JPH06148299A - Electronic part measuring device - Google Patents

Abstract

PURPOSE:To efficiently measure a large number of electronic parts within a short time. CONSTITUTION:In an electronic part measuring device measuring the different characteristics of a large number of electronic parts 1, the electronic parts 1 are divided into (n) blocks (n; arbitrary number) and measuring devices 6a, 6b... 6n measuring the characteristics of electronic parts at every blocks are prepared and the changeover of the electronic parts measured within the respective blocks by the measuring devices is performed by a relay changeover device 4 and the characteristics of the parts are simultaneously measured by the measuring devices of the respective blocks.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic component measuring apparatus for measuring characteristics of electronic components such as batteries.

[0002]

2. Description of the Related Art Conventionally, when a relatively small electronic component such as a battery is manufactured, an electrical characteristic is set to 1 in order to check whether the manufactured component has a predetermined characteristic (that is, whether it is a defective product). It is being measured individually. For example, in the case of a battery, the voltage and impedance are measured, and only those having characteristics within a certain reference range are shipped as non-defective products.

[0003]

By the way, in the case of a relatively small electronic component such as a battery, the number of components manufactured at one time is very large, and the characteristics of all the components manufactured are measured one by one. Then, there was an inconvenience that the measurement took a very long time. In order to reduce the time required for this measurement, it is conceivable to reduce the time required for the measuring instrument to measure one component. However, in order to reduce the measuring time such as voltage at the measuring instrument, There is a limit.

In view of the above points, an object of the present invention is to provide a measuring device capable of efficiently measuring a large number of electronic parts in a short time.

[0005]

According to the present invention, as shown in, for example, FIG. 1, in an electronic component measuring apparatus for measuring a plurality of different characteristics of each of a plurality of electronic components 1, a plurality of electronic components 1 are Divide into blocks (n is an arbitrary number),
Measuring devices 6a and 6b for measuring a plurality of characteristics for each block
... 6n is prepared, and the electronic devices to be measured by the measuring device in each block are switched by the relay device 4, and the measuring devices in each block simultaneously measure.

Further, in this case, the voltage and impedance of the battery are measured.

Further, in this case, the switching by the relay device is performed by transmitting a command from the control device for controlling the measurement through the bus line.

[0008]

According to the present invention, the time required for measurement is shortened corresponding to the number of divisions by dividing each block and measuring simultaneously.

Further, the switching by the relay device is performed by transmitting a command from the control device for controlling the measurement via the bus line, so that the switching of the measurement in each block is performed with efficient control.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the accompanying drawings.

FIG. 1 is a diagram showing a configuration of an electronic component measuring apparatus of this example, in which 1 denotes a battery measured by this measuring apparatus. This battery 1 is placed on a tray by N,
It is measured with one piece as one unit. Further, it has N + side pinboards 2 and − side pinboards 3 connected to the positive electrode terminal and the negative electrode terminal of each of the N batteries 1 placed on this tray. The N-side pinboards 2 and the −side pinboards 3 of each N are connected to the relay switch 4.

The relay switching device 4 is the pinboard 2
And N signal lines supplied from 3 and 3 are divided into n blocks. The block division number n is equal to or less than the number N of the batteries 1 in the tray. Then, for each block divided into n blocks, one set of measuring units 6a, 6b ...
n is connected, and the signal line (the signal line connected to the pinboards 2 and 3) to be connected to the measuring unit in each block is switched by the relay switch. The switching by the relay switch is performed by the control of the switching control unit 5 configured by the microcomputer built in the relay switch 4.

The switching control section 5 is connected to a personal computer 7 for controlling the measurement by the measuring device by a bus line, and based on a switching command supplied from the personal computer 7 via the bus line,
Switching is performed by the relay switch of each block.
Further, the measuring units 6a, 6b, ..., 6n of each set are also connected to the personal computer 7 by a bus line, and the measurement is performed under the control of the personal computer 7.
The measurement results are transmitted to the personal computer 7 and are aggregated by the personal computer 7.

Here, when the block division state is shown in FIG. 2, the N batteries 1 to be measured are divided into blocks 1, blocks 2, ... , N are connected to one set of measuring units 6a, 6b, ... 6n. .. 6n of each set and switching of the relay switch by the switching control unit 5 are performed by the personal computer 7.
It is performed under the control of.

In the present example, each set of measuring units 6a, 6b ... 6n connected to the relay switch 4 is composed of a voltmeter and an ammeter. It is switched by a relay switch in the relay switch 4 so that the ammeter is connected to another signal line. That is, FIG. 3 shows the configuration of each block. In the relay switch 4, a relay switch 4a is prepared for each block, and the relay switch 4a of each block is
One of the batteries 1 is connected to the voltmeter 61, another battery 1 is connected to the impedance meter 62, the voltmeter 61 measures the voltage value, and the impedance meter 62 measures the impedance value. The measurement is taken. In this case, the voltmeter 61 and the impedance meter 62 are connected to the personal computer 7 side by a bus line, and the respective measured values are transmitted to the personal computer 7.

As the control on the personal computer 7 side, by switching the relay switch 4a of each block, the battery 1 in this block is sequentially operated by the voltmeter 61.
And the voltage value is measured, and in parallel with this voltage measurement, the batteries 1 in the block are sequentially connected to the impedance meter 62 to measure the impedance value.

By using the measuring device having such a structure, the time required for measuring the characteristics of the battery 1 can be shortened. That is, since the N batteries 1 are divided into n blocks and the simultaneous measurement is performed in each block, the time required for the measurement becomes 1 / n, and the voltage value measurement and the impedance are performed in each block. Since the measurement of the value is performed at the same time, the time required for the measurement is shortened from this point as well.
Here, the time required to measure the characteristics of the N batteries 1 will be described using mathematical expressions. The time required to measure the voltage of one battery 1 is t ₁ , and the time required to measure the impedance of one battery 1 is t. _{If the value is 2} , the total measurement time T is as follows.

[0018]

## EQU1 ## T = N × (the larger of t ₁ and t ₂ ) / n

In the present example, since control such as switching for performing such measurement is performed by transmitting a command from the personal computer 7 side via the bus line, the relay switch of each block is directly controlled. The control system is simplified because there is no need to issue a switching control command.

In the above embodiment, the voltage and impedance of the battery are measured, but other electric characteristics (resistance value, capacity value, etc.) of the battery may be measured. Alternatively, various electrical characteristics of various electronic components other than batteries may be measured.

[0021]

According to the present invention, the time required for the measurement is shortened corresponding to the number of divisions by dividing each block unit and performing the measurement at the same time, and the electrical characteristics of many electronic components can be confirmed in a short time. Can measure.

Further, the switching by the relay device is performed by the transmission of the command from the control device for controlling the measurement via the bus line, so that the switching of the measurement in each block is performed by the efficient control.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an embodiment of the present invention.

FIG. 2 is a configuration diagram showing a block division state according to an embodiment.

FIG. 3 is a configuration diagram showing a configuration of each block according to an embodiment.

[Explanation of symbols]

 1 Battery 4 Relay Switching Device 5 Switching Control Unit 6a, 6b ... 6n Measuring Unit 7 Personal Computer 61 Voltmeter 62 Impedance Meter

Claims (3)

[Claims] 1. An electronic component measuring apparatus for measuring a plurality of different characteristics for each of a plurality of electronic components, wherein the plurality of electronic components are divided into n blocks (n is an arbitrary number), and each block is divided into Prepare a measuring instrument to measure multiple characteristics, switch the electronic components to be measured by the measuring instrument in each block with a relay device, and measure the electronic components simultaneously with the measuring instruments in each block apparatus. 2. The electronic component measuring device according to claim 1, wherein the voltage and impedance of the battery are measured. 3. The electronic component measuring device according to claim 2, wherein the switching by the relay device is performed by transmitting a command from a control device for controlling the measurement via a bus line.