T/R module for satellite TT and C ground link
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01Q-003/22
H01Q-003/24
출원번호
US-0124511
(2005-04-29)
발명자
/ 주소
Tomasic,Boris
Bharj,Sarjit S.
Oleski,Paul J.
Turtle,John P.
출원인 / 주소
The United States of America as represented by the Secretary of the Air Force
인용정보
피인용 횟수 :
10인용 특허 :
4
초록▼
Transmit/Receive (T/R) module that provides multiple simultaneous ground to satellite links with rapid pointing and acquisition. The (T/R) module incorporates independent gain and phase control. Left-hand or right-hand circular polarization can be supplied to dual feed antennas. Present invention al
Transmit/Receive (T/R) module that provides multiple simultaneous ground to satellite links with rapid pointing and acquisition. The (T/R) module incorporates independent gain and phase control. Left-hand or right-hand circular polarization can be supplied to dual feed antennas. Present invention allows each antenna to be independently polarized. Low-cost componentry is utilized throughout. On-board control of the (T/R) module is obtained using a complex programmable logic device (CPLD) and a micro controller. CPLD provided separate control of four phase shifters, attenuators, channel polarization as well as transmitter on/off control. Telemetry is provided through built-in test (BIT) routine.
대표청구항▼
What is claimed is: 1. A transmit and receive (T/R) module, having at least one receive channel and at least one transmit channel, each of said at least one receive channel and at least one transmit channel having means for selecting a polarization of opposite sense to said other channel, being res
What is claimed is: 1. A transmit and receive (T/R) module, having at least one receive channel and at least one transmit channel, each of said at least one receive channel and at least one transmit channel having means for selecting a polarization of opposite sense to said other channel, being responsive to control signals so as to provide means for electronic beam scanning, beam forming and radiated power when used in conjunction with a plurality of T/R modules and radiating and receiving elements in a phased-array antenna, comprising: a radio frequency (RF) section, further comprising for each of said at least one receive channel and said at least one transmit channel a diplexed antenna port interface into which is input or output an uplink signal or a downlink signal, respectively; a transmit signal input path; further comprising a phase shifter for varying the phase of said uplink signal; a first switch to alternately turn said uplink signal on and off; and attenuator for varying the power level of said uplink signal; a first amplifier for preamplifying said uplink signal; a first double throw switch for setting transmit polarization of said uplink signal by selectably routing said transmit signal path through one of two power combiners, the output of said one of two power combiners being routed through one of two inputs of a 90 degree hybrid coupler; a power amplifier for amplifying a quadrature output component of said 90 degree hybrid coupler prior to being input into said diplexed antenna port interface; a received signal output path; further comprising a low noise amplifier which amplifies said downlink signal output from said diplexed, bidirectional antenna port interface; a 90 degree hybrid coupler which divides said downlink signal into quadrature components; a power divider for dividing each of said quadrature components; a second single pole, double throw switch for setting receive polarization by selecting either of said power divided quadrature components as receive signal outputs; a first amplifier for providing gain to said selected signal; a phase shifter for varying the phase of said selected signal so as to provide antenna receive beam steering; a second switch to turn said selected signal alternatively on or off; an attenuator for varying the power level of said selected signal; and a second amplifier for providing gain to said selected signal; and a digital section; further comprising an interface to an antenna control computer for controlling the phase, polarization and amplitude of said received signal output path and said transmit signal input path; a built-in-test (BIT) circuit; and a power supply circuit. 2. Digital section of claim 1, further comprising: a complex programmable logic device (CPLD) scanning incoming synchronous signals (clock, data and enable) so as to control the phase, polarization and amplitude of said received signal output path and said transmit signal input path; a micro controller with built in 5-channel analog to digital converter to provide built in test (BIT) response from said T/R module; and a plurality of power switches for providing stable bias to the T/R module and for switching the power to the power amplifiers on the transmit board alternately on and off. 3. T/R module of claim 2, wherein connection means to an antenna comprises six microminiature connectors (MMCX). 4. T/R module of claim 3, wherein said phase shifter further comprises eight double pole double throw (DPDT) GaAs MMIC switches so as to provide four phase shifts of 22.5, 45, 90 and 180 degrees. 5. T/R module of claim 1, wherein each of said attenuators further comprises a GaAs MMIC 5-bit digital attenuator. 6. T/R module of claim 2, wherein said CPLD further comprises: 128 macro cells; 100 inputs and outputs, operating at 3.3 volts; 16-bit shift register; and 1.8 volts core logic for low power. 7. T/R module of claim 6, wherein each of said macro cells further comprises: a single flip flop with control circuitry. 8. T/R module of claim 2, wherein said micro controller further comprises: at least five, 10-bit resolution analog to digital converters; a TTL interface to the power switch for over current protection; and an operating frequency of at least 20 MHz. 9. T/R module of claim 2, wherein said plurality of power switches further comprises: an enable input which can be used to enable/disable the power amplifiers on the transmit channels. 10. T/R module of claim 2, further comprising: a temperature sensor with a fixed output analog voltage that is proportional to the temperature, wherein the operating range of said temperature sensor is compatible with the MIL specs. 11. Interface to antenna control computer of claim 1, further comprising an 18-pin connector through which said phase, polarization and amplitude control signals are sent. 12. Complex programmable logic device (CPLD) of claim 2, being a XLINX device. 13. Digital section of claim 2, further comprising a JTAG and ICD2 connector for programming said complex programmable logic device (CPLD) and said microcontroller, respectively. 14. Digital section of claim 13, further comprising a synchronous serial interface for routing said clock, data and latch (enable) signals from said antenna control computer to said T/R module. 15. T/R module of claim 1, further comprising means for updating an antenna beam at rates up to 4 MHz. 16. Phase shifters of claim 4, wherein said phase shift means comprises varying RF path lengths between said switches. 17. Quantity of said at least one receive channel and at least one transmit channel in claim 1, being two (2) each.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (4)
Brookner Eli (Lexington MA), Method of processing in a pulse doppler radar.
Buer Kenneth Vern ; Locke John Wesley ; Kreutel R. William ; Chiavacci Paul Adrian ; DiFonzo Daniel Francis, Modular array and phased array antenna system.
Halsema, Paul B.; Abercrombie, Henry S.; Vanstrum, Mark D., Phased array communication system providing airborne crosslink and satellite communication receive capability.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.