ISM band to U-NII band frequency transverter and method of frequency transversion
First Claim
Patent Images
1. A transverter operable to translate a transmit signal and a receive signal between a first frequency band and a second frequency band, wherein the transverter is connected between a data radio and an existing antenna tuned to the first frequency band, the transverter comprising:
- a bandswitch interposed between the data radio and the existing antenna and adapted to allow for selectively directing the transmit signal from the data radio to the existing antenna, thereby substantially bypassing the transverter;
an input isolating device connected to the bandswitch and adapted to electrically isolate one or more components of the transverter from the data radio;
a transmuter connected to the input isolating device and adapted to translate the transmit signal from the first frequency band to the second frequency band;
a converter connected to the input isolating device and adapted to translate the receive signal from the second frequency band to the first frequency band;
a dual output local oscillator connected to both the transmuter and the converter and adapted to provide a drive level thereto;
an output isolating device connected to both the transmuter and the converter and adapted to electrically isolate the transverter; and
an antenna connected to the output isolating device and tuned to the second frequency band and adapted to transmit the transmit signal and to receive the receive signal, wherein the input isolating device and the output isolating device are each a Y-junction ferrite device configured as a three-port circulator device adapted to provide a non-reciprocal effect, and wherein the input isolating device and the output isolating device each exhibit a third order symmetry behavior.
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Abstract
A frequency transverter (10) and method for enabling bi-frequency dual-directional transfer of digitally encoded data on an RF carrier by translating between a crowded or otherwise undesirable first frequency band, such as the 2.4 GHz ISM band, and a less-crowded or otherwise desirable second frequency band, such as the 5.0 GHz-6.0 GHz U-NII band. In a preferred embodiment, the transverter (10) connects between an existing data radio (11) and its existing antenna (30), and comprises a bandswitch (12); an input RF isolating device (14); a transmuter (16); a converter (18); a dual output local oscillator (20); an output RF isolating device (22); and an antenna (24) tuned to the second frequency band. The bandswitch (12) allows for bypassing the transverter (10), thereby facilitating its use with legacy systems. The transmuter (14) and converter (16) are adapted to convert to and from, respectively, the second frequency band.
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Citations
20 Claims
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1. A transverter operable to translate a transmit signal and a receive signal between a first frequency band and a second frequency band, wherein the transverter is connected between a data radio and an existing antenna tuned to the first frequency band, the transverter comprising:
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a bandswitch interposed between the data radio and the existing antenna and adapted to allow for selectively directing the transmit signal from the data radio to the existing antenna, thereby substantially bypassing the transverter;
an input isolating device connected to the bandswitch and adapted to electrically isolate one or more components of the transverter from the data radio;
a transmuter connected to the input isolating device and adapted to translate the transmit signal from the first frequency band to the second frequency band;
a converter connected to the input isolating device and adapted to translate the receive signal from the second frequency band to the first frequency band;
a dual output local oscillator connected to both the transmuter and the converter and adapted to provide a drive level thereto;
an output isolating device connected to both the transmuter and the converter and adapted to electrically isolate the transverter; and
an antenna connected to the output isolating device and tuned to the second frequency band and adapted to transmit the transmit signal and to receive the receive signal, wherein the input isolating device and the output isolating device are each a Y-junction ferrite device configured as a three-port circulator device adapted to provide a non-reciprocal effect, and wherein the input isolating device and the output isolating device each exhibit a third order symmetry behavior.
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2. A transverter operable to translate a transmit signal and a receive signal between a first frequency band and a second frequency band, wherein the transverter is connected between a data radio and an existing antenna tuned to the first frequency band, the transverter comprising:
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a bandswitch interposed between the data radio and the existing antenna and adapted to allow for selectively directing the transmit signal from the data radio to the existing antenna, thereby substantially bypassing the transverter;
an input isolating device connected to the bandswitch and adapted to electrically isolate one or more components of the transverter from the data radio;
a transmuter connected to the input isolating device and adapted to translate the transmit signal from the first frequency band to the second frequency band;
a converter connected to the input isolating device and adapted to translate the receive signal from the second frequency band to the first frequency band;
a dual output local oscillator connected to both the transmuter and the converter and adapted to provide a drive level thereto;
an output isolating device connected to both the transmuter and the converter and adapted to electrically isolate the transverter; and
an antenna connected to the output isolating device and tuned to the second frequency band and adapted to transmit the transmit signal and to receive the receive signal, wherein the transmuter includes a first input terminal and a second input terminal, and further includes— an attenuator adapted to receive the transmit signal from the input isolating device and to attenuate the transmit signal and to allow for adjusting throughput gain between the first input terminal and the second input terminal, and further adapted to provide a broadband match for both the input isolating device and the data radio, a frequency conversion device following the attenuator and adapted to translate the attenuated transmit signal from the first frequency band to the second frequency band, a bandpass filter following the frequency conversion device and adapted to filter the transmit signal to substantially remove an undesirable signal element, an amplifier stage following the bandpass filter and adapted to amplify the transmit signal, and a low-pass filter following the amplifier stage and adapted to filter the transmit signal to reduce a spurious element above the second frequency band. - View Dependent Claims (3, 4, 5)
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6. A transverter operable to translate a transmit signal and a receive signal between a first frequency band and a second frequency band, wherein the transverter is connected between a data radio and an existing antenna tuned to the first frequency band, the transverter comprising:
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a bandswitch interposed between the data radio and the existing antenna and adapted to allow for selectively directing the transmit signal from the data radio to the existing antenna, thereby substantially bypassing the transverter;
an input isolating device connected to the bandswitch and adapted to electrically isolate one or more components of the transverter from the data radio;
a transmuter connected to the input isolating device and adapted to translate the transmit signal from the first frequency band to the second frequency band;
a converter connected to the input isolating device and adapted to translate the receive signal from the second frequency band to the first frequency band, wherein a noise figure characteristic of the converter is matched to a path loss difference between the first frequency band and the second frequency band;
a dual output local oscillator connected to both the transmitter and the converter and adapted to provide a drive level thereto;
an output isolating device connected to both the transmuter and the converter and adapted to electrically isolate the transverter; and
an antenna connected to the output isolating device and tuned to the second frequency band and adapted to transmit the transmit signal and to receive the receive signal. 7.The transverter as set forth in claim 6, wherein the first frequency band is approximately 2.4 GHz, and the second frequency band is approximately between 5.0 GHz and 6.0 GHz. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A transverter operable to translate a transmit signal and a receive signal between a first frequency band and a second frequency band, wherein the transverter is connected between a data radio and an existing antenna tuned to the first frequency band, the transverter comprising:
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a bandswitch interposed between the data radio and the existing antenna and adapted to allow for selectively directing the transmit signal from the data radio to the existing antenna, thereby substantially bypassing the transverter;
an input isolating device connected to the bandswitch and adapted to electrically isolate one or more components of the transverter from the data radio;
a transmuter connected to the input isolating device and adapted to translate the transmit signal from the first frequency band to the second frequency band;
a converter connected to the input isolating device and adapted to translate the receive signal from the second frequency band to the first frequency band;
a dual output local oscillator connected to both the transmuter and the converter and adapted to provide a drive level thereto;
an output isolating device connected to both the transmuter and the converter and adapted to electrically isolate the transverter; and
an antenna connected to the output isolating device and tuned to the second frequency band and adapted to transmit the transmit signal and to receive the receive signal, wherein the converter includes— a bandpass filter adapted to filter the receive signal to substantially remove an undesirable signal element, a low noise amplifier stage following the bandpass filter and adapted to amplify the receive signal, and further adapted to provide a low noise figure and an additional gain at the second frequency band, a frequency conversion stage following the low noise amplifier stage and adapted to translate the receive signal from the second frequency band to the first frequency band, a low-pass filter stage following the frequency conversion stage and adapted to filter the amplified receive signal to reduce a spurious element outside the second frequency band, an amplifier stage following the low-pass filter stage and adapted to amplify the translated receive signal, and an attenuator following the amplifier stage and adapted to reduce a total gain through the converter.
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17. The transverter as set forth in claim 17, wherein the low noise amplifier stage of the converter includes a pHEMT device with excellent low-noise characteristics at microwave frequencies.
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18. A transverter operable to translate a transmit signal and a receive signal between a first frequency band and a second frequency band, wherein the transverter is connected between a data radio and an existing antenna tuned to the first frequency band, the transverter comprising:
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a bandswitch interposed between the data radio and the existing antenna and adapted to allow for selectively directing the transmit signal from the data radio to the existing antenna, thereby substantially bypassing the transverter;
an input isolating device connected to the bandswitch and adapted to electrically isolate one or more components of the transverter from the data radio;
a transmuter connected to the input isolating device and adapted to translate the transmit signal from the first frequency band to the second frequency band;
a converter connected to the input isolating device and adapted to translate the receive signal from the second frequency band to the first frequency band;
a dual output local oscillator connected to both the transmuter and the converter and adapted to provide a drive level thereto;
an output isolating device connected to both the transmuter and the converter and adapted to electrically isolate the transverter; and
an antenna connected to the output isolating device and tuned to the second frequency band and adapted to transmit the transmit signal and to receive the receive signal, wherein the dual output local oscillator is adapted to generate an LO signal, the dual output local oscillator including— a phase-locked-loop adapted to set a fundamental frequency of the LO signal, wherein the fundamental frequency determines how translation occurs between the first frequency band and the second frequency band, a fundamental frequency amplifier adapted to amplify the LO signal, a frequency multiplier adapted to reduce the fundamental frequency of the LO signal by one-half, and first and second narrow-band harmonic frequency amplifiers adapted to provide the LO signal to both the transmuter and the converter while increasing electrical isolation between the transverter and the converter.
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19. The transverter as set forth in claim 19, wherein the first and second narrow-band harmonic frequency amplifiers each include a high pass filter followed by an RF amplifier followed by a low-pass filter.
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20. A transverter operable to translate a transmit signal and a receive signal between a first frequency band and a second frequency band, wherein the transverter is connected between a data radio and an existing antenna tuned to the first frequency band, the transverter comprising:
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a bandswitch interposed between the data radio and the existing antenna and adapted to allow for selectively directing the transmit signal from the data radio to the existing antenna, thereby substantially bypassing the transverter;
an input isolating device connected to the bandswitch and adapted to electrically isolate one or more components of the transverter from the data radio;
a transmuter connected to the input isolating device and adapted to translate the transmit signal from the first frequency band to the second frequency band;
a converter connected to the input isolating device and adapted to translate the receive signal from the second frequency band to the first frequency band;
a dual output local oscillator connected to both the transmuter and the converter and adapted to provide a drive level thereto;
an output isolating device connected to both the transmuter and the converter and adapted to electrically isolate the transverter; and
an antenna connected to the output isolating device and tuned to the second frequency band and adapted to transmit the transmit signal and to receive the receive signal, wherein the antenna has a standard helix design wherein wire is wound in a λ
circumference with a ¼
λ
pitch over a λ
diameter ground plane to provide a bandwidth covering substantially the entire second frequency band, and further providing approximately between 6dB and 20dB of gain.
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Specification
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Current AssigneeHoneywell Federal Manufacturing & Technologies, LLC (Honeywell International Inc.)
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Original AssigneeHoneywell Federal Manufacturing & Technologies, LLC (Honeywell International Inc.)
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InventorsStepp, Jeffrey David, Hensley, Dale
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Primary Examiner(s)Vo, Nguyen T.
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Assistant Examiner(s)Le, Nhan T.
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Application NumberUS10/172,151Publication NumberTime in Patent Office1,390 DaysField of Search455/8, 455/73, 455/78, 455/79, 455/80, 455/81, 455/85, 455/86, 455/552.1, 455/553.1US Class Current455/81CPC Class CodesH04B 1/00 Details of transmission sys...H04B 1/005 adapting radio receivers, t...H04B 1/0096 where a full band is freque...H04B 1/406 with more than one transmis...
