CN208862821U - A kind of miniaturization ODU receiving channel module - Google Patents
A kind of miniaturization ODU receiving channel module Download PDFInfo
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- CN208862821U CN208862821U CN201821657410.3U CN201821657410U CN208862821U CN 208862821 U CN208862821 U CN 208862821U CN 201821657410 U CN201821657410 U CN 201821657410U CN 208862821 U CN208862821 U CN 208862821U
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Abstract
The utility model discloses a kind of miniaturization ODU receiving channel modules, including box body and box cover, tray interior includes the upper chamber and lower cavity being isolated from each other, the cavity body filter being filtered to the radiofrequency signal of input is provided in upper chamber, the RF signal output of cavity body filter connects radio-frequency channel circuit, accommodate the intermediate frequency chamber for receiving intermediate-frequency channel circuit, and accommodate the power source cavity of power circuit, local oscillation circuit is provided in lower cavity, the intermediate-freuqncy signal that the radiofrequency signal of radio-frequency channel circuit output generates after being mixed with the local oscillation signal that local oscillation circuit generates is linked into intermediate-frequency channel circuit.The receiving channel module has advantage small in size, low in energy consumption, reliable and stable and that applicable band range is wide.
Description
Technical field
The utility model belongs to field of communication technology, more particularly to a kind of miniaturization ODU receiving channel module.
Background technique
In satellite communication equipment, ODU (Out-door Unit) refers to outdoor unit, mainly includes frequency transformation and function
Rate amplification, specific to be divided into transmission channel and receiving channel again, transmission channel typically refers to BUC (Block Up-
Converter), i.e., up-conversion radio-frequency power amplifier, receiving channel are primarily referred to as LNB (Low Noise Block down-
Converter), i.e. low noise amplification, frequency converter.
Receiving channel module typically refers to the channel module that down coversion is carried out to received radiofrequency signal, relates generally to low noise
The processing such as acoustical power amplification, frequency conversion, filtering, and working frequency range is high, frequency range span is big, usually in microwave or millimere-wave band,
The technique of signal processing is required high.In the prior art, for receiving channel module, not only volume is big, weight weight, and
External interface is more, and working performance is unreliable, and the channel frequence transformation of realization is also relatively simple, such as the local frequency of receiving channel
Be it is fixed nonadjustable, therefore, it is difficult to meet the multiduty application demand of miniaturization.
Utility model content
For the utility model mainly solving the technical problems that providing a kind of miniaturization ODU receiving channel module, solution is existing
Receiving channel module occupied space volume is big in technology, and circuit is complicated in a limited space, Electro Magnetic Compatibility is bad etc. asks
Topic.
In order to solve the above technical problems, the technical solution adopted in the utility model be to provide a kind of miniaturization ODU receive it is logical
Road module, closes the box cover of the box body including box body and lid, the tray interior include the upper chamber being isolated from each other and under
Portion's cavity, the corresponding box cover includes that the upper box cover of the lid conjunction upper chamber closes the lower casing of the lower cavity with lid;?
The cavity body filter being filtered to the radiofrequency signal of input, the radio frequency of the cavity body filter are provided in the upper chamber
Signal output end connects radio-frequency channel circuit, accommodates the intermediate frequency chamber for receiving intermediate-frequency channel circuit, and accommodate the electricity of power circuit
Source chamber is provided with local oscillation circuit in the lower cavity;The radiofrequency signal and the local oscillator of the radio-frequency channel circuit output
The intermediate-freuqncy signal generated after the local oscillation signal mixing that circuit generates is linked into the intermediate-frequency channel circuit.
In the utility model miniaturization another embodiment of ODU receiving channel module, the intermediate frequency chamber includes vertical and connects
Three points of logical chambers, wherein right side is that intermediate frequency first divides chamber, centre is that intermediate frequency second divides chamber, and left side is that intermediate frequency third divides chamber, institute
Stating intermediate frequency first divides chamber and intermediate frequency second to divide chamber height identical, and the intermediate frequency third is divided the height of chamber to be higher than the intermediate frequency first and divided
Chamber and intermediate frequency second divide chamber.
In the utility model miniaturization another embodiment of ODU receiving channel module, the cavity body filter is located at described
The left side of upper chamber, the intermediate frequency chamber are located at the right side of the cavity body filter, and the power source cavity is located at the intermediate frequency chamber
In first in frequency division chamber and second frequency division chamber upside, and divide chamber to be connected to the intermediate frequency second, the top edge of the power source cavity
Divide the top edge of chamber contour concordant with the intermediate frequency first, the cavity body filter is believed radio frequency is offered on external box portion outside
Number input port, the RF signal output are arranged in the cavity body filter on the right side of the intracorporal lower part of the upper chambers.
The utility model miniaturization another embodiment of ODU receiving channel module in, the radio-frequency channel circuit include with
First micro-strip of the RF signal output electrical connection, the first order of the other end electrical connection two-stage series connection of first micro-strip
NC1001C-812S low noise amplification chip and second level NC1001C-812S low noise amplification chip, the second level NC1001C-
812S low noise amplification chip is electrically connected image-reject filter backward, and the output end of the image-reject filter is micro- by second
Band electrical connection third level NC1001C-812S low noise amplification chip, the third level NC1001C-812S low noise amplification chip is backward
The radio-frequency head of mixing chip NC17111C-725M is electrically connected by third micro-strip.
In the utility model miniaturization another embodiment of ODU receiving channel module, second micro-strip is that curved arc shape is micro-
Band is switched to by the lateral setting of prime the radio-frequency channel circuit vertically arranged.
Institute in the utility model miniaturization another embodiment of ODU receiving channel module, in the lower cavity
The local oscillation signal output end for stating local oscillation circuit is linked into the upper chamber, is electrically connected amplification chip by the 4th micro-strip
The output end of CHA3666, the amplification chip CHA3666 connect local oscillator filter, and the local oscillator filter connects the mixing
The intermediate frequency end at the local oscillator end of chip NC17111C-725M, the mixing chip NC17111C-725M is linked by the 5th micro-strip
The signal input end of intermediate frequency of the intermediate frequency chamber.
In the utility model miniaturization another embodiment of ODU receiving channel module, the local oscillation signal of the local oscillation circuit
Output end connects the 4th micro-strip by insulator, and the 4th micro-strip is micro-strip with holes.
In the utility model miniaturization another embodiment of ODU receiving channel module, the image-reject filter and institute
Stating local oscillator filter is microstrip filter.
In the utility model miniaturization another embodiment of ODU receiving channel module, the intermediate frequency third divides the top of chamber
The external box portion outside is provided with intermediate-freuqncy signal delivery outlet, the top of the power source cavity is arranged to the external box portion outside
There is DC power supply access port, the top of the lower cavity is provided with reference signal input port and control to the external box portion outside
Signal input processed.
In the utility model miniaturization another embodiment of ODU receiving channel module, the local oscillation circuit includes successively going here and there
Frequency synthesizer, this vibration magnifier, local oscillator frequency multiplier and the local oscillator filter connect, the frequency synthesizer and monolithic are electromechanical
Connection, the single-chip microcontroller control the signal frequency of the generation of the frequency synthesizer, described vibration magnifier to the signal into
Row power amplification, then frequency multiplication is carried out by frequency of the local oscillator frequency multiplier to the signal, the local oscillator filter is then to frequency multiplication
Local oscillation signal afterwards is filtered output.
The beneficial effects of the utility model are: the utility model discloses a kind of miniaturization ODU receiving channel modules, including
Box body and box cover, tray interior include the upper chamber and lower cavity being isolated from each other, and are provided in upper chamber to input
The cavity body filter that is filtered of radiofrequency signal, the RF signal output of cavity body filter connects radio-frequency channel circuit, holds
Receive receive intermediate-frequency channel circuit intermediate frequency chamber, and accommodate power circuit power source cavity, be provided in lower cavity local oscillator electricity
Road, the intermediate-freuqncy signal access that the radiofrequency signal of radio-frequency channel circuit output generates after being mixed with the local oscillation signal that local oscillation circuit generates
To intermediate-frequency channel circuit.The receiving channel module has small in size, low in energy consumption, reliable and stable and wide applicable band range excellent
Gesture.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model miniaturization one embodiment of ODU receiving channel module;
Fig. 2 is the upper chamber composition schematic diagram in the utility model miniaturization another embodiment of ODU receiving channel module;
Fig. 3 is the lower cavity composition schematic diagram in the utility model miniaturization another embodiment of ODU receiving channel module;
Fig. 4 is the radio-frequency channel circuit portion grouping in the utility model miniaturization another embodiment of ODU receiving channel module
Cheng Tu;
Fig. 5 is the radio-frequency channel circuit portion grouping in the utility model miniaturization another embodiment of ODU receiving channel module
Cheng Tu;
Fig. 6 is the image-reject filter composition in the utility model miniaturization another embodiment of ODU receiving channel module
Figure;
Fig. 7 is the radio-frequency channel circuit portion grouping in the utility model miniaturization another embodiment of ODU receiving channel module
Cheng Tu;
Fig. 8 is the radio-frequency channel circuit portion grouping in the utility model miniaturization another embodiment of ODU receiving channel module
Cheng Tu;
Fig. 9 is the radio-frequency channel circuit portion grouping in the utility model miniaturization another embodiment of ODU receiving channel module
Cheng Tu;
Figure 10 is the local oscillation circuit part composition in the utility model miniaturization another embodiment of ODU receiving channel module
Figure;
Figure 11 is the insulator structure composition signal in the utility model miniaturization another embodiment of ODU receiving channel module
Figure;
Figure 12 is the local oscillator filter composition figure in the utility model miniaturization another embodiment of ODU receiving channel module;
Figure 13 is the local oscillation circuit composition block diagram in the utility model miniaturization another embodiment of ODU receiving channel module.
Specific embodiment
For the ease of understanding the utility model, in the following with reference to the drawings and specific embodiments, the utility model is carried out more detailed
Thin explanation.The preferred embodiment of the utility model is given in attached drawing.But the utility model can be with many different
Form is realized, however it is not limited to this specification described embodiment.On the contrary, purpose of providing these embodiments is makes to this
The understanding of the disclosure of utility model is more thorough and comprehensive.
It should be noted that unless otherwise defined, all technical and scientific terms used in this specification with belong to
The normally understood meaning of those skilled in the art of the utility model is identical.In the used in the description of the utility model
Term be only for the purpose of describing specific embodiments be not intended to limitation the utility model.
With reference to the accompanying drawing, each embodiment of the utility model is described in detail.
Fig. 1 shows that a kind of miniaturization ODU receiving channel module preferred embodiment, including box body 10 and lid close the box
The box cover of body includes the upper chamber and lower cavity being isolated from each other inside the box body 10, and the corresponding box cover includes that lid closes
The upper box cover 111 and lid of the upper chamber close the lower casing 112 of the lower cavity.Preferably, the volume of entire module is
60mm×50mm×14mm。
Further combined with Fig. 2, the cavity body filter being filtered to radio frequency is provided in the upper chamber 101
1011, the RF signal output 10111 of the cavity body filter 1011 connects radio-frequency channel circuit 1012, accommodates and receives intermediate frequency
The intermediate frequency chamber 1013 of channel circuit, and accommodate the power source cavity 1014 of power circuit.In the lower cavity 102 shown in Fig. 3
It is provided with local oscillation circuit, the via hole 1021 for passing through lower cavity and entering lower cavity is additionally provided in the cavity, passes through the mistake
Hole 1021 is arranged insulator and connects the output end of local oscillation circuit into upper chamber.What the radio-frequency channel circuit 1012 exported penetrates
The intermediate-freuqncy signal that frequency signal generates after being mixed with the local oscillation signal that the local oscillation circuit in lower cavity 102 generates accesses
To the intermediate-frequency channel circuit.
Further, as shown in Fig. 2, the intermediate frequency chamber 1013 includes vertical and connection three points of chambers, wherein right side is
Intermediate frequency first divides chamber 10131, and centre is that intermediate frequency second divides chamber 10132, and left side is that intermediate frequency third divides chamber 10133, the intermediate frequency the
One point of chamber 10131 and intermediate frequency second divide 10132 height of chamber identical, and the intermediate frequency third divides the height of chamber 10133 to be higher than in described
Frequently first point of chamber 10131 and intermediate frequency second divide chamber 10132.
Further, the cavity body filter 1011 is located at the left side of the upper chamber 101,1013, the intermediate frequency chamber
In the right side of the cavity body filter 1011, the power source cavity 1014 is located at frequency division chamber in the first of the intermediate frequency chamber 1013
The upside of frequency division chamber 10132 in 10131 and second, and divide chamber 10132 to be connected to the intermediate frequency second, the power source cavity 1014
Top edge divides the top edge of chamber 10133 contour concordant with the intermediate frequency third, the cavity body filter 1011 to external box body outside
Radiofrequency signal input port (the corresponding port RF 121 in Fig. 1) is offered in portion, the RF signal output 10111 is arranged
In the cavity body filter 1011 on the right side of the lower part in the upper chamber 101.
It is (right that the intermediate frequency third divides the top of chamber 10133 that the external box portion outside is provided with intermediate-freuqncy signal delivery outlet
Answer the port IF 122 in Fig. 1), it is (right that the top of the power source cavity to the external box portion outside is provided with DC power supply access port
Answer the port+5V 124 in Fig. 1), the top of the lower cavity is provided with reference signal input port to the external box portion outside
(port REF 123 in corresponding diagram 1) and control signal input (port CTRL 125 in corresponding diagram 1), control letter here
Frequency control word can be arranged in number input port to local oscillation circuit, and control local oscillation circuit can produce different local oscillation signal frequencies.
In addition, grounding ports are additionally provided with, the port GND 126 in corresponding diagram 1.
For radio-frequency channel circuit 1012 shown in Fig. 2, the refinement display of Fig. 4 further progress.It can from Fig. 4
Out, should be including the first micro-strip WD1 that radio-frequency channel circuit is electrically connected with the RF signal output 10111, described first is micro-
The other end with WD1 is electrically connected first order NC1001C-812S low noise amplification chip 213, and two NC1001C- in the circuit
The matched attenuator 215 of 3dB is also serially connected between 812S low noise amplification chip 213,214, and in the second level
It is also serially connected between the output end of NC1001C-812S low noise amplification chip 214 and the input port of image-reject filter
The matched attenuator 216 of 3dB.The power end of NC1001C-812S low noise amplification chip 213,214 connect respectively two it is independent
5V DC power supply terminal 217,218.It is supplied by providing independent 5V direct current to NC1001C-812S low noise amplification chip 213,214
Electricity can influence radio-frequency power amplification characteristic to avoid there is Interference from current therebetween.5V DC power supply terminal 217 connects
The capacitor 219 of 1000pF, 5V DC power supply terminal 218 also connect the capacitor 2110 of 1000pF, and capacitor 219 further with electricity
Hold 2110 connections, capacitor 2110 reconnects ground connection.Preferably, above-mentioned NC1001C-812S low noise amplification chip 213 and first
Between micro-strip WD1, between NC1001C-812S low noise amplification chip 213 and matched attenuator 215, matched attenuator 215 with
Between NC1001C-812S low noise amplification chip 214, NC1001C-812S low noise amplification chip 214 and matched attenuator
Between 216, between NC1001C-812S low noise amplification chip 213 and 5V DC power supply terminal 217, NC1001C-812S low noise
Between amplification chip 214 and 5V DC power supply terminal 218, between 5V DC power supply terminal 217 and capacitor 219,5V DC power supply terminal 218
It is to be carried out by least two spun golds between capacitor 2110, between capacitor 219 and capacitor 2110 and capacitor 2110 and ground
Electrical connection.Preferably, the diameter of spun gold here is 25um, is electrically connected in radio circuit by spun gold, Neng Gouti
The conductibility of firing frequency signal reduces transmission loss, although will increase cost, advantageously ensures that the radio frequency of radio circuit is special
Property.
Further, as shown in figure 5, the second level NC1001C-812S low noise amplification chip 214 is electrically connected mirror backward
As rejects trap 10125.The image-reject filter is microstrip filter.
As shown in fig. 6, the microstrip filter includes 7 U-shaped microwave metal tapes being arranged on ceramic substrate, it is described micro-
Wave metal tape is sequentially arranged at intervals and the distribution that is centrosymmetric, wherein Open Side Down and it is symmetrical to be located at for the first microwave metal tape 231
Center, the second microwave metal tape 232 and the equal opening upwards of third microwave metal tape 233, are located at first microwave
The left and right side of metal tape 231, Open Side Down and is located at the second microwave metal tape 232 for the 4th microwave metal tape 234
Left side, Open Side Down and is located at the right side of the third microwave metal tape 233, the 6th microwave metal for the 5th microwave metal tape 235
With 236 opening upwards and positioned at the left side of the 4th microwave metal tape 234, the left branch of the 6th microwave metal tape 236
On be laterally extended as first port 238,237 opening upwards of the 7th microwave metal tape and be located at the 5th microwave metal tape 235
Right side, be laterally extended as second port 239 on the right branch of the 7th microwave metal tape 237.
Preferably, the width of the first microwave metal tape 231 is 0.1mm, the length of left-hand branch and right-hand branch and
It is identical, it is 2.1mm, it is 1.13mm that top, which connects branch length, and the top connects two of the left and right end portions of branch
Turning is cut off by isosceles, obtained left cut while and length when right cut be 0.14mm, the first microwave metal tape 231 respectively with
The second microwave metal tape 232, third microwave metal tape 233 interval be 0.16mm.
It is further preferred that the second microwave metal tape 232 and the structure having the same of third microwave metal tape 233,
Wherein the left-hand branch of the second microwave metal tape 232 is identical with the left-hand branch length of the third microwave metal tape 233,
It is 2.1mm, the right-hand branch of the right-hand branch of the second microwave metal tape 232 and the third microwave metal tape 233 is long
It spends identical, is 2.1mm, 232 lower part of the second microwave metal tape connection branch connect with 233 lower part of third microwave metal tape
33 length of branch is identical, is 1.13mm, and lower part connection branch 23 connect the left and right end portions of branch 33 with lower part
Two turnings are cut off by isosceles, and the length of obtained trimming is identical, are 0.14mm.
The right-hand branch of the second microwave metal tape 232 and the left-hand branch of the first microwave metal tape 231 are contour
Concordantly, i.e., in the left-hand branch of the top edge of the right-hand branch of the second microwave metal tape 232 and the first microwave metal tape 231
The lower edge of the corresponding connection branch in end is concordant, at the same the lower edge of the left-hand branch of the first microwave metal tape 231 with
The top edge that branch is connected corresponding to the right-hand branch lower end of the second microwave metal tape 232 is concordant.Equally, the third
The left-hand branch of microwave metal tape 233 and the right-hand branch of the first microwave metal tape 231 are contour concordant.
In addition, being divided into 0.14mm, the third between the second microwave metal tape 232 and the 4th microwave metal tape 234
0.14mm is divided between microwave metal tape 233 and the 5th microwave metal tape 235.
It is further preferred that the 4th microwave metal tape 234 and the structure having the same of the 5th microwave metal tape 235,
And it is identical as the structure of the first microwave metal tape 231.Wherein, 234 left-hand branch of the 4th microwave metal tape and the 5th micro-
The length of 235 left-hand branch of wave metal tape is identical, is 2.1mm, 234 right-hand branch of the 4th microwave metal tape and the 5th micro-
The length of 235 right-hand branch of wave metal tape is identical, is 2.1mm, 234 top of the 4th microwave metal tape connection branch and the
Five microwave metal tapes, 235 top connection branch length is identical, is 1.13mm, and the left and right end of the two tops connection branch
Two turnings in portion are cut off by isosceles, and it is 0.14mm that the length of two obtained trimming is identical.The 4th microwave metal tape
234 right-hand branch and the left-hand branch of the second microwave metal tape 232 are contour concordant, the 5th microwave metal tape 235
Left-hand branch and the right-hand branch of the third microwave metal tape 233 it is contour concordant.
0.1mm is divided between the 4th microwave metal tape 234 and the 6th microwave metal tape 236, the described 5th is micro-
0.1mm is divided between wave metal tape 235 and the 7th microwave metal tape 237.
It is further preferred that the length of the right-hand branch of the 6th microwave metal tape 236 is 2.1mm, width is
0.1mm, the length of left-hand branch are 1.3mm, and width is 0.24mm, and bottom connection branch is divided into two sections, wherein positioned at left side
The length of first linkage section is 0.94mm, and width is 0.24mm, and the left hand corner of first linkage section is cut off by isosceles,
The length of obtained trimming is 0.34mm, and the length positioned at second linkage section on right side is 0.53mm, and width is 0.1mm, and
The right hand corner of second linkage section is cut off by isosceles, and the length of obtained trimming 6321 is 0.14mm.The first port
238 length is 1.55mm, and width is 0.25mm, and the first port 238 arrives the described of bottom connection branch below
The distance of the top of first linkage section is 0.1mm.
7th microwave metal tape 237 and the 6th microwave metal tape 236 above-mentioned structure having the same, in the microstrip antenna
In symmetrical distribution.Wherein, the length of the left-hand branch of the 7th microwave metal tape 237 is 2.1mm, and width is
0.1mm, the length of right-hand branch are 1.3mm, and width is 0.24mm, and bottom connection branch is divided into two sections, wherein positioned at right side
The length of first linkage section is 0.94mm, and width is 0.24mm, and the right hand corner of first linkage section is cut off by isosceles,
The length of obtained trimming is 0.34mm, and the length positioned at second linkage section in left side is 0.53mm, and width is 0.1mm, and
The left hand corner of second linkage section is cut off by isosceles, and the length of obtained trimming is 0.14mm.The second port 239
Length is 1.55mm, and width is 0.25mm, the following bottom to the 7th microwave metal tape 237 of the second port 239
The distance for connecting the top of first linkage section of branch is 0.1mm.Between first port 238 and second port 239 away from
From for 12.49mm, i.e., the length of the filter is 12.49mm.
It is further preferred that the frequency range of the image-reject filter is 10.7GHz-12.95GHz, passband insertion damage
Consumption≤3dB, Out-of-band rejection: in 7.25GHz-9.8GHz, inhibiting ratio >=60dB, in 10GHz, inhibits ratio >=40dB,
13.75GHz-14.5GHz inhibiting ratio >=40dB, VSWR≤1.3.
As shown in Figure 7 and Figure 8, the output end of the image-reject filter 10125 is electrically connected by the second micro-strip 10126
Third level NC1001C-812S low noise amplification chip 10127.Preferably, micro- in the image-reject filter 10125 and second
3dB attenuator is also serially connected between band 10126, and the second micro-strip 10126 is turning micro-strip, can be incited somebody to action by the turning micro-strip
The radio-frequency channel circuit switched to by the lateral setting of prime it is vertically arranged, it is possible thereby to can also be accommodated in a limited space
Entire radio-frequency channel circuit.
In Fig. 8, the third level NC1001C-812S low noise amplification chip 10127 is electrically connected by third micro-strip 10128
It is mixed the radio-frequency head of chip NC17111C-725M.And 10127 power pins of third level NC1001C-812S low noise amplification chip
It is also connection 5V voltage terminal 10124, which is also connected with 1000pF capacitor, which is electrically connected micro-strip again
It is grounded after 10129.
In Fig. 9, the radio-frequency head of mixing chip (NC17111C-725M) 101210 passes through 3dB attenuator and third micro-strip
10128 electrical connection connections, the output end of the local oscillator end connection local oscillator filter of the mixing chip 101210, and it is mixed chip
101210 intermediate frequency end is linked into the signal input end of intermediate frequency of the intermediate frequency chamber by the 5th micro-strip 10134.
Further, as shown in Figure 10, the local oscillation signal output end of the local oscillation circuit in the lower cavity
It is linked into the upper chamber by insulator 10151, passes through the 4th micro-strip 10152 (for micro-strip with holes) electrical connection amplification core
Piece CHA3666, i.e. amplification chip 10153 shown in Figure 10.Preferably, it is also in series with 3dB attenuator therebetween.The amplification
The output end of chip 10153 connects local oscillator filter 10155.Preferably, which is microstrip filter.From
It can also be seen that two power ends D1, D2 of amplification chip CHA3666 connect 5V voltage terminal 10150 in succession respectively in Figure 10,
And one 1000pF capacitor of connection, the capacitor are grounded the two terminals after connecting micro-strip 10154 again jointly.
Here, the structure of the insulator of use is as shown in figure 11, including cylindrical metal outer wall J2, insulating layer J3 and spun gold
J1.The surface layer of metal outer wall J2 be it is gold-plated, punch in the metallic walls between two cavitys, be then inserted into the insulator
Hole simultaneously welds metal outer wall and via hole, makes spun gold J1 and the mutually isolated insulation of metal outer wall J2 again by insulating layer, and golden
Silk J1 is then used for circuit connection.Here insulator connection is microstrip line with holes.It can be to avoid tradition by insulator connection
It is attached in box portion outside by feeder line in method, is conducive to the volume for reducing integral module.
Further, as shown in figure 12, the local oscillator filter is microstrip filter.The structure of the microstrip filter includes
The U-shaped microwave metal tape of 5 be arranged on ceramic substrate, the microwave metal tape are sequentially arranged at intervals and are centrosymmetric point
Cloth, wherein the first microwave metal tape P41 opening upwards and be located at symmetrical centre, the second microwave metal tape P42 and third are micro-
Open Side Down by wave metal tape P43, is located at the left and right side of the first microwave metal tape P41, the 4th microwave metal
With P44 opening upwards and positioned at the left side of the second microwave metal tape P42, the left branch of the 4th microwave metal tape P44
On be laterally extended as first port P46, the 5th microwave metal tape P45 opening upwards and be located at the third microwave metal tape P43
Right side, be laterally extended as second port P47 on the right branch of the 5th microwave metal tape P45.
Preferably, the width of the first microwave metal tape P41 is 0.13mm, the length of left-hand branch and right-hand branch and
It is identical, it is 2.5mm, it is 1.21mm that lower part, which connects branch length, and the lower part connects two of the left and right end portions of branch
Turning is cut off by isosceles, obtained left cut while and length when right cut be 0.18mm, the first microwave metal tape P41 with it is described
Second microwave metal tape P42, third microwave metal tape P43 interval be 0.14mm.
It is further preferred that the second microwave metal tape P42 and third microwave metal tape P43 structure having the same,
Wherein the left-hand branch of the second microwave metal tape P42 is identical with the left-hand branch length of the third microwave metal tape P43,
It is 2.5mm, the right-hand branch of the right-hand branch of the second microwave metal tape P42 and the third microwave metal tape P43 are long
It spends identical, is 2.5mm, the second microwave top metal tape P42 connection branch connect with the top third microwave metal tape P43
Identical branch length is 1.21mm, and top connection branch connect two turnings of the left and right end portions of branch with top
It is cut off by isosceles, the length of obtained trimming is identical, is 0.18mm.
The right-hand branch of the second microwave metal tape P42 and the left-hand branch of the first microwave metal tape P41 are contour
Concordantly, i.e., under the left-hand branch of the lower edge of the right-hand branch of the second microwave metal tape P42 and the first microwave metal tape P41
The top edge of the corresponding connection branch in end is concordant, at the same the top edge of the left-hand branch of the first microwave metal tape P41 with
The lower edge that branch is connected corresponding to the right-hand branch upper end of the second microwave metal tape P42 is concordant.Equally, the third
The left-hand branch of microwave metal tape P43 and the right-hand branch of the first microwave metal tape P41 are contour concordant.
0.1mm, and described are divided between the second microwave metal tape P42 and the 4th microwave metal tape P44
Three microwave metal tape P43 and the interval of the 5th microwave metal tape P45 with it is identical and be 0.1mm.
Preferably, the length of the right-hand branch of the 4th microwave metal tape P44 is 2.5mm, and width is 0.13mm, left side
The length of branch is 1.65mm, and width is 0.24mm, and bottom connection branch is divided into two sections, wherein the first connection positioned at left side
The length of section is 1.05mm, and width is 0.24mm, and the left hand corner of first linkage section is cut off by isosceles, and what is obtained cuts
The length on side is 0.34mm, and the length positioned at second linkage section on right side is 0.56mm, and width is 0.13mm, and described second
The right hand corner of linkage section is cut off by isosceles, and the length of obtained trimming is 0.18mm.
It is further preferred that the length of the first port P46 is 0.76mm, width is 0.25mm, the first port
The distance of the top of first linkage section for arriving bottom connection branch below of P46 is 0.1mm.
Preferably, the 4th microwave metal tape P44 and the 5th microwave metal tape P45 structure having the same, the two are closed
In the left-hand branch length of the symmetrical distribution in microstrip antenna center, the 5th microwave metal tape P45 be 2.5mm, it is wide
Degree is 0.13mm, and the length of right-hand branch is 1.65mm, and width is 0.24mm, and bottom connection branch is divided into two sections, wherein is located at
The length of first linkage section on right side is 1.05mm, and width is 0.24mm, and the right hand corner of first linkage section by etc.
Waist excision, the length of obtained trimming is 0.34mm, and the length positioned at second linkage section in left side is 0.56mm, and width is
0.13mm, and the left hand corner of second linkage section is cut off by isosceles, and the length of obtained trimming is 0.18mm.
It is further preferred that the first port P46 and second port P47 structure having the same, the two is about micro-strip
The symmetrical distribution in center, the length of the second port P47 are 0.76mm, and width is 0.25mm, the second port P47
The distance of top of first linkage section for arriving bottom connection branch below be 0.1mm, distance is 0.1mm here,
In different embodiments, which can be a variety of numerical value, and such as 0.2mm, 0.3mm are not limited in the present embodiment.The first end
Mouth the distance between P46 and second port P47, that is to say that the length of the local oscillator microstrip filter is 8.85mm.
It is further preferred that the thickness of the first microwave metal tape P41 to the 5th microwave metal tape P45 are
0.13mm, the thickness of the ceramic substrate are 0.254mm.
It is further preferred that the bandpass filtering range of the local oscillator microstrip filter is 9.75GHz-10.6GHz, passband is inserted
Enter loss≤3dB, VSWR≤1.3, Out-of-band rejection is: within the scope of 5GHz-6.56GHz, inhibiting ratio >=55dBc, in 15GHz-
Within the scope of 16.95GHz, inhibit ratio >=55dBc.
Preferably, as shown in figure 13, the local oscillation circuit include the frequency synthesizer P1 being sequentially connected in series, this vibration magnifier P2,
Local oscillator frequency multiplier P3 and local oscillator filter P4, the frequency synthesizer are also electrically connected with single-chip microcontroller P0, the single-chip microcontroller P0 control
The signal frequency of the generation of the frequency synthesizer, described vibration magnifier P2 carry out power amplification to the signal, then by institute
State local oscillator frequency multiplier P3 and frequency multiplication carried out to the frequency of the signal, the local oscillator filter P4 then to the local oscillation signal after frequency multiplication into
Row filtering output.
The frequency for the signal that the local oscillation circuit can synthesize frequency synthesizer by single-chip microcontroller is configured or changes, and makes
Obtaining the frequency values that the local oscillation circuit generates can change, and adapt to a variety of application demands.In addition, using integrated circuit in the local oscillation circuit
Component reduces the separating component in peripheral circuit, can there is smaller volume.
The radio frequency signal frequency range of above-mentioned radio-frequency channel circuit input is 10.7GHz-12.75GHz, local frequency range
9.75GHz-10.6GHz, the frequency range of intermediate-freuqncy signal is in 950MHz-2150MHz.
Based on above embodiments, the utility model discloses a kind of miniaturization ODU receiving channel modules, including box body and box
Lid, tray interior includes the upper chamber and lower cavity being isolated from each other, and the radio frequency letter to input is provided in upper chamber
The RF signal output of number cavity body filter being filtered, cavity body filter connects radio-frequency channel circuit, accommodates in receiving
The intermediate frequency chamber of frequency channel circuit, and the power source cavity of power circuit is accommodated, local oscillation circuit is provided in lower cavity, radio frequency is logical
It is logical that the intermediate-freuqncy signal that the radiofrequency signal of road circuit output generates after being mixed with the local oscillation signal that local oscillation circuit generates is linked into intermediate frequency
Road circuit.The receiving channel module has advantage small in size, low in energy consumption, reliable and stable and that applicable band range is wide.
The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all
Equivalent structure transformation made based on the specification and figures of the utility model, it is relevant to be applied directly or indirectly in other
Technical field is included in the scope of patent protection of the utility model.
Claims (10)
1. a kind of miniaturization ODU receiving channel module closes the box cover of the box body including box body and lid, which is characterized in that
The tray interior includes the upper chamber and lower cavity being isolated from each other, and the corresponding box cover includes that lid closes the top
The upper box cover and lid of cavity close the lower casing of the lower cavity;
The cavity body filter being filtered to the radiofrequency signal of input, the cavity body filter are provided in the upper chamber
RF signal output connect radio-frequency channel circuit, accommodate receive intermediate-frequency channel circuit intermediate frequency chamber, and accommodate power supply electricity
The power source cavity on road is provided with local oscillation circuit in the lower cavity;
During the radiofrequency signal of the radio-frequency channel circuit output generates after being mixed with the local oscillation signal that the local oscillation circuit generates
Frequency signal is linked into the intermediate-frequency channel circuit.
2. miniaturization ODU receiving channel module according to claim 1, which is characterized in that the intermediate frequency chamber includes vertical
And three points of chambers of connection, wherein right side is that intermediate frequency first divides chamber, centre is that intermediate frequency second divides chamber, and left side is intermediate frequency third point
Chamber, the intermediate frequency first divide chamber and intermediate frequency second to divide chamber height identical, and the intermediate frequency third divides the height of chamber to be higher than the intermediate frequency
First point of chamber and intermediate frequency second divide chamber.
3. miniaturization ODU receiving channel module according to claim 2, which is characterized in that the cavity body filter is located at
The left side of the upper chamber, the intermediate frequency chamber are located at the right side of the cavity body filter, and the power source cavity is located at the intermediate frequency
In the first of chamber in frequency division chamber and second frequency division chamber upside, and divide chamber to be connected to the intermediate frequency second, the power source cavity it is upper
Edge divides the top edge of chamber contour concordant with the intermediate frequency first, and the cavity body filter is penetrated to offering on external box portion outside
Frequency signal input, the RF signal output are arranged in the cavity body filter in the intracorporal lower right of the upper chambers
Side.
4. miniaturization ODU receiving channel module according to claim 3, which is characterized in that the radio-frequency channel circuit packet
Include the first micro-strip being electrically connected with the RF signal output, the of the other end electrical connection two-stage series connection of first micro-strip
Level-one NC1001C-812S low noise amplification chip and second level NC1001C-812S low noise amplification chip, the second level
NC1001C-812S low noise amplification chip is electrically connected image-reject filter backward, and the output end of the image-reject filter is logical
Cross the second micro-strip electrical connection third level NC1001C-812S low noise amplification chip, the third level NC1001C-812S low noise amplification
Chip goes backward through the radio-frequency head of third micro-strip electrical connection mixing chip NC17111C-725M.
5. miniaturization ODU receiving channel module according to claim 4, which is characterized in that second micro-strip is curved arc
Type micro-strip is switched to by the lateral setting of prime the radio-frequency channel circuit vertically arranged.
6. miniaturization ODU receiving channel module according to claim 5, which is characterized in that be located in the lower cavity
The local oscillation signal output end of the local oscillation circuit be linked into the upper chamber, pass through the 4th micro-strip and be electrically connected amplification chip
The output end of CHA3666, the amplification chip CHA3666 connect local oscillator filter, and the local oscillator filter connects the mixing
The intermediate frequency end at the local oscillator end of chip NC17111C-725M, the mixing chip NC17111C-725M is linked by the 5th micro-strip
The signal input end of intermediate frequency of the intermediate frequency chamber.
7. miniaturization ODU receiving channel module according to claim 6, which is characterized in that the local oscillator of the local oscillation circuit
Signal output end connects the 4th micro-strip by insulator, and the 4th micro-strip is micro-strip with holes.
8. miniaturization ODU receiving channel module according to claim 7, which is characterized in that the image-reject filter
It is microstrip filter with the local oscillator filter.
9. miniaturization ODU receiving channel module according to claim 8, which is characterized in that the intermediate frequency third divides chamber
Top is provided with intermediate-freuqncy signal delivery outlet to the external box portion outside, and the top of the power source cavity is to the external box portion outside
It is provided with DC power supply access port, the top of the lower cavity is provided with reference signal input port to the external box portion outside
With control signal input.
10. miniaturization ODU receiving channel module according to claim 9, which is characterized in that the local oscillation circuit include according to
Frequency synthesizer, this vibration magnifier, local oscillator frequency multiplier and the local oscillator filter of secondary concatenation, the frequency synthesizer and monolithic
Mechatronics, the single-chip microcontroller control the signal frequency of the generation of the frequency synthesizer, and described vibration magnifier is to the letter
Number power amplification is carried out, then frequency multiplication is carried out to the frequency of the signal by the local oscillator frequency multiplier, the local oscillator filter is then right
Local oscillation signal after frequency multiplication is filtered output.
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Cited By (2)
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CN109150218A (en) * | 2018-10-12 | 2019-01-04 | 南京屹信航天科技有限公司 | A kind of miniaturization ODU receiving channel module |
CN110426699A (en) * | 2019-07-31 | 2019-11-08 | 中国科学院上海微***与信息技术研究所 | A kind of front end system and preparation method thereof of plate two-band detector |
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2018
- 2018-10-12 CN CN201821657410.3U patent/CN208862821U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109150218A (en) * | 2018-10-12 | 2019-01-04 | 南京屹信航天科技有限公司 | A kind of miniaturization ODU receiving channel module |
CN109150218B (en) * | 2018-10-12 | 2024-02-23 | 南京屹信航天科技有限公司 | Miniaturized ODU receiving channel module |
CN110426699A (en) * | 2019-07-31 | 2019-11-08 | 中国科学院上海微***与信息技术研究所 | A kind of front end system and preparation method thereof of plate two-band detector |
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Address after: Room 704-717, building C, Huirong Business Plaza, No. 26 Hefeng Road, Xinwu District, Wuxi City, Jiangsu Province, 214000 Patentee after: Jiangsu Yixin Aerospace Technology Co.,Ltd. Address before: 211135 300 Chi Hui Road, Qilin science and Technology Innovation Park, Jiangning District, Nanjing, Jiangsu Patentee before: NANJING YIXIN AEROSPACE TECHNOLOGY Co.,Ltd. |