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DESCRIPTION:It's my pleasure to invite you to attend in this invited lectur
 e organized by IEEE SSCS Chapter Poland\n\nDanielle Griffith - Frequency G
 eneration for the Internet of Things\n\nMonday\, 14th MAR 2022\, 5pm-7pm C
 ET\, 11am - 13am EST.\nRegistration is required for external guests\, and 
 recommended SiCr employees. If you accept the event\, it will pop-up in yo
 ur calendar.\n\nAbstract:\nThe Internet of Things (IoT) market requires ra
 dios that operate with very low average power consumption to enable batter
 y life measured in years\, or even battery-free operation. Standards used 
 in IoT applications\, such as Bluetooth Low Energy\, also have relaxed per
 formance requirements allowing the radio to be optimized for low power ope
 ration. This tutorial will introduce several types oscillators used in the
 se IoT radios\, explaining how the low power system level requirements inf
 luence the oscillator architecture\, design\, and performance targets. Des
 ign examples and power/accuracy tradeoffs will be described for sleep time
 rs\, RF synthesizer reference clocks and high frequency VCOs\, and system 
 clocks used for the MCU and peripherals. At the end of the tutorial\, atte
 ndees will have a solid overview of the many types of oscillators present 
 in a typical IoT wireless node and understand design tradeoffs for each.\n
 \nBio:\nDanielle Griffith received the B.S.E.E. and M.Eng. degrees from th
 e Massachusetts Institute of Technology\, Cambridge in 1996 and 1997\, res
 pectively. She joined Motorola in Tempe\, AZ in 1997 and worked in the are
 a of RF circuit design. In 2003\, she joined Texas Instruments in Dallas\,
  Texas and is a Fellow in the Connectivity business unit. She develops cir
 cuits and techniques for reducing cost\, power consumption\, and circuit b
 oard area for low power wireless connectivity products. Her current focus 
 areas are architectures for efficient wireless systems\, low power oscilla
 tors and MEMS circuitry. She has published >50 papers\, most of them in IE
 EE journals or conferences. She has written a book chapter titled “Synch
 ronization Clocks for Ultra-Low Power Wireless Networks” which was publi
 shed by Springer as a part of the book “Ultra-Low-Power Short-Range Radi
 os”. Danielle holds 19 issued US patents and has given multiple universi
 ty and IEEE conference tutorial and workshop sessions. She was a member of
  the Technical Program Committees for the IEEE RFIC Symposium for conferen
 ces years 2014 and 2015\, the IEEE International Solid-State Circuits Conf
 erence for conference years 2015-2019\, and the VLSI Symposium starting in
  2019.\n\nCo-sponsored by: Silicon Creations Poland\n\nVirtual: https://ev
 ents.vtools.ieee.org/m/307552
LOCATION:Virtual: https://events.vtools.ieee.org/m/307552
ORGANIZER:krzysztof.kasinski@siliconcr.com
SEQUENCE:1
SUMMARY:Danielle Griffith - Frequency Generation for the Internet of Things
  
URL;VALUE=URI:https://events.vtools.ieee.org/m/307552
X-ALT-DESC:Description: <br /><div>It's my pleasure to invite you to attend
  in this invited lecture organized by&nbsp\;IEEE SSCS Chapter Poland&nbsp\
 ;</div>\n<div>&nbsp\;</div>\n<div><strong>Danielle Griffith</strong>&nbsp\
 ;- <strong>Frequency Generation for the Internet of Things</strong>&nbsp\;
 </div>\n<div>&nbsp\;</div>\n<div>Monday\, 14th MAR 2022\, 5pm-7pm CET\,&nb
 sp\;&nbsp\;11am - 13am EST.</div>\n<div>Registration is required for exter
 nal guests\, and recommended SiCr employees. If you accept the event\, it 
 will pop-up in your calendar.</div>\n<div>&nbsp\;</div>\n<div><strong>Abst
 ract:</strong></div>\n<div>The Internet of Things (IoT) market requires ra
 dios that operate with very low average power consumption to enable batter
 y life measured in years\, or even battery-free operation.&nbsp\;&nbsp\; S
 tandards used in IoT applications\, such as Bluetooth Low Energy\, also ha
 ve relaxed performance requirements allowing the radio to be optimized for
  low power operation.&nbsp\; &nbsp\;This tutorial will introduce several t
 ypes oscillators used in these IoT radios\, explaining how the low power s
 ystem level requirements influence the oscillator architecture\, design\, 
 and performance targets.&nbsp\;&nbsp\; Design examples and power/accuracy 
 tradeoffs will be described for sleep timers\, RF synthesizer reference cl
 ocks and high frequency VCOs\, and system clocks used for the MCU and peri
 pherals.&nbsp\;&nbsp\; At the end of the tutorial\, attendees will have a 
 solid overview of the many types of oscillators present in a typical IoT w
 ireless node and understand design tradeoffs for each.</div>\n<div>&nbsp\;
 </div>\n<div><strong>Bio:</strong></div>\n<div>Danielle Griffith received 
 the B.S.E.E. and M.Eng. degrees from the Massachusetts Institute of Techno
 logy\, Cambridge in 1996 and 1997\, respectively. She joined Motorola in T
 empe\, AZ in 1997 and worked in the area of RF circuit design.&nbsp\; In 2
 003\, she joined Texas Instruments in Dallas\, Texas and is a Fellow in th
 e Connectivity business unit.&nbsp\; She develops circuits and techniques 
 for reducing cost\, power consumption\, and circuit board area for low pow
 er wireless connectivity products.&nbsp\; Her current focus areas are arch
 itectures for efficient wireless systems\, low power oscillators and MEMS 
 circuitry.&nbsp\; She has published &gt\;50 papers\, most of them in IEEE 
 journals or conferences.&nbsp\;&nbsp\; She has written a book chapter titl
 ed &ldquo\;Synchronization Clocks for Ultra-Low Power Wireless Networks&rd
 quo\; which was published by Springer as a part of the book &ldquo\;Ultra-
 Low-Power Short-Range Radios&rdquo\;.&nbsp\; Danielle holds 19 issued US p
 atents and has given multiple university and IEEE conference tutorial and 
 workshop sessions.&nbsp\;&nbsp\;She was a member of the Technical Program 
 Committees for the IEEE RFIC Symposium for conferences years 2014 and 2015
 \, the IEEE International Solid-State Circuits Conference for conference y
 ears 2015-2019\, and the VLSI Symposium starting in 2019.</div>\n<p>&nbsp\
 ;</p>
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