CN2738257Y - On-line microwave power micromechanical sensor - Google Patents
On-line microwave power micromechanical sensor Download PDFInfo
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- CN2738257Y CN2738257Y CN 200420079617 CN200420079617U CN2738257Y CN 2738257 Y CN2738257 Y CN 2738257Y CN 200420079617 CN200420079617 CN 200420079617 CN 200420079617 U CN200420079617 U CN 200420079617U CN 2738257 Y CN2738257 Y CN 2738257Y
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- microwave power
- transmission line
- mechanical sensor
- micro mechanical
- power micro
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Abstract
Disclosed is an on-line microwave power micromechanical sensor, which is a device used for realizing on-line microwave power detection. The sensor comprises a micro strip line directional coupler, a microwave power amplifier, and a microwave power micro-mechanical sensor which are connected in series. The micro strip line directional coupler (1) comprises one main transmission line (11) and one minor transmission line (12); the minor transmission line (12) is connected with the input end of the microwave power amplifier (2) through an input coplanar waveguide (21), and the output end of the microwave power amplifier (2) is connected with the input end of the microwave power micro-mechanical sensor (3) by an output coplanar waveguide (22). The structure of the micro strip line directional coupler (1) is the bottom is provided with a ground plate (13) on which a GaAs substrate (15) is arranged; the main transmission line (11) and the minor transmission line (12) are arranged on a dielectric layer (14), wherein the main transmission line (11) is a straight belt, and the minor transmission line (12) is a C-shaped belt.
Description
Technical field
The utility model is a kind of device that is used to realize online microwave power detection, belongs to the technical field that microelectronic component is made.
Background technology
In research of microwave technology, microwave power is an important parameter that characterizes the microwave signal feature.In the research of each links such as generation, transmission and reception of microwave signal, the on-line measurement of microwave power is absolutely necessary, and it has become the important component part of electromagnetic measurement.In microwave circuit, be accompanied by the rising of system frequency, microwave device low-cost, miniaturization has been proposed new requirement, and the complanation that various transmission line such as microstrip line, strip line, co-planar waveguide (CPW) wait makes to design to have more dirigibility.In many application, require microwave device to integrate with digital-to-analog circuit, obvious above-mentioned small size plane component can be integrated by microelectronic technique and digital-to-analog circuit, and along with micromachining technology constantly develops, it also is applied in the microwave regime now more and more, this just makes various passive microwave elements can use the micromachining technology manufacturing, thereby realizes the integrated of microwave component and digital-to-analog circuit.Three parts of online microwave power micro mechanical sensor are exactly to realize by microstrip line directional coupler, microwave power amplifier and microwave power micro mechanical sensor respectively.
Summary of the invention
Technical matters: the purpose of this utility model provides a kind of online microwave power micro mechanical sensor that utilizes the online detection microwave power of microelectronic technique making.Use this device and can be implemented in all many-sided requirements such as material, technology, reliability, repeatability and production cost, and provide support and assurance for being implemented in the commercial application of linear heat generation rate detection in integrated circuit.
Technical scheme: online microwave power micro mechanical sensor of the present utility model is made of microstrip line directional coupler, microwave power amplifier, three parts of microwave power micro mechanical sensor, at first by the sub-fraction power signal on the power coupling taking-up main transmission line of microstrip line directional coupler, then by the power amplification of microwave power amplifier with taking-up, power signal after will amplifying at last inserts indirect heating terminal type microwave power micro mechanical sensor, realizes online microwave power detection.
Online microwave power micro mechanical sensor of the present utility model utilizes microelectronic technique to make, and makes entire device to be embedded in the microwave integrated circuit and goes, and has realized the online detection of microwave power, and can be according to different index flexible design.This sensor is made of microstrip line directional coupler, microwave power amplifier, three part series connection of microwave power micro mechanical sensor; Wherein, microstrip line directional coupler comprises a main transmission line and a secondary transmission line, secondary transmission line is connected with the input end of microwave power amplifier by the input co-planar waveguide, and the output terminal of microwave power amplifier is connected with the input end of microwave power micro mechanical sensor by the output co-planar waveguide.
The structure of microstrip line directional coupler is: the bottom surface is the GaAs substrate, being ground plate above the GaAs substrate, is dielectric layer above the ground plate, is main transmission line and secondary transmission line above the dielectric layer, wherein main transmission line is a straight band shape, and secondary transmission line is the band shape of " C " shape.Microwave power amplifier is that MESFET (metal-semiconductor field effect transistor) constitutes.
Microwave power micro mechanical sensor adopts indirect heating terminal type microwave power micro mechanical sensor, its structure is: on GaAs (arsenicization is sowed) substrate the AlGaAs thermode that much is arranged side by side is arranged, it between the two AlGaAs thermodes SiON (nitrogen-oxygen-silicon) dielectric layer, be connected to form thermoelectric pile by N type GaAs bonding coat between the two ends of AlGaAs thermode and the metal fever electrode, there are one deck dielectric layer in the thermoelectric pile and the superiors as between NiCr (nickel-chrome) metal level of terminal resistance, are DC voltage output press welding block at the thermoelectric pile output terminal.
The structure of online microwave power micro mechanical sensor, distinguish whether to be the standard of this structure as follows:
1) the power coupling unit is that the microstrip line directional coupler that adopts microelectronic technique to make is realized, this directional coupler adopts the coupling microstrip line structure, being specially the bottom surface is the GaAs substrate, be ground plate above the GaAs substrate, it above the ground plate dielectric layer, above the dielectric layer structure of main transmission line and secondary transmission line;
2) power measurement partly is to realize by indirect heating terminal type microwave power micro mechanical sensor, structure realizes the input of power for adopting the micromechanics co-planar waveguide, the terminator that matches is arranged in the co-planar waveguide terminal, adopt micro mechanical thermopile to realize the measurement of heat, thermoelectric pile is positioned at the terminator below, has the high heat conductance insulating medium between thermoelectric pile and terminator.
The structure that satisfies above two conditions promptly should be considered as the structure of online microwave power micro mechanical sensor.
Beneficial effect: owing to the singularity of microwave power micro mechanical sensor structure, its large-scale production that is applied to integrated circuit exists and a series of obstacles such as incompatible, the repeatable poor reliability of main flow technology, production cost height for a long time.Online microwave power micro mechanical sensor structure among the present invention has broken through the thinking restriction of traditional structure and technology, has searched out the implementation method based on GaAs MMIC technology, and therefore feasible entire device is embedded into goes to become possibility in the microwave integrated circuit.Simultaneously, implementation method based on GaAs MMIC technology makes the repeatability of device and reliability all be greatly improved, production cost significantly reduces, and have that the linearity is good, power precision height, response speed is fast, volume is little, flexible design, can measure advantages such as smaller power.
Based on the characteristics of the above online microwave power micro mechanical sensor, the present invention is easy to realize high reliability, high duplication, low production cost and the integrated requirement of device as can be seen.Therefore, online microwave power micro mechanical sensor has using value and vast market potentiality preferably.
Description of drawings
Fig. 1 is online microwave power micro mechanical sensor structural representation.
Fig. 2 is microstrip line directional coupler structural representation (sectional view is along A-A section among Fig. 1).
Fig. 3 is indirect heating terminal type microwave power micro mechanical sensor structural representation (sectional view is along B-B section among Fig. 1).
Fig. 4 is indirect heating terminal type microwave power micro mechanical sensor structural representation (sectional view is along C-C section among Fig. 1).
Fig. 5 is indirect heating terminal type microwave power micro mechanical sensor structural representation (sectional view is along D-D section among Fig. 1).
Fig. 6 be indirect heating terminal type microwave power micro mechanical sensor under the fixed frequency condition, output concerns synoptic diagram with power.
Fig. 7 be indirect heating terminal type microwave power micro mechanical sensor under the constant power condition, output concerns synoptic diagram with frequency.
Have among the above figure: microstrip line directional coupler 1, main transmission line 11, secondary transmission line 12, ground plate 13, dielectric layer 14, GaAs substrate 15, matched load 16;
Microwave power amplifier 2, input co-planar waveguide 21, output co-planar waveguide 22;
Microwave power micro mechanical sensor 3, GaAs substrate 31, AlGaAs thermode 32, SiON dielectric layer 33, metal fever electrode 34, bonding coat 35, dielectric layer 36, NiCr metal level 37, press welding block 38.
Embodiment
The structure of online microwave power micro mechanical sensor is made of microstrip line directional coupler 1, microwave power amplifier 2,3 three part series connection of microwave power micro mechanical sensor; Wherein, microstrip line directional coupler 1 comprises a main transmission line 11 and a secondary transmission line 12, secondary transmission line 12 is connected with the input end of microwave power amplifier 2 by input co-planar waveguide 21, and the output terminal of microwave power amplifier 2 is connected with the input end of microwave power micro mechanical sensor 3 by output co-planar waveguide 22.
The structure of microstrip line directional coupler 1 is: the bottom surface is a GaAs substrate 15, it above the GaAs substrate 15 ground plate 13, it above the ground plate 13 dielectric layer 14, above the dielectric layer 14 main transmission line 11 and secondary transmission line 12, wherein main transmission line 11 is a straight band shape, and secondary transmission line 12 is the band shape of " C " shape.
Microwave power amplifier is that MESFET (metal-semiconductor field effect transistor) constitutes.
Microwave power micro mechanical sensor 3 adopts indirect heating terminal type microwave power micro mechanical sensor, its structure is: the AlGaAs thermode 32 that much is arranged side by side is arranged on GaAs substrate 31, be SiON dielectric layer 33 between two thermodes 32, between the two ends of AlGaAs thermode 32 and metal fever electrode 34, be connected to form thermoelectric pile as bonding coat 35 by N type GaAs, there are one deck dielectric layer 36 in the thermoelectric pile and the superiors as between the NiCr metal level 37 of terminal resistance, are DC voltage output press welding block 38 at the thermoelectric pile output terminal.
We have designed the implementation based on the online microwave power micro mechanical sensor of GaAs MMIC technology.The concrete grammar of realizing this device is:
The concrete processing step and the parameter that realize microstrip line directional coupler based on GaAs MMIC technology are as follows:
1) prepares GaAs substrate (400 μ m)
2) depositing metal and photoetching, etch the ground plate of coupled microstrip line
3) dielectric layer deposited, photoetching, etching obtain the dielectric layer of coupled microstrip line
4) depositing metal and photoetching, etch the conductor belt of coupled microstrip line, concrete size is determined by indexs such as the centre frequency and the degrees of coupling, photoetching when obtaining conductor belt, the input co-planar waveguide that etches microwave power amplifier and output co-planar waveguide
The concrete processing step of realizing microwave power amplifier based on GaAs MMIC technology adopts the GaAsMESFET standard technology.
Claims (4)
1, a kind of online microwave power micro mechanical sensor is characterized in that this sensor is made of microstrip line directional coupler (1), microwave power amplifier (2), (3) three part series connection of microwave power micro mechanical sensor; Wherein, microstrip line directional coupler (1) comprises a main transmission line (11) and a secondary transmission line (12), secondary transmission line (12) is connected with the input end of microwave power amplifier (2) by input co-planar waveguide (21), and the output terminal of microwave power amplifier (2) is connected with the input end of microwave power micro mechanical sensor (3) by output co-planar waveguide (22).
2, online microwave power micro mechanical sensor according to claim 1, the structure that it is characterized in that microstrip line directional coupler (1) is: the bottom surface is ground plate (13), above the ground plate (13) GaAs substrate (15), above the dielectric layer (14) main transmission line (11) and secondary transmission line (12), wherein main transmission line (11) is a straight band shape, and secondary transmission line (12) is the band shape of " C " shape.
3, online microwave power micro mechanical sensor according to claim 1 is characterized in that microwave power amplifier is that metal-semiconductor field effect transistor constitutes.
4, online microwave power micro mechanical sensor according to claim 1, it is characterized in that microwave power micro mechanical sensor (3) adopts indirect heating terminal type microwave power micro mechanical sensor, its structure is: the AlGsAs thermode (32) that much is arranged side by side is arranged on GaAs substrate (31), between two thermodes (32) SiON dielectric layer (33), between the two ends of AlGsAs thermode (32) and metal fever electrode (34), be connected to form thermoelectric pile as bonding coat (35) by N type GaAs, there are one deck dielectric layer (36) in the thermoelectric pile and the superiors as between the NiCr metal level (37) of terminal resistance, are DC voltage output press welding block (38) at the thermoelectric pile output terminal.
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CN 200420079617 CN2738257Y (en) | 2004-09-20 | 2004-09-20 | On-line microwave power micromechanical sensor |
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CN 200420079617 CN2738257Y (en) | 2004-09-20 | 2004-09-20 | On-line microwave power micromechanical sensor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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US10980088B2 (en) | 2018-01-22 | 2021-04-13 | Markov Llc | Energy absorption monitoring for an intelligent electronic oven with energy steering |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10980088B2 (en) | 2018-01-22 | 2021-04-13 | Markov Llc | Energy absorption monitoring for an intelligent electronic oven with energy steering |
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