CN216248435U - Butterfly device with 25G high-frequency radio frequency receiving and transmitting functions - Google Patents
Butterfly device with 25G high-frequency radio frequency receiving and transmitting functions Download PDFInfo
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- CN216248435U CN216248435U CN202122773056.9U CN202122773056U CN216248435U CN 216248435 U CN216248435 U CN 216248435U CN 202122773056 U CN202122773056 U CN 202122773056U CN 216248435 U CN216248435 U CN 216248435U
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Abstract
The utility model discloses a butterfly-shaped device with 25G high-frequency radio frequency receiving and transmitting functions, which comprises a square shell, a power inlet terminal, a power outlet terminal, a refrigerator, a tungsten-copper heat sink layer, a microstrip circuit, a lens and isolator assembly, a 45-degree semi-transparent semi-reflective filter, a 45-degree fully-reflective filter, an MC photoelectric converter, an optical fiber head, a power supply pin and a power supply terminal group, wherein the microstrip circuit is electrically communicated with the power inlet terminal; through triggering built-in chip of microstrip circuit and sending out light from the output of optic fibre through lens, filter etc. it receives through two lenses and converter again to have the light source, realizes receiving and two kinds of functions of transmission, and whole small, the simple efficient of installation, the integrated level is high, effectively satisfies the operation requirement.
Description
Technical Field
The utility model belongs to the field of electronic communication, and particularly relates to a butterfly-shaped device which has the advantages of compact structure, small volume, convenient and efficient installation and high integration level and has 25G high-frequency radio frequency receiving and transmitting functions.
Background
Butterfly device in the laser instrument generally only has high frequency radio frequency transmission function, but some equipment still need take light receiving's function, just so need combine to use with the optical receiver, and this kind of integrated configuration can satisfy certain operation requirement, but also has great defect, and the integrated configuration is whole bulky, and the troublesome inefficiency of later stage installation, the integrated level is low, can't effectively satisfy operation requirement.
The utility model aims to provide a butterfly-shaped device which has the advantages of high-frequency radio frequency receiving and transmitting, small overall size, simple installation, high efficiency and high integration level and can effectively meet the use requirement.
SUMMERY OF THE UTILITY MODEL
In order to solve the problems that the combined structure in the prior art is large in overall size, troublesome in later-stage installation, low in efficiency, low in integration level, incapable of effectively meeting the use requirement and the like, the utility model adopts the following technical scheme:
the utility model provides a butterfly-shaped device with 25G high-frequency radio frequency receiving and transmitting functions, which comprises a square shell, an electric inlet terminal, an electric outlet terminal, a refrigerator, a tungsten-copper heat sink layer, a micro-strip circuit with a built-in chip, a lens and isolator assembly, a 45-degree semi-transparent semi-reflective filter, a 45-degree fully-reflective filter, an MC photoelectric converter, an optical fiber head, a power supply pin for the micro-strip circuit and a power supply terminal group for the refrigerator, wherein the electric inlet terminal and the electric outlet terminal are arranged at the top of the square shell, the optical fiber head is coupled and arranged at the bottom of the square shell, the tungsten-copper heat sink layer is attached to the upper surface of the refrigerator and arranged in the square shell, the micro-strip circuit, the lens and isolator assembly, the 45-degree semi-reflective filter, the 45-reflective filter and the MC photoelectric converter are all arranged on the tungsten-copper heat sink layer, and the micro-strip circuit is electrically communicated with the electric inlet terminal, lens and isolator assembly, 45 semi-transparent semi-reflective filter plate arrange in proper order and distribute and just be located the microstrip circuit below on same vertical line, 45 all-reflective filter plate, MC photoelectric converter arrange in proper order and distribute on same vertical line, MC photoelectric converter and play electric terminal electric property intercommunication, the power supply pin sets up square casing one side and communicates with microstrip circuit electric property, power supply terminal group sets up at square casing opposite side and communicates with the refrigerator electric property.
The utility model has the beneficial effects that: through triggering built-in chip of microstrip circuit and sending out light from the output of optic fibre through lens, filter etc. it receives through two lenses and converter again to have the light source, realizes receiving and two kinds of functions of transmission, and whole small, the simple efficient of installation, the integrated level is high, effectively satisfies the operation requirement.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of the present invention.
Fig. 2 is a circuit diagram of the microstrip circuit of the present invention.
Detailed Description
Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
Referring to fig. 1, a butterfly-shaped device with 25G high-frequency rf receiving and transmitting function includes a square housing 1, a power-in terminal 2, a power-out terminal 3, a refrigerator 4, a tungsten-copper heat sink layer 5, a micro-strip circuit 6 with a built-in chip, a lens and isolator assembly 7, a 45 ° transflective filter 8, a 45 ° transflective filter 9, an MC photoelectric converter 10, an optical fiber head 11, a power supply pin 12 for a micro-strip circuit and a power supply terminal assembly 13 for a refrigerator, wherein the power-in terminal 2 and the power-out terminal 3 are both disposed on the top of the square housing 1, the optical fiber head 11 is coupled to the bottom of the square housing 1, the tungsten-copper heat sink layer 5 is attached to the upper surface 4 of the refrigerator and disposed in the square housing 1, the micro-strip circuit 6, the lens and isolator assembly 7, the 45 ° transflective filter 8, the 45 ° transflective filter 9 and the MC photoelectric converter 10 are all disposed on the tungsten-copper heat sink layer 5, the micro-strip circuit 6 is electrically communicated with the power-in terminal 2, the lens and isolator assembly 7 and the 45-degree semi-transparent and semi-reflective filter 8 are sequentially distributed on the same vertical line and positioned below the micro-strip circuit 6, the 45-degree fully-reflective filter 9 and the MC photoelectric converter 10 are sequentially distributed on the same vertical line, the MC photoelectric converter 10 is electrically communicated with the power-out terminal 3, the power supply pin 12 is arranged on one side of the square shell and electrically communicated with the micro-strip circuit 6, the power supply terminal assembly 13 is arranged on the other side of the square shell 1 and electrically communicated with the refrigerator 4, when the micro-strip circuit is used, when a light signal needs to be emitted, the power-in terminal is switched on, a chip in the micro-strip circuit (shown in figure 2) is triggered to generate a light signal, and the light signal is output from an optical fiber head after passing through the lens, the isolator and the semi-transparent and semi-reflective filter; when optical signals are to be received, the optical signals enter from the optical fiber head, then pass through the semi-transparent semi-reflective filter plate and the fully-reflective filter plate and then are converted into electric signals through the photoelectric converter to be output from the electric outgoing terminal, so that the optical signals are received, two functions of emission and reception can be realized, the structure is more compact, the whole size is small, and the integration level is high.
The utility model has the beneficial effects that: through triggering built-in chip of microstrip circuit and sending out light from the output of optic fibre through lens, filter etc. it receives through two lenses and converter again to have the light source, realizes receiving and two kinds of functions of transmission, and whole small, the simple efficient of installation, the integrated level is high, effectively satisfies the operation requirement.
The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.
Claims (1)
1. A butterfly device with 25G high-frequency radio frequency receiving and transmitting functions is characterized in that: including square casing (1), advance terminal (2), go out electric terminal (3), refrigerator (4), tungsten copper heat sink layer (5), built-in chip's microstrip circuit (6), lens and isolator complex (7), 45 semi-transparent semi-reflecting filter (8), 45 total reflecting filter (9), MC photoelectric converter (10), optical fiber head (11), give power supply pin (12) that microstrip circuit (6) were used and give power supply terminal group (13) that refrigerator (4) were used, advance electric terminal (2), go out electric terminal (3) and all set up at square casing (1) top, optical fiber head (11) coupling sets up in square casing (1) bottom, tungsten copper heat sink layer (5) are pasted and are established at refrigerator (4) upper surface and place in square casing (1), microstrip circuit (6), lens and isolator complex (7), 45 semi-transparent half-reflection filter (8), 45 all-reflection filter (9), MC photoelectric converter (10) all set up on tungsten copper heat sink layer (5), microstrip circuit (6) and incoming call terminal (2) electric intercommunication, lens and isolator assembly (7), 45 semi-transparent half-reflection filter (8) arrange in proper order and distribute on same vertical line and be located microstrip circuit (6) below, 45 all-reflection filter (9), MC photoelectric converter (10) arrange in proper order and distribute on same vertical line, MC photoelectric converter (10) and play electric terminal (3) electric intercommunication, power supply pin (12) set up square casing (1) one side and with microstrip circuit (6) electric intercommunication, power supply terminal group (13) set up at square casing (1) opposite side and with refrigerator (4) electric intercommunication.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122773056.9U CN216248435U (en) | 2021-11-13 | 2021-11-13 | Butterfly device with 25G high-frequency radio frequency receiving and transmitting functions |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122773056.9U CN216248435U (en) | 2021-11-13 | 2021-11-13 | Butterfly device with 25G high-frequency radio frequency receiving and transmitting functions |
Publications (1)
Publication Number | Publication Date |
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CN216248435U true CN216248435U (en) | 2022-04-08 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202122773056.9U Active CN216248435U (en) | 2021-11-13 | 2021-11-13 | Butterfly device with 25G high-frequency radio frequency receiving and transmitting functions |
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CN (1) | CN216248435U (en) |
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2021
- 2021-11-13 CN CN202122773056.9U patent/CN216248435U/en active Active
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