Anaren Integrated Radio (AIR) module introductionAnaren, Inc.
Developed in concert with Texas Instruments as part of TI's Design Network, Anaren Integrated Radio (AIR) modules are the industry's easiest, most elegant, and most cost-effective way to implement low-power RF capability... Whether your goal is designing a "wireless" version of a currently "wired" product -- or developing a wireless product from the ground up. Each AIR module (think of it as a tiny, wireless data transmitter and receiver) incorporates a proven Texas Instruments low-power RF transceiver chip and is compatible with all TI-approved software stacks. As such, AIR modules offer you excellent performance, tiny footprints, ease-of-use, and pre-established compliance with applicable regulatory standards (including FCC, IC, and ETSI). And because AIR is a self-contained, SMT module -- you save the time and costs associated with developing your own radio solution. Download our AIR product line brochure, for a more detailed AIR product line overview.
> Starting at under $10 per module, for orders of 10K or more
> Easy implementation on existing, two-layer PCB
> Minimal RF engineering experience necessary
> Tiny common footprints across the product line, based on functionality
> Pre-certified to applicable FCC/IC standards or compliant with ETSI -- saving you certification time and financial resources
> Choice of embedded PCB antenna or connectorized antenna (accepts a standard U.FL monopole antenna)
> 100% RF-tested in production
> Low power consumption based on TI's low-power RF/transceiver chips
> Quick and easy wireless solution for many MSP430 applications
> Choice of frequencies to match your application, including: 433MHz (go to modules and development tools in this frequency range); 868MHz for use in Europe (go to modules and development tools in this frequency range); 915MHz (go to modules and development tools in this frequency range); 2.4GHz (go to modules and development tools in this frequency range) or learn more about our wireless audio module, AIR modules for ZigBee Standard applications, and AIR modules featuring Bluetooth SMART -- all of which also operates in the 2.4GHz range
Internet of (weather) things on a grassroot LoRaWAN networkManolis Nikiforakis
Presenting TTN a LoRaWAN IoT wireless network for Things, the weather ex machina use case and the smartcity possibilities combined with open linked data.
Anaren Integrated Radio (AIR) module introductionAnaren, Inc.
Developed in concert with Texas Instruments as part of TI's Design Network, Anaren Integrated Radio (AIR) modules are the industry's easiest, most elegant, and most cost-effective way to implement low-power RF capability... Whether your goal is designing a "wireless" version of a currently "wired" product -- or developing a wireless product from the ground up. Each AIR module (think of it as a tiny, wireless data transmitter and receiver) incorporates a proven Texas Instruments low-power RF transceiver chip and is compatible with all TI-approved software stacks. As such, AIR modules offer you excellent performance, tiny footprints, ease-of-use, and pre-established compliance with applicable regulatory standards (including FCC, IC, and ETSI). And because AIR is a self-contained, SMT module -- you save the time and costs associated with developing your own radio solution. Download our AIR product line brochure, for a more detailed AIR product line overview.
> Starting at under $10 per module, for orders of 10K or more
> Easy implementation on existing, two-layer PCB
> Minimal RF engineering experience necessary
> Tiny common footprints across the product line, based on functionality
> Pre-certified to applicable FCC/IC standards or compliant with ETSI -- saving you certification time and financial resources
> Choice of embedded PCB antenna or connectorized antenna (accepts a standard U.FL monopole antenna)
> 100% RF-tested in production
> Low power consumption based on TI's low-power RF/transceiver chips
> Quick and easy wireless solution for many MSP430 applications
> Choice of frequencies to match your application, including: 433MHz (go to modules and development tools in this frequency range); 868MHz for use in Europe (go to modules and development tools in this frequency range); 915MHz (go to modules and development tools in this frequency range); 2.4GHz (go to modules and development tools in this frequency range) or learn more about our wireless audio module, AIR modules for ZigBee Standard applications, and AIR modules featuring Bluetooth SMART -- all of which also operates in the 2.4GHz range
Internet of (weather) things on a grassroot LoRaWAN networkManolis Nikiforakis
Presenting TTN a LoRaWAN IoT wireless network for Things, the weather ex machina use case and the smartcity possibilities combined with open linked data.
This document discusses how emerging low-power wide area network (LPWAN) technologies like LoRa can benefit from and complement 5G cellular networks. It outlines how LPWANs address similar internet of things use cases as the "massive IoT" category in 5G. While LPWANs and 5G have different radio technologies and design priorities, their architectures and goals overlap in many areas like network slicing, edge computing, and cost-effective IoT connectivity. The document argues that LPWANs can take advantage of 5G innovations in these areas to further their own deployments and provide complementary connectivity to cellular networks.
Yury Birchenko, CTO at NWave, shared successful examples of LPWAN technologies and explained how to choose the right LPWAN at Digital Catapult's LPWAN London Meetup.
Check out slides presented by Mo Haghighi, Research Scientist at Intel Labs Europe, which explore how to solve urban challenges at the Olympic Park. These slides were presented at Digital Catapult's LPWAN London meetup.
Geolocation with LPWAN LoRa IoT Networks, a "Must have" Killer application. Benefits from Radio degree of Freedom brought by LoRaWAN Network, adaptive data rates, Femtocells densification - illustration of performance trends.
Authors: Thierry Lestable (Ph.D), Massinissa Lalam (Ph.D) and Maxime Grau
This document discusses how emerging low-power wide area network (LPWAN) technologies like LoRa can benefit from and complement 5G cellular networks. It outlines how LPWANs address similar internet of things use cases as the "massive IoT" category in 5G. While LPWANs and 5G have different radio technologies and design priorities, their architectures and goals overlap in many areas like network slicing, edge computing, and cost-effective IoT connectivity. The document argues that LPWANs can take advantage of 5G innovations in these areas to further their own deployments and provide complementary connectivity to cellular networks.
Yury Birchenko, CTO at NWave, shared successful examples of LPWAN technologies and explained how to choose the right LPWAN at Digital Catapult's LPWAN London Meetup.
Check out slides presented by Mo Haghighi, Research Scientist at Intel Labs Europe, which explore how to solve urban challenges at the Olympic Park. These slides were presented at Digital Catapult's LPWAN London meetup.
Geolocation with LPWAN LoRa IoT Networks, a "Must have" Killer application. Benefits from Radio degree of Freedom brought by LoRaWAN Network, adaptive data rates, Femtocells densification - illustration of performance trends.
Authors: Thierry Lestable (Ph.D), Massinissa Lalam (Ph.D) and Maxime Grau
わかる中級英文法 Grammar in Use Unit 30 have to and mustiacer
This document is a lesson on the English grammar points "have to" and "must" from Raymond Murphy's book Grammar in Use. It is divided into multiple sections (A-D) that provide explanations and examples of when to use "have to" versus "must". Key points covered include:
- "Have to" is used for obligations due to external factors, while "must" can be used for personal reasons.
- However, there is little practical difference in speaking. "Have to" is generally safer to use.
- The negatives, past forms, past negatives and future forms of "must" and "have to" are explained.
- Section D notes that "have got to" can
10. http://ace-up.net
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Unit 98-B 形容詞と副詞 1
■形容詞
名詞を修飾する。
I have a big car.
■副詞
動詞、形容詞、副詞、⽂文を修飾する。
I seriously studied English.
You are really beautiful.
I ate dinner amazingly quickly.
Probably, Beth is sick.