CN209388804U - A kind of patch resistor - Google Patents
A kind of patch resistor Download PDFInfo
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- CN209388804U CN209388804U CN201920420098.4U CN201920420098U CN209388804U CN 209388804 U CN209388804 U CN 209388804U CN 201920420098 U CN201920420098 U CN 201920420098U CN 209388804 U CN209388804 U CN 209388804U
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Abstract
The utility model relates to resistor technologies field more particularly to a kind of patch resistors.Patch resistor provided by the utility model is arranged first step slot by the one side in the first front electrode, and makes to abut against between resistive layer and two the first front electrodes and with first step slot, thus keep the thickness of resistive layer uniform, edge-smoothing;In addition, being covered with the first protective layer on resistive layer, the upper surface of resistive layer can be made smooth, make its electric performance stablity.
Description
Technical field
The utility model relates to resistor technologies field more particularly to a kind of patch resistors.
Background technique
Patch resistor is also known as chip fixed resister (Chip Fixed Resistor), is by metal powder and glass glaze
Powder mixing, is imprinted on manufactured resistor on substrate using silk screen print method.It is small etc. excellent to have humidity, high temperature resistant, temperature coefficient
Point can greatly save circuit space cost, refine design more.Common small dimension patch resistor is due to its small product size
It is small, light-weight, be suitble to Reflow Soldering, be easy to mount, be sticked with automatic dress for match, the advantages such as assembly cost is low, can widely apply
In communication products such as each electric appliances, personal data storage, mobile phones, and push miniaturising for this electronic product.
Currently, common small dimension patch resistor when printing granular resistive layer, generally selects single printing, is easy in this way
It causes granular resistive layer in uneven thickness, surface irregularity, edge there are sawtooth, resistance initial value consistency and is bad etc. bad existing
As, to keep the electrical property of patch resistor unstable, influence product harvest rate, material resources caused to waste, improve manufacture at
This.
It would therefore be highly desirable to need a kind of patch resistor to solve the above problems.
Utility model content
A kind of one processing method for being designed to provide patch resistor of the utility model, can obtain resistance thickness
The patch resistor of uniform, surfacing, edge-smoothing is spent, and product harvest rate is high, manufacturing cost is low.
Another of the utility model is designed to provide a kind of patch resistor, can be processed by the above method
It arrives, the resistive layer thickness of the patch resistor is uniform, surfacing, edge-smoothing, electric performance stablity.
To achieve the above object, the following technical schemes are provided:
A kind of processing method of patch resistor, comprising the following steps:
A, in the back up rear electrode of original substrate;
B, in the front printed resistor layer of the original substrate, the resistive layer prolongs along the width direction of the original substrate
It stretches;The resistive layer is cut into several granular resistive layers;
C, the first front electrode is printed, first front electrode is arranged between two resistive layers, by described the
One front electrode is divided into several granular first front electrodes, and granular first front electrode and the granular resistive layer
It is connected;
D, the first protective layer is printed on the interval on the granular resistive layer and between the granular resistive layer;
E, the second front electrode is printed on first front electrode;
F, the original substrate after step e is fractureed into several the first semi-finished product of strip;
G, side electrode is processed, the side electrode covers the section of first semi-finished product, second front electrode
Upper surface and the rear electrode lower surface;
H, first semi-finished product are fractureed into several blocky second semi-finished product;
I, it is electroplated on the side electrode of second semi-finished product.
Further, before step a further include:
Auxiliary line is carved in the front of the original substrate, carves auxiliary line, folding bar line and folding at the back side of the original substrate
Grain line, the folding bar line and the folding grain line intersect to form clathrate.
Further, in step c, the rear electrode is located at the folding grain line and folding bar line intersection, and
The folding grain line and the auxiliary line intersection.
Further, in stepb, the resistive layer is cut into several granular electricity along the folding grain line using laser
Resistance layer;And/or
In step c, using laser along the folding grain line by first front electrode be cut into several granular first
Front electrode.
Further, after step d, before step e, using laser in first protective layer and described granular
Radium-shine tangent line is cut on resistive layer, then prints the second protective layer on first protective layer, to protect the radium-shine tangent line.
Further, in step g, side electrode is processed using vacuum sputtering furnace.
A kind of patch resistor, including finished substrate, rear electrode and resistive layer, further includes:
First front electrode, first step slot is provided on one side, and two first front electrodes are symmetrical arranged
At the positive both ends of the finished substrate, the resistive layer is arranged between two first front electrodes and with described the
One step groove abuts against;
First protective layer is covered on the resistive layer, and is located between two first front electrodes.
Further, further includes:
Radium-shine tangent line, for blocking the resistive layer and first protective layer to adjust resistance value;
Second protective layer is covered on first protective layer, for protecting the radium-shine tangent line.
Further, further includes:
Second front electrode covers first front electrode, second step slot is provided on one side, described in two
Second front electrode is symmetricly set on the both ends of the finished substrate, and second protective layer is located at two second front electricity
It is abutted against between pole and with the second step slot.
Further, further includes:
Side electrode is covered on the finished substrate, the rear electrode, first front electrode and described second
It on the end face of front electrode, is covered on the lower surface of the rear electrode, is covered on the upper surface of second front electrode
On.
Compared with prior art, the utility model has the following beneficial effects:
The processing method of patch resistor provided by the utility model, on the one hand, successively printed resistor layer, the first front electricity
Pole, the first protective layer, the second front electrode guarantee the surfacing of resistive layer to realize uniform fold resistive layer, and thickness is uniform
Unanimously;On the other hand, then resistive layer is divided the resistive layer that granulates, to guarantee resistive layer edge by first monolith printed resistor layer
Smoothly;Then the first front electrode is printed in monolith, and the first front electrode is divided into first front electrode that granulates, and granular
First front electrode is connected with granular resistive layer, to guarantee the electrical property of Chip-R, improves product harvest rate, reduces manufacture
Cost.
First step slot is arranged by the one side in the first front electrode in patch resistor provided by the utility model,
And make to abut against between resistive layer and two the first front electrodes and with first step slot, thus keep the thickness of resistive layer uniform,
Edge-smoothing;In addition, being covered with the first protective layer on resistive layer, the upper surface of resistive layer can be made smooth, keep its electrical property steady
It is fixed.
Detailed description of the invention
It, below will be to the utility model embodiment in order to illustrate more clearly of the technical scheme in the embodiment of the utility model
Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only that this is practical new
Some embodiments of type for those of ordinary skill in the art without creative efforts, can be with root
Other attached drawings are obtained according to the content of the utility model embodiment and these attached drawings.
Fig. 1 is the schematic diagram of original substrate provided by the utility model;
Fig. 2 is the schematic diagram of the original substrate in embodiment three provided by the utility model after step A;
Fig. 3 is the schematic diagram of the original substrate front groove in embodiment three provided by the utility model after step B;
Fig. 4 is the schematic diagram of the original substrate back side groove in embodiment three provided by the utility model after step C;
Fig. 5 is the schematic diagram at the original substrate back side in embodiment three provided by the utility model after step D;
Fig. 6 is the positive schematic diagram of original substrate in embodiment three provided by the utility model after step E;
Fig. 7 is the positive schematic diagram of original substrate in embodiment three provided by the utility model after step F;
Fig. 8 is the positive schematic diagram of original substrate in embodiment three provided by the utility model after step G;
Fig. 9 is the positive schematic diagram of original substrate in embodiment three provided by the utility model after step H;
Figure 10 is the positive schematic diagram of original substrate in embodiment three provided by the utility model after step H;
Figure 11 is the positive schematic diagram of original substrate in embodiment three provided by the utility model after step I;
Figure 12 is the positive schematic diagram of original substrate in embodiment three provided by the utility model after step J;
Figure 13 is the positive schematic diagram of original substrate in embodiment three provided by the utility model after step K;
Figure 14 is the positive schematic diagram of original substrate in embodiment three provided by the utility model after step L;
Figure 15 is the first semi-finished product schematic diagram in embodiment three provided by the utility model after step M;
Figure 16 is the schematic diagram of the first semi-finished product in embodiment three provided by the utility model after step N;
Figure 17 is the schematic diagram of the second semi-finished product in embodiment three provided by the utility model after step O;
Figure 18 is the schematic diagram of the finished product in embodiment three provided by the utility model after step P;
Figure 19 is the sectional view of Chip-R provided by the utility model.
Appended drawing reference:
100- original substrate;101- auxiliary line;102- folding bar line;103- rolls over grain line;104- frame line;
200- finished substrate;
1- rear electrode;
2- resistive layer;The granular resistive layer of 21-;
The first front electrode of 3-;Granular first front electrode of 31-;
The first protective layer of 4-;
The radium-shine tangent line of 5-;
The second protective layer of 6-;
The second front electrode of 7-;
8- side electrode;
9- nickel layer;
10- tin layers.
Specific embodiment
In order to enable those skilled in the art to better understand the technical solutions of the present invention, with reference to the accompanying drawing and pass through
Specific embodiment further illustrates the technical solution of the utility model.
In the description of the present invention, it should be noted that the orientation of the instructions such as term " on ", "lower", "left", "right"
Or positional relationship be based on the orientation or positional relationship shown in the drawings or this product using when the orientation or position usually put
Relationship, be merely for convenience of description the utility model, rather than the device or component of indication or suggestion meaning must have it is specific
Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.
Patch resistor includes insulating substrate, front electrode, rear electrode, resistive layer, protective layer and electroplated layer, patch
Resistance is widely used in Aeronautics and Astronautics, instrument and meter, lathe etc. since its is small in size, light-weight, has assembled, electric performance stablity
Field.Wherein, baseplate material generally uses 96% aluminum oxide ceramic.Substrate is in addition to that should have good electrical insulating property
Outside, should also have many characteristics, such as excellent thermal conductivity and stronger mechanical strength at high temperature.It is also required that substrate is smooth, scribing line
Accurately, standard, to fully ensure that resistance, electrode slurry printing in place.Resistive layer is usually starched by the resistance with certain resistivity
Material is printed on ceramic substrate again through being sintered, and resistance slurry generally uses ruthenic oxide.Protective layer is covered on resistive layer,
Primarily to protective resistance layer, on the one hand plays mechanical protection, on the other hand makes resistance layer surface that there is insulating properties, avoid
Resistance contacts with proximity conductor and generates failure.In addition, making in electrodeposit electroplated layer, it can also prevent electrodeposit liquid from invading resistive layer
It loses and resistive performance is caused to decline.Protective layer is usually the glass paste of low melting point, is formed through printing-sintering.
In addition, in the present embodiment, " original substrate 100 " refers to initial unprocessed insulating substrate;" finished substrate 200 " refers to
Insulating substrate in finished product patch resistor;" frame line 104 " refers to the line in the marking of the edge of original substrate 100,
In order to reject the frame of original substrate 100;" auxiliary line 101 ", which refers to, to be marked in the surrounding of original substrate 100 close to edge
Line, in order to provide reference in printed resistor layer 2, front electrode, rear electrode 1;" folding bar line 102 " refers to along original base
100 width direction of plate extends, and a plurality of folding bar line 102 is arranged along 100 length direction interval of original substrate, in order to by original base
Plate 100 fractures along folding bar line 102;" folding grain line 103 " refers to be extended along 100 length direction of original substrate, and a plurality of folding grain line 103
It is arranged along 100 width direction interval of original substrate, in order to divide resistive layer 2 and front electrode.
Embodiment one
A kind of processing method of patch resistor, comprising the following steps:
A, in the back up rear electrode 1 of original substrate 100;
B, in the front printed resistor layer 2 of original substrate 100, resistive layer 2 extends along the width direction of original substrate 100;
Resistive layer 2 is cut into several granular resistive layers 21;
C, the first front electrode 3 is printed, the first front electrode 3 is arranged between two resistive layers 2, by the first front electrode
3 are divided into several granular first front electrodes 31, and granular first front electrode 31 is connected with granular resistive layer 21;
D, the first protective layer 4 is printed on the interval on granular resistive layer 21 and between granular resistive layer 21;
E, the second front electrode 7 is printed on the first front electrode 3;
F, the original substrate 100 after step e is fractureed into several the first semi-finished product of strip;
G, process side electrode 8, side electrode 8 cover the sections of the first semi-finished product, the second front electrode 7 upper surface with
And the lower surface of rear electrode 1;
H, the first semi-finished product are fractureed into several blocky second semi-finished product;
I, it is electroplated on the side electrode of the second semi-finished product.
The processing method of patch resistor provided in this embodiment, on the one hand, successively printed back electrode 1, resistive layer 2,
First front electrode 3, the first protective layer 4, the second front electrode 7 guarantee the table of resistive layer 2 to realize uniform fold resistive layer 2
Face is smooth, thickness uniformity;On the other hand, then resistive layer 2 is divided the resistive layer that granulates by first monolith printed resistor layer 2
21, to guarantee 2 edge-smoothing of resistive layer;Then the first front electrode 3 is printed in monolith, and the first front electrode 3 is divided into
Granular first front electrode 31, and granular first front electrode 31 is connected with granular resistive layer 21, to guarantee Chip-R
Electrical property can effectively improve product harvest rate, reduce manufacturing cost.
Embodiment two
The present embodiment provides a kind of processing method of patch resistor, it can obtain that 2 thickness of resistive layer is uniform, surface is flat
Whole, edge-smoothing patch resistor, and product harvest rate is high, manufacturing cost is low.Method includes the following steps:
A, auxiliary line 101 is carved in the front of original substrate 100;
B, auxiliary line 101, folding bar line 102 and folding grain line 103, folding bar line 102 and folding grain are carved at the back side of original substrate 100
Line 103 intersects to form clathrate;
C, in the back up rear electrode 1 of original substrate 100;
D, in the front printed resistor layer 2 of original substrate 100, resistive layer 2 extends along folding bar line 102;Using laser along folding
Resistive layer 2 is cut into several granular resistive layers 21 by grain line 103;
E, the first front electrode 3 is printed, the first front electrode 3 is arranged between two resistive layers 2, using laser along folding grain
First front electrode 3 is divided into several granular first front electrodes 31 by 103 direction of line;
F, the first protective layer 4 is printed on the interval on granular resistive layer 21 and between granular resistive layer 21;
G, the second front electrode 7 is printed on the first front electrode 3;
H, the original substrate 100 after step g is fractureed into several the first semi-finished product of strip along folding bar line 102;
I, process side electrode 8, side electrode 8 cover the sections of the first semi-finished product, the second front electrode 7 upper surface with
And the lower surface of rear electrode 1;
J, first semi-finished product are fractureed into several the second semi-finished product along folding grain line 103;
K, it is electroplated on the side electrode 8 of the second semi-finished product, obtains finished product.
The processing method of patch resistor provided in this embodiment, on the one hand, successively the 2, first front of printed resistor layer electricity
Pole 3, the first protective layer 4, the second protective layer 6, the second front electrode 7 guarantee resistive layer 2 to realize uniform fold resistive layer 2
Surfacing, thickness uniformity;On the other hand, first monolith printed resistor layer 2, then will be electric along folding grain line 103 using laser
Resistance layer 2 divides the resistive layer 2 that granulates, to guarantee 2 edge-smoothing of resistive layer;Then the first front electrode 3 is printed in monolith, and will
First front electrode 3 divides first front electrode 31 that granulates, and granular first front electrode 31 is connected with granular resistive layer 21
It connects, to guarantee the electrical property of Chip-R, product harvest rate can be effectively improved, reduce manufacturing cost.
Further, in step c, rear electrode 1 is located at folding grain line 103 and 102 intersection of folding bar line, and folding grain line
103 with 101 intersection of auxiliary line.
Specifically, granular first front electrode 31 is connected with granular resistive layer 21 in step e.
Optionally, after step f, before step g, using laser in the first protective layer 4 and granular resistive layer 21
The upper radium-shine tangent line 5 of cutting, prints the second protective layer 6, on the first protective layer 4 then to protect radium-shine tangent line 5.Radium-shine tangent line 5
For adjusting the resistance value of resistive layer 2, to obtain required resistance value.
The present embodiment additionally provides a kind of patch resistor, including finished substrate 200, rear electrode 1 and resistive layer 2, also
Including the first front electrode 3 and the first protective layer 4, it is provided with first step slot on the one side of the first front electrode 3, two
One front electrode 3 is symmetricly set on the positive both ends of finished substrate 200, the setting of resistive layer 2 two the first front electrodes 3 it
Between and abut against with first step slot;First protective layer 4 is covered on resistive layer 2, and be located at two the first front electrodes 3 it
Between.
First step slot is arranged by the one side in the first front electrode in patch resistor provided in this embodiment, and
Make to abut against between resistive layer and two the first front electrodes and with first step slot, thus keep the thickness of resistive layer uniform, side
Edge is smooth;In addition, being covered with the first protective layer on resistive layer, the upper surface of resistive layer can be made smooth, make its electric performance stablity.
Further, patch resistor provided in this embodiment further includes radium-shine tangent line 5 and the second protective layer 6, radium-shine to cut
Line 5 is for blocking resistive layer 2 and the first protective layer 4, and to adjust resistance value, the second protective layer 6 is covered on the first protective layer 4,
For protecting radium-shine tangent line 5.Preferably, patch resistor provided in this embodiment further includes side electrode 8, is covered on finished product base
Plate 200, rear electrode 1, the first front electrode 3 and the second front electrode 7 end face on, be covered on the following table of rear electrode 1
It on face, is covered on the upper surface of the second front electrode 7, so that the first front electrode 3, the second front electrode 7 and rear electrode 1
Between be connected.
Embodiment three
The present embodiment provides a kind of processing method of patch resistor, it can obtain that 2 thickness of resistive layer is uniform, surface is flat
Whole, edge-smoothing patch resistor, and product harvest rate is high, manufacturing cost is low.Method includes the following steps:
A, as shown in Figure 1, preparing original substrate 100;
B, as shown in Fig. 2, auxiliary line 101 and frame line 104 are carved in the front in original substrate 100;Frame line 104 is original
The edge surrounding of substrate 100 guarantees the flush edge of original substrate 100 with the edge for cutting off original substrate 100;Auxiliary
Line 101, close to the inside of original substrate 100, can be used as the reference line of subsequent handling than frame line 104;
C, as shown in figure 3, carving auxiliary line 101, frame line 104, folding bar line 102 and folding grain at the back side of original substrate 100
Line 103, several folding bar lines 102 are arranged along 100 length direction interval of original substrate, and several folding grain lines 103 are along original substrate 100
The setting of width direction interval, folding bar line 102 and folding grain line 103 intersect to form clathrate;It should be noted that only example in Fig. 3
2 folding bar lines 102 and 3 roll over grain line 103 out, in actual production, more, and the general folding bar line 102 of folding bar line 102
Uniform intervals setting, in order to which the size of final products is lower unified greatly, equally, the quantity of folding grain line 103 will be far longer than 3,
And folding 103 uniform intervals of grain line setting, in order to the resistive layer 2 and the first front electrode 3 that later period molding size is unified;
D, as shown in figure 4, cutting off the frame of original substrate 100 along frame line 104, and original substrate 100 is cleaned;
E, as shown in figure 5, original substrate 100 back up rear electrode 1;
F, it as shown in fig. 6, bar shaped resistive layer 2 is printed in the front in original substrate 100, is then dried, a plurality of resistance
Layer 2 is arranged along the length direction interval of original substrate 100;It is reference with auxiliary line 101, resistive layer 2 is printed on original substrate 100
Positive auxiliary line 101 inside;
G, as shown in fig. 7, resistive layer 2 is cut into several granular resistive layers 21 along folding grain line 103 using laser;It needs
Illustrate, a granular resistive layer 21 is only illustrated in Fig. 7, it in actual production, will be electric along folding grain line 103 using laser
Resistance layer 2 is cut into the granular resistive layer 21 of several slices;
H, as shown in figure 8, the first front electrode of bar shaped 3 is printed in the front in original substrate 100, the first front electrode 3 is set
It sets between two resistive layers 2, as shown in figure 9, being divided the first front electrode 3 along folding 103 direction of grain line using laser after dry
Several granular first front electrodes 31 are cut into, are then sintered;
I, as shown in Figure 10, the first protective layer is printed on the interval on granular resistive layer 21 between granular resistive layer 21
4, it is sintered after dry;
J, the first protective layer 4 and granular resistive layer 21 as shown in figure 11, are passed through using laser, in original substrate 100
It is upper to form radium-shine tangent line 5, to adjust the resistance value of resistive layer 2;
K, the second protective layer 6 as shown in figure 12, is printed on the first protective layer 4, the second protective layer 6 covers the first protective layer
4, it is sintered after dry;
L, the second front electrode of strip 7 as shown in figure 13, is printed on the first front electrode 3, is sintered after dry;
M, the original substrate 100 after step L as shown in figure 14, is fractureed into several strips the along folding bar line 102
One semi-finished product;
N, as shown in figure 15, the first semi-finished product are sputtered, form side electrode 8, the covering of side electrode 8 the first half at
Two sides of product, side electrode 8 extends over the second front electrode 7 to the front of original substrate 100 and part second is protected
Layer 6, side electrode 8 extends over rear electrode 1 and part original substrate 100 to the back side of original substrate 100;
O, first semi-finished product as shown in figure 16, are fractureed into several the second semi-finished product along folding grain line 103;
P, it as shown in Figure 17 combination Figure 18, is electroplated on the side electrode 8 of the second semi-finished product, obtains finished product.
The processing method of patch resistor provided in this embodiment, on the one hand, successively the 2, first front of printed resistor layer electricity
Pole 3, the first protective layer 4, the second protective layer 6, the second front electrode 7 guarantee resistive layer 2 to realize uniform fold resistive layer 2
Surfacing, thickness uniformity;On the other hand, first monolith printed resistor layer 2, then will be electric along folding grain line 103 using laser
Resistance layer 2 divides the resistive layer 21 that granulates, so as to guarantee 2 edge-smoothing of resistive layer;Then in the first front of monolith printing electricity
Pole 3, and the first front electrode 3 is divided into granulate the first front electrode 31, and granular first front electrode 31 and granular resistance
Layer 21 is connected, and to guarantee the electrical property of Chip-R, can effectively improve product harvest rate, reduce manufacturing cost.
Preferably, in step D, original substrate 100 is cleaned using supersonic cleaner.Ultrasonic cleaning is main
For having already passed through the product of Precision Machining and complex geometry in component production process, and cleaning effect is good.Using
The ultrasonic cleaning process of Wuxi thunder scholar's supersonic cleaner, can be improved cleaning efficiency, reduces environmental pollution.
Optionally, as shown in figure 5, in step E, rear electrode 1 is located at folding grain line 103 and 102 intersection of folding bar line, with
And it is located at folding grain line 103 and 101 intersection of auxiliary line, and the setting of the interval of multiple rear electrodes 1.
Further, as shown in figure 8, in steph, granular first front electrode 31 is connected with granular resistive layer 21,
I.e. there are a coupled granular resistive layers 21 for each granular first front electrode 31, to guarantee product electrical property
Stablize.
Illustratively, in step L, 7 the second protective layer of covering part 6 of the second front electrode.Add the second front electrode 7
It can be improved the solderability and stability of patch resistor.
Optionally, in step N, the first semi-finished product are sputtered using vacuum sputtering furnace, to guarantee that side electrode 8 is thick
Degree uniformly, improves product quality.
Illustratively, in stepp, one layer of nickel layer 9 is first electroplated on side electrode 8, and 9 covering part second of nickel layer is protected
Sheath 6 and part original substrate 100;Then one layer of tin layers 10, and 10 the second protective layer of covering part of tin layers are electroplated on nickel layer 9
6 and part original substrate 100.Nickel layer 9 can be improved heat resistance of the patch resistor in welding, heat punching when buffering is welded
It hits, can also prevent the silver ion of electrode layer from avoiding internal electrode from being eclipsed to the migration of resistive layer 2.The effect of tin layers 10 is to make
Electrode has good solderability, extends the storage life of electrode.In the present embodiment, it is formed using the alloy plating of tin-lead system.
Based on the above method, as shown in figure 19, the present embodiment additionally provides a kind of patch resistor, including finished substrate
200, the first front electrode 3, resistive layer 2 and the first protective layer 4 are provided with first step on the one side of first front electrode 3
Slot, two the first front electrodes 3 are symmetricly set on the positive both ends of finished substrate 200;Resistive layer 2 is arranged at two first just
It between face electrode 3, and is abutted against with the slot inner wall of first step slot, the thickness of each position of resistive layer 2 is identical;First protective layer
4 are arranged on resistive layer 2, and are located between two the first front electrodes 3, and the first protective layer 4 is completely covered resistive layer 2, and first
The thickness of each position of protective layer 4 is identical.
First step slot is arranged by the one side in the first front electrode 3 in patch resistor provided in this embodiment, and
Resistive layer 2 and the inner wall of first step slot are abutted against, thus keep the thickness of resistive layer 2 uniform, edge-smoothing;In addition, resistance
First protective layer 4 is set on layer 2, and resistive layer 2 is completely covered in the first protective layer 4, thus keep the upper surface of resistive layer 2 smooth,
Resistance initial value consistency is preferable.
It further, further include the second front electrode 7 and the second protective layer 6, the setting of the second front electrode 7 is in the first front
On electrode 3, and two the second front electrodes 7 are symmetricly set on the both ends of finished substrate 200;Second protective layer 6 is arranged first
On protective layer 4, and it is located between two the second front electrodes 7.That adds that the second front electrode 7 can be improved patch resistor can
Weldering property and stability, add the second protective layer 6 can preferably protective resistance layer 2, improve the electrical property of patch resistor.
Further, in order to guarantee the connective stability of the second protective layer 6 and the second front electrode 7, in the second front electricity
Second step slot is provided on the one side of pole 7, the slot inner wall of the second protective layer 6 and second step slot abuts against.
Illustratively, in order to guarantee the electrical property of the first front electrode 3, the second protective layer 6 extends to being capable of covering part
First front electrode 3.
Further, in order to guarantee that front electrode and rear electrode 1 are connected, patch resistor provided in this embodiment is also wrapped
Side electrode 8 is included, side electrode 8 covers two sides of finished substrate 200, and side electrode 8 prolongs to the front of finished substrate 200
The second front electrode 7 of covering and the second protective layer of part 6 are stretched, side electrode 8 extends over the back side to the back side of finished substrate 200
Electrode 1 and part original substrate 100;It is covered with nickel layer 9 outside side electrode 8, tin layers 10 are covered with outside nickel layer 9.Nickel layer 9 can mention
Heat resistance of the high patch resistor in welding, thermal shock when buffering is welded can also prevent the silver ion of electrode layer to electricity
The migration of resistance layer 2, avoids internal electrode from being eclipsed.The effect of tin layers 10 is that electrode is made to have good solderability, extends the guarantor of electrode
Deposit the phase.In the present embodiment, it is formed using the alloy plating of tin-lead system.
Example IV
In the present embodiment, the step in the process steps with embodiment two of patch resistor is identical, and difference exists
In:
In step, the material selection alchlor of original substrate 100;
In step E, the material selection silver of rear electrode 1 utilizes silver paste printed back electrode 1;Its sintering temperature is
850℃;Its sintering temperature can also be 800 DEG C -900 DEG C;
In step F, the material selection ruthenium-oxide of resistive layer 2;Its sintering temperature is 850 DEG C;Its sintering temperature can be with
It is 800 DEG C -900 DEG C;
In steph, the material selection silver of the first front electrode 3, prints the first front electrode 3 using silver paste;It burns
Junction temperature is 850 DEG C;Its sintering temperature can also be 800 DEG C -900 DEG C;
In step I, the material selection glass of the first protective layer 4;Its sintering temperature is 600 DEG C;Its sintering temperature may be used also
To be 550 DEG C -650 DEG C;
In step K, the material selection resin of the second protective layer 6;Its sintering temperature is 220 DEG C;Its sintering temperature may be used also
To be 200 DEG C -240 DEG C;
In step L, the material selection silver of the second front electrode 7;Its sintering temperature is 220 DEG C;Its sintering temperature may be used also
To be 200 DEG C -240 DEG C;
In step N, the material selection nichrome of side electrode 8.
Note that above are only the preferred embodiment and institute's application technology principle of the utility model.Those skilled in the art's meeting
Understand, the utility model is not limited to specific embodiment mentioned here, is able to carry out for a person skilled in the art various bright
Aobvious variation, readjustment and substitution is without departing from the protection scope of the utility model.Therefore, although passing through above embodiments
The utility model is described in further detail, but the utility model is not limited only to above embodiments, is not departing from
It can also include more other equivalent embodiments in the case that the utility model is conceived, and the scope of the utility model is by appended
Scope of the claims determine.
Claims (4)
1. a kind of patch resistor, including finished substrate (200), rear electrode (1) and resistive layer (2), which is characterized in that also wrap
It includes:
First front electrode (3) is provided with first step slot on one side, and two first front electrodes (3) symmetrically set
It sets at the positive both ends of the finished substrate (200), the resistive layer (2) is arranged in two first front electrodes (3)
Between and abut against with the first step slot;
First protective layer (4) is covered on the resistive layer (2), and is located between two first front electrodes (3).
2. patch resistor according to claim 1, which is characterized in that further include:
Radium-shine tangent line (5), for blocking the resistive layer (2) and first protective layer to adjust resistance value;
Second protective layer (6) is covered on first protective layer (4), for protecting the radium-shine tangent line (5).
3. patch resistor according to claim 2, which is characterized in that further include:
Second front electrode (7) covers first front electrode (3), is provided with second step slot, two institutes on one side
The both ends that the second front electrode (7) is symmetricly set on the finished substrate (200) are stated, second protective layer (6) is located at two
It is abutted against between second front electrode (7) and with the second step slot.
4. patch resistor according to claim 3, which is characterized in that further include:
Side electrode (8), be covered on the finished substrate (200), the rear electrode (1), first front electrode (3) with
And it on the end face of second front electrode (7), is covered on the lower surface of the rear electrode (1), is covered on described second
On the upper surface of front electrode (7).
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109830351A (en) * | 2019-03-29 | 2019-05-31 | 昆山厚声电子工业有限公司 | A kind of patch resistor and its processing method |
CN112951528A (en) * | 2019-12-10 | 2021-06-11 | 三星电机株式会社 | Resistor element |
-
2019
- 2019-03-29 CN CN201920420098.4U patent/CN209388804U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109830351A (en) * | 2019-03-29 | 2019-05-31 | 昆山厚声电子工业有限公司 | A kind of patch resistor and its processing method |
CN109830351B (en) * | 2019-03-29 | 2024-05-10 | 昆山厚声电子工业有限公司 | Chip resistor and processing method thereof |
CN112951528A (en) * | 2019-12-10 | 2021-06-11 | 三星电机株式会社 | Resistor element |
CN112951528B (en) * | 2019-12-10 | 2022-08-26 | 三星电机株式会社 | Resistor element |
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