Distributed system for radio frequency environment simulation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-017/00
H04B-001/00
출원번호
US-0221981
(2016-07-28)
등록번호
US-10014962
(2018-07-03)
발명자
/ 주소
Foegelle, Michael David
출원인 / 주소
ETS-Lindgren, Inc.
대리인 / 주소
Christopher & Weisberg, P.A.
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A method and system for measuring a device under test are disclosed. Some embodiments include a distributed channel emulation system implementing a downlink channel, including at a central location, an emulator core configured to introduce an impairment in each of at least one transmit signal to pro
A method and system for measuring a device under test are disclosed. Some embodiments include a distributed channel emulation system implementing a downlink channel, including at a central location, an emulator core configured to introduce an impairment in each of at least one transmit signal to produce at least one impaired signal for each of at least one emulated channel. The system includes, at a remote location, for each of at the least one emulated channel, an up-converter configured to up-convert an impaired signal of the emulated channel to produce a radio frequency, RF, signal.
대표청구항▼
1. An electromagnetic measurement system to test a device under test (DUT), the DUT in communication with a plurality of antennas, the system comprising: at a remote location within a test chamber in proximity to an antenna of the plurality of antennas: a first emulator core configured to introduce
1. An electromagnetic measurement system to test a device under test (DUT), the DUT in communication with a plurality of antennas, the system comprising: at a remote location within a test chamber in proximity to an antenna of the plurality of antennas: a first emulator core configured to introduce an impairment in each of at least one digital signal to produce an impaired signal; andat least one of: a transmitter configured to convert the impaired signal from the first emulator core to a radio frequency (RF) signal to be transmitted by the antenna to the DUT; anda receiver configured to convert an RF signal received from the antenna from the DUT to a down converted digital signal to be impaired by the first emulator core;at a central location exterior to the test chamber remote from the antenna of the plurality of antennas: a wireless communication tester configured to at least one of: receive and process the impaired signal from the first emulator core andgenerate and transmit a communication signal to be impaired by the first emulator core; andan interface between the first emulator core at the remote location and the wireless communication tester at the central location, the interface providing at least one of a digital to RF converter applied to the impaired signal and an RF to digital converter applied to the communication signal. 2. The system of claim 1, further comprising at least one cable configured to one of carry digital signals from the interface at the central location to the first emulator core at the remote location and carry digital signals from the first emulator core at the remote location to the interface at the central location. 3. The system of claim 1, wherein the first emulator core is configured to one of receive, in parallel, a plurality of signals from the interface and transmit, in parallel, a plurality of signals to the interface. 4. An electromagnetic measurement system to test a device under test (DUT), the system comprising: at a remote location within a test chamber in proximity to an antenna: at least one of a receiver and a transmitter: the receiver configured to receive a radio frequency (RF) signal from the antenna from the DUT and convert the received RF signal to a down-converted digital signal; andthe transmitter configured to receive an impaired digital signal and convert the impaired digital signal to an RF signal to be transmitted by the antenna to the DUT; andat least one emulator core configured to one of: impair the down-converted digital signal; andprocess a communication signal to produce the impaired digital sign;at a central location exterior to the test chamber remote from the antenna, at least one of: a first interface in communication with the at least one emulator core to convert the impaired down converted signal to an RF signal to be processed by a wireless communication tester; anda second interface in communication with the at least one emulator core to convert an RF signal from the wireless communication tester to the communication signal to be impaired by the emulator core; andthe wireless communication tester configured to: receive and process the RF signal from the first interface; andgenerate and transmit the RF signal to the second interface to be converted to the digital signal. 5. The system of claim 4, further comprising at least one cable configured to one of carry digital signals from the second interface at the central location to the at least one emulator core at the remote location and carry digital signals from the at least one emulator core at the remote location to the first interface at the central location. 6. The system of claim 4, wherein the at least one emulator core is configured to one of receive, in parallel, a plurality of signals from the second interface and transmit, in parallel, a plurality of signals to the first interface. 7. An electromagnetic measurement system, comprising: within a chamber enclosing a test region: a plurality of antennas; andin proximity to and in communication with each antenna of the plurality of antennas, at least one of: a transmitter configured to convert an impaired digital signal to an analog radio frequency (RF) signal to be transmitted by the antenna;a receiver configured to convert an RF signal received by the antenna to a digital signal to be impaired by an emulator core; andfor each antenna of the plurality of antennas, the emulator core configured to at least one of: impair at least one digital signal received from a central location exterior to the chamber to provide the impaired digital signal to the transmitter; andimpair the digital signal from the receiver; andat the central location exterior to the chamber, an interface between the emulator cores and a wireless communication tester at the central location, the interface providing one of a digital to RF converter and an RF to digital converter; andfor each antenna of the plurality of antennas, at least one cable configured to at least one of: carry digital signals from the interface at the central location exterior to the chamber to the emulator core in the chamber; andcarry digital signals from the emulator core in the chamber to the interface at the central location exterior to the chamber. 8. The system of claim 7, wherein the emulator core is further configured to impair replicas of the digital signal from the receiver. 9. The system of claim 7, wherein each emulator core is configured to one of receive, in parallel, a plurality of signals from the interface and transmit, in parallel, a plurality of signals to the interface. 10. An electromagnetic measurement system, the system comprising: in an anechoic chamber in proximity to an antenna; at least one of: a first channel emulator configured to impair and convert a communication signal to be transmitted by the antenna to a radio frequency (RF) signal; anda second channel emulator configured to convert a signal received by the antenna to a digital signal and to impair the digital signal; andexterior to the anechoic chamber at a central location remote from the antenna; a wireless communication tester configured to at least one of: generate and transmit the communication signal to the first channel emulator; andreceive and process the impaired signal from the second channel emulator; andat the central location exterior to the anechoic chamber, at least one interface between the first and second channel emulators in the anechoic chamber and the wireless communication tester at the central location, the at least one interface providing one of a digital to RF converter and an RF to digital converter; andat least one cable configured to one of carry digital signals from at least one of the at least one interface at the central location to the first channel emulator at the remote location and carry impaired digital signals from the second channel emulator at the remote location to at least one of the at least one interface at the central location. 11. The system of claim 10, wherein the first channel emulator comprises an emulator core configured to impair the communication signal, a digital to analog converter configured to convert the impaired communication signal to an analog signal, and an up converter configured to up convert the analog signal to an analog RF signal to be transmitted by the antenna. 12. The system of claim 10, wherein the second channel emulator comprises a down converter configured to down convert an RF signal received by the antenna, an analog to digital converter configured to convert the down converted signal to a digital signal, and an emulator core configured to impair the digital signal.
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이 특허에 인용된 특허 (6)
Nolan,James; Kazakevich,Leonid; Tyra,Fryderyk; Regis,Robert; Schreider,Fred, Communication transmission impairment emulator.
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