CN205403613U - Piece formula alloy paper tinsel ignition resistor - Google Patents

Abstract

The utility model provides a piece formula alloy paper tinsel ignition resistor, the upper surface middle part of base plate is provided with the antistatic layer, and the both ends of lower surface are provided with the pad respectively, polyimide film sets up on the upper surface of base plate and antistatic layer, polyimide film's upper surface is provided with the resistance layer, just the both ends of resistance layer are respectively through table back of the body overlap joint layer and solder connection, still be provided with the protective layer on the resistance layer, the copper layer sets up on the resistance layer in the both sides of protective layer, and the surface cover of back of the body overlap joint layer and pad will be shown in the copper layer. The utility model discloses a ripe semiconductor technology technique and material have improved energy utilization efficiency, have effectively reduced the operating energy and the ignition time of goldleaf ignition resistor, have realized for a short time arousing down and have got angry fast, it is simple reliable, improved the reliability and the uniformity of the work of ignition resistor greatly.

Description

A kind of chip Alloy Foil firing resistor

Technical field

This utility model belongs to electric spark workpiece technical field, is specifically related to a kind of chip Alloy Foil firing resistor.

Background technology

Generally, Bridgewire EED lighter is the sparking mode that people commonly use always, it is be connected to form with suspension resistance heating wire and two electrodes by one, the lighter of this structure is under stronger vibration environment, bridge string diameter is easily caused bridge silk to the stretching action existed and deforms, bridge silk resistance is caused to change thus Influential cases firearm ignition performance, and it is likely to result in the fracture of bridge silk and solder joint breaks sealing-off, cause lighter misfire, greatly reduce the reliability level of bridge wire form lighter, and bridge wire form lighter generally cannot meet low firing energy and the requirement quickly got angry.Common metal film bridge igniter adopts physical vapour deposition (PVD) mode to be deposited directly in substrate, and matrix adopts polyimide substrate, and a complete set of technique adopts the method for sputtering to be prepared.The method energy is low, and concordance is poor, and cost is high.

Utility model content

For solving above-mentioned technical problem; this utility model provides a kind of chip Alloy Foil firing resistor; by adopting, FR-4 double-sided copper-clad glass-fiber-plate does matrix to this chip Alloy Foil firing resistor, nichrome paper tinsel does seed material, polyimides does protective layer, the problem of requirement solving that bridge wire form lighter reliability is low, cannot meeting low firing energy and quickly get angry.

This utility model is achieved by the following technical programs.

A kind of chip Alloy Foil firing resistor that this utility model provides, including substrate, antistatic layer, polyimide film, resistive layer, protective layer, table back of the body bonding layer, layers of copper, nickel dam, tin layers and pad；The upper surface middle part of described substrate is provided with antistatic layer, and the two ends of lower surface are respectively arranged with pad；Described polyimide film is arranged on the upper surface of substrate and antistatic layer, and the upper surface of described polyimide film is provided with resistive layer, and the two ends of described resistive layer are carried on the back bonding layer respectively through table and are connected with pad, and described resistive layer is additionally provided with protective layer；Described layers of copper is arranged on resistive layer in the both sides of protective layer, and the outer surface covering of bonding layer and pad carried on the back by table by layers of copper, and the outer surface of described layers of copper is also disposed with nickel dam and tin layers.

Described substrate is FR-4 double-sided copper-clad glass-fiber-plate.

The overall dimensions of described substrate is 50mm × 60mm, and thickness is 0.35mm～0.6mm.

The material of described antistatic layer and pad is Cu.

The thickness of described antistatic layer and pad is 0.018mm～0.03mm.

The thickness of described polyimide film is 0.025mm～0.04mm.

The material of described resistive layer is NiCr alloy or Ni-80.Cr-20 alloy.

The thickness of described resistive layer is 0.0035mm～0.005mm.

The material of described protective layer is photo-sensistive polyimide.

The material of described table back of the body bonding layer is silver slurry.

The preparation method of a kind of chip Alloy Foil firing resistor, comprises the following steps:

A, substrate is carried out, removes greasy dirt and the impurity on surface；

B, by photoetching technique the middle part of the upper surface of substrate formed antistatic layer, and substrate lower surface two ends formed pad；

C, by the method for hot pressing, polyimide film is attached to the upper surface of substrate and antistatic layer；

D, by the method for pressing, resistive layer is attached to the upper surface of polyimide film；

E, adopting wet etching technique resistive layer is performed etching to process bridge silk, resistive layer after etching is as it is shown on figure 3, the thickness that the degree of depth is resistive layer of etching；

F, employing photoetching technique perform etching formation protective layer on the position of process in step E, and protective layer is also covered on the bridge silk of resistive layer；

G, adopt end silver coating technology the two ends of substrate formed table the back of the body bonding layer；

H, according to product size requirement, according to a conventional method substrate is carried out scribing cutting；

I, sequentially formed layers of copper, nickel dam and tin layers by electric plating method.

The antistatic layer formed in described step B and the thickness of pad are 15～22 μm.

The beneficial effects of the utility model are in that: adopt ripe semiconductor process technique and material, substrate is prepared chip Alloy Foil firing resistor, by selecting the less baseplate material of coefficient of heat transfer and material being thermally isolated, achieve the less of chip Alloy Foil firing resistor Joule heat to scatter and disappear, chip Alloy Foil firing resistor is produced more for heating medicament, thus improve energy utilization efficiency, effectively reduce work capacity and the duration of ignition of native gold firing resistor.The initial firing current 1.5A of chip Alloy Foil firing resistor of the present utility model, the duration of ignition≤500 μ s, firing energy 5 MJs, it is achieved that little excite lower quick ignition；Simple and reliable, substantially increase reliability and the concordance of firing resistor work；Production technology is simple, have high by property, concordance is good, light weight, firing energy high, can volume production etc..

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the top view after Fig. 1 removes layers of copper, nickel dam and tin layers；

Fig. 3 is the structural representation of resistive layer in Fig. 1；

In figure: 1-substrate, 2-antistatic layer, 3-polyimide film, 4-resistive layer, 41-bridge silk, 5-protective layer, 6-table back of the body bonding layer, 7-layers of copper, 8-nickel dam, 9-tin layers, 10-pad.

Detailed description of the invention

The technical solution of the utility model be described further below, but described in the scope claimed is not limited to.

A kind of chip Alloy Foil firing resistor as depicted in figs. 1 and 2, including substrate 1, antistatic layer 2, polyimide film 3, resistive layer 4, protective layer 5, table back of the body bonding layer 6, layers of copper 7, nickel dam 8, tin layers 9 and pad 10；The upper surface middle part of described substrate 1 is provided with antistatic layer 2, and the two ends of lower surface are respectively arranged with pad 10；Described polyimide film 3 is arranged on the upper surface of substrate 1 and antistatic layer 2; the upper surface of described polyimide film 3 is provided with resistive layer 4; and the two ends of described resistive layer 4 carry on the back bonding layer 6 respectively through table and be connected with pad 10, described resistive layer 4 is additionally provided with protective layer 5；Described layers of copper 7 is arranged on resistive layer 4 in the both sides of protective layer 5, and the outer surface covering of bonding layer 6 and pad 10 carried on the back by table by layers of copper 7, and the outer surface of described layers of copper 7 is also disposed with nickel dam 8 and tin layers 9.

Described substrate 1 is FR-4 double-sided copper-clad glass-fiber-plate, FR-4 double-sided copper-clad glass-fiber-plate has higher mechanical performance and dielectric properties, good thermostability and moisture resistivity also have good machining property, can as the matrix material of chip Alloy Foil firing resistor, can effectively reduce heat scattering and disappearing by substrate, substrate 2 overall dimensions is 50mm × 60mm, and thickness is 0.35mm～0.6mm.

The material of described antistatic layer 2 and pad 10 is Cu；The thickness of described antistatic layer 2 and pad 10 is 0.018mm～0.03mm.The material of described antistatic layer 2 and pad 10 is Cu, surface layers of copper is in order that when resistor runs into electrostatic situation, the immediate current that electrostatic produces can pass through, layers of copper on substrate 1 is actually equivalent to an Electro-static Driven Comb passage, back side layers of copper is pad 10, as a back electrode of welding, its thickness is 0.018mm～0.03mm.

The thickness of described polyimide film 3 is 0.025mm～0.04mm.Arranging polyimide film 3 purpose is be fitted in closely on the surface of antistatic layer 2 by resistive layer 4, and insulate with antistatic layer 2.

The material of described resistive layer 4 is NiCr alloy or Ni-80.Cr-20 alloy；The thickness of described resistive layer 4 is 0.0035mm～0.005mm.

The material of described protective layer 5 is photo-sensistive polyimide, and the thickness of protective layer 5 is 0.004mm～0.006mm.

Described layers of copper 8 material is copper sulfate, and its thickness is 4～12 μm；Described nickel dam 9 material is nickel button, and its thickness is 2～8 μm；Described tin layers 10 material is pure tin ball, and its thickness is 3～14 μm.

The material of described table back of the body bonding layer 6 is silver slurry, and thickness is 0.2mm～0.4mm.

The preparation method of a kind of chip Alloy Foil firing resistor as depicted in figs. 1 and 2, comprises the following steps:

A, substrate 1 is carried out, removes greasy dirt and the impurity on surface；

B, by photoetching technique the middle part of the upper surface of substrate 1 formed antistatic layer 2, and substrate 1 lower surface two ends formed pad 10；

C, by the method for hot pressing polyimide film 3 is attached to substrate 1 and the upper surface of antistatic layer 2；

D, by the method for pressing, resistive layer 4 is attached to the upper surface of polyimide film 3；

E, adopting wet etching technique resistive layer 4 is performed etching to process bridge silk 41, resistive layer 4 after etching is as it is shown on figure 3, the thickness that the degree of depth is resistive layer 4 of etching；

F, employing photoetching technique perform etching formation protective layer 5 on the position of process in step E, and protective layer 5 is also covered on the bridge silk 41 of resistive layer 4, and this protective layer main purpose is protection bridge silk (41)；

G, adopt end silver coating technology the two ends of substrate 1 formed table the back of the body bonding layer 6；

H, according to product size requirement, according to a conventional method substrate is carried out scribing cutting；

I, sequentially formed layers of copper 8, nickel dam 9 and tin layers 10 by electric plating method.

The antistatic layer 2 formed in described step B and the thickness of pad 10 are 15～22 μm.

The chip Alloy Foil firing resistor prepared can the mode of direct Reflow Soldering be welded on igniter head to complete to install.

This utility model adopts ripe semiconductor process technique and material, substrate is prepared chip Alloy Foil firing resistor, by selecting the less baseplate material of coefficient of heat transfer and material being thermally isolated, achieve the less of chip Alloy Foil firing resistor Joule heat to scatter and disappear, chip Alloy Foil firing resistor is produced more for heating medicament, thus improve energy utilization efficiency, effectively reduce work capacity and the duration of ignition of native gold firing resistor.

The initial firing current 1.5A of formula Alloy Foil firing resistor of the present utility model, the duration of ignition≤500 μ s, firing energy 5 MJs, it is achieved that little excite lower quick ignition；Firing resistor energy of the present utility model is high, lightweight, reliability is high.

This utility model adopts SMD preparation method, facilitates installation and is adapted to Reflow Soldering, and process technology is simple and reliable, substantially increases reliability and the concordance of firing resistor work.

Claims (10)

1. a chip Alloy Foil firing resistor; including substrate (1), antistatic layer (2), polyimide film (3), resistive layer (4), protective layer (5), table back of the body bonding layer (6), layers of copper (7), nickel dam (8), tin layers (9) and pad (10); it is characterized in that: the upper surface middle part of described substrate (1) is provided with antistatic layer (2), the two ends of lower surface are respectively arranged with pad (10)；Described polyimide film (3) is arranged on the upper surface of substrate (1) and antistatic layer (2); the upper surface of described polyimide film (3) is provided with resistive layer (4); and the two ends of described resistive layer (4) carry on the back bonding layer (6) respectively through table and be connected with pad (10), described resistive layer (4) is additionally provided with protective layer (5)；Described layers of copper (7) is arranged on resistive layer (4) in the both sides of protective layer (5); and layers of copper (7) table is carried on the back bonding layer (6) and pad (10) outer surface cover, the outer surface of described layers of copper (7) is also disposed with nickel dam (8) and tin layers (9).

2. chip Alloy Foil firing resistor as claimed in claim 1, it is characterised in that: described substrate (1) is FR-4 double-sided copper-clad glass-fiber-plate.

3. chip Alloy Foil firing resistor as claimed in claim 1 or 2, it is characterised in that: the overall dimensions of described substrate (1) is 50mm × 60mm, and thickness is 0.35mm～0.6mm.

4. chip Alloy Foil firing resistor as claimed in claim 1, it is characterised in that: the material of described antistatic layer (2) and pad (10) is Cu.

5. the chip Alloy Foil firing resistor as described in claim 1,2 or 4, it is characterised in that: the thickness of described antistatic layer (2) and pad (10) is 0.018mm～0.03mm.

6. chip Alloy Foil firing resistor as claimed in claim 1, it is characterised in that: the thickness of described polyimide film (3) is 0.025mm～0.04mm.

7. chip Alloy Foil firing resistor as claimed in claim 1, it is characterised in that: the material of described resistive layer (4) is NiCr alloy or Ni-80.Cr-20 alloy.

8. chip Alloy Foil firing resistor as claimed in claim 7, it is characterised in that: the thickness of described resistive layer (4) is 0.0035mm～0.005mm.

9. chip Alloy Foil firing resistor as claimed in claim 1, it is characterised in that: the material of described protective layer (5) is photo-sensistive polyimide.

10. chip Alloy Foil firing resistor as claimed in claim 1, it is characterised in that: the material of described table back of the body bonding layer (6) is silver slurry.