ECE 145B / 218B, notes set 1: Radio Architectures ... · Introduction to receiver frequency plans....

class notes, M. Rodwell, copyrighted 2012

ECE 145B / 218B, notes set 1: Radio Architectures & Modulation Formats

Mark Rodwell

University of California, Santa Barbara

rodwell@ece.ucsb.edu 805-893-3244, 805-893-3262 fax

Material Covered Last Term: 145a / 218a

.amplifierspower on toIntroducti

noise on toIntroducti

designsamplifier tunedReactively

gains.Power

analysisgain graphs flow Signal

ChartsSmith and tuningImpedance

ddistribute and lumped :designamplifier Broadband

radiation modes, loss, :lineion transmissReal

linesion transmissIdeal

elements passive ideal vs.Real

145b / 218b Outline (1)

productsation intermodul ,recieiversin Distortion

,interceptsorder -3rd andorder -2nd

distortionation intermodul and Harmonic n.descriptio seriespower :distortion Weak

products distortion of Generation

plans.frequency receiver on toIntroducti

ceInterferen ChannelAdjacent response. imageReceiver

receiversin coversion Frequency

Mixers s.frequencie difference and sum tion,multiplica signal

tions.representa plane signal I/Q

functions. g.y with triefficientl ing work

I conversionFrequency

diagramsblock ceiver trans

recievers. odynesuperheter and TRF :resarchitectureceiver

(FM) digital, QAM DSB, & AM :formats modulation

modulation-de and modulation:conversionfrequency for need

signals coded-digitally voice,analog of spectra

spectrum radio available

receivers and ers transmittRadio

145b / 218b Outline (2)

synthesisfrequency and loopslock Phase

sOscillator

balnus ers, transform trees,:combiningpower

efficiency power, maximum classes,amplifier loadlines,

amplifiersPower

designLNA tuned-reactively

analysis noisecircuit models, noise math, :noise

amplifiers noise-Low

tiesnonlineari and responses image

unbalanced and balanced active, & passive

level)-(circuitdesign Mixer

range dynamicreceiver y,sensitivitreceiver

IP3. aggregate floor, noise aggregate

onsdistributigain and plansfrequency

designsReceiver

Radio Waves,

Propagation,

and Antennas

The Radio Spectrum

Frequency (Hz)

microwave

3-30 GHz

10-1 cm

mm-wave

30-300 GHz

10-1 mm

sub-mm-wave

0.3-3THz

1-0.1 mm

far-IR: 0.3-6 THz

near-IR

mid-IR

6-100 THz

50-3 m

Frequency (Hz)

0.3-3 MHz

1000-100 m

3-30 MHz

100-10 m

30-300 MHz

10-1 m

0.3-3 GHz

1 m-10 cm

microwave

3-30 GHz

10-1 cm

Wavelength (meters)

*ITU band designations ** IR bands as per ISO 20473

Frequencies of a Few Services (Rough #s)

Frequency (Hz)

radar sate

llite T

llite lin

less H

Frequency (Hz)

cell phones

Wavelength (meters)

Choice of Transmission Frequency

earth theof Curvature

beam. blocking of Ease

size. antenna Required

bad. and weather good :nattenuatio cAtmospheri

.allocationfrequency Government

Atmospheric Attenuation in Bad Weather

very heavy fog

Liebe, Manabe, Hufford, IEEE Trans Antennas and Propagation, Dec. 1989

propagation in bad weather favors use of frequencies below ~10 GHz

heavy rain

tropical deluge

Olsen, Rogers, Hodge, IEEE Trans Antennas & Propagation Mar 1978

Hurricane

Curvature of the earth, reflection from the ionosphere

earth. theof curvature by the limited

ision transmissradio range-Long

ion transmissrange-long enables

ionosphere thefrom Reflection

ionosphere in the MHz 10order of

frequency, resonance plasmaelectron the

below sfrequencie requires This

(Marconi) carriersfrequency -lowor

satellites requires radio nentalInterconti

Fresnel Zone: Where the Radio Beam Carriers The Signal

Zone.Fresnel (first) thecalled is This

.2/ areaan in carried is antennasbetween beam The

2/2/2/

)()2/1()2/1(

)(/1/1)(

and assume usLet

.4/ than less is lengthspath in difference if phase-in (almost) add Paths

RHRHRH

RRRHRRHR

RRRHRRHRRRHRHR

RRHRHR

Fresnel Zone: Where the Radio Beam Carries The Signal

blocked. be likely to less are

signals frequency)-(lowerelength Longer wav

beam. in thepower theofmost block will

.2/ area hence 2/ diameter ofobject an

, and assuming Still

Nearly Isotropic Antennas

/2~ islenght y when effectivel radiates :antenna Dipole

antenna" wave-quarter"

plane. ground wideusingby

length in 1:2 reduced becan Antenna

plane lin vertica )cos(~ as variesand

plane, lin vertica isotropic ispattern radiation

http://en.wikipedia.org/wiki/File:Elem-doub-rad-pat-pers.jpg

Directional Antennas

Uda-Yagi

http://en.wikipedia.org/wiki/File:Two_meter_yagi.jpg http://en.wikipedia.org/wiki/Log-periodic_antenna

http://en.wikipedia.org/wiki/File:SuperDISH121.jpg

periodic-log

reflector

parabolic

patternradiation

ofplot Typical

http://en.wikipedia.org/wiki/Radiation_pattern

Antenna Directivity

antenna isotropic ofintensity radiated

radiatedintensity peak ydirectivit

http://en.wikipedia.org/wiki/Radiation_pattern

steradiansin angle) (solidbeamwidth angular

sphere a of angle solidydirectivit

1.64. ofy directivit a have antennas dipole wave-half Simple

Friis Transmission Formula

dtransmitte

received eR

nattenuatio catmospheri

rangeion transmiss

ydirectivit antenna

n...propagatiomultipath

path beam in the objects

planet theof curvature

terrainfrom scattering

:factorsmany Ignores

Signals to be

Transmitted

Signals we might want to transmit by radio

kb/s 320-32 :audio compressed MP3

Mb/s 100 ~ :WiFi

Mb/s 15about : HDTV Compressed

Gb/sec 1.5about :HDTV edUncompress

20kHz-20Hz :c)(optimisti hearinghuman of Range

kHz 4-0.4 :ion transmisssoundquality -Voice

waves.radioby them transmit toare weif

frequency in d translatebemust signals These

Generation of Digital Data Streams

.resolution bits of # some with digitized bemust then Samples

n.compressioby reduced becan rates data

,redundancy contains stream digital theIf

on theory)(informati

MP3,... MPG, JPG,

Recall the Sampling Theorem

.2 rate aat sampled bemust ),( to

limitedbandwidth of signal a aliasing, spectral avoid To

. sigsamplesigsig ffff

image shifted by +fsample image shifted by -fsample

Bandlimiting of digital data streams (1)

bandwidth signal thereduces and waveform

therounds signal digital a Filtering

spectrumflat a has impules ofA train

)2//()2/sin( spectrum

has train pulser rectangulaA

bitbit

),2/1,2/1(bandwidth

tofiltered wall-brick is stream data theIf

bitbit ff

)./()//sin( shape a has pulse dataeach then bitbit tt

stream. data in the bits sucessivebetween

(ISI) ceinterferen lintersymbo zero is thereso

.,etc,4,3,2for zero

is )/()//sin(function The

bitbitbit

bitbit

draw. tohard is This pulses. theseof

sum a is waveformdigital Overall

like. looks waveform what theis Here

sequences. data possible allfor

repeatedly draw is Trajectory

pattern. eyean is This

zero. be willceinterferen lintersymbo then the

point, indicated about theration degree 180 a with symmetric is spectrum theIf

rate.bit the(1/2) -/an greater thsomewhat bandwidth required typical

broader, are filters Typical

rate.bit the(1/2) -/ the toequal isbandwidth totalminimum

)2/1,2/1( isbandwidth Minimum

bitbit

: theorem)sampling his (NOT theoremsideband vestigalsNyquist'

Pulses with Raised Cosine Spectra : From Wikipedia.

pulse of TransformFourier

systemsion transmissreal ingapproximatin used are These signals. ISI-zero offamily a of

onidealizati almathematic a is waveformpulse cosine- Raised The

http://en.wikipedia.org/wiki/Raised-cosine_filter

pulse of waveformTime

1.for , ),( i.e. )/1,/1( to

, 0for , )2/,2/( i.e. , )2/1,2/1( from vary will

signal digital baseband theof rangefrequency the1, to0 from varies As

bitbitbitbit

Pulses with Raised Cosine Spectra: Filters

)2/sin(/2)/()(function transfer havemust (#2)filter channel

thespectrum, /2)/()2/sin( a hasalready pulser rectangula a Since

.)( spectrum cosine-raised thehavemust which *pulse filtered* theisIt

bitbit

hardware. realin present not isfilter first theso

impulses,not pulses,r rectangula produce circuits digital real course, Of

Root Raised Cosine Spectra in Transmission Links

noise.receiver limit toas soreceiver thebandlimit further must We

band.frequency allowed n thestay withi er to transmittthebandlimit must welink, radio aIn

filters. *cosine-raised-root* using edaccomplish is This

criterion.Nyquist meet must ISI; zero have alsomust signal received final The

Root Raised Cosine Spectra in Transmission Links

)2/sin(/)2/()()(/)()(

:is responsefilter er transmitt thepulses,r rectangulaby driven isit Given that

:responsefrequency cosine-raised-root have alsomust then filter receive The

:signal ed transmittfor the spectrum *cosine-raised-root* a Choose

:function cosine-raised a is )(

bitbitRCrectTF

RCfiltered

filtered

jHjHjHjH

Modulation and

Frequency Conversion

Frequency Conversion / Modulation

ation).(multiplic mixingby done isit ;modulation called is This

carrier.frequency -high on the signalour imposemust we this,do To

Frequency (Hz)

).-(DC to)2/-(DCbetween spectrum baseband a has stream data the,on Depending bitbit ff

GHz. 100 toMHz few perhapsbetween sfrequencie radio using signal the transmit We

Mixing = Multiplication

)cos()( tVtV BIB

)cos()( tVtV LOLOLO

0/)cos()cos()( VtVtVtV LOLOBIRF

eeeeeeee

zzzzzzzz

zzzztt

BLOBLO

tjtjtjtjtjtjtjtj

LOBLOBBLOLOB

LOLOBBLOB

LOBBLOLOBLOB

LOBLOBBLOLOB

)(cos2)(cos2

))(()cos()cos(4

)cos(2

11111111

y.efficientl functions trig. work withlearn tomust We

)sin(2 and )cos(2)sin()cos( jjjjj eejeeje

Mixing = Multiplication

)cos()( tVtV BIB

)cos()( tVtV LOLOLO

sfrequencie difference and sum

generatestion Multiplica

tVVVtVVV

VtVtVtV

BLORFIBLORFI

LORFBIRF

)(cos)2/()(cos)2/(

/)cos()cos()(

)sin()( tVtV BQB

)cos()( tVtV LOLOLO

tVVVtVVV

VtVtVtV

BLOLOQBLOLOQ

LOLOBQRF

)(sin)2/()(sin)2/(

/)cos()sin()(

n...calculatiosimilar aBy

Mixing → Convolution of Spectra

)(tVLO

0/)()()( VtVtVtV LObRF

)'()'()'(2

)( and )( ofn convolutio

)(*)()(

jdjjVjVV

jVjVjV

LObLObRF

)()()()()( So

)(2 that Recall

)2/()2/()cos()( Suppose

LOLOLOLOLO

LOLOLOLO

eVeVtVtV

Spectrum of the Local Oscillator

Mixing with cosine ("I") local oscillator

spectrum oscillator Local

)( jVRF

parts)imaginary real, (note

spectrum signal Baseband

)cos()( Suppose tVtV LOLOLO

spectrum signal RF

Mixing with sine ("Q") local oscillator

spectrum oscillator Local

)( jVRF

parts)imaginary real, (note

spectrum signal Baseband

)sin()( Suppose tVtV LOLOLO

)()()()()( LOLOLOLOLO VjVjjV

sidebands) theof phase flipped the(note

spectrum signal RF

IQ Modulation

)(, tV IB

)(, tV QB

)sin()()cos()(

)sin()(

)cos()(

ttVttV

LOQLOI

)cos( tV LOLO

)sin( tV LOLO

streams data edsynchroniz t,independen are )( and )( ,, tVtV QBIB

IQ Signal Representation

)sin()()cos()()()(Re)( ttVttVetjVtVtV LOQLOI

QIRFLO

plane ain point a as drepresente is Signal

IQ Signal Representation

)sin()()cos()()( ttVttVtV LOQLOIRF

wavecosine wavesine

)cos( tLO)cos( ttLO

frequency angular

at clockwise-counter spins

Quadrature Phase Shift Keying (QPSK)

)(, tV IB

)(, tV QB

)sin()()cos()(

)sin()(

)cos()(

ttVttV

LOQLOI

)cos( tV LOLO

)sin( tV LOLO

sequencesbinary are )( and )( ,, tVtV QBIB

QAM-4 as often) (lessknown Also

16-Quadrature Amplitude Modulation (16-QAM)

etc. QAM,-256 QAM,-64 also is There

)cos( tV LOLO

)sin( tV LOLO

Demodulation

)cos( tV LOLO )cos( tV LOLO

)sin( tV LOLO )sin( tV LOLO

)(, tV IB

)(, tV qb

)(tVri

)(tVrq)(tVS

)sin()()cos()()( 0,0, tVVtVtVVtVtV LOLOQBLOLOIBS

)2sin()()2cos(2)(2)(

)cos()sin()()(cos)(

)cos()()(

tVVtVtVVtVVVtV

ttVVtVtVVtV

tVVtVtV

LOLOQBLOLOIBLOIB

LOLOLOQBLOLOIB

LOLOSri

LPFby removed

.2at term2)()( Similarly, LO

, VVtVtV LOQBrq

Receiver Tuning

Early (1910's) Receiver: Tuned Radio Frequency

tuning.during filters multiple of trackingMechanical :Problem

bandwidth. uningnarrower t filters cascaded Multiple

stations separate tobandwidth a broad toohas isfilter LC singleA

Superheterodyne Receiver (Amstrong, 1918)

selection. channelfor used are filters IF tuned-fixed Sharp

frequency. LO theby varying tunedis frequency signal Received

detection. before

frequency teintermediaan toconverted is signal radio Receive

Overall Block Diagrams

QAM/QPSK reciever

odyneSuperheter

conversionDirect

recovery data

andclock to

QAM/QPSK Transmitter

odyneSuperheter

conversionDirect

What are the design issues ?

designamplifier Power

synthesisfrequency and PLLs

noise phase design,

sOscillator

ondistributigain receiver plans,frequency receiver

inteceptsorder - third

responses Spurious

filtersnecessary responses, image mixers, ofoperation

conversionFrequency

noise totalblock,each ofon contributi noise

ysensitivitReceiver

ECE 145B / 218B, notes set 1: Radio Architectures ... · Introduction to receiver frequency plans....

Documents

WIDE RECEIVER PLAYER DEVELOPMENT - SVS … Wide Receiver P… · WIDE RECEIVER PLAYER DEVELOPMENT Wide Receiver Teaching Progression and Drills . PHILOSOPHY OBJECTIVES POSITION NEEDS

Topcon Receiver Utility - GNSS Receiver Firmware Update ... Receiver Utility... · September 2010 TRU: GNSS Receiver Firmware Update Connect to Receiver using TRU • Launch Topcon

Baseband Receiver Receiver Design: Demodulation Matched Filter Correlator Receiver Detection Max. Likelihood Detector Probability of Error

MultiMulti--beam SIS Receiver Developmentbeam SIS Receiver ... · MultiMulti--beam SIS Receiver Overviewbeam SIS Receiver Overview. Sub-reflector beams. Synoptic of a 4-pixel array

Manuale MiniTitan A109K2 Coversion Kit

Predator-Prey Mechanisms Richard G. Coss ANB 218B Winter 2010

AV Receiver Safety Brochure Amplificateur AV Instructions ... · Folder veiligheid Folleto de seguridad ˜˚˛˝˙˚ˆ ˘˛ ˛˘ˆ ˛ AV Receiver AV Receiver AV Receiver Amplificateur

To install Citrix Receiver for Mac OS X - Augusta University · Install Citrix Receiver Citrix Receiver Uninstall Citrix Receiver Uninstall Citrix Receiver wants to make changes

Comparison of RS-485 Differential-Mode Noise ImmunityReceiver Inputs Receiver Output Receiver Output without hysteresis with hysteresis Receiver Differential Input Voltage Receiver

Welcome to Biology 103 ! Instructor: Jerry Fugate Office: 218B Jackson Hall

Procedimiento Trabajo de Coversion Tocones a Leña

First Report of Receiver - Capstar Industries LLC Receiver

ME 218b Winter 2016 Project: Rapid Planned Assembly · 2018-08-27 · ME 218b Winter 2017 Project: Rapid Planned Assembly Staging Area Location 1R 2.298’,1.193’ 2R 3.000’,2.105’

INSTRUCTION MANUAL · 2021. 1. 23. · MRK950 dual true diversity receiver MRK950: main block diagram Receiver - 1- A Receiver - 1- B Receiver - 2- A Receiver - 2- B Diversity microcontroller

Upgrading from Citrix Receiver 3.X Enterprise to Receiver 4support.citrix.com/content/dam/supportWS/kA460000000CcDFCA0/... · Upgrading from Citrix Receiver 3.X Enterprise to Receiver

Chapter 7 Radar Receiver Receiver Types - fju.edu.t · PDF fileRadar System Design Chapter 7 Radar Receiver Chapter 7: Radar Receiver 7 - 1 Dr. Sheng-Chou Lin Radar System Design Receiver

Technical Note - alsglobal.com · MASS AND GRADE CONVERSION FACTORS 1 Troy Oz 31.1035g ... Technical Note ELEMENT TO OXIDE COVERSION FACTORS Element Oxide Factor Element Oxide Factor

Chinese Real Estate - 218B

Video Transmitter Camera Transmitter Video Receiver ... · Video Transmitter Camera Transmitter Video Receiver Monitor Receiver Wireless

Citrx Receiver for Linux OEM's Reference Guide - ...Citrix Receiver