KR100307009B1 - Digital multi-tester - Google Patents

Abstract

PURPOSE: A digital multi-tester is provided to measure accurately direct current and alternating current by setting up a measuring range of current, automatically. CONSTITUTION: An input terminal portion(10) measures intensity of voltage and current. A manual switch portion(20) is connected with an output stage of the input terminal portion(10). A power supply portion(30) is connected with an input terminal of the manual switch portion(20). An amplification portion(40) is connected with an output stage of the manual switch portion(20). An automatic switch portion(50) is used for receiving output signals from the input terminal portion(10), the manual switch portion(20), the power supply portion(30), and then amplification portion(40) and outputting automatically a measured value according to an internal switching operation. A microprocessor(60) is connected with the output stage of the manual switch portion(20) in order to determine intensity of direct current and alternating current. An execution portion(70) is connected with an output stage of the microprocessor(60) in order to display a measured value.

Description

Digital Multi Tester

The present invention relates to a tester in which the amounts of current and voltage are digitally output, and more particularly, to a digital multitester for automatically setting a setting range of a current to be measured.

In general, the measuring device is a large-scale measuring circuit such as voltage, current, power, resistance, impedance, admittance, inductance, rotation angle, position, pressure, magnetic field, temperature, humidity, gas, ion, etc. It is divided into non-electric capacity measuring circuit.

The electricity measuring device is to measure and adjust the amount of voltage and current to be measured in the industry and research institute to output the magnitude of the voltage and current input from the two terminals to the measuring range.

The conventional measuring device for measuring current and voltage is configured to manually operate a measuring range in which a range to be measured is set, and to measure a range of current and voltage to be measured through two input terminals.

The measuring range that has already set the magnitude of the voltage and current to be measured assigns the set value to the contact terminal of the normal toggle switch, and measures the voltage and current measured by the digital or analog method. Ohm (Ω) is written.

However, the measuring range that operates the setting range of the current to be measured is configured by distributing the 400μa to 400mA range to each terminal of the toggle switch, and selecting the set range manually to measure the current within the selected range. Since the magnitude of the current to be measured is extremely limited and limited only within the already set range, if the user wants to measure the current value below the minimum value of 400 μA or more than 400 mA, the current cannot be measured out of the range of the set current measurement value. The problem is that the value cannot be measured more precisely.

SUMMARY OF THE INVENTION The present invention has been made to solve such problems in the related art, and its purpose is to select a measurement range of current to a high and small range so as to obtain a precise and granular DC or AC current value around the microprocessor. The measured value of the selected range can be displayed numerically on the display means.

The structure of the present invention for achieving the above object is an input terminal unit for measuring the magnitude of the current in the digital measuring device for measuring and displaying the magnitude of the current, the magnitude of the current to be connected to the output terminal of the input terminal and A manual switch unit for setting a magnitude of a current, a power supply unit connected to an input terminal of the manual switch unit to supply power, an amplifier unit amplifying and outputting a measured voltage and current value connected to an output terminal of the manual switch unit; An automatic switch unit for inputting an output signal of the amplification unit and outputting a value measured by the manual switch unit by an internal switching operation, and connected to an output terminal of the manual switch unit to convert the input value into digital and alternating current and A microprocessor for determining and outputting the current magnitude of the direct current, and the output terminal of the microprocessor It characterized in that it comprises an execution unit for displaying the measured value determined.

1 is a schematic circuit diagram of a general digital multi-tester.

2 is a block circuit diagram of a digital multi-tester according to an embodiment of the present invention.

Code descriptions for the main parts of the drawings

10; input terminal section 20; manual switch section

30; power supply 40; amplifier

50; automatic switch unit 60; microprocessor

70; execution part 1 to 3; input terminal

IC2; automatic switch element IC3; amplification circuit element

BT; Battery BZ; Bridge Diode

F1 to F2; Fuse R1 to R7; Resistance

C1-C16; capacitors RN1, RN2; Stove

Hereinafter, a structure according to the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

2 is a block circuit diagram of a digital multi-tester according to an embodiment of the present invention.

The present invention relates to a device for automatically setting the range of the current to be measured, as shown in Figure 2, the power supply for supplying power, the battery BT, the power switch (SW), the capacitor (C15) ( Connect C16).

The input terminal unit 10 for inputting an electrical signal from a measurement target includes a voltage terminal 1 capable of measuring voltage (V) and ohms (Ω), and low or high depending on the magnitude of the current. The current low terminal (2) and the current high terminal (3) can be selected. In particular, the current low terminal (2) connects the bridge diode (BZ) and the fuse (F1), and the current high terminal connects the fuse (F2). Connect.

The passive switch unit 20 connected to the output terminal of the input terminal unit 10 has a voltage (V), a beep OME, a diode (μOD) according to the type of the measurement, and the amperage according to the magnitude of the current. The current size is divided into a high range (RN1) and a low range (RN2) so that m amps and amps can be selected.

The amplifier 40 connected to the output terminal of the power supply unit 30 and the manual switch unit 20 connects the amplifier circuit IC3 to amplify the input signal.

The automatic switch unit 50 for inputting the output signal of the amplifying circuit device IC3 of the amplifying unit 40 from the input terminal and the selection signal of the manual switch unit 20 receives the automatic switching operation signal from the manual switch unit 20. Connect the auto switch element (IC2) so that it can be output to

The microprocessor 60 for inputting the output signal of the manual switch unit 20 is characterized in that it is composed of a device that can control the input signal, and converts the input signal into a digital signal.

The execution unit 70 for inputting the output signal of the microprocessor 60 is characterized in that the LED display device for displaying the input digital signal.

The microprocessor 60 is connected to output the control signal automatically set the input current to the automatic switch unit 50.

The manual switch unit 20 is an automatic switch device IC2 that is an integrated circuit capable of outputting a selection mode signal to an output terminal because a plurality of switch groups therein are connected to input / output terminals when the measurement type setting is manually selected. Consists of

The microprocessor 60 converts a control signal by invoking an execution command in the order of a program specified in the internal memory, and reads data of an instruction execution target from an input port or a memory to perform arithmetic and logical operations. It is configured to store the result obtained in the memory or output through the output port, and it is supposed to have a built-in A / D converter to convert the input analog signal into a digital signal.

Referring to the effects of the present invention configured as described above in detail.

The present invention relates to an apparatus capable of automatically setting the magnitude setting of the current to be measured. Referring to FIG. 2, the power of the battery BT is applied while the power switch SW1 of the power supply unit 30 is turned on. At the same time, the microprocessor 60 initializes the memory and outputs a control signal so that the execution unit 70 can operate.

In order to measure the magnitude of voltage and ohm, set voltage VOLT among measurement types of manual switch unit 20, and voltage terminal unit 1 and current low terminal of input terminal unit 10 When the measurement is conducted, the magnitude of the voltage input to the internal switch of the manual switch unit 20 is conducted through the microprocessor 60.

The microprocessor 60 converts the magnitude of the input voltage into a digital signal and then outputs the result to the execution unit 70 in comparison with the internal memory.

When the current is to be measured, one of a small measuring range (μamp, m amp) range or a large measuring range (amp) range of the manual switch unit 20 is selected and set, and the input terminal unit 10 is set. When the normal input terminal 1, the low current input terminal 2, and the high current input terminal 3 measure the measurement target, the set input signal is transmitted through the amplifying circuit element IC3 of the amplifying unit 40. The amplified input signal is outputted to the automatic switch element IC2 of the automatic switch unit 50.

At this time, the microprocessor 60 for inputting the measurement range selected from the manual switch unit 20 and the value of the measurement current input from the input terminal unit 10 changes the input analog signal to digital and then determines the size of the input signal. The high signal and the low signal are respectively output to the automatic switch element IC2.

The automatic switch unit 50 for inputting the output signal of the microprocessor 60 has two input signals A and B manually operated while the automatic switch element IC2 is operated according to the voltage input level of the high signal or the low signal. The control unit 20 outputs a control signal determined by the microprocessor 60 through the switch unit 20 and simultaneously outputs the control unit.

The signal input from the A terminal of the automatic switch element IC2 is automatically set to 400 (μ-amperes), 40 (m-amperes), 4 (amperes), and the B terminal is 4000 (μ- Amperes), 400 (m-ampere), 10 (ampere) and automatically set.

The magnitude of the current automatically set by the microprocessor 60 is output again from the automatic switch element IC2 of the automatic switch unit 50 to the manual switch unit 20, and the manual switch unit 20 measures the measured input current value. Is compared with the current value automatically set by the microprocessor 60 to display the input current value measured from the input terminal unit 10 to the execution unit 70.

According to the present invention acting as described above, if only one of the measuring range (μamp, mamp) and the large measuring range (amp) is selected as the current measuring range, the current size of the range to be set is microprocessor. It offers the convenience of automatic setup through the measurement, while at the same time measuring ranges from 4000 (μ-amps) to 10 (amps), resulting in precise measurements.

Claims (3)

In the digital measuring device for measuring and displaying the magnitude of the current, An input terminal unit 10 for measuring magnitudes of voltage and current, A manual switch unit 20 connected to an output terminal of the input terminal unit 10 for selecting a type to be measured and setting the size of the selected measurement type; A power supply unit 30 connected to an input terminal of the manual switch unit 20 to apply power; An amplifier 40 connected to an output terminal of the manual switch unit 20 to amplify and output the voltage and current values measured from the input terminal unit 10; An automatic switch unit 50 for outputting the voltage and current values amplified and output to the amplifier 40 to the manual switch unit 20 by an internal switching operation; A microprocessor 60 for converting the value inputted to the manual switch unit 20 into digital and determining and outputting the current magnitude of AC and DC; Digital multi-tester characterized in that it comprises an execution unit (70) for displaying the measured value output to the microprocessor (60). According to claim 1, The input terminal unit 10 is the input terminal 1 for measuring the voltage (V), ohms (Ω), the bridge diode (BZ) and the fuse (F1) to block the flow of high current A low current input terminal (2) for inputting a low current by connecting a high current input terminal (3) for protecting a circuit by connecting a fuse (F2) is a digital multi-tester. According to claim 1, wherein the measurement type of the manual switch unit 20 is selected by dividing into voltage, resistance, current, The current is at least one or more ranges according to the size of the digital multi-tester, characterized in that for selecting the measurement range of the small current and the measurement range of the high current.