Noise Figure, Noise Factor and Sensitivity Wireless Systems Instructional Design.
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Noise Figure, Noise Figure, Noise Factor and Noise Factor and Sensitivity Sensitivity Wireless Systems Wireless Systems Instructional Design Instructional Design
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Transcript of Noise Figure, Noise Factor and Sensitivity Wireless Systems Instructional Design.
Noise Figure, Noise Noise Figure, Noise Factor and SensitivityFactor and Sensitivity
Wireless Systems Instructional Wireless Systems Instructional Design Design
NoiseNoise ““Any unwanted input”Any unwanted input” Limits systems ability to process weak signalsLimits systems ability to process weak signals Sources:Sources:
1.1. Random noise in resistors and transistorsRandom noise in resistors and transistors
2.2. Mixer noiseMixer noise
3.3. Undesired cross-coupling noiseUndesired cross-coupling noise
4.4. Power supply noisePower supply noise
Dynamic range – capability of detecting weak Dynamic range – capability of detecting weak signals in presence of large-amplitude signalssignals in presence of large-amplitude signals
Noise (contd.)Noise (contd.)
powernoiseaverage
powersignalaverage
fN
fSSNR
)(
)(
““noisiness” of the signal measure = signal-to-noisiness” of the signal measure = signal-to-noise ratio (frequency dependant)noise ratio (frequency dependant)
Random noise Random noise ExternalExternal
• AtmosphericAtmospheric• InterstellarInterstellar
Receiver internalReceiver internal• ThermalThermal• Flicker noise (low frequency)Flicker noise (low frequency)• Shot noiseShot noise
““Sky” NoiseSky” Noise
Noise factorNoise factor
IEEE Standards: IEEE Standards: “The noise factor, at a “The noise factor, at a specified input frequency, is defined as the specified input frequency, is defined as the ratio of (1) the total noise power per unit ratio of (1) the total noise power per unit bandwidth available at the output port when bandwidth available at the output port when noise temperature of the input termination is noise temperature of the input termination is standard (290 K) to (2) that portion of (1) standard (290 K) to (2) that portion of (1) engendered at the input frequency by the input engendered at the input frequency by the input termination.”termination.”
sourcetoduenoiseoutputavailable
powernoiseoutputavailableF
Noise factor (cont.)Noise factor (cont.)
It is a measure of the degradation of SNR It is a measure of the degradation of SNR due to the noise added -due to the noise added -
Implies that SNR gets worse as we Implies that SNR gets worse as we process the signalprocess the signal
Spot noise factorSpot noise factor The answer is the bandwidthThe answer is the bandwidth
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SN
SNfGNF
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SNR
SNRF
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Noise factor (cont.)Noise factor (cont.)
Quantitative measure of receiver Quantitative measure of receiver performance wrt noise for a given performance wrt noise for a given bandwidthbandwidth
Noise figureNoise figure Typically 8-10 db for modern receiversTypically 8-10 db for modern receivers
Multistage (cascaded) systemMultistage (cascaded) system
)log(10 FNF
12121
3
1
21
1...
11
n
n
GGG
F
GG
F
G
FFF
SensitivitySensitivity
Minimum detectable input signal level for a Minimum detectable input signal level for a given output SNR (also called given output SNR (also called noise floornoise floor) )
Not necessarily related to required output Not necessarily related to required output SNRSNR
ExampleExample
Link BudgetLink Budget
““Quick and dirty” way of estimating RF link Quick and dirty” way of estimating RF link performanceperformance
Prx,Ptx – received and transmitted power (dB)Prx,Ptx – received and transmitted power (dB) Grx,Gtx – antenna gain (dBi)Grx,Gtx – antenna gain (dBi) L – path lossL – path loss Amisc – miscellaneous attenuation Amisc – miscellaneous attenuation
miscrxtxtxrx A - L- G G P P
Link Budget (cont.)Link Budget (cont.)
Path loss (Friis formula):Path loss (Friis formula):
L = 40 dB + 20log(d) @ 2.4 GHzL = 40 dB + 20log(d) @ 2.4 GHz L = 48 dB + 20log(d) @ 5.7 GHzL = 48 dB + 20log(d) @ 5.7 GHz
Transmit power:Transmit power: 15 – 20 dBm (30 – 100 mW)15 – 20 dBm (30 – 100 mW)
Antenna gain: given in decibels over an isotropic Antenna gain: given in decibels over an isotropic antenna (dBi)antenna (dBi)
0dBi (isotropic), 8 dBi (biquad), 15 dBi (helix), 24 dBi (parabolic)0dBi (isotropic), 8 dBi (biquad), 15 dBi (helix), 24 dBi (parabolic)
20log(d)20log(F) 92.45 L(dB)
Link Budget (cont.)Link Budget (cont.)
Received power (senitivity)Received power (senitivity)
OrinoccoOrinocco Aironet Aironet 350350 SNRSNR
11Mbps11Mbps -82 dBm-82 dBm -85 dBm-85 dBm 16 dB 16 dB
5.5 Mbps5.5 Mbps -87 dBm-87 dBm -89 dBm-89 dBm 11 dB 11 dB
2 Mbps2 Mbps -91 dBm-91 dBm -91 dBm-91 dBm 7 dB 7 dB
1 Mbps1 Mbps -94 dBm-94 dBm -94 dBm-94 dBm 4 dB 4 dB
Link Budget (cont.)Link Budget (cont.)
Amisc:Amisc: Cables (@ 2.4 GHz)Cables (@ 2.4 GHz)
• RG 174: 2 [dB/m] RG 174: 2 [dB/m] • RG 58: 1 [dB/m]RG 58: 1 [dB/m]• RG 213: 0.6 [dB/m]RG 213: 0.6 [dB/m]• IEEE 802.3: 0.3 [dB/m] IEEE 802.3: 0.3 [dB/m] • LMR-400: 0.22 [dB/m] LMR-400: 0.22 [dB/m]
Connectors (BNC, N, SMA)Connectors (BNC, N, SMA)• 0.1 – 1 dB loss0.1 – 1 dB loss
ProjectProject
Link characterization with Network Link characterization with Network Analyzer Analyzer
