for setting a set value of the output deviation function to a predetermined value other than 0;
In the case where the preset function sets the deviation amount as an absolute value as a preset value in conjunction with the setting of the output division function and increases the output by the output division function when setting the preset value as the deviation amount Is given a polarity such that the output is more negative than the value determined by the division ratio, and when the output is reduced by the output division function, the output is more positive than the value determined by the division ratio. It is characterized by imparting polarity.

  By using the voltage / current generator configured as described above, the needle of the analog meter to be calibrated can be led to an appropriate calibration value without exceeding a predetermined scale, and the calibration work can be performed by the needle of the analog meter. This can be done efficiently without being conscious of not exceeding a predetermined scale.

It is a block diagram which shows one Example of this invention. It is calibration operation explanatory drawing of the indicating instrument based on this invention. It is a block diagram which shows an example of the conventional voltage current generator.

  Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1A is a block diagram showing an embodiment of the present invention, and the same reference numerals are given to portions common to FIG. In FIG. 1A, the output division setting value of the output division setting unit 4 is input to the preset unit 8. In the deviation setting unit 6, the preset unit 8 sets, for example, one of OFF, 0, 2%, or 5% as a preset value based on the output division setting value, as shown in (B). .

  By setting the deviation amount set value by the deviation setting unit 6 in FIG. 1 plus, the value output from the output deviation calculating unit 3 to the output terminal 7 is raised by the division function of the output division setting unit 4 in FIG. In such a case, the output value calculated by Expression 1 is output. After that, while increasing the output with a setting dial (not shown) provided in the deviation setting unit 6, adjust so that the needle of the analog meter to be calibrated points to the specified scale, and the needle sets the specified scale. The set value of the deviation amount in the deviation setting unit 6 when instructing is read.

  On the other hand, if the deviation amount set value by the deviation setting unit 6 in FIG. 1 is set to a minus value, the value output from the output deviation calculating unit 3 to the output terminal 7 is changed to the division function of the output division setting unit 4 in FIG. When the value is lowered, the numerical value of (main setting × deviation) is output with a value larger than the set value. After that, adjust the analog meter needle to be calibrated to indicate the specified scale while decreasing the output with a setting dial (not shown) provided in the deviation setting unit 6, and the needle points to the specified scale. The set value of the deviation amount in the deviation setting unit 6 is read.

The preset unit 8 is set with preset values for controlling the main output value so as to have a predetermined deviation amount as follows.
a) OFF: The deviation amount set by the deviation setting unit 6 is retained even when the division setting is changed or the main setting is changed.
b) 0: The deviation amount set by the deviation setting unit 6 is changed to the division setting, and the deviation amount is returned to 0 when the main setting is changed.

  c) xx%: The deviation amount set by the deviation setting unit 6 is returned to a predetermined value (xx%) other than 0 when the division setting is changed. The predetermined deviation amount (xx%) is positive when the output is increased by the division setting, and is negative when the output is decreased, and is an output value calculated from the main setting and the division setting. It becomes an output value before the deviation amount (see FIG. 2).

  The preset value of the preset unit 8 is set so that the deviation amount is an absolute value. Therefore, when setting the preset value as the deviation amount, when the output is increased using the output division setting unit 4, a polarity is given so that the output is more negative than the value determined by the division ratio. When the output is reduced using the output division setting unit 4, a polarity is given so that the output is biased to the positive side of the value determined by the division ratio. The preset value may be variable or selectable.

  Further, an operation that does not use the preset function, that is, an operation state that holds the deviation amount when the output division ratio is changed may be selected.

A specific example will be described. The main output voltage is 10 V, for example. When the deviation amount in FIG. 1 is set to + 2% and the output is increased from 2/5 to 3/5 by the division function of the output division setting unit 4 in FIG. value is,
{10V × 3 / 5− (10V × (+2%))} = 5.8V
become.

  Therefore, adjustment is performed until the meter indicates 6V by the setting dial provided in the deviation setting unit 6.

On the other hand, when the deviation is set to -2% and the output is lowered from 3/5 to 2/5 by the division function of the output division setting unit 4 in FIG. Is
{10V × 2 / 5− (10V × (+2%))} = 4.2V
become.

  Therefore, adjustment is performed until the meter indicates 4V by the setting dial provided in the deviation setting unit 6.

  In this way, the output dividing function for dividing and setting the main output to the predetermined value and the output deviation function for setting the deviation amount with respect to the output set to be divided to the predetermined value are linked to increase the output and the output. In any case of lowering, no erroneous operation is performed, an appropriate calibration value can be derived, and a series of calibration operations can be simplified.

  In addition, by linking the sweep function used in the analog meter hook test with the output division function that divides and sets the main output into a predetermined value and the output deviation function that sets the deviation amount with respect to the output divided and set to the predetermined value, It is possible to hold once near an arbitrary point while looking at the needle of the analog meter, and then adjust the deviation amount setting dial to obtain a calibration value according to the scale of the arbitrary point.

  Further, the linearity test can be realized by the operation of the sweep switch and the rotary switch for setting the deviation amount by the function of the present invention, so that the work efficiency can be greatly improved.

  As described above, according to the present invention, the needle of the analog meter to be calibrated can be guided to an appropriate calibration value without exceeding the predetermined scale, and the calibration of the analog meter can be performed with the predetermined scale. A voltage / current generator can be realized that can be performed efficiently without being conscious of not exceeding

DESCRIPTION OF SYMBOLS 1 Main setting part 2 Output division | segmentation calculating part 3 Output deviation calculating part 4 Output division | segmentation setting part 5 Addition / subtraction part 6 Deviation setting part 7 Output terminal 8 Preset part

Claims (1)

A main output function for setting and outputting a predetermined main output, an output dividing function for dividing and setting the main output into predetermined values, an output deviation function for setting a deviation amount with respect to the main output, and outputs and output deviations of these output dividing functions In a voltage / current generator comprising addition / subtraction means for adding / subtracting the output of the function,
A preset function for setting a set value of the output deviation function to a predetermined value other than 0;
In the case where the preset function sets the deviation amount as an absolute value as a preset value in conjunction with the setting of the output division function and increases the output by the output division function when setting the preset value as the deviation amount Is given a polarity such that the output is more negative than the value determined by the division ratio, and when the output is reduced by the output division function, the output is more positive than the value determined by the division ratio. A voltage-current generator characterized by imparting polarity.