CN1450668A

CN1450668A - Temp detecting device and circuit substrate installed with same

Info

Publication number: CN1450668A
Application number: CN03108439A
Authority: CN
Inventors: 久村聪; 井上英浩
Original assignee: Murata Manufacturing Co Ltd
Current assignee: Murata Manufacturing Co Ltd
Priority date: 2002-04-08
Filing date: 2003-03-31
Publication date: 2003-10-22
Anticipated expiration: 2023-03-31
Also published as: JP3815362B2; DE10315519A1; TW584722B; CN100405626C; KR100616743B1; TW200305007A; JP2003303702A; DE10315519B4; KR20030081021A

Abstract

The present invention provided a temperature sensing element 1 which has electrodes 4, 5 on the surface of an element body 3, and has a heat accepting portion 6 of high thermal conductivity on the surface of the element body 3 independently of the electrodes 4, 5. Especially, the temperature sensing element 1 is a positive- characteristic thermistor comprising a chip type component. The invention provided the temperature sensing element whose temperature sensibility for temperature sensing objects can be made high and which can sense a temperature highly stably with high accuracy.

Description

Detector unit and the circuit substrate of equipping it

Technical field

The circuit substrate that the present invention relates to thermistor equitemperature detecting element and equip it.

Background technology

Be accompanied by the development of e-machine, seem and become more and more important for the power transistor and the countermeasure taked such as parts heat radiation such as power supply IC that are configured in wherein to miniaturization.For this reason, the more and more necessary that can detect the temperature of this parts accurately improves.Based on this actual conditions, the demand that detects the detector unit of part temperatures such as these power supplys also increases day by day.

Figure 10 is the chip-shaped semistor of expression as this detector unit one example.This semistor 1 has element body portion 3 and electrode part 4,5.In order on the wire structures of circuit substrate, to carry out soldering

electrode part

4,5 is set.

, chip-shaped thermistor equitemperature detecting element need be arranged near the temperature detection object parts.Detector unit in the past according to the wiring on the circuit substrate and other configuration of components relation, can not be configured in fully sometimes near temperature detection object position component, can not high accuracy carry out detected temperatures and cause.Also have, owing to be not only the position relation of thermal source and detector unit, and the coefficient of heat transfer of peripheral situation and substrate etc. can both cause the difference of the sensible heat condition of detector unit, so influence accuracy of detection easily.

Summary of the invention

In order to solve the above problems, purpose is to provide a kind of detector unit to temperature detection object energy high Precision Detection temperature exactly in the present invention.

The present invention's 1 detector unit is characterized in that, comprising: element body portion, be arranged on the electrode part of described element body portion, and receive from the heat of temperature detection object conduction heat and be subjected to receiving part.

1 detector unit according to the present invention is subjected to receiving part owing to have heat, with respect to the element body portion conduction heat of coming comfortable temperature detection object easily.So, even have to detector unit is arranged on as in the past under the locational situation of leaving a little apart from the temperature detection object that can not carry out temperature-sensitive from the heat of temperature detection object fully, also can obtains being subjected to the heat conduction of receiving part from temperature detection object thermotropism.Therefore, owing to can carry out the hot combination that the temperature detection between detected object and detector unit is used effectively, so can carry out the high-precision test temperature.

Also have, in situation about detector unit of the present invention being arranged on the circuit substrate, employing is arranged on the heat conducting composition surface of energy between temperature detection object and the detector unit, if be subjected to the heat of detector unit the receiving part soldering on this composition surface, heat is become easily by the heat conduction of composition surface from the temperature detection object by receiving part, and has the advantage that high accuracy is more carried out detected temperatures.Adopt structure of the present invention, can be as the semistor that has of detector unit, negative tempperature coefficient thermistor element etc.

The present invention's 2 detector unit is characterized in that: in the present invention's 1 detector unit, and its described element body portion and described electrode part, and described heat is subjected to receiving part to constitute chip type component with global shape.

2 detector unit according to the present invention, because of detector unit constitute chip-shaped, so easily this detector unit is installed on the circuit substrate that needs detected temperatures.

The present invention's 3 detector unit is characterized in that: in the present invention's 1 detector unit, described element body portion constitutes the part that has as the semistor function.

3 detector unit according to the present invention is because of the rising resistance value that is accompanied by temperature also increases, so according to the easily detected temperatures that concerns between energy of its resistance value and temperature.

The present invention's 4 detector unit is characterized in that: in the present invention's 1 detector unit, described element body portion constitutes Nogata body shape, has described heat more than the side at least one of described element body portion surface and is subjected to receiving part.

4 detector unit according to the present invention, be subjected to receiving part because of having heat more than the side at least one of Nogata body linear element main part surface, the face that makes this heat formed by receiving part is faced the temperature detection object, so can be to receive the state sense temperature from the heat of temperature detection object effectively.Also have, formation is subjected under the situation of receiving part around formula heat in element body portion, be subjected to receiving part because of having the heat that circularizes in the whole periphery of element body portion, so when detector unit is attached to circuit substrate, adjusts the time of detector unit state and can reduce for making heat be subjected to receiving part to face the temperature detection object.

The present invention's 5 detector unit is characterized in that: in the present invention's 1 detector unit, be subjected to further to be provided with on the receiving part conductor from described temperature detection object conduction heat in described heat.

5 detector unit according to the present invention, even circuit substrate of planting purposes at other etc. is not set up the conductor on composition surface etc., the heat that makes heat energy from the temperature detection object be transmitted to detector unit effectively by its conductor is subjected to receiving part.Therefore, make the heat energy from the temperature detection object more easily be transmitted to detector unit by conductor, it is higher that accuracy of detection also becomes.

The present invention's 6 detector unit is characterized in that: in the present invention's 1 detector unit, described heat is subjected to receiving part to have the metal film layer of non-resistance contact at the surperficial raw material with respect to described element body portion.

6 detector unit according to the present invention because of the surperficial raw material with respect to element body portion, is subjected to receiving part to have the metal material of non-resistance contact in heat, so can not produce by receiving part element body portion detected to give dysgenic electric combination by heat.Therefore, for element body portion, for example using BaTiO ₃, when Mn-Ni is oxide, in contrast, be subjected to the metal material of the non-resistance contact of receiving part for example can adopt silver, gold, platinum or their alloy etc. as having heat.

The present invention's 7 detector unit is characterized in that: in the present invention's 6 detector unit, described heat is had as the top layer with respect to the metal film layer of described non-resistance contact by receiving part, and has the infiltrating joint thin layer of scolding tin.

7 detector unit according to the present invention, for can be simple and easy carrying out temperature detection object from the circuit substrate, can utilize joint to be subjected to the heat of detector unit the relative soldering of receiving part on composition surface that the heat conduction that is arranged on circuit substrate is used with thin layer to the heat conduction of detected temperatures.

The present invention's 8 detector unit, it is characterized in that: in the present invention's 1 detector unit, be provided with insulation material layer on the surface of described element body portion, and by described insulation material layer described heat be set with respect to the surface of described element body portion and be subjected to receiving part.

8 detector unit according to the present invention is because of surface and the heat that makes insulation material layer be clipped in element body portion is subjected between the receiving part, so can avoid being subjected to receiving part to make electric current flow into element body portion unfavourably by heat.Also have,,, also may adopt the metal material of ohmic contact, and can constitute at an easy rate with respect to the surfacing of element body portion as constituting the raw material that heat is subjected to receiving part.

Have the circuit substrate of the present invention's 9 detector unit, it is characterized in that: 1 the detector unit that includes the present invention be subjected to relative and the composition surface that can thermal of receiving part with described heat with described detector unit.

Circuit substrate according to 9 detector unit with the present invention by the composition surface of circuit substrate, can be subjected to receiving part heat conduction to the heat of detector unit from the temperature detection object.Therefore, when temperature detecting precision can be improved, can also improve configuration adaptability with respect to the detector unit of temperature detection object.

Description of drawings

Fig. 1 is the stereoscopic figure of expression chip-shaped semistor one example of the present invention.

Fig. 2 is the front view that expression is configured in the semistor of Fig. 1 one example of the state on the substrate.

Fig. 3 is the vertical section profile that is illustrated in main position among Fig. 2.

Fig. 4 is the stereogram (a) and the main side cutaway view (b) of position vertical section of the semistor outward appearance of the other embodiment of expression.

Fig. 5 is the side cutaway view of main position vertical section that expression is configured in the semistor of Fig. 4 one example of the state on the substrate.

Fig. 6 is the stereogram (a) and the main side cutaway view (b) of position vertical section of the semistor outward appearance of the other embodiment of expression.

Fig. 7 is the stereogram (a) and the main side cutaway view (b) of position vertical section of the semistor outward appearance of the other embodiment of expression.

Fig. 8 is the stereogram of the semistor outward appearance of the other embodiment of expression.

Fig. 9 is the stereogram (a) and the main side cutaway view (b) of position vertical section of the semistor outward appearance of the other embodiment of expression.

Figure 10 represents the stereogram of chip-shaped in the past semistor outward appearance.

Among the figure: the 1-detector unit, 3-element body portion, 4, the 5-electrode part, 6-heat is subjected to receiving part, 7-circuit substrate, 9-composition surface.

Embodiment

Below, be described with reference to the accompanying drawings the present invention.

(embodiment 1)

In Fig. 3, represent the example of detector unit embodiment of the present invention at Fig. 1.Fig. 1 is the stereogram of expression as the semistor profile of detector unit one example, Fig. 2 is that expression is loaded in the semistor of substrate and the plane graph of its peripheral components, and Fig. 3 is that expression is loaded in the semistor of substrate and the sectional arrangement drawing of its peripheral components.

With reference to Fig. 1, semistor 1, as chip type component, by element body portion 3,

electrode part

4,5, heat are constituted by receiving part 6.

The formation of element body portion 3 is with barium titanate (BaTiO ₃) as the element of main body, form the Nogata body shape of growing crosswise.

Electrode

part

4,5 respectively with the lengthwise of element body portion 3 to both ends of the surface engage.

Heat is subjected to receiving part 6 to be formed on the whole periphery of element body portion 3, and the width that has regulation at the center of the length direction of element body portion 3.This forming process is that the surface in element body portion 3 utilizes vacuum sputtering to form silver (Ag) thin layer of Rack.On this silver thin layer, utilize the thin layer of galvanoplastic lamination tin (Sn).Heat be subjected to receiving part 6 be by this silver thin layer as lower floor, 2 thin layer of tin thin film layer as the upper strata are constituted.

At this, the thin layer of silver is non-resistance contacts with respect to element body portion 3.Therefore, heat is passed through the thin layer of silver as lower floor, in the hope of reaching the purpose that does not have electric combination with respect to element body portion 3 by receiving part 6.Heat is subjected to receiving part 6 because of executed the tin thin film layer on the upper strata, so heat is subjected to the surface of receiving part 6 to have the scolding tin wettability.Heat is subjected to the superficial layer of receiving part 6, also can with the thin layer formation of scolding tin coating with respect to the thin layer of silver.Heat is subjected to leave between receiving part 6 and the

electrode part

4,5 at interval, makes heat be not connected with

electrode part

4,5 by receiving part 6.It is the films that are the surface that does not protrude in element body portion 3 that heat is subjected to receiving part 6.Therefore, heat is subjected to the surface of receiving part 6 and the surface of element body portion 3 can be considered to a face.In this case, it not necessarily must be a face that heat is subjected to the surface of receiving part 6 and the surface of element body portion 3, also can be stacked on the surface of element body portion 3.The size of semistor 1 (length * wide * height) is 1.6mm * 0.8mm * 0.8mm.But the size of semistor 1 is not limited to this size.

With reference to Fig. 2 and Fig. 3,7 indication circuit substrates, 8 expression power supply IC, 9 expression composition surfaces.Circuit substrate 7 is provided with as temperature detection object power supply IC8.By the composition surface 9 that Copper Foil constitutes, extend to lateral outer side in the face territory that power supply IC8 is set from circuit substrate 7.Semistor 1 is positioned at the end on composition surface 9 and is installed on the circuit substrate 7.In the not shown wire structures of each

electrode part

4,5 soldering in circuit substrate 7 of semistor 1.It is under the state that is positioned on the composition surface 9 that the heat of semistor 1 is subjected to receiving part 6, is welded on the composition surface 9 by soldering H.Composition surface 9 is housed between the

electrode part

4,5 of semistor 1, makes itself and

electrode part

4,5 mutual electric insulations.Composition surface 9 and heat can be set at width or same substantially width by the transverse width separately of receiving part 6.

According to this structure, the heat of power supply IC8 is subjected to receiving part 6 by the heat that composition surface 9 is transmitted to semistor 1.Semistor 1 output is to conducting the detection signal of heat.Because of pass through composition surface 9 energy heat conduction from power supply IC8, compare with the situation that does not have composition surface 9, conduction is for the necessary heat of high Precision Detection temperature easily.Therefore, be subjected to receiving part 6 to be arranged on semistor 1,, conduct easily by composition surface 9 from the heat that the power supply IC8 as the temperature detection object produces according to heat.Meanwhile, the temperature detecting precision by semistor 1 is higher than in the past.Under this condition, composition surface 9 is not limited to linear and stretches out, and presses the configuration structure of corresponding component etc., adopts suitable crooked shape also can.Have again, adopt the radiating part make heat be subjected to receiving part 6 and the radiating terminal that is arranged on power supply IC8 equitemperature detected object element etc. directly to contact or indirect contact mode thermal such as soldering also passable.

(embodiment 2)

For the embodiment 2 that is different from embodiment 1, in conjunction with the accompanying drawings.The stereogram of Fig. 4 (a) expression detector unit, Fig. 4 (b) is the side cutaway view that detector unit heat is subjected to the vertical section of receiving part.

With reference to Fig. 4, semistor 1 as chip part, comprising: constitute the element body portion 3 of cuboid, be arranged on the

electrode part

4,5 at element body portion 3 two ends, heat is subjected to receiving part 6.Heat is subjected to receiving part 6 to be arranged on the surface of element body portion 3 with laminated shaped state between

electrode part

4,5.

The heat of semistor 1 is subjected to receiving part 6 to have insulating barrier 10 and metallic film 11, and as the jut 12 of conductor.Insulating barrier 10 usefulness constitute attached to the silicone rubber or the silicone resin diaphragm of 2 sides of element body portion 3.

Metallic film 11 is to form on the surface of insulating barrier 10, for example constitutes as raw-material film with copper.Jut 12 is to constitute as raw-material plate object in order to copper in an end of metallic film 11 equally.In this case, jut 12 is along the face that forms with respect to metallic film 11 and vertical direction is stretched out.

With reference to Fig. 5, the jut 12 of semistor 1 for example is inserted between the packaging part 8A and circuit substrate 7 of the power supply IC8 that circuit substrate 7 loads.Passing thermotropism from power supply IC8 is subjected to the heat of receiving part 6 by jut 12 conduction.At this moment, also can be subjected to the heat different receiving part 6 not solderings on parts such as composition surface with embodiment 1.This heat is subjected to receiving part 6, because be provided with metallic film 11 on element body portion 3 surfaces by insulating barrier, so can use the metal of resistive contact as the raw material of metallic film 11.

The present invention is not limited to described each embodiment, can constitute following variation.

(1) in described embodiment, also can adopt negative tempperature coefficient thermistor as detector unit.

(2), also can use gold, platinum or contain these metals or the alloy of silver as can be used for the non-resistance metal material that heat is subjected to receiving part.

(3) semistor 1 that such chip part with semistor constitutes shown in Fig. 6 (a) and (b) when formation is grown crosswise Nogata body shape, has

electrode part

4,5 respectively at the two ends of its length direction.Heat is arranged between these

electrode part

4,5 with laminated formation state on the surface of element body portion 3 by receiving part 6.

Be subjected to receiving part 6 by constituting in the heat of the semistor 1 shown in Fig. 6 (a) and (b) attached to the silicone rubber of 2 sides of element body portion 3 or the insulating barrier 10 that the silicone resin diaphragm is formed and the metallic film of for example forming 11 that forms on the surface of this insulating barrier 10 by copper.

(4) shown in Fig. 7 (a) and (b), the semistor 1 with the semistor chip part constitutes when formation is grown crosswise Nogata body shape, is respectively arranged with

electrode part

4,5 at the two ends of its length direction.Heat is arranged between these

electrode part

Be subjected to receiving part 6 by constituting in the heat of the semistor 1 that is shown in Fig. 7 (a) and (b) attached to the silicone rubber of 1 side of element body portion 3 or the insulating barrier 10 that the silicone resin diaphragm is formed and the metallic film of for example forming 11 that forms on the surface of this insulating barrier 10 by copper.Be arranged on the lower end of metallic film 11 what cross out as the jut 12 of conductor.

(5) as shown in Figure 8, use the semistor 1 of the chip part formation of semistor, when formation is grown crosswise Nogata body shape, be respectively arranged with

electrode part

4,5 at the two ends of its length direction.Heat is arranged between these

electrode part

Be subjected to receiving part 6 by constituting in the heat of semistor shown in Figure 81 attached to the silicone rubber of 2 sides of element body portion 3 or insulating barrier 10a, the 10b that the silicone resin diaphragm is formed and the metallic film 11a, the 11b that for example form that forms on the surface of this insulating barrier 10a, 10b by copper.The insulating barrier 10a of 1 face is housed in becomes layer in a narrow margin between two

electrode part

4,5, be formed with metallic film 11a in its width.Being housed between two

electrode part

4,5 at another insulating barrier 10b becomes the wide cut layer, is formed with metallic film 11b in its width.This metallic film 11b is also wideer than metallic film 11a, therefore, in the time of this metallic film 11b of wide cut and metallic film 11a and

electrode part

4,5 electric insulations, owing to have the metallic film 11b that forms wide cut, the heat conduction that passes to this metallic film 11b becomes easy.

(6) shown in the (a) and (b) of Fig. 9, the semistor 1 that constitutes with the chip part of semistor, when formation is grown crosswise Nogata body shape, be respectively arranged with

electrode part

4,5 at the two ends of its length direction, heat is arranged between these

electrode part

The heat of the semistor 1 shown in Fig. 9 (a) and (b) is subjected to receiving part 6, by constituting at the insulating barrier 10 of the diaphragm of 3 side attachment silicone rubbers of element body portion 3 or silicone resin and the metallic film of for example being made up of copper 11 that forms on the surface of this insulating barrier 10.

(7) as embodiments of the invention, though do not illustrate, described insulating barrier also can form on the whole surface that does not form electrode part that covers in the element body portion.Also have, insulating barrier is not only to be defined in described silicone rubber or silicone resin, can use the various materials of electrical insulating property yet.

According to the present invention, because having possessed heat is subjected to receiving part, become easy for element body portion from the heat conduction of temperature detection object, even so have to detector unit is configured in as in the past to not carrying out fully also obtaining being subjected to the heat conduction of receiving part under the locational situation of leaving a little apart from the temperature detection object of temperature-sensitive from temperature detection object thermotropism from the heat of temperature detection object.Therefore, because detected object and associated temperature detecting element can carry out combination like that effectively, so can carry out temperature detection accurately to the temperature detection object.

Claims

1. detector unit is characterized in that: comprising: element body portion, the heat that is arranged on the electrode part in the described element body portion and receives the heat of coming from the conduction of temperature detection object are subjected to receiving part.

2. detector unit according to claim 2 is characterized in that: it is chip-shaped that described element body portion and described electrode part and described heat are subjected to the global shape of receiving part.

3. detector unit according to claim 1 is characterized in that: described element body portion constitutes the part that has as the semistor function.

4. detector unit according to claim 4 is characterized in that: described element body portion constitutes Nogata body shape, has described heat and be subjected to receiving part at least one side on the surface of described element body portion.

5. detector unit according to claim 1 is characterized in that: be subjected to further to be provided with on the receiving part from the hot conductor of described temperature detection object conduction in described heat.

6. detector unit according to claim 1 is characterized in that: described heat is subjected to receiving part to have the metal film layer that contacts with the surperficial raw material non-resistance of described element body portion.

7. detector unit according to claim 6 is characterized in that: described heat is had by receiving part, has the infiltrating joint thin layer of scolding tin as the top layer of the metal film layer of described non-resistance contact.

8. detector unit according to claim 1 is characterized in that: be provided with insulation material layer on the surface of described element body portion, by getting involved described insulation material layer, be arranged on the surface of described element body portion by receiving part.

9. a circuit substrate is characterized in that: comprise described detector unit of claim 1 and the composition surface that can be subjected to the receiving part thermal with the described heat that described detector unit is had.