JP3429145B2 - Network analyzer - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a measuring instrument, and more particularly to a network analyzer for measuring input / output parameters of a connected network.

[0002]

2. Description of the Related Art Conventionally, not only a network analyzer but also a general measuring instrument has an inputting means for setting or changing measuring conditions and a displaying means for displaying measurement data in one measuring instrument. Since only one device is provided, the user is forced to occupy and use the device, and even if the use efficiency is poor, a plurality of people cannot share the device at the same time. Therefore, when a plurality of people use the apparatus at the same time, it is necessary to secure the number of machines for the number of people.

For example, in the case where a non-defective product / defective product is determined by a measurement using a network analyzer, it is connected to perform measurement on an object to be measured, and after measurement and determination, the next object to be measured is connected. It becomes a repetition of the work such as. Here, in the state where the measured object is not connected, the network analyzer is in a state of waiting for measurement, and actual measurement is not performed. When the object to be measured is manually supplied, it is very difficult to reduce the supply time to 1 second or less. On the other hand, the measurement time of recent network analyzers has been shortened,
Although it depends on the measurement item, for example, measurement at 100 msec or less is sufficiently possible. In such a case, the time when no measurement is performed is 1 second or more, and the measurement time is 100 msec.
The operation rate of the network analyzer will be significantly reduced as follows. This can be said even with general measuring instruments, but because it is made on the premise that the display device of measurement results, the input terminal of the measurement signal and the input means for setting the measurement conditions are used by one person, As described above, the time during which the measurement is not performed occurs.

[0004]

As described above, in the conventional device, even if the actual operating rate is low, it is not possible for a plurality of people to share the device at the same time, and a plurality of people can simultaneously use the device. In order to be able to use it, it is necessary to secure a plurality of devices, which causes an increase in cost.

In recent years, the price of network analyzers used in production lines such as parts markets has been reduced for the purpose of cost reduction. However, in countries such as China where labor costs are low, labor costs are lower than labor costs. And still expensive. In Japan, it is considered to reduce the production cost by automation, but in China and other countries, labor cost is low, so it is considered to achieve low cost by labor consolidation. It is required to reduce the cost of network analyzer per person.

[0006] The problem to be solved by the present invention is to reduce the cost of the network analyzer by improving the substantial operating rate of the conventional network analyzer as described above. Is to let. When used by a plurality of people, in the example described above, it is possible to perform measurement 10 times when supplying the measured object for 1 second, and one device can be used by 11 people, and
The same productivity can be achieved as when one person uses one.

The present invention has been made in view of the problems of the above-described conventional technique, and improves the substantial operating rate of the network analyzer, so that the production can be performed without increasing the cost. It is an object of the present invention to provide a network analyzer that can improve performance.

[0008]

In order to achieve the above object, the present invention is a network analyzer for measuring the characteristics of each of a plurality of measured objects by connecting a plurality of measured objects. An input means for setting or changing measurement conditions or starting measurement for each of the plurality of measured objects, a signal input / output means for inputting / outputting a measurement signal, and a display means for displaying the measurement signal, respectively. A plurality of measurement terminals that measure the characteristics of the measurement target by connecting the measurement target, and control the measurement operation of each of the plurality of measurement terminals; And a control means for performing calculation and determination processing of the measurement signal measured in each of the above, and outputting the result to each of the plurality of measurement terminals; By the control of the unit, and having a connection means for switching the connection between the control unit to one of said plurality of measuring terminals.

Further, the control means controls the measurement operation for the plurality of measurement terminals, the calculation and determination processing of the measurement signal, and outputs the result of the calculation and determination processing to each of the plurality of measurement terminals. It is characterized in that the division is performed.

Further, the display means is a character display.

Further, the display means is a lamp.

Further, the display means is a buzzer.

(Operation) In the present invention configured as described above, a plurality of measuring terminals for measuring the characteristics of the measured object by connecting the measured object are provided, and the plurality of measuring terminals are respectively Is connected to the control means for controlling the measurement operation and calculating and determining the measurement signal via the connection means, and the connection means switches the connection between the control means and the plurality of measurement terminals.

In this way, the control means performs only the control of the measurement operation in each of the plurality of measurement terminals and the calculation and determination processing of the measurement signal, and sets or changes the measurement conditions or controls the start of the measurement. Since input and output of measurement signals and display of measurement signals are performed at each measurement terminal, the time for reconnecting non-measurement targets is It will not be the waiting time.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of a network analyzer of the present invention.

In this embodiment, as shown in FIG. 1, input means for setting or changing measurement conditions (including correction data) or the like for each of a plurality of objects to be measured (not shown), or starting measurement. Each of which is provided with a signal input / output unit for inputting / outputting a signal and a display unit for displaying a measurement signal or the like,
The measurement terminal 10 which is a plurality of measurement terminals for measuring the characteristics of the measured object by connecting the measured object
-1 to 10-n and measurement terminals 10-1 to 10-n
In addition to controlling the measurement operation in the measurement terminal 10-1 to 10-n, the measurement signal is measured and calculated in the measurement terminals 10-1 to 10-n, and the determination processing is performed.
1 to 10-n, which is a control means for outputting to each of the main frame 20, and the main frame 20 and the measurement terminal 1 by the control in the main frame 20.
It is composed of a terminal adapter 20 which is a connecting means for switching connection with 0-1 to 10-n.

The operation of the network analyzer configured as described above will be described below.

FIG. 2 is a diagram showing the flow of processing in the main frame 20 of the network analyzer shown in FIG.

First, each measuring terminal 10-1 to 10-
The measurement condition setting in n is set to each measurement terminal 10-1.
10 to 10-n are sent to the mainframe 20 via the terminal adapter 30.

Then, the mainframe 20 receives the measurement conditions of the measurement terminals 10-1 to 10-n and stores the measurement conditions of the measurement terminals 10-1 to 10-n in the internal memory. For example, the measurement condition of the measurement terminal 10-1 is stored in the measurement condition 1 in the mainframe, and the measurement condition of the measurement terminal 10-n is stored in the measurement condition n.

Next, if necessary, the main frame 20
At, the correction data from each measurement terminal 10-1 to 10-n is acquired. For example, the measurement terminal 10
Suppose that the correction data from -1 is acquired. When the correction data acquisition is notified from the measurement terminal 10-1 to the mainframe 20 via the terminal adapter 30,
In the mainframe 20, the terminal adapter 30
The measurement signal input / output switching device of the measurement terminal 10-1
The correction data is acquired under the measurement condition 1, and the correction data is stored in the correction data 1 in the main frame 20.

The measurement of the object to be measured is performed as follows.

At the measurement terminals 10-1 to 10-n, when an object to be measured is connected and the start of measurement is notified,
The mainframe 20 is notified via the terminal adapter 30, and in the mainframe 20, the fact that the measurement request is made from the measurement terminals 10-1 to 10-n is internally held. Here, in the mainframe 20, the measurement requests from the measurement terminals 10-1 to 10-n are sequentially scanned, and when there is a measurement request, the measurement terminals 10-1 to 10-n in the mainframe 20 are measured. The correction data is internally set to the measurement condition corresponding to, and the correction data is switched to use the corresponding correction data.

Next, after the terminal adapter 30 is switched, measurement is performed, and necessary analysis / judgment is performed,
The measurement terminals 10-1 to 10-n are notified of the result,
The measurement request is cleared. Such a process is repeated until the measurement terminals 10-1 to 10-n, and then the process returns to the process for the measurement terminal 10-1.

Further, each measuring terminal 10-1 to 10-
n does not notify the start of measurement, but in the mainframe 20, the measurement terminals 10-1 to 10-n
It is also possible to repeat that the measurement corresponding to each of the above is performed.

The mainframe 20 analyzes and
When the determination result is sent to the measurement terminals 10-1 to 10-n via the terminal adapter 30, the sent analysis / determination results are displayed on the measurement terminals 10-1 to 10-n. Here, the measurement terminal 10-1
In displaying the analysis / judgment result in 10-n,
It may be displayed in characters, or may be only a lamp or a buzzer indicating a simple result.

In this way, in the main frame 20, the connection with the measurement terminals 10-1 to 10-n is sequentially switched, and the processing for the measurement terminals 10-1 to 10-n is performed in a time division manner.

If necessary, the main frame 20
In, the measurement process in each measurement terminal 10-1 to 10-n is optimized.

In the network analyzer configured as described above, the cost of the network analyzer per worker is the price of the measurement terminal + (the price of the mainframe + the price of the terminal adapter) / n, If the price of the terminal adapter can be made sufficiently lower than the price of the mainframe, the cost of the network analyzer per worker can be reduced.

Although the main frame and the terminal adapter are separately configured in the above-mentioned embodiments, the terminal adapter may be provided in the main frame.

[0032]

As described above, in the present invention,
A plurality of measuring terminals for measuring the characteristics of the object to be measured are provided by connecting the object to be measured, and the plurality of measuring terminals are control means for controlling the measurement operation and calculating and calculating the measurement signal in each of them. Since the connection between the control means and the plurality of measurement terminals is switched by the connection means, the control means controls the measurement operation in each of the plurality of measurement terminals and calculates the measurement signal. Only the determination process is performed, and each measurement terminal performs setting or changing of measurement conditions, control of starting measurement, input / output of measurement signals, and display of measurement signals.

As a result, the time for reconnecting the non-measured objects does not become the waiting time for measurement even when the measurement is performed on a plurality of measured objects.

Further, since a plurality of measuring terminals are provided for one control means, the cost increase can be suppressed to some extent even when the number of measuring terminals is increased.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a network analyzer of the present invention.

FIG. 2 is a diagram showing a flow of processing in a mainframe of the network analyzer shown in FIG.

[Explanation of symbols]

10-1 to 10-n Measuring terminal 20 mainframe 30 terminal adapter

Claims (5)

(57) [Claims] 1. A network analyzer for measuring the characteristics of each of the plurality of measured objects by connecting the plurality of measured objects, wherein the measurement condition is set for each of the plurality of measured objects. And an input unit for changing or starting measurement, a signal input / output unit for inputting / outputting a measurement signal, and a display unit for displaying a measurement signal, respectively, and by connecting the measured object, Controls a plurality of measurement terminals that measure the characteristics of the measurement target and the measurement operation at each of the plurality of measurement terminals, and performs calculation and determination processing of the measurement signals measured at each of the plurality of measurement terminals. , A control means for outputting the result to each of the plurality of measurement terminals, and a connection with the control means by control by the control means And a connecting means for switching to one of the plurality of measuring terminals. 2. The network analyzer according to claim 1, wherein the control unit controls the measurement operation for the plurality of measurement terminals, calculates and determines the measurement signal, and outputs the plurality of results of the calculation and determination processing. A network analyzer characterized in that the output to each of the measuring terminals is performed in a time division manner. 3. The network analyzer according to claim 1, wherein the display means is a character display. 4. The network analyzer according to claim 1, wherein the display unit is a lamp. 5. The network analyzer according to claim 1, wherein the display unit is a buzzer.