Radio Frequency Integrated Circuits Prof. Cameron Charles CE Junior Seminar November 13, 2007.
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Transcript of Radio Frequency Integrated Circuits Prof. Cameron Charles CE Junior Seminar November 13, 2007.
![Page 1: Radio Frequency Integrated Circuits Prof. Cameron Charles CE Junior Seminar November 13, 2007.](https://reader035.fdocuments.us/reader035/viewer/2022062221/56649dc35503460f94ab5ab5/html5/thumbnails/1.jpg)
Radio Frequency Integrated Radio Frequency Integrated CircuitsCircuits
Prof. Cameron CharlesProf. Cameron Charles
CE Junior Seminar
November 13, 2007
![Page 2: Radio Frequency Integrated Circuits Prof. Cameron Charles CE Junior Seminar November 13, 2007.](https://reader035.fdocuments.us/reader035/viewer/2022062221/56649dc35503460f94ab5ab5/html5/thumbnails/2.jpg)
CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 2
Overview
• Introduction to RFICs
• Utah RFIC Lab
• Research Projects– Low-power radios for Wireless Sensing– Ultra-Wideband radios for Bio-telemetry
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 3
What is an RFIC?
• “An integrated circuit that uses inductors”
• Analog integrated circuits that operate at high (radio) frequencies, typically for communications
• Example: cell phone
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 4
Radio Concepts
• Examine the functional blocks in a radio
• Consider transmitter, receiver is inverse
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 5
Why Upconvert?
• Microphone output is in 0-3 kHz range– Efficient Antennas have length ~ λ/4 – Spectrum is allocated to avoid interference
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 6
Mixer Operation
• Mixer moves the input signal to a higher frequency through multiplication:
cos(ω1)·cos(ω2) = cos(ω1-ω2 )+cos(ω1+ω2)
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 7
Mixer
• Mixer upconverts baseband voice signal to the oscillator frequency
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 8
Power Amplifier
• Amplifies the signal to higher levels so that it can drive the antenna
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 9
Filter
• Eliminates spurious emissions that could interfere with others
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 10
Antenna
• External to the RFIC
• Converts current/voltage signal to radiated electro-magnetic waves
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 11
Complete RFIC Implementation
• 12.5 mm2 in 0.18 μm CMOS process
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 12
Overview
• Introduction to RFICs
• Utah RFIC Lab
• Research Projects– Low-power radios for Wireless Sensing– Ultra-Wideband radios for Bio-telemetry
![Page 13: Radio Frequency Integrated Circuits Prof. Cameron Charles CE Junior Seminar November 13, 2007.](https://reader035.fdocuments.us/reader035/viewer/2022062221/56649dc35503460f94ab5ab5/html5/thumbnails/13.jpg)
CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 13
Utah RFIC Lab
• Founded way back in 2007• We research novel circuit architectures and
techniques for RFIC functional blocks• Research Methods:
1. Analyze circuit problem, come up with solution
2. High level simulations in Matlab
3. Circuit level simulations in Cadence
4. Layout physical circuit in Cadence
5. Send to foundry (e.g., MOSIS) for fabrication
6. Test and characterize the returned IC
7. Publish results in a prestigious journal
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 14
RFIC Lab Members• 3 PhD students, 1 MS student, 2 undergrads, and 1
visiting scholar
Ondrej Novak (PhD)
UWB for bio-telemetry
Jeff Spiegel (PhD)
Reconfigurable Frequency Synthesizers
Ahmed Ragab (PhD)
Low-power radios for wireless sensing
Wei Wu (PhD)
UWB for bio-telemetry
Manohar Nagaraju (MS)
Process Variation in DLLs
Roger White (UG)
Phase-locked loops
Tyler Squire (UG)
Phase-locked loops
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 15
Overview
• Introduction to RFICs
• Utah RFIC Lab
• Research Projects– Low-power radios for Wireless Sensing– Ultra-Wideband radios for Bio-telemetry
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 16
Why sensor networks?
• A wide range of applications:– Industrial monitoring
• Control manufacturing processes
– Building automation• Regulate temperature, light, etc.
– Asset Management• Inventory control (RFID)
– Environmental Monitoring• Facilitate biology research
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 17
Why wireless?
• Mobility of sensing nodes– Can be used for animal tracking
• Reduced size and cost– High levels of integration lead to fewer components
and reduced cost
• Less intrusive– Eliminating the wired infrastructure lessens the impact
on the environment being monitored
• Large scale deployment– Low cost and small size facilitate dense ad-hoc
networks
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 18
Anatomy of a WSN Node
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 19
Commercial WSN Hardware
• Crossbow Mica2– Plug in sensor boards– 90 mW power consumption– Lifetime on the order of several days with
continous operation (less with sensor boards)– Built with off-the-shelf hardware– 40 kbps data rate
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 20
Integrated WSN Hardware
• Higher levels of integration– Reduced cost and size
• Reduced power consumption – Radios with sub mW power
consumption
Operation Published Off-the-shelf
8b A/D conv 0.031 nJ 13.5 nJ
8b μP inst 0.012 nJ 0.20 nJ
Tx/Rx 8b 32 nJ 2500 nJ
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 21
Motivating Application
• Stream temperature monitoring in Red Butte Canyon
• Working with Dr. Neal Patwari’s group and faculty from the Biology Department
• Deployed test network this past summer
•Used Crossbow Motes with thermocouples to measure stream temperature every 10 min.
•Data was transmitted to a gateway node that logged the measurements.
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 22
Objectives for Future Work
• Develop power scavenging add-ons to extend system lifetime
• Research low-power radios to reduce overall power consumption
• Deploy a more extensive sensor network with additional sensing capabilities– Wind levels– Water uptake in trees
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 23
Overview
• Introduction to RFICs
• Utah RFIC Lab
• Research Projects– Low-power radios for Wireless Sensing– Ultra-Wideband radios for Bio-telemetry
![Page 24: Radio Frequency Integrated Circuits Prof. Cameron Charles CE Junior Seminar November 13, 2007.](https://reader035.fdocuments.us/reader035/viewer/2022062221/56649dc35503460f94ab5ab5/html5/thumbnails/24.jpg)
CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 24
What is Ultra-wide band?
• The modern frequency spectrum is a pretty crowded place
• We want to transmit in desirable frequency bands without interfering with other users– Transmit at low enough power levels to
appear as noise to other users
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 25
What about data rates?
• Problem: Very low power levels mean very low data rates.
• Observation: Data rates depend on both power and bandwidth.
• Solution: Compensate for low power levels with very wide bandwidths
• The FCC defines an UWB signal as one having a bandwidth > 500 MHz
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 26
How can we make UWB signals?
• Standard modulation techniques are limited to narrow bandwidths due to channel variation
• Two alternatives:– Impulse-based UWB
– OFDM-based UWB
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 27
Relative Merits of UWB
• OFDM:– Higher complexity (→ higher power)– Potential for higher data rates– Well-suited for consumer applications (e.g.,
wireless USB)
• Impluse-based– Simple architectures (→ lower power)– Better suited for niche applications where
power is a great concern
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 28
Motivating Application• Visual prosthetics hold the promise of restoring
functional vision to the blind
• Challenge: Need high data rates to transfer adequate visual information to stimulator
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 29
Narrowband Data Transfer• Power transferred to implant over inductive link• Transmit data by modulating the power carrier
• Problem: limited to ~1 Mb/s by restrictions on carrier frequency and resonant circuit
• Solution: transmit data over separate data link• Complication: Power carrier presents a
significant interference source
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 30
UWB Solution• Use Impulse-UWB for high data rate and low power • Exploit power carrier “interference” for synchronization
– Transmit pulse bursts on power carrier edges
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 31
Proof of Concept Prototype
• Fabricated prototype IC through MOSIS– Testing will begin next week
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CE Junior SeminarNovember 13, 2007
Cameron Charles Slide 32
Thanks for listening!
• Any questions?