Electricity: measuring and testing – Conductor identification or location
Reexamination Certificate
2002-08-05
2004-06-15
Nguyen, Vincent (Department: 2858)
Electricity: measuring and testing
Conductor identification or location
C379S009000, C379S015010, C379S025000, C379S029010
Reexamination Certificate
active
06750643
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to sorting electrical conductors, particularly to an improved group wiring patching device such like a patch panel which can be used with a voltage supplier for wire pair identification.
BACKGROUND OF THE INVENTION
It is often necessary to identify individual wires or circuits which extend between two locations. Please refer to FIG.
1
. For example, a typical communication system such as internet service provider system, local area network (LAN) system, wide area network (WAN) system, metropolitan area network (MAN) system, intranet networking system, or telephone work center usually involves in hundreds or even thousands of end users located at different sites or places sharing the service (or controlled by) provided by the same server system
10
. Some end users
11
may connect to the server system
10
from the internet
111
through a modem system
112
. Some end users
12
may connect to the server system
10
via local servers
121
which may be far away from the server system
10
. Some end users
13
may connect to the server system
10
by using hubs
131
which may be located in the same building but different floors of the server system
10
. Some end users
14
may connect to the server system
10
through a jack
141
or socket near their working tables. Some end users
15
may use wireless networking devices
151
and wireless hubs
152
to access the server system
10
. It is also available or sometimes necessary to connect the server system
10
with another communication system
10
a
. Most of above mentioned end users require “wires” or “cables” for connection with the server system
10
. As a result, the wiring system is concerned. In the wiring system, thousands of wires coming from different locations are gathered and then connected to a distribution frame
20
, such like a patch panel stack, before connecting to the server system
10
. It is obvious that management of the wires would be a critical issue for such a large wiring system. For example, to identify which jack
211
on the patch panel
21
is connected to which end user located at what remote location. Conventional way to identify wire pairs in the wiring system requires two workers. One worker is stationed at the patch panel stack (distribution frame
20
) while the other is stationed at one of the remote end-user locations. The worker at the remote end-user location uses an equipment to generate a test signal to the wires there. The worker at the patch panel stack uses a speaker device and sequentially plugging the speaker device into every jacks on the panels until the speaker device is energized by the test signal and generate a test tone. The wire pair which makes the test tone is then identified and labeled. This process is repeated until all wire pairs are identified. It is obvious that such a conventional wire pair identification method is very laboring and time-wasting. In a large wiring system, it may take days or even weeks to perform wire pair identification.
U.S. Pat. No. 5,847,557 disclosed a method to identify wire pairs in a wiring system. Before starting the wire pair identification, each of the jacks on the patch panel stack (distribution frame) is plugged up with an indicator plug which has a LED inside. By applying a test voltage from a remote end-user location, the indicator plug which connects to that remote end-user location is energized and thus the LED inside is driven to light. As a result, the wire pair is identified. Since workers do not need to sequentially scan every patch panel jacks for each remote end-user location jack manually, time consumption and labor cost are reduced. However, there are still deficiencies for the prior art method disclosed in U.S. Pat. No. 5,847,557. For example, it requires workers to apply lots of indicator plugs to every one of the jacks on the patch panel stack before starting to apply the test voltage, and to remove all of the indicator plugs after the wire pair identification process is completed. Time waste still exists. In addition, it is impossible for U.S. Pat. No. 5,847,557 to directly built-in the LEDs inside the jacks of the patch panel because the LED circuit will incur a short circuit between two contacts of the jack. And, once the patch panel stack is under normal operation such as transmission of communication signals, the LED circuit will result in “loop back shorting” and seriously disrupt the communication. Therefore, it leaves a room for further improvements.
SUMMARY OF THE INVENTION
The primary object of the present invention is to provide a group wiring patching device which has built-in light emitting means and filtering means coupled with wire pair receptacle thereof. When a testing voltage is applied to the circuit of the light emitting means, the light emitting means will emit light for assisting wire pair identification. The filtering means can minimize or even eliminate loop back shorting resulted by the circuit of the connected light emitting means when communication frequency signals or low voltage signals being applied thereto. Therefore, the group wiring patching device of the present invention will be able to perform ordinary signal transmitting functions without the need to remove the light emitting means after the wire pair identification process is done.
Preferably, the filtering means further comprises an artificial wire for diminishing low voltage loop back shorting. The concept of the artificial wire is to provide a sufficient large resistance such that, when a low-frequency signal is generated by a cable stability (or characteristics) tester, the signal passing through the circuit (i.e., passing through the light emitting means and filtering means) becomes very weak and, as a result, the cable stability (or characteristics) tester “thinks” there is no circuit existed at all.
Preferably, the light emitting means comprises two individual LED members connected in parallel but in reverse polarities. Therefore, no matter which direction of current of the DC testing voltage is applied, one of the LED members will be lit. Moreover, the two LED members can be different colors such that, by distinguishing the color of emitted light, it is possible to know if the wires are mis-connected while performing the wire pair identification. In addition, when an AC voltage or other low frequency signals generated by a cable stability (or characteristics) tester are provided to the receptacle, these two LED members may flash in turns so as to identify its status.
The second object of the present invention is to provide a novel cable tester which not only can provide DC testing voltage but also can perform alternative cable stability (or characteristics) tests. The cable tester comprises: a testing voltage supplier, a cable stability (or characteristics) testing module, a controller, an input interface, a display panel and an output. The testing voltage supplier provides DC testing voltage for performing wire pair identification process. The cable stability (or characteristics) testing module contains everything needed for providing the functions of cable stability (or characteristics) tests. The input interface, cable stability (or characteristics) testing module and testing voltage supplier are connected to the controller. By operating (e.g., inputting commands to) the input interface, the controller will switch the connections between the cable stability (or characteristics) testing module and testing voltage supplier, so as to allow either one of these two to send signals (or testing voltage) to the output. In the mean time, the display panel displays the functioning status of the cable tester. The novel cable tester of the present invention will save time for workers to perform wire pair identification and cable stability (or characteristics) tests because they will be able to perform these jobs in one step without the need to re-plug the testers to every one of the receptacles.
REFERENCES:
patent: 4575588 (1986-03-01), Vande Vyver
patent: 5847557 (1998-12-01), Finc
Hwang Memiee L.
Hwang Richard
Hwang Wayne
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