CN101764590A - Surface-mounting type crystal oscillator - Google Patents

Abstract

The invention discloses a surface-mounting type crystal oscillator which comprises a crystal oscillator shell, a crystal oscillating circuit, a base plate, a plurality of electrodes and a plurality of pads, wherein the crystal oscillating circuit is embedded in the crystal oscillator shell and the base plate and electrically connected with the electrodes; each electrode comprises a first electrode and a second electrode, wherein the first electrode is arranged on the lower surface of the crystal oscillator shell, the second electrode is arranged on the upper surface of the base plate, and the first electrode and the corresponding second electrode are connected by using a surface mounting technology; each pad comprises a first pad and a second pad, wherein the first pad is arranged on the upper surface of the crystal oscillator shell and electrically connected with the first electrode, and the second pad is arranged on the lower surface of the base plate and electrically connected with the corresponding second electrode. By arranging the pads on the upper surface of the crystal oscillator shell and applying the surface mounting technology, the invention has wide application range, simple production process and low cost and realizes the high-efficiency assembly.

Description

Surface-mounting type crystal oscillator

Technical field

The present invention relates to the crystal oscillator field, relate more specifically to a kind of surface-mounting type crystal oscillator.

Background technology

The application of quartz oscillator has the history of decades, because of it has high these characteristics of frequency stability, so occupy an important position in electronic technology field always.Especially the high speed development of IT industry more makes this crystal oscillator shine vitality.Quartz oscillator is in telecommunication, satellite communication, mobile telephone system, global positioning system, navigation, remote control, Aero-Space, high-speed computer, accurate measuring instrument and consumer consumer electronic product, as standard frequency source or pulse signal source, frequency reference is provided, and is that the oscillator of other type at present is irreplaceable.Quartz oscillator is divided into non-temp. compensation type crystal oscillator, temperature compensating crystal oscillator, voltage controlled crystal oscillator, constant-temperature crystal oscillator and digitlization/several types such as the compensation crystal oscillator of μ p.At present, crystal oscillator is all very good because of its performance at aspects such as ageing rate, temperature stability, frequency stability and accuracy, so the accurate time frequency signal of Chang Zuowei source is widely used in the electronic instruments such as global positioning system, communication, metering, remote measuring and controlling, frequency spectrum and network analyzer.

Existing crystal oscillator adopts dual in-line package usually, this crystal oscillator comprises crystal oscillator body and base, the crystal oscillator body is fixedly connected on the base, base comprises base plate and function pin, this function pin is electrically connected with crystal oscillating circuit, and centering on around it has the insulating barrier of ring-type to insulate with metal base plate.The function pin of this crystal oscillator inserts the circuit board of product and is electrically connected with circuit board, on the one hand, the height of this crystal oscillator is higher, be unfavorable for the miniaturization production of electronic product, on the other hand, need manual operation when adopting the crystal oscillator of direct insertion encapsulation to install, cost height and production efficiency are extremely low.In order to enhance productivity, realize the miniaturization of electronic product, the crystal oscillator manufacturer improves the crystal oscillator of existing employing contact pin mode.With reference to figure 1, this crystal oscillator 1 also comprises crystal oscillator body 11 and base 12, different with above-mentioned dual inline type crystal oscillator is, crystal oscillator 1 adopts the surface mounting technology encapsulation, base 12 is provided with pad 13 to be connected with circuit board, and the volume of crystal oscillator has been dwindled in this design.But, more and more because the function that current crystal oscillator is born is various with the connection line of product circuit plate, so its pad number also correspondingly increases; Therefore, crystal oscillator 1 as shown in Figure 1, because pad 13 only is arranged on the base 12 of crystal oscillator 1, and the plane space on the base 12 is limited, this is provided with and has limited to the circuit that crystal oscillator 1 is electrically connected with the product circuit plate, make pad number and its application function that grows with each passing day of crystal oscillator not be complementary, limited to the range of application of crystal oscillator.

Therefore, demand a kind ofly can increasing the pad number urgently, production technology is simple, low-cost and realize that the surface-mounting type crystal oscillator of high efficiency assembling overcomes above-mentioned defective.

Summary of the invention

The object of the present invention is to provide a kind of pad number, production technology of can increasing simple, low-cost and realize the surface-mounting type crystal oscillator of high efficiency assembling.

In order to achieve the above object, the invention provides a kind of surface-mounting type crystal oscillator, it comprises the crystal oscillator housing, crystal oscillating circuit, base plate, some electrodes and some pads, described crystal oscillating circuit be embedded in the described crystal oscillator housing with described base plate in, and described crystal oscillating circuit is electrically connected with described electrode, described electrode comprises first electrode and second electrode, described first electrode is arranged at the lower surface of described crystal oscillator housing, described second electrode is arranged at the upper surface of described base plate, described first electrode is connected by surface mounting technology with corresponding described second electrode, described pad comprises first pad and second pad, described first pad is arranged at the upper surface of described crystal oscillator housing and is electrically connected with described first electrode, and described second pad is arranged at the lower surface of described base plate and is electrically connected with corresponding described second electrode.

Compared with prior art, pad in the surface-mounting type crystal oscillator of the present invention not only is arranged on the base plate, and be arranged on the upper surface of crystal oscillator housing, limitation formula layout-pad that this design has broken through conventional surface-mounting type crystal oscillator pad only is laid on the base plate, by laying first pad at the upper surface of crystal oscillator housing, and first pad is electrically connected with electrode in the surface-mounting type crystal oscillator, thereby effectively utilized the confined space of surface-mounting type crystal oscillator, make pad number and its application function that grows with each passing day of crystal oscillator be complementary, and then enlarge the range of application of this surface-mounting type crystal oscillator.In addition, described first electrode is connected by surface mounting technology with corresponding described second electrode, the internal circuit that surface mounting technology is applied to crystal oscillator connects, having broken through in the past, the crystal oscillator internal electrical connects the limitation that adopts binding technology, thereby simplified the manufacture craft flow process of surface-mounting type crystal oscillator of the present invention, reduce its cost of manufacture, realized high efficiency machine batch process.

Preferably, offer depressed part on described first electrode in the surface-mounting type crystal oscillator, described depressed part is the formation that caves inward of the sidewall of described crystal oscillator housing.When described first electrode is connected by surface mounting technology with corresponding described second electrode, unnecessary solder(ing) paste can flow into this depressed part, such design has not only effectively utilized the space of surface-mounting type crystal oscillator of the present invention, and makes surface-mounting type crystal oscillator more attractive in appearance.

Preferably, the described depressed part in the surface-mounting type crystal oscillator extends towards the direction of the upper surface of described crystal oscillator housing, the height of described depressed part be described crystal oscillator housing sidewall height 2/3rds.

Preferably, offer groove on described second pad in the surface-mounting type crystal oscillator, the sidewall of the described base plate formation groove that caves inward, described groove is through to the lower surface of described base plate from the upper surface of described base plate, and described groove is corresponding with described groove and be connected.When second pad is connected with circuit board by surface mounting technology, unnecessary solder(ing) paste can flow into this groove and flow into groove then, this design has not only effectively utilized the space of surface-mounting type crystal oscillator of the present invention, make surface-mounting type crystal oscillator more attractive in appearance, and make this surface-mounting type crystal oscillator more stable with being electrically connected of circuit board.

Preferably, the described crystal oscillator housing in the surface-mounting type crystal oscillator offers through hole, and described through hole runs through the upper surface of described crystal oscillator housing.The design of this through hole has two kinds of effects, one, and the design of this through hole has increased crystal oscillator and extraneous communication passage, helps the heat radiation of device in the surface-mounting type crystal oscillator of the present invention, makes that the surface-mounting type crystal oscillator place of working is more stable; Its two, for this surface-mounting type crystal oscillator provides filling channel, the staff can be by this passage filler in this crystal oscillator, thereby strengthens the steadiness of the device in this crystal oscillator.

Preferably, described first pad in the surface-mounting type crystal oscillator is formed by the part that described first electrode passes the upper surface of described crystal oscillator housing, and described second pad is formed by the part that described second electrode passes the lower surface of described base plate.This design simplification the production technology of this surface-mounting type crystal oscillator, strengthened its electrical connection properties.

By following description also in conjunction with the accompanying drawings, it is more clear that the present invention will become, and these accompanying drawings are used to explain embodiments of the invention.

Description of drawings

Fig. 1 is the schematic perspective view of existing a kind of surface-mounting type crystal oscillator.

Fig. 2 is the schematic perspective view of surface-mounting type crystal oscillator of the present invention.

Fig. 3 is the three-dimensional exploded view of surface-mounting type crystal oscillator shown in Figure 2.

Fig. 4 is the structural representation of the upper surface of crystal oscillator housing in the surface-mounting type crystal oscillator shown in Figure 2.

Fig. 5 is the structural representation of the lower surface of crystal oscillator housing in the surface-mounting type crystal oscillator shown in Figure 2.

Fig. 6 is the structural representation of the upper surface of base plate in the surface-mounting type crystal oscillator shown in Figure 2.

Fig. 7 is the structural representation of the lower surface of base plate in the surface-mounting type crystal oscillator shown in Figure 2.

Embodiment

With reference now to accompanying drawing, describe embodiments of the invention, the similar elements label is represented similar elements in the accompanying drawing.It is simple, low-cost and realize the surface-mounting type crystal oscillator of high efficiency assembling to the invention provides a kind of pad number, production technology of can increasing.

Figure 2 shows that the schematic perspective view of surface-mounting type crystal oscillator of the present invention.With reference to figure 2-3, surface-mounting type crystal oscillator 2 of the present invention comprises crystal oscillator housing 21, crystal oscillating circuit (figure does not show), base plate 22, some electrodes and some pads 24.Described crystal oscillating circuit is embedded in the described crystal oscillator housing 21, and is embedded in the described base plate 22, and described crystal oscillating circuit is electrically connected with described electrode.Described crystal oscillator housing 21 offers through hole 211, and described through hole 211 runs through the upper surface 212 of described crystal oscillator housing.The design of this through hole 211 helps the heat radiation of the device in the surface-mounting type crystal oscillator 2, make the work of surface-mounting type crystal oscillator 2 more stablize safer, and, this through hole provides filling channel for this surface-mounting type crystal oscillator, the staff can be by this passage filler in this crystal oscillator, thereby strengthens the steadiness of the device in this crystal oscillator.

With reference to figure 2-7, described electrode comprises first electrode 231 and second electrode 232, is arranged at the lower surface 213 of described crystal oscillator housing and the upper surface 221 of base plate respectively.Described first electrode 231 that is laid in the lower surface 213 of described crystal oscillator housing is four, is arranged at the edge of the lower surface 213 of crystal oscillator housing respectively, and is bordered with the sidewall 215 of crystal oscillator housing.Several described second electrodes 232 are arranged on the upper surface 221 of described base plate, wherein, have four second electrode 232a to be laid in the edge of the upper surface 221 of described base plate, and are positioned at described first electrode 231 corresponding positions.When described crystal oscillator housing 21 covers on described base plate 22, first electrode 231 is connected by surface mounting technology with the second electrode 232a, this electric connection technology has broken through in the past, and the crystal oscillator internal electrical connects the limitation that adopts binding technology, simplified the manufacture craft flow process of surface-mounting type crystal oscillator 2 of the present invention, reduce its cost of manufacture, realized high efficiency machine batch process.In addition, all offer depressed part 214 on four described first electrodes 231, the sidewall 215 that four described depressed parts 214 the are respectively described crystal oscillator housing formation that caves inward, and described depressed part 214 extends towards the direction of the upper surface 212 of described crystal oscillator housing from the lower surface 213 of described crystal oscillator housing.Preferably, the height of described depressed part 214 be described crystal oscillator housing sidewall 215 height 2/3rds.When four described first electrodes 231 and the corresponding described second electrode 232a be connected by surface mounting technology stable after, unnecessary solder(ing) paste can flow in the described depressed part 214, such design has not only effectively utilized the limited space of surface-mounting type crystal oscillator of the present invention 2, and makes that surface-mounting type crystal oscillator 2 is more attractive in appearance.

With reference to figure 2-7, the pad 24 of surface-mounting type crystal oscillator 2 of the present invention comprises first pad 241 and second pad 242.Described first pad 241 is arranged at the upper surface 212 of described crystal oscillator housing and is electrically connected with first electrode 231, in the present embodiment, described first pad 241 be by described first electrode 231 pass described crystal oscillator housing upper surface 212 part through the casting or stamping forming, but same first electrode, 231 demultiplexings pass the upper surface 212 of crystal oscillator housing and form a plurality of first pads 241.Described second pad 242 is arranged at the lower surface 222 of described base plate and is electrically connected with the second electrode 232a, in the present embodiment, described second pad 242 be by part second electrode 232 pass described base plate lower surface 222 part through the casting or stamping forming, in the present embodiment, a plurality of described second electrodes 232 can be merged into one the tunnel and pass the lower surface 222 of described base plate and form one second pad 242.Offer groove 2421 on described second pad 242, the sidewall 223 of described base plate caves inward and forms groove 224, described groove 224 is through to the lower surface 222 of described base plate from the upper surface 221 of described base plate, and described groove 2421 is with described groove 224 corresponding settings and be connected.When second pad 242 be connected by surface mounting technology and circuit board (figure does not show) stable after, unnecessary solder(ing) paste can flow into this groove 2421 and flow into groove 224 then, this design has not only effectively utilized the confined space of surface-mounting type crystal oscillator 2 of the present invention, make that surface-mounting type crystal oscillator 2 is more attractive in appearance, and make this surface-mounting type crystal oscillator 2 more stable with being electrically connected of circuit board.

Surface-mounting type crystal oscillator 2 of the present invention on the basis of existing technology, upper surface 212 at the crystal oscillator housing has increased by first pad 241, limitation formula layout-pad that this design has broken through conventional surface-mounting type crystal oscillator pad only is laid on the base plate, effectively utilized the confined space of surface-mounting type crystal oscillator 2, make pad number and its application function that grows with each passing day of above-mentioned surface-mounting type crystal oscillator be complementary, and then enlarge the range of application of surface-mounting type crystal oscillator 2 of the present invention.

Need to prove, the corresponding annexation of first pad and first electrode in the surface-mounting type crystal oscillator of the present invention, and second pad designs with the visual concrete condition of corresponding annexation of second electrode.The number of pad is not limited to the number in the foregoing description, visual concrete condition increases or reduces the number of pad, in addition, the size of surface-mounting type crystal oscillator integral body of the present invention is also decided on the specific requirement of client product, this is well known to those skilled in the art, and does not repeat them here.

Above invention has been described in conjunction with most preferred embodiment, but the present invention is not limited to the embodiment of above announcement, and should contain various modification, equivalent combinations of carrying out according to essence of the present invention.

Claims (6)

1. surface-mounting type crystal oscillator, it is characterized in that: comprise the crystal oscillator housing, crystal oscillating circuit, base plate, some electrodes and some pads, described crystal oscillating circuit be embedded in the described crystal oscillator housing with described base plate in, and described crystal oscillating circuit is electrically connected with described electrode, described electrode comprises first electrode and second electrode, described first electrode is arranged at the lower surface of described crystal oscillator housing, described second electrode is arranged at the upper surface of described base plate, described first electrode is connected by surface mounting technology with corresponding described second electrode, described pad comprises first pad and second pad, described first pad is arranged at the upper surface of described crystal oscillator housing and is electrically connected with described first electrode, and described second pad is arranged at the lower surface of described base plate and is electrically connected with corresponding described second electrode.

2. surface-mounting type crystal oscillator as claimed in claim 1 is characterized in that: offer depressed part on described first electrode, described depressed part is the formation that caves inward of the sidewall of described crystal oscillator housing.

3. surface-mounting type crystal oscillator as claimed in claim 2, it is characterized in that: described depressed part extends towards the direction of the upper surface of described crystal oscillator housing, the height of described depressed part be described crystal oscillator housing sidewall height 2/3rds.

4. surface-mounting type crystal oscillator as claimed in claim 1, it is characterized in that: offer groove on described second pad, the sidewall of the described base plate formation groove that caves inward, described groove is through to the lower surface of described base plate from the upper surface of described base plate, and described groove is corresponding with described groove and be connected.

5. surface-mounting type crystal oscillator as claimed in claim 1 is characterized in that: described crystal oscillator housing offers through hole, and described through hole runs through the upper surface of described crystal oscillator housing.

6. surface-mounting type crystal oscillator as claimed in claim 1, it is characterized in that: described first pad is formed by the part that described first electrode passes the upper surface of described crystal oscillator housing, and described second pad is formed by the part that described second electrode passes the lower surface of described base plate.

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