US2012294338A1PendingUtilityA1

Phase-arrayed transceiver

38
Assignee: ZHAN JING-HONG CONANPriority: May 18, 2011Filed: Nov 22, 2011Published: Nov 22, 2012
Est. expiryMay 18, 2031(~4.9 yrs left)· nominal 20-yr term from priority
H04B 1/40H03F 3/19H04B 1/44H03F 3/21H01Q 3/30H01Q 21/0025H03F 2200/451H03F 2200/294
38
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Claims

Abstract

A phased-array transceiver includes: a plurality of antennas; a plurality of transceiving elements respectively coupled to the plurality of antennas, at least one of the transceiving elements comprising a first transmitting circuit and a first receiving circuit; a signal processing block; and a first distributed network, coupled between the signal processing block and the transceiving elements, wherein the transceiving elements, the signal processing block, and the first distributed network are configured as a single chip, and a first path from the antenna through the first receiving circuit to the signal processing block and a second path from the signal processing block through the first transmitting circuit to the antenna share at least partial signal traces of the phased-array transceiver.

Claims

exact text as granted — not AI-modified
1 . A phase-arrayed transceiver, comprising:
 a plurality of antennas;   a plurality of transceiving elements, coupled to the plurality of antennas, respectively, at least one of the transceiving elements comprising a first transmitting circuit and a first receiving circuit;   a signal processing block; and   a first distributed network, coupled between the signal processing block and the transceiving elements;   wherein the transceiving elements, the signal processing block, and the first distributed network are configured as a single chip, and a first path from the antenna through the first receiving circuit to the signal processing block and a second path from the signal processing block through the first transmitting circuit to the antenna share at least partial signal traces of the phase-arrayed transceiver.   
     
     
         2 . The phase-arrayed transceiver of  claim 1 , wherein the at least one transceiving element further comprises:
 a switching device, arranged to selectively couple one of the first transmitting circuit and the first receiving circuit to the corresponding antenna.   
     
     
         3 . The phase-arrayed transceiver of  claim 1 , wherein the at least one transceiving element further comprises a phase shifter and a switching device, and the first transmitting circuit comprises:
 a power amplifier, arranged to amplify an output of the phase shifter; and   the first receiving circuit comprises:
 a low-noise amplifier, arranged to generate an output to the phase shifter; 
   wherein the switching device is arranged to selectively couple one of the power amplifier and the low-noise amplifier to the phase shifter.   
     
     
         4 . The phase-arrayed transceiver of  claim 1 , wherein the at least one transceiving element further comprises:
 a switching device, arranged to selectively couple one of the first transmitting circuit and the first receiving circuit to a connection port of the first distributed network.   
     
     
         5 . The phase-arrayed transceiver of  claim 4 , wherein the first transmitting circuit comprises:
 a first phase shifter; and   a power amplifier, arranged to amplify an output of the first phase shifter; and   the first receiving circuit comprises:
 a second phase shifter; and 
 a low-noise amplifier, arranged to generate an output to the second phase shifter; 
   wherein the switching device is arranged to selectively couple one of the first phase shifter and the second phase shifter to the connection port of the first distributed network.   
     
     
         6 . The phased-array transceiver of  claim 4 , wherein the first transmitting circuit comprises:
 a first mixer, arranged to generate a first mixer output by up-converting an output of the switching device; and   a power amplifier, arranged to amplify the first mixer output;   the first receiving circuit comprises:
 a low-noise amplifier; and 
 a second mixer, arranged to generate a second mixer output to the switching device by down-converting an output of the low-noise amplifier; and 
   the phased-array transceiver further comprises:
 an oscillator, arranged to generate a reference oscillating signal; 
 a second distributed network, arranged to transmit the reference oscillating signal; and 
 a phase shifter, arranged to receive the reference oscillating signal through the second distributed network and generate a phase-shifted reference oscillating signal according to the reference oscillating signal; 
   wherein both of the first mixer and the second mixer receive the phase-shifted reference oscillating signal to generate the first mixer output and the second mixer output, and the switching device is arranged to selectively couple one of the first mixer and the second mixer to the connection port of the first distributed network.   
     
     
         7 . The phase-arrayed transceiver of  claim 4 , wherein the first transmitting circuit comprises:
 a first phase shifter;   a first mixer, arranged to generate a first mixer output by up-converting an output of the first phase shifter; and   a power amplifier, arranged to amplify the first mixer output; and   the first receiving circuit comprises:
 a low-noise amplifier; 
 a second phase shifter; and 
 a second mixer, arranged to generate a second mixer output to the second phase shifter by down-converting an output of the low-noise amplifier; 
   wherein the switching device is arranged to selectively couple one of the first phase shifter and the second phase shifter to the connection port of the first distributed network.   
     
     
         8 . The phase-arrayed transceiver of  claim 7 , further comprising:
 an oscillator, arranged to generate a reference oscillating signal; and   a second distributed network, arranged to transmit the reference oscillating signal;   wherein both the first mixer and the second mixer receive the reference oscillating signal through the second distributed network.   
     
     
         9 . The phase-arrayed transceiver of  claim 1 , wherein the transceiving elements further include a second transceiving element, the second transceiving element comprises a second transmitting circuit and a second receiving circuit, and a third path from the antenna through the second receiving circuit to the signal processing block and a fourth path from the signal processing block through the second transmitting circuit to the antenna share at least partial signal traces of the phase-arrayed transceiver. 
     
     
         10 . The phase-arrayed transceiver of  claim 9 , wherein the first distributed network comprises a coupler having a first connection port, a second connection port, and a third connection port; the third connection port is coupled to the first connection port and the second connection port, and arranged to receive signals from or transmit signals to the signal processing block; and the at least one transceiving circuit further comprises:
 a first switching device, arranged to selectively couple the first transmitting circuit or the first receiving circuit to the first connection port; and   the second transceiving circuit further comprises:
 a second switching device, arranged to selectively couple the second transmitting circuit or the second receiving circuit to the second connection port. 
   
     
     
         11 . A transceiving element of a phase-arrayed transceiver, comprising:
 a transmitting circuit, disposed on a transmitting signal path; and   a receiving circuit, disposed on a receiving signal path;   wherein the transmitting signal path and the receiving signal path share at least a partial signal trace; and the transmitting circuit and the receiving circuit are disposed in a single chip.   
     
     
         12 . The transceiving element of  claim 11 , further comprising:
 a switching device, arranged to selectively couple one of the transmitting circuit and the receiving circuit to an antenna;   wherein the switching device is disposed in the single chip.   
     
     
         13 . The transceiving element of  claim 11 , further comprising a switching device,
 wherein the transmitting circuit comprises:
 a phase shifter; and 
 a power amplifier, arranged to amplify an output of the phase shifter; and 
   the receiving circuit comprises:
 a phase shifter; and 
 a low-noise amplifier, arranged to generate an output to the phase shifter; 
   wherein the switching device is arranged to selectively couple one of the power amplifier and the low-noise amplifier to the phase shifter.   
     
     
         14 . The transceiving element of  claim 11 , further comprising:
 a switching device, arranged to selectively couple one of the transmitting circuit and the receiving circuit to a connection port of a distributed network.

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