KR100236217B1 - Reference value automatic compensation method for digital multimeter - Google Patents

Abstract

The present invention provides a measurement source having a reference value from a reference device to a digital multimeter, stores the difference between the supplied reference value and a measured value measured by the digital multimeter as a compensation value in the storage means, Wherein the compensation value stored in the storage means is added to the measured value and is output to the output means. The present invention relates to a method for automatically compensating a reference value of a digital multimeter, The cost is reduced, and since the correct compensation operation is performed by the program, the defect rate is greatly reduced. In particular, the skilled workforce required for compensation work becomes unnecessary, and the compensation work can be completed in a short time, so that the work efficiency is greatly enhanced. Further, by performing the compensation operation of the present invention by controlling the position of the digital multimeter by an automated serial process employing a robot arm, many products can be accurately compensated in a short time with almost no manual work being eliminated, The manufacturing cost of the digital multimeter can be reduced.

Description

[Name of invention

Automatic compensation of standard value of digital multimeter

BRIEF DESCRIPTION OF THE DRAWINGS Fig.

FIG. 1 is a block diagram of a reference value automatic compensation method of a digital multimeter according to the present invention and a reference value automatic compensation process of a digital multimeter.

FIG. 2 is a flow chart showing a control flow of a main computer for executing a method of automatically compensating a reference value of a digital multimeter according to the present invention. FIG.

FIG. 3 is a flow chart showing a control flow of a microprocessor incorporated in a digital multimeter to execute a method of automatically compensating a reference value of a digital multimeter according to the present invention.

4 is a flowchart showing a control flow of a reference value automatic compensation process of the digital multimeter according to the present invention;

DESCRIPTION OF THE REFERENCE NUMERALS

10: Digital Multimeter (DMM) 12: MPU

14: memory means 16: separation wall

18: port 20: main computer

24: DMM position control device 26: reference device

DETAILED DESCRIPTION OF THE INVENTION [

More particularly, the present invention relates to a method of compensating a reference value of a digital multimeter by setting and storing a compensation value according to a program under the control of a microcomputer, The present invention relates to a reference value compensation method for a digital multimeter capable of avoiding operation.

A digital multimeter (DMM) measures values such as DC and AC voltages, DC and AC currents, resistances, frequencies, or capacitances, and displays the measurements in digital numbers (typically, The size and shape of the measuring device can be variously manufactured as needed, but the portable device is particularly used for measuring various values at necessary positions while being held by hand. These digital multimeters have manual range adjustment, which allows you to manually adjust the measurement range, and an automatic range adjustment that sets the appropriate measurement range within the instrument while scanning from a high measurement to a low measurement.

A digital multimeter is not usually an ultra-precision measuring device that measures values with extremely high precision, but is usually designed to display significant numbers of three to five digits. For example, when 1V is expressed as 1.00V to 1.0000V, reliability should be given to the number.

In order to ensure the accuracy and reliability of the digital multimeter, it is necessary to accurately set the reference value of the device itself when the device is manufactured. Therefore, after the digital multimeter is manufactured, a reference value, for example, 1.000000 V, is input to the device from an external precision instrument. Then, it is determined whether the measured value of the device or the measured value falls within the permissible range. Should be adjusted by hand and within the allowable range.

Therefore, after the digital multimeter is manufactured, it is necessary to compensate for setting the reference value by using the manual compensation method for all the devices. This manual calibration process should not only be performed once for one instrument but for each function, ie current, voltage, resistance, frequency or capacitance, and it is necessary to compensate the reference repeatedly for every function You must give.

For this compensation operation, a number of variable resistors (VR) and regulating components must be installed in the digital multimeter. In particular, VR must be used for calibration points according to specific ranges and functions, such as reference VR, which can adjust the DC reference, and AC Gain VR of the AC to DC converter. It is very cumbersome and error-prone to adjust the VRs to compensate for the reference values, and it requires a high level of skill and increases the unit price due to an increase in the number of components

SUMMARY OF THE INVENTION It is an object of the present invention to provide a digital multimeter capable of eliminating any manual operation by inputting a compensation value by a microcomputer for setting a reference value of the digital multimeter And a method of automatically compensating the reference value.

According to the present invention, a measurement source having a reference value is supplied from a reference device to a digital multimeter, the difference between the supplied reference value and the measured value measured by the digital multimeter is stored in the storage means as a compensation value, The compensation value stored in the storage means is added to or subtracted from the measured value, and the compensated value is outputted to the output means.

The present invention also provides a digital multimeter requiring compensation, detecting a standby position of the digital multimeter, transferring the digital multimeter to an adjustment position, and a selector regulator in the digital multimeter at the adjustment position A step of performing a process of automatically compensating the reference value of the digital multimeter according to the method of claim 1, separating the selector regulator from the compensated digital multimeter, and transferring the digital multimeter to a delivery position And provides a reference value automatic compensation process of the digital multimeter.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a flow diagram schematically illustrating a flow of a reference value automatic compensation process of a digital multimeter according to the present invention. The digital multimeter (DMM) 10 is placed in an adjustment position for compensation by position control. Thereafter, a robot arm capable of adjusting a selector for selecting functions of a digital multimeter or a measurement range is mounted.

Inside the digital multimeter 10, there is an MPU 12 in which a program for calculation of measured values and a program for the execution of the automatic compensation method of the present invention is stored. The MPU 12 is provided with storage means 14). A communication port (for example, 'RS232C') 18 is provided for communication between the MPU and the main computer, and a communication port (for example, 'RS232C') 18 is provided for facilitating communication between the MPU and the main computer, An isolation block 16 is installed.

The main computer 20 is a computer for collectively controlling the MPUs of the reference device 26, the position controller 24 and the digital multimeter 10 as a computer, A control program is executed to generate a compensation value compared with the measurement source of the reference device to perform compensation.

In a method of automatically compensating a reference value of a digital multimeter, a reference device 26 for supplying a reference measurement source from the outside has a function of providing an accurate measurement source capable of displaying an effective number of about 7 to 9 And products such as Fluke are commercially available. Such a reference device generates a source to be measured, such as a DC voltage, an AC voltage, a current, a resistance, a frequency, and a capacitance, thereby setting a reference value of the digital multimeter based on a source supplied from the device.

FIG. 2 shows a control flowchart of the main computer according to the present invention.

When the program starts, it is first determined whether the digital multimeter to be corrected and the main computer are connected (S100). If yes, go to the next step, and if no, feed back. When it is confirmed that the computer is connected to the digital multimeter, it is checked which model the connected digital multimeter is, and a control flow suitable for the model is selected (S102).

The next step is to select and set the function to be measured (voltage or current) of the currently connected digital multimeter (S104). When the function is selected, a range is set for the function (S106). After the functions and ranges of the digital multimeter are set as described above, a measurement source suitable for the digital multimeter is input from the reference device to the digital multimeter (S108).

The digital multimeter measures the inputted measurement source and transmits the measured value to the main computer. The main computer receiving the measured value (S110) calculates the compensation value by detecting the difference from the reference value (S112).

It is transmitted from the main computer to the compensation value is calculated with a digital multimeter stores the feature and the range in the memory means ^{(E 2 PEOM) (S116)} . The data stored in this way represents the displayed value by taking into consideration the compensation value corresponding to the function and range of the measured value when the digital multimeter is used. It is preferable to use non-volatile memory and E ² PROM (Electrical Erasable Programmable Read Only Memory) capable of reading and writing as the storage means used for storing the compensation value.

The series of processes in which the compensation value is calculated for one function and range and stored in the storage means 14 should be repeated for different ranges and functions. Therefore, it is determined whether the compensation operation has been completed for all the measurement ranges (S118). If the compensation range is 'no', the range is changed to another range (S120) and the steps from S108 to S118 are performed.

After all the steps of calculating and storing the compensation value are performed while changing the measurement range in this manner (if the answer to S118 is YES), it is determined whether the compensation operation is completed for all the measurement functions again (S112). If it is "no", it is changed to another function and the compensation operation is repeatedly performed from the range setting step (S106) to the step S122 for judging whether or not the compensation operation is completed for all the functions.

When the process for calculating the compensation value for all the functions and measurement ranges for the digital multimeter of the model is completed and stored in the storage means 16, it is determined whether to output the compensation data (S126) (S128). If the data output is not necessary, the program is terminated.

FIG. 3 shows a block diagram of a program of a microprocessor (MPU) incorporated in a digital multimeter. The MPU is a unit for controlling all the functions and operations of a series of functions, such as selection of a measurement function and setting of a range, conversion of measured values into digital data, and display. In the present invention, communication with the main computer and calculation and storage of compensation values Cooperatively.

First, when a program is started and power is supplied (S200), the apparatus is initialized (S202). At this time, the MPU of the digital multimeter judges whether the compensation operation should be performed or the digital multimeter is in a normal measurement operation state (S204). In the compensation operation state, the digital multimeter is connected to the main computer to determine again whether communication is possible (S206). If not, the flow returns to step S204.

After confirming that the digital multimeter is connected to the main computer in the compensation state, it is determined whether the model of the digital multimeter recognized by the main computer is correct (S208). If the model recognition of the main computer is correct, the process goes to the next step. If there is an error in the model recognition, the process returns to step S204.

If the recognition of the DMM model of the main computer is correct, the function of the digital multimeter is set (S210) and the measurement range is determined (S212). Subsequently, the measurement source input from the reference device under the control of the main computer is measured (S214). This measured value is transmitted to the main computer (S216), and the main computer calculates the compensation value.

At this time, the calculation of the compensation value may be performed only by the main computer, or may be cross-checked by calculating both the MPU and the main computer so that more accurate compensation can be performed. The MPU that has received the calculated compensation value stores this data in the memory means (S218).

When the compensation value calculation and storage operation for one function and range is completed, it is determined whether the compensation operation has been completed for all the measurement ranges (S220) Repeat the step. When the calculation and storage of the compensation values for all the measurement ranges for one function are completed (if the answer to the question in S220 is YES), it is determined again whether or not the compensation operation is completed for all the functions S224) If the answer is 'no', it is changed to another function (S226) and steps S212 to S224 are repeatedly performed.

When changing the range and the function and calculating and storing the compensation value, the compensation operation is completed. If the digital multimeter determines that the digital multimeter is not in the compensation operation state but in the general measurement operation state, the compensation value stored in the memory means 14 is loaded into the MPU (S228) and the key value operated by the user is read (S230). The digital multimeter sets the device according to the function and the range inputted by the user in step S232, reads the measured value in step S234, and inputs the stored compensation value to adjust the measured value in step S238. ).

That is, when the compensation value stored in the storage means 14 is a positive value or a negative value, the measured value is added with the + or - compensation value, and the adjusted value is displayed as a digital value through the display window (LCD). These values have the necessary reliability required for the digital multimeter, and generally output a more accurate data than a digital multimeter that compensates by adjusting the variable resistance by manual operation.

In the compensation operation according to the present invention, it is not necessary to use a single variable resistor, and it is not necessary to manually adjust the variable resistor and the adjustment part by hand. Particularly, since the supply of the measurement source and the calculation and storage of the compensation value are instantaneously performed by the control of the computer, the compensation operation for all the functions and the range is finely completed in a very short period of time,

In order to perform the compensating operation of the present invention, first, the digital multimeter is placed in a position for compensation operation, a robot arm for function selection is mounted, and then the automatic compensation of the reference value of the digital multimeter of the present invention is performed, The reference value compensation operation of the digital multimeter can be performed by the operation. FIG. 4 shows a flow chart of the reference value automatic compensation process of the digital multimeter.

Digital multimeters that require compensation work include digital multimeters that are not only the first-to-be-built digital multimeters, but also need to correct their compensation values by changing the compensation values by long-term use. A digital multimeter requiring such a compensation operation is supplied (S300), and is placed at a standby position to detect a standby position (S302). Subsequently, the digital multimeter is transferred (S304) and the position where the compensation operation proceeds is detected (S306). At this position, a selector capable of selecting functions and ranges of the digital multimeter is equipped with a robot arm capable of adjusting the selector (S308).

With the robot arm mounted on the selector in this way, the main control computer can control the selector to select the function and range necessary for the compensation operation by the robot arm. At this position, the automatic compensation of the reference value of the digital multimeter of the present invention as described above is executed to complete the compensation operation for all the measurement functions and the range (S310).

The digital multimeter whose compensation operation has been completed transfers the selector adjuster (S312) to the next (S314), and is placed in the factory position (S316). Here, whether or not the product is passed is determined (S318). That is, the measurement source is supplied again from the reference device to determine whether the value displayed by the digital multimeter is within the allowable error range. If the result is acceptable, the product is discharged and loaded as an acceptance product (S320), and the rejected product is again subjected to the steps of S302 to S318 Repeat this.

Since the automatic compensation of the reference value of the digital multimeter of the present invention and the automatic compensation of the reference value of the digital multimeter do not require various components such as variable resistance and adjustment parts, the cost is reduced, Significantly lower. In particular, the skilled workforce required for compensation work becomes unnecessary, and the compensation work can be completed in a short time, so that the work efficiency is greatly enhanced. Further, by performing the compensation operation of the present invention by controlling the position of the digital multimeter by an automated serial process employing a robot arm, many products can be accurately compensated in a short time with almost no manual work being eliminated, The manufacturing cost of the digital multimeter can be reduced.

Claims (1)

A method of compensating a reference value of a digital multimeter 10 using a main computer 20 and a reference device 26 and an EEPROM 14 comprises the steps of determining whether the digital multimeter 10 and the main computer 20 are connected ; If the digital multimeter 10 and the main computer 20 are connected as a result of the determination, the model of the digital multimeter 10 is checked and then a measurement of the digital multimeter 10 Setting a measurement range for the function and its function; Supplying a measurement source having a reference value for the set daily measurement function and measurement range from the reference device 26 to the main computer 20 and the digital multimeter 10, respectively; Measuring a measurement function and a range for the measurement source and outputting the measured measurement source to the main computer 20 when a measurement source having a reference value is supplied; A measurement value for a measurement function and a measurement range output from the digital multimeter 10 and a difference value of a reference value for a measurement source with respect to a corresponding function and range applied from the reference device 26 are calculated, To the EEPROM (14) in the digital multimeter (10) together with the measurement function and the measurement range as a compensation value; Determining whether all measurement functions for the digital multimeter (10) and a compensation value for the measurement range have been stored in the EEPROM (14); As a result of the determination, if the measurement function and the measurement range are selected during the use of the digital multimeter (10) while all the compensation values are stored in the EEPROM (14) for all measurement functions and measurement ranges, Compensating the measured value by adding the selected measurement function stored in the EEPROM 14 and the same measurement function and compensation value for the measurement range as the measurement range; Determining whether all the measurement functions of the digital multimeter 10 and the measurement range for the function are completed, and then printing the compensation data value according to the selection of the output of the compensation data value. Automatic compensation method of digital multimeter.