FFT Advanced Tools for RSE and EMI Measurements · FFT Advanced Tools for RSE and EMI Measurements...
Transcript of FFT Advanced Tools for RSE and EMI Measurements · FFT Advanced Tools for RSE and EMI Measurements...
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FFT Advanced Tools for RSE and EMI
Measurements under the view of CISPR-16-2-x
EUT Timing analysis for correct measurement time settings
in receivers, spectrum analyzers or FFT-based instruments
Christian Reimer
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Re-organization of CISPR16 Publications in 2003
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CISPR16-2 -1 / -2 / -3
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CISPR16-2 -1 / -2 / -3 Minimum Scan Times
Many sections of the 3 standard parts have the same content. Numbering and indices are different.
x
x
Depending on the type of disturbance, the scan time may have to be increased –
even for quasi-peak measurements. In extreme cases, the measurement time
Tm at a certain frequency may have to be increased to 15 s, if the level of the
observed emission is not steady (see 6.5.1). However isolated clicks are excluded.
Scan time translates into…
“dwell time“ in a stepped scan (e.g. in receiver mode)
“sweep time“ in a swept scan (e.g. in analyzer mode)
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CISPR16-2 all parts – since edition 1
In focus of clause 6.5.2:
- the measurement time at each frequency
- intervals between pulses
- intercepting intermittent signals
The number of frequency points is an important parameter and needs to be
considered especially in sweeps / analyzer mode.
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CISPR16-2 all parts – Measurement Time per Frequency
Even for a swept scan it is possible to discuss about a measurement time
per frequency. This graph explains, how “CISPR A“ understands the term
measurement time at each frequency.
Effect 1
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CISPR16-2 all parts – Interval between Pulses
Frequency selected for
Timing Analysis of EUT
EUT: Interval between Pulses = 20 ms
Frequency sweep:
> 15 sec; around 6,000 points *)
Thick trace intermittent signal
ZERO SPAN mode:
Analysis of EUT behavior
in the time domain.
Interval
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CISPR16-2 all parts – Analysis Steps
Final
(automated / semi-automated)
Timing Analysis of EUT
Data Reduction / Critical Frequencies
Preview / Pre-scan
(automated / semi-automated)
to find Measurement Time
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CISPR16-2 all parts – EUT Timing Analysis
Timing Analysis prior to
the actual measurement
20 ms
Example Results
Step 1)
“Thick Trace?“
Detector: Pos. Peak
No. of points:
e.g. approx. 6000 in Bd. B
SWT = 15 s
Thick trace: >> 2 dB
Step 2)
“Zero Span“
*)
Optional Step 3) for a swept scan
Calculating the sweep time.
Out of experience: if the settings of CISPR 16-2-x are applied,
a thick trace is a good indicator for an
intermittent interferer.
For a stepped scan,
the result of step 2 can
be directly used. t
f
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Discussion of Measurement Parameters
Spectrum Ana. 150 kHz to 30 MHz
*) Even for a sweep it is strongly recommended to think in steps to determine the speed requirements.
Result of step 3)
Result of step 2)
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CISPR16-2 all parts – since edition 1Important Graph: Visualization of Interceptions
Intercept chart
with color
Intercept chart
in standard
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Intermittent Broadband Spectrum Broadband spectrum
of pulsed interferer
Broadband spectrum
of pulsed interfererBroadband spectrum
of pulsed interferer
(helicopter view)
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Time
Fre
qu
en
cy
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Broadband spectrum
of pulsed interferer
Intercept of sweep
speed curve with
pulsed interferer
.
History
View
Present
Spectr
um
Dis
pla
y
Low scan rate
High scan rate
Medium scan rate
“RBW location“ vs. time
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Time
Fre
qu
en
cy
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Intercept of sweep
speed curve with
pulsed interferer
.
History
View
Spectr
um
Dis
pla
y
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Time
Fre
qu
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Spectr
um
Dis
pla
y
Due to the intercept
a new trace pixel
is created.
Intercept of sweep
speed curve with
pulsed interferer
.
History
View
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Time
Fre
qu
en
cy
16
Spectr
um
Dis
pla
y
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Time
Fre
qu
en
cy
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Spectr
um
Dis
pla
y
How to
close all
gaps?
Effect 2
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EUT Timing Analysis to minimize Risk of Gaps
ı The EUT Timing Analysis helps to find the correct measurement time per
frequency
ı For spectrum analyzers the measurement time per frequency translates into a
sweep time setting
ı For scanning receivers (stepped scan!) the measurement time per frequency
translates into a dwell time.
ı The correct settings will increase the match of the measurement curve with the
“Spectrum Envelope“
ı A gap smaller than 2 dB is regarded as a good match of the measurement
curve with the Spectrum Envelope.
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EUT Timing Analysis Step by Stepı Spectrum analyzer with sweep time = 15 sec
ı Activate sufficient frequency points approach step size = 50% of RBW
CISPR Band B: 6000 @ RBW = 9 kHz
CISPR Band C/D 16000 @ RBW = 120 kHz
If the analyzer can not handle such amount of points then the span has to be reduced
accordingly
ı Trace Detector: Max Peak or Positive Peak
ı Single Sweep
ı Check for a „thick trace“ e.g. > 10 dB. This is an indicator for an intermittent signal (pulsed
signal)
ı Place a marker on a high level of the thick band ín the display
ı Select the marker frequency as the new center frequency
ı Switch to “zero span“.
ı Modify the sweep settings: e.g. sweep time (time window span) = 100 ms
ı Find out the interval between two pulses / trenches, etc.
ı In case of irregular peak patterns select a sweep time, where often 5 peaks occur in the
display. Then divide the sweep time by 4 to get a useful measurement time per frequency
point.
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Time
Fre
qu
en
cy
Δt
Δf /ΔtA low scan rate…
…leads to a high probability
of intercept per sweep!
Δf
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Signal Interception
Broadband spectrum
of pulsed interferer
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Single Sweep vs.Spectrum Envelope
Maxhold Curve of Multiple Sweeps over
a longer period Spectrum Envelope
Single Sweep curve without sweeptime adjustment
Result of a fast sweep.
Spectrum
Envelope
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Single Sweep vs.Spectrum Envelope
Spectrum Ana. 5 MHz Span in Bd. B
A focus on a smaller
frequency range has
been decided by the
user to achieve a better
visualization.
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Single Sweep vs.Spectrum Envelope
@ SGL: Single Sweep. Sweep Time SWT = Total Observation Time
Scan Rate = 5 MHz / 10 ms
= 500 MHz / s
far away from trace match.
Spectrum
Envelope
SWT = 20 s @ 5 MHz span
(swept) scan rate = 0.25 MHz/s
corresponding to the EUT timing analysis
in accordance with CISPR 16-2-x.
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Single Sweep vs.Spectrum Envelope
Spectrum
Envelope
Scan Rate = 5 MHz / 100 ms
= 50 MHz / s
far away from trace match.
SWT = 20 s @ 5 MHz span
(swept) scan rate = 0.25 MHz/s
corresponding to the EUT timing analysis
in accordance with CISPR 16-2-x.
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Single Sweep vs.Spectrum Envelope
It is still not useful
to apply a margin.Spectrum
Envelope
Scan Rate = 5 MHz/0.5 s
= 10 MHz/s
far away from trace match.
SWT = 20 s @ 5 MHz span
(swept) scan rate = 0.25 MHz/s
corresponding to the EUT timing analysis
in accordance with CISPR 16-2-x.
SWT = 500 ms
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Single Sweep vs.Spectrum Envelope
Spectrum
Envelope
Scan Rate = 5 MHz / s
far away from trace match.
SWT = 20 s @ 5 MHz span
(swept) scan rate = 0.25 MHz/s
corresponding to the EUT timing analysis
in accordance with CISPR 16-2-x.
SWT = 1 s
It is still not useful
to apply a margin.
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Single Sweep vs.Spectrum Envelope
Spectrum
Envelope
SWT = 2 s
It is still not useful
to apply a margin.
SWT = 20 s @ 5 MHz span
(swept) scan rate = 0.25 MHz/s
corresponding to the EUT timing analysis
in accordance with CISPR 16-2-x.
Scan Rate = 5 MHz / 2 s
= 2.5 MHz / s
closer to trace match.
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Single Sweep vs.Spectrum Envelope
Spectrum
Envelope
A margin can
be applied from
factor 5.
SWT = 20 s @ 5 MHz span
(swept) scan rate = 0.25 MHz/s
corresponding to the EUT timing analysis
in accordance with CISPR 16-2-x.
Scan Rate = 5 MHz / 10 s
= 0.5 MHz / s
closer to trace match.
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Single Sweep vs.Spectrum Envelope
Sweep time adjustment brings a good match
of the two curves.
Target for curve matching:
SWT = 20 s
Spectrum
Envelope
Scan Rate = 5 MHz / 20 s
= 0.25 MHz / s
Trace match!
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EUT Timing Analysis to increase Repeatability
ı The EUT Timing Analysis helps to find the correct measurement time per
frequency
ı Fast sweeps without understanding the pulse interferer characteristic of the
EUT just result in “lucky shots“.
ı The measurement reliability is shrinking with fast sweeps / scans applied to
unknown EUT. Critical frequency points can be missed.
ı Subranges might be represented not at all or with values that are far below the
actual interferer subrange maximum
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Pulses generated by a Pulse Generator
Pulses of real EUT
Instrument settings: spectrum analyzer in ZERO SPAN mode
The signals are analyzed in the time domain.
Pulse Generatorshelp to prove CISPR 16-2-x Strategy to find the correct Observation Time
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without
Smart Settings
Pulse Generatorshelp to prove CISPR 16-2-x Strategy to find the correct Observation Time
Example Setting:
PRF = 50 Hz
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with
Smart Settings
Pulse Generatorshelp to prove CISPR 16-2-x Strategy to find the correct Observation Time
Example Setting:
PRF = 50 Hz
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Pulse Generators
Example Setting:
PRF = 50 Hz
with
Smart Settings
MT = 1/PRF
By means of classic technology
long observation times have to
be accepted to avoid gaps in the
spectrum envelope.
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Motivation for FFT-based Measurements
ı Request for shorter oberservation times
ı The interceptions will change from interception points to interception areas
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Time
Fre
qu
en
cy Broadband spectrum
of pulsed interferer
Broadband spectrum
of pulsed interferer
Broadband spectrum
of pulsed interferer
Broadband spectrum
of pulsed interferer
Broadband spectrum
of pulsed interferer
Spectrum Trace
in MaxHold
Mode
Area of
Interception
Moving
Segment
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Motivation for FFT-based Measurements
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Time
Fre
qu
en
cy Broadband spectrum
of pulsed interferer
Broadband spectrum
of pulsed interferer
Broadband spectrum
of pulsed interferer
Broadband spectrum
of pulsed interferer
Broadband spectrum
of pulsed interferer
Spectrum Trace
in MaxHold
Mode
Area of
Interception
Moving
Segment
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Motivation for FFT-based Measurements
Effect 3
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Motivation for FFT-based Measurements
Frequency Bins
Segment Effect 4
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Accuracy Requirement for Frequency Bins
IF Selectivity must fit in
CISPR 16-1-1 tolerance mask.
Frequency
BinIF-BW
Classic scan
(stepped scan)
FFT-based
measurement
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Processor
Signal Processing
f
ResamplingADC
IF Signal
timetime
81.6 Msa/s
Targeted oversampling
factor depending on frequency
steps (CISPR-BW/4) and
on segment size.
200 Msa/s
ESU
ESW
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128 Msa/s ESR
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Internal FFT result
for each window.
Time evaluation
( detector function)
per frequency coefficient
(in measurement
time interval)
FFT Result
Detector-
weighted
frequency
coefficients
per segment
timeMeas.
Time
Signal Processing
Detector
function
Measurement
time
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Internal FFT result
for each window.
Time evaluation
( detector function)
per frequency coefficient
(in measurement
time interval)
FFT Result
Detector-
weighted
frequency
coefficients
per segment
time
Signal Processing
Detector
function
Measurement
time
Meas.
Time43
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Internal FFT result
for each window.
Time evaluation
( detector function)
per frequency coefficient
(in measurement
time interval)
FFT Result
Detector-
weighted
frequency
coefficients
per segment
time
Signal Processing
Detector
function
Measurement
time
Meas.
Time44
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Selectivity of Frequency Bin
- CISPR16-3:
Distance to 1st side lobe
Must be ≥ 40 dB
Rectang. window
in time domain
Gaussian
windows
in time
domain
≥ 40 dB
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CISPR16-2 all parts – Analysis Steps
Final
(automated / semi-automated)
Timing Analysis of EUT
Data Reduction / Critical Frequencies
Preview / Pre-scan
(automated / semi-automated)
to find Measurement Time
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Too short Measurement Time Lack of Intercept
TV Set near power connector; transducer nearfield probe
Reason for segment data loss:
EUT Timing Analysis Result
has been disregarded.
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Too short Measurement Time Lack of Intercept
TV Set near power connector; transducer nearfield probe
Reason for segment data loss:
EUT Timing Analysis Result
has been disregarded.
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Too short Measurement Time Lack of Intercept
TV Set near power connector; transducer nearfield probe
Measurement Time only 5 ms.
The EUT Time Behavior Check
result has been disregarded!
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CISPR16-2 all parts – Analysis Steps
Final
(automated / semi-automated)
Timing Analysis of EUT
Data Reduction / Critical Frequencies
Preview / Pre-scan
(automated / semi-automated)
to find Measurement Time
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TV Set near power connector; transducer nearfield probe
Conclusion out of ZERO SPAN measurement:
a measurement time or observation time
of at least 10 ms per frequency point is required.
A measurement time of at least 10 ms per segment
is required.
Too short Measurement Time Lack of Intercept
TV Set near power connector; transducer nearfield probe
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Sufficient Measurement Time Intercept OK
TV Set near power connector; transducer H-nearfield probe
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Why RSE become really important measurements
Motivation: getting less EM pollution in the air
ı Spurious ( interferers) decrease systems performance
ı This is the only way to get efficient cohexistence between systems which use same frequencies list shared in time
I/Q Constellation of a 64 QAM signal with increasing interference
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EMI and RSE differences regarding measurements
ERP: Effective radiated power ı The measured quantity to be evaluated is
not the electric field radiated but the effective radiated powernot at the location of the measurement antenna but from the EUT.
Therefore, the
level in dBµV measured on the receiver instrument must be converted to
dBm differently than in standard EMI measurements (dBµV/m)
and the
free space attenuation for a given measurement distance (d) has to be
considered.
Consequences : different transducer factors tables
have to be derived for the antenna transducer factor (TF) in antenna properties,
which describes the antenna's signal conversion characteristic.
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Range Attenuation (theoretical)
The power effectively radiated from a mobile phone at a certain
frequency is given by:
dAntceff FSAGLP 107Re
effective radiated power in dBm
level reading on the receiver instrument in dBuV
107 is the conversion factor from dBuV to dBm
antenna gain in dBi
free space attenuation (FSA) in dB for a given
measurement distance d in meters
(1)
EMI and RSE differences regarding measurements
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Field and SpaceWrong polarisation can make infinite attenuation
H ou V ???
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fc fc+1fc-1
necessary bandwidth
Max. output power
ACLR
250% x BW
Spurious Emissions Emissions Mask functionsCP/ACP >> OutBand >> Spurious
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Spurious Emissions Emissions Mask functions
ı Unwanted emissions outside the transmitter nominal operation frequency. Exclude the out of band
emissions
ı Caused by harmonic emissions, parasitic emissions, intermodulation products and frequency
conversion products.
Spurious emissionsWanted signal
OutBand emissions
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Tx : to be suppressPower
Frequency
notch filter curvehigh pass filter
2.4G
Spurious : to be measured
2.4GDC // 10Mhz
l Notch filter to reject the Transmetter Carrier (but BW limited most of time)
l HighPass filter, which can have passband up to 26 or 40 Ghz…
l Last, you can use antenna response to make this filtering
Spurious Emissions and RF power consideration
TX power = risk of Overload instrument
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Spurious Emissions on EMI receiver( latest ESW )l Internal Notch filter ( 2.4Ghz & 5Ghz ) added to classic CISPR Preselector
l Internal PA
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Spurious Emissions on Spectrum Analyserl External Notch filter, if not enough dynamics
l Internal PA if not enough DANL on the SA
( both need dedicated calibration )
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Spurious Emissions and Time consideration
Good Noise floor = narrow RBW ( if not standardized )
Meas. speed = but linked to the Rbw/Span
Receiver mode : Scan table
Spectrum mode : Sweep list
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Spurious Emissions ( RBW versus sweep time)
The smaller the resolution bandwidth,
the higher the spectral resolution.
The RBW influences the displayed
noise floor and the sweep speed of
the spectrum analyzer.
RBW 10 MHz
RBW 100 kHz
RBW 10 Hz
RBW 100 Hz
RBW 1 kHz
RBW 10 kHz
• Pass/ Fail
• Final spurious table
• Residual spurs detected
• RBW optimized if needed
• Pass/ Fail spurious
detection limit
• Preliminary spurious
tablet
• Estimated
measurement time
• Segment table with
best fit RBWs
Spectral overview & noise floor estimation
Spur detection Spot search
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Spurious Emissions ( prescan as overview )
Measures noise floor for user settings
Estimates required measurement time
Calculates optimum RBWs for each frequency
according to the spurious detection threshold
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Spurious Emissions ( spurious detection to limit line)
Uses RBW settings calculated in previous sweep
Preliminary spur table is the result
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Spurious Emissions ( partial sweep as spot search)
Performed over very narrow spans around each spur detected in the previous
step
Pass/ Fail considering spurious emissions limit and SNR
Final spurious table
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Spurious Emissions ( test time divided by 44 )
RBW / Noise (dBm)
1 GHz span
High end spectrum
analyzer
Speed (s)
R&S FSW
spectrum analyzer,
Speed (s)
New FSW-K50 Spurious
search application
Speed (s)
1 Hz / -140 9700 12246 200
2 Hz / -138 2840 3088 84
3 Hz / -135 1470 1384 35
5 Hz / -132 660 507 12
10 Hz / -130 308 132 7
20 Hz / -128 126 36 6
30 Hz / -125 51 17 5
50 Hz / -122 42 7.1 4
100 Hz/-120 23 4.1 3
Spur search with the new FSW-K50 is up to 50 times faster than
traditional spurious
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