Electricity: electrical systems and devices – Safety and protection of systems and devices – High voltage dissipation
Reexamination Certificate
2000-12-13
2004-09-14
Jackson, Stephen W (Department: 2836)
Electricity: electrical systems and devices
Safety and protection of systems and devices
High voltage dissipation
C361S058000, C361S103000
Reexamination Certificate
active
06791812
ABSTRACT:
FIELD OF THE INVENTION
The invention is related to surge protectors manufactured by film techniques and provided for warding off and withstanding high instantaneous overvoltage pulses.
One way of manufacturing this kind of surge protectors is to form a serpentine shaped or technically equivalent film pattern of material with suitable resistance on a suitable substrate with good thermal conductivity. As the high frequency current of a overvoltage pulse is concentrated in the edges of the film, a serpentine shaped or technically equivalent narrow film line causes that the current and at the same time the heating up are distributed relatively evenly over a large area on the substrate.
BACKGROUND OF THE INVENTION
Today, a preferred manufacturing technique of this type of surge protection resistors is thick film technology in which the substrate is a ceramic substrate and the film is made of material specifically manufactured for this kind of applications. One manufacturer of this kind of materials is DuPont Electronic Materials having thick film material series
7300
and
7400
for these purposes. These materials are suitable compositions of, e. g., silver, palladium and glass material which provide a low temperature coefficient of resistance, high enough trimming accuracy and good stability against the effects of overvoltage pulses. The resistivity of a resistor film is typically from 100 to 1000 m&OHgr;/□. The resistor film may be further protected by a suitable glazing or equivalent which reduces oxidization and change of properties caused thereby as the effect of an overvoltage pulse is heating up the resistor and the substrate.
Surge protection components manufactured by thick film technology include often several protection resistors on one substrate, either adjacent to each other on the same side of the substrate or as printed on the both sides of the substrate. They are widely used in telecommunication equipment, and, e. g., for protecting telephone lines each conductor of a line needs its own protection resistor. An absolute tolerance of 5% and a relative tolerance of 1% are normal requirements for protection resistors. Therefore the resistors are to be trimmed. For trimming the pattern, serpentine, spiral or equivalent, is designed to included a suitable amount of bridges so as to lengthen the line by cutting bridges until the desired value is reached. Because only a tolerance of ±30% may be obtained without trimming, the possible need for wide range trimming must be taken into account. That is to say, there must be enough bridges. On the other hand, if the need for trimming is small, the most of the bridges are not cut and the current of the overvoltage pulse is flowing through the bridges. Then, there exist a lot of parts in the film pattern through which the current is not flowing. This means that cold spots are left on the substrate, and the failure risk of the resistor component is increased.
Several solutions are developed to overcome this problem, a widely used solution being demonstrated by the example of
FIGS. 1 and 2
. A narrow film line
2
, which forms a protection resistors, makes a serpentine shaped pattern on the substrate I between contact areas
3
and
4
. The width of the line may be 0.5 to 1 mm, for example. At several places a line coming to and a line leaving a turning point
6
a
. . .
6
h
are connected by a bridge
5
a
. . .
5
h
, respectively, and at a place close to the contact area
4
there is a special loop
6
i
of line
2
. The resistance of the serpentine pattern is trimmed by appropriately cutting bridges, as is indicated by the arrow T at the bridge
5
a
in FIG.
1
and by trimming points T
1
, T
2
, T
3
and T
4
indicated by broken line in FIG.
2
. As a bridge is cut, the resistor formed by the serpentine is lengthened and the resistance thereof is increased. In the example of
FIG. 2
, scarcely anything of the current of an overvoltage pulse flows through the loops
6
b
,
6
c
,
6
e
and
6
h
, and so these places remain colder than the circumference thereof during the influence of a pulse.
The solution of U.S. Pat. No. 4,999,731 is, in principle, the same as the solution of
FIGS. 1 and 2
. Therein, the trimming points are placed as close as possible to the edges of the substrate and the serpentine pattern by means of which the temperature distribution is made even especially in the central area of the substrate.
On the other hand, U.S. Pat. No. 5,057,964 presents a solution based on a spiral pattern. The trimming is made by cutting only bridges in the central area of the spiral. In this case the temperature distribution is even in the peripheral area of the pattern, but the central parts of the spirals remain the colder the less the resistors are trimmed.
SUMMARY OF THE INVENTION
An object of the invention is to present a solution by means of which the distribution of the current is made as even as possible both without any trimming at all and with various trimmings.
For realizing this and other objects of the invention the surge protector in accordance with the invention is characterized by the features defined by claim
1
of the appended claims. Other claims define various embodiments of the invention.
The solution in accordance with the invention is characterized in that the film pattern essentially consists of narrow lines, which extend parallel and adjacent to each other, and bridges between the lines. Advantageously, there are three parallel lines, and for trimming the resistance of the film pattern only one of the lines is cut off between successive bridges. So, for the high frequency current to flow, there are still two film lines and four edges thereof in which the flow of the current is concentrated. As the lines are close to each other, only a relatively narrow band is left at each trimming point in which the current does not flow and heat up the substrate during the incluence of a pulse. The trimming points may be placed in such a way that active lines are located at each side thereof, whereby the heat is distributed in the thermally conducting substrate quite well also to the area of the line cut off by trimming.
REFERENCES:
patent: 4794367 (1988-12-01), Ashe et al.
patent: 4999731 (1991-03-01), Bender et al.
patent: 5057964 (1991-10-01), Bender et al.
patent: 0 271 993 (1987-11-01), None
patent: 0 795 880 (1997-03-01), None
Jackson Stephen W
Nokia Networks Oy
Pillsbury & Winthrop LLP
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