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LTE Dual-Band Front-End Module For IoT: SKY68000-11 Datasheet
2016-05-27 11:39:17| rfglobalnet Downloads
The SKY68000-11 is a hybrid, dual-band multi-chip RF front-end module is designed to integrate the necessary front end for an LTE dual-band radio operating in Band 13 and Band. This module supports cellular LTE Cat-O/Cat-M transceiver platforms, and is ideal for Cellular IoT modem devices, PAEs optimizes for Class 3 LTE output power, and other types of dual-band modem products.
Tags: module
datasheet
frontend
lte
LTE Dual-Band Front-End Module For IoT: SKY68000-11 Datasheet
2016-05-27 11:39:17| wirelessdesignonline Downloads
The SKY68000-11 is a hybrid, dual-band multi-chip RF front-end module is designed to integrate the necessary front end for an LTE dual-band radio operating in Band 13 and Band. This module supports cellular LTE Cat-O/Cat-M transceiver platforms, and is ideal for Cellular IoT modem devices, PAEs optimizes for Class 3 LTE output power, and other types of dual-band modem products.
Tags: module
datasheet
frontend
lte
LTE Dual-Band Front-End Module For IoT
2016-05-27 11:35:32| rfglobalnet Products
The SKY68000-11 from Skyworks is a hybrid, dual-band multi-chip RF front-end module is designed to integrate the necessary front end for an LTE dual-band radio operating in Band 13 and Band 4. The module includes Rx SAW filters, dual-band PAs with bias controllers, Tx low-pass harmonic filter, antenna switches, and an MIPI RFFE controller. Designed to support cellular LTE Cat-O/Cat-M transceiver platforms, the device is also ideal for Cellular IoT modem devices, PAEs optimizes for Class 3 LTE output power, and other types of dual-band modem products.
LTE Dual-Band Front-End Module For IoT
2016-05-27 11:35:32| wirelessdesignonline Products
The SKY68000-11 from Skyworks is a hybrid, dual-band multi-chip RF front-end module is designed to integrate the necessary front end for an LTE dual-band radio operating in Band 13 and Band 4. The module includes Rx SAW filters, dual-band PAs with bias controllers, Tx low-pass harmonic filter, antenna switches, and an MIPI RFFE controller. Designed to support cellular LTE Cat-O/Cat-M transceiver platforms, the device is also ideal for Cellular IoT modem devices, PAEs optimizes for Class 3 LTE output power, and other types of dual-band modem products.
The Challenges Of Wireless Testing In The IoT
2016-05-26 11:26:38| rfglobalnet Home Page
Internet connectivity is becoming prevalent in more and more products as the IoT movement has taken off. As a result, wireless standards are being integrated into every day products. This presents a unique challenge for engineers who haven’t dealt with wireless technology. At IMS 2016, applications engineer Ben Maxson with Copper Mountain Technologies spoke with us about some of those challenges, and also spent some time introducing us to one of his company’s new reflectometers, which just so happen to be ideal for wireless testing in applications related to the IoT.
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wireless
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