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1. 发明申请

US20130148636A1 Wireless electronic device with antenna switching circuitry 有权
标题翻译：带天线切换电路的无线电子设备
公开(公告)号：US20130148636A1
公开(公告)日：2013-06-13
申请号：US13631483
申请日：2012-09-28
申请人： Apple Inc.
发明人： Nicholas W. Lum , Ronald W. Dimpflmaier
IPC分类号： H04W88/06 , H04J3/00 , H04W4/00
CPC分类号： H04B1/0064 , H01Q1/241 , H04B1/0053 , H04B1/0067 , H04B7/0404
摘要： A wireless electronic device may include antennas formed at different locations on the device. The wireless electronic device may include transceivers that are used to wirelessly communicate in different frequency bands by transmitting and receiving radio-frequency signals in the frequency bands. The transceivers may include Wi-Fi® transceivers and cellular transceivers such as Long Term Evolution transceivers. The wireless electronic device may include antenna switching circuitry interposed between the transceivers and the antennas. The wireless electronic device may include control circuitry that controls the antenna switching circuitry to ensure that radio-frequency transmissions in adjacent frequency bands are routed to different antennas. By routing radio-frequency transmissions in adjacent frequency bands to different antennas, self-interference between communications in the adjacent frequency bands may be reduced. Self-interference may also be reduced by performing time division multiplexing to isolate radio-frequency signals that are transmitted in adjacent frequency bands.
摘要翻译：无线电子设备可以包括形成在设备上的不同位置的天线。无线电子设备可以包括用于通过在频带中发射和接收射频信号而在不同频带中进行无线通信的收发器。收发器可以包括Wi-Fi收发器和诸如长期演进收发器的蜂窝收发器。无线电子设备可以包括插在收发器和天线之间的天线切换电路。无线电子设备可以包括控制电路，其控制天线切换电路以确保相邻频带中的射频传输被路由到不同的天线。通过将相邻频带中的射频传输路由到不同的天线，可以减少相邻频带中的通信之间的自干扰。还可以通过执行时分多路复用来隔离在相邻频带中传输的射频信号来减少自干扰。

2. 发明申请

US20160020737A1 Electronic Device With Low Noise Amplifier Module 有权
标题翻译：具有低噪声放大器模块的电子设备
公开(公告)号：US20160020737A1
公开(公告)日：2016-01-21
申请号：US14333912
申请日：2014-07-17
申请人： Apple Inc.
发明人： Daniel C. Kong , Bradley D. Scoles , William J. Noellert , Nicholas W. Lum
IPC分类号： H03F3/19 , H04B1/40
CPC分类号： H03F3/19 , H01Q5/50 , H01Q21/28 , H01Q23/00 , H03F2200/294 , H03F2200/451 , H04B1/40 , H04B1/401 , H04B1/48
摘要： An electronic device may include an antenna, a transceiver, and a low noise amplifier module that amplifies receive signals from the antenna to the transceiver circuitry in a first configuration and passes transmit signals from the transceiver to the antenna in a second configuration. The low noise amplifier module may include a first switching circuit coupled to the antenna, a second switching circuit coupled to the transceiver, at least one low noise amplifier coupled between the first and second switching circuits, and a transmit bypass path coupled between the first and second switching circuits. The transceiver may be located in a first electronic device region, whereas the low noise amplifier module and the antenna may be located in a second region. The low noise amplifier module may help compensate for signal loss between the first and second regions and allow for transmit signals to pass to the antenna.
摘要翻译：电子设备可以包括天线，收发器和低噪声放大器模块，其以第一配置放大从天线到收发器电路的接收信号，并且在第二配置中将发射信号从收发器传送到天线。低噪声放大器模块可以包括耦合到天线的第一开关电路，耦合到收发器的第二开关电路，耦合在第一和第二开关电路之间的至少一个低噪声放大器以及耦合在第一和第二开关电路之间的发射旁路第二开关电路。收发器可以位于第一电子设备区域中，而低噪声放大器模块和天线可以位于第二区域中。低噪声放大器模块可以帮助补偿第一和第二区域之间的信号损耗，并允许发射信号传递到天线。

3. 发明申请

US20170347273A1 RADIO FREQUENCY SYSTEMS AND METHODS FOR OVERRIDING NETWORK SIGNALING VALUES 审中-公开
公开(公告)号：US20170347273A1
公开(公告)日：2017-11-30
申请号：US15680049
申请日：2017-08-17
申请人： Apple Inc.
发明人： Ryan J. Goedken , Xueting Liu , Nicholas W. Lum
IPC分类号： H04W16/14 , H04W52/36 , H04W52/24 , H04W52/52 , H04W24/02 , H04W52/28 , H04W52/22
CPC分类号： H04W16/14 , H04W24/02 , H04W52/225 , H04W52/243 , H04W52/283 , H04W52/367 , H04W52/52
摘要： Systems and method to improve performance of a radio frequency system while operating in compliance with wireless transmission regulations are provided. One embodiment describes a radio frequency system including an antenna that wirelessly transmits an analog electrical signal at a transmission frequency and receives a first network signaling value from a wireless network. The radio frequency system further includes a controller that determines operational constraints on the radio frequency system based on a region of operation; determines a second network signaling value based on the operational constraints, in which the second network signaling value overrides the first network signaling value; determines operational parameters based on the second network signaling value; and instructs the radio frequency system to implement the operational parameters to facilitate the radio frequency system operating in compliance with the operational constraints.

4. 发明授权

US09391570B2 Electronic device with low noise amplifier module 有权
标题翻译：具低噪声放大器模块的电子设备
公开(公告)号：US09391570B2
公开(公告)日：2016-07-12
申请号：US14333912
申请日：2014-07-17
申请人： Apple Inc.
发明人： Daniel C. Kong , Bradley D. Scoles , William J. Noellert , Nicholas W. Lum
IPC分类号： H01Q5/50 , H03F3/19 , H04B1/40 , H01Q21/28 , H01Q23/00 , H04B1/48
CPC分类号： H03F3/19 , H01Q5/50 , H01Q21/28 , H01Q23/00 , H03F2200/294 , H03F2200/451 , H04B1/40 , H04B1/401 , H04B1/48
摘要： An electronic device may include an antenna, a transceiver, and a low noise amplifier module that amplifies receive signals from the antenna to the transceiver circuitry in a first configuration and passes transmit signals from the transceiver to the antenna in a second configuration. The low noise amplifier module may include a first switching circuit coupled to the antenna, a second switching circuit coupled to the transceiver, at least one low noise amplifier coupled between the first and second switching circuits, and a transmit bypass path coupled between the first and second switching circuits. The transceiver may be located in a first electronic device region, whereas the low noise amplifier module and the antenna may be located in a second region. The low noise amplifier module may help compensate for signal loss between the first and second regions and allow for transmit signals to pass to the antenna.
摘要翻译：电子设备可以包括天线，收发器和低噪声放大器模块，其以第一配置放大从天线到收发器电路的接收信号，并且在第二配置中将发射信号从收发器传送到天线。低噪声放大器模块可以包括耦合到天线的第一开关电路，耦合到收发器的第二开关电路，耦合在第一和第二开关电路之间的至少一个低噪声放大器以及耦合在第一和第二开关电路之间的发射旁路第二开关电路。收发器可以位于第一电子设备区域中，而低噪声放大器模块和天线可以位于第二区域中。低噪声放大器模块可以帮助补偿第一和第二区域之间的信号损耗，并允许发射信号传递到天线。

5. 发明申请

US20140160955A1 Method for Validating Radio-Frequency Self-Interference of Wireless Electronic Devices 审中-公开
标题翻译：验证无线电子设备射频自干扰的方法
公开(公告)号：US20140160955A1
公开(公告)日：2014-06-12
申请号：US13712713
申请日：2012-12-12
申请人： APPLE INC.
发明人： Nicholas W. Lum , Anh Q. Luong
IPC分类号： H04W24/06
CPC分类号： H04W24/06
摘要： A test system for testing a wireless electronic device is provided. The test system may include a test host and a tester. The test host may instruct a wireless electronic device under test (DUT) to transmit radio-frequency uplink signals in selected uplink resource blocks of an uplink channel in a desired Long Term Evolution (LTE) frequency band. The tester may convey radio-frequency test data to the DUT in a selected downlink resource block of a downlink channel in the desired LTE frequency band. The DUT may measure data reception throughput values associated with the test data. The test host may compare the measured data reception throughput values to threshold data reception throughput values to characterize the radio-frequency performance of the DUT. The test system may test the radio-frequency performance of the DUT for test data in some or all downlink resource blocks of the downlink channel.
摘要翻译：提供了一种用于测试无线电子设备的测试系统。测试系统可以包括测试主机和测试器。测试主机可以指示被测试的无线电子设备（DUT）在期望的长期演进（LTE）频带中的上行链路信道的选定的上行链路资源块中发送射频上行链路信号。测试者可以在期望的LTE频带中的下行链路信道的所选择的下行链路资源块中向DUT发送射频测试数据。 DUT可以测量与测试数据相关联的数据接收吞吐量值。测试主机可以将测量的数据接收吞吐量值与阈值数据接收吞吐量值进行比较，以表征DUT的射频性能。测试系统可以测试DUT在下行链路信道的一些或所有下行链路资源块中的测试数据的射频性能。

6. 发明授权

US10051479B2 Radio frequency systems and methods for overriding network signaling values 有权
公开(公告)号：US10051479B2
公开(公告)日：2018-08-14
申请号：US15680049
申请日：2017-08-17
申请人： Apple Inc.
发明人： Ryan J. Goedken , Xueting Liu , Nicholas W. Lum
IPC分类号： H04B1/40 , H04W16/14 , H04W24/02 , H04W52/36 , H04W52/52 , H04W52/24 , H04W52/22 , H04W52/28
摘要： Systems and method to improve performance of a radio frequency system while operating in compliance with wireless transmission regulations are provided. One embodiment describes a radio frequency system including an antenna that wirelessly transmits an analog electrical signal at a transmission frequency and receives a first network signaling value from a wireless network. The radio frequency system further includes a controller that determines operational constraints on the radio frequency system based on a region of operation; determines a second network signaling value based on the operational constraints, in which the second network signaling value overrides the first network signaling value; determines operational parameters based on the second network signaling value; and instructs the radio frequency system to implement the operational parameters to facilitate the radio frequency system operating in compliance with the operational constraints.

7. 发明授权

US09484961B2 Wireless electronic device with antenna switching circuitry 有权
公开(公告)号：US09484961B2
公开(公告)日：2016-11-01
申请号：US13631483
申请日：2012-09-28
申请人： Apple Inc.
发明人： Nicholas W. Lum , Ronald W. Dimpflmaier
IPC分类号： H04B1/00 , H04B7/04 , H01Q1/24
CPC分类号： H04B1/0064 , H01Q1/241 , H04B1/0053 , H04B1/0067 , H04B7/0404
摘要： A wireless electronic device may include antennas formed at different locations on the device. The wireless electronic device may include transceivers that are used to wirelessly communicate in different frequency bands by transmitting and receiving radio-frequency signals in the frequency bands. The transceivers may include Wi-Fi® transceivers and cellular transceivers such as Long Term Evolution transceivers. The wireless electronic device may include antenna switching circuitry interposed between the transceivers and the antennas. The wireless electronic device may include control circuitry that controls the antenna switching circuitry to ensure that radio-frequency transmissions in adjacent frequency bands are routed to different antennas. By routing radio-frequency transmissions in adjacent frequency bands to different antennas, self-interference between communications in the adjacent frequency bands may be reduced. Self-interference may also be reduced by performing time division multiplexing to isolate radio-frequency signals that are transmitted in adjacent frequency bands.

8. 发明申请

US20160112073A1 Wireless Circuitry for Simultaneously Receiving Radio-frequency Transmissions in Different Frequency Bands 审中-公开
公开(公告)号：US20160112073A1
公开(公告)日：2016-04-21
申请号：US14980742
申请日：2015-12-28
申请人： Apple Inc.
发明人： Nicholas W. Lum , Ronald W. Dimpflmaier , Louie J. Sanguinetti
IPC分类号： H04B1/00 , H04B1/16
CPC分类号： H04B1/0057 , H04B1/16 , H04L5/001
摘要： An electronic device has wireless communications circuitry that includes transmitters and receivers. Antenna structures may be coupled to the transmitters and receivers to support radio-frequency signal transmission and radio-frequency signal reception operations. Switching circuitry such may be used to support multiple communications bands of interest. One or more low band receivers may be associated with the first switch and one or more high band receivers may be associated with the second switch. The switches can be configured in real time to switch a desired communications band into use. A diplexer may be used to simultaneously pass low bands to the first receiver and high bands to the second receiver. In this way, a data stream in the low band may be simultaneously received with a data stream in the high band.

9. 发明授权

US09838046B2 Wireless circuitry for simultaneously receiving radio-frequency transmissions in different frequency bands 有权
公开(公告)号：US09838046B2
公开(公告)日：2017-12-05
申请号：US14980742
申请日：2015-12-28
申请人： Apple Inc.
发明人： Nicholas W. Lum , Ronald W. Dimpflmaier , Louie J. Sanguinetti
IPC分类号： H04B7/00 , H04J3/02 , H04B1/00 , H04L5/00 , H04B1/16
CPC分类号： H04B1/0057 , H04B1/16 , H04L5/001
摘要： An electronic device has wireless communications circuitry that includes transmitters and receivers. Antenna structures may be coupled to the transmitters and receivers to support radio-frequency signal transmission and radio-frequency signal reception operations. Switching circuitry such may be used to support multiple communications bands of interest. One or more low band receivers may be associated with the first switch and one or more high band receivers may be associated with the second switch. The switches can be configured in real time to switch a desired communications band into use. A diplexer may be used to simultaneously pass low bands to the first receiver and high bands to the second receiver. In this way, a data stream in the low band may be simultaneously received with a data stream in the high band.

10. 发明授权

US09749871B2 Radio frequency systems and methods for overriding network signaling values 有权
公开(公告)号：US09749871B2
公开(公告)日：2017-08-29
申请号：US14816971
申请日：2015-08-03
申请人： APPLE INC.
发明人： Ryan J. Goedken , Xueting Liu , Nicholas W. Lum
IPC分类号： H04M3/00 , H04W16/14 , H04W52/24 , H04W24/02 , H04W52/36 , H04W52/52 , H04B1/38 , H04W52/22 , H04W52/28
CPC分类号： H04W16/14 , H04W24/02 , H04W52/225 , H04W52/243 , H04W52/283 , H04W52/367 , H04W52/52
摘要： Systems and method to improve performance of a radio frequency system while operating in compliance with wireless transmission regulations are provided. One embodiment describes a radio frequency system including an antenna that wirelessly transmits an analog electrical signal at a transmission frequency and receives a first network signaling value from a wireless network. The radio frequency system further includes a controller that determines operational constraints on the radio frequency system based on a region of operation; determines a second network signaling value based on the operational constraints, in which the second network signaling value overrides the first network signaling value; determines operational parameters based on the second network signaling value; and instructs the radio frequency system to implement the operational parameters to facilitate the radio frequency system operating in compliance with the operational constraints.

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