fundamentals of passive intermodulation and distance …etotaal.nl/upload/3.anritsu.pdf ·...
TRANSCRIPT
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Ferdinand Gerhardes, Anritsu
April 2012
Fundamentals
of Passive Intermodulation and
Distance-To-PIM
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Intermodulation
Intermodulation is caused when 2or more RF carriers are mixed in an active system and form unwanted signals
When passive components containing non-linear elements those are the source of this interference
we refer it in this case as Passive InterModulation (PIM)
Active versus Passive Intermodulation
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Intermodulation
Non-Linear “Diode Effect” at ferromagnetic metals
A low signale operating in a linear region and a large signal operating in the non-linear region of a ferromagnetic metal is creating additional spectral components inthe output signal.
B [T]
H [Am-1]
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Intermodulation
Intermodulation mathematics
e.t.c.
……4f2+3f
15f
1+4f
2
105 MHz96 MHz5f2-4f
15f
1-4f
29th Order
……4f2+3f
14f
1+3f
2
104 MHz97 MHz4f2-3f
14f
1-3f
27th Order
503 MHz502 MHz3f2+2f
13f
1+2f
2
103 MHz98 MHZ3f2-2f
13f
1-2f
25th Order
2 MHz402 MHz2f2-2f
12f
2+2f
14th Order
302 MHz301 MHz2f2+f
12f
1+f
2
102 MHz99 MHz2f2-f
12f
1-f
23rd Order
1 MHz201 MHzf2+f
1f1+f
22nd Order
101 MHz100 MHzf2
f1
1st Order
Tone 2Tone 1FrequenciesOrder
e.t.c.
……4f2+3f
15f
1+4f
2
105 MHz96 MHz5f2-4f
15f
1-4f
29th Order
……4f2+3f
14f
1+3f
2
104 MHz97 MHz4f2-3f
14f
1-3f
27th Order
503 MHz502 MHz3f2+2f
13f
1+2f
2
103 MHz98 MHZ3f2-2f
13f
1-2f
25th Order
2 MHz402 MHz2f2-2f
12f
2+2f
14th Order
302 MHz301 MHz2f2+f
12f
1+f
2
102 MHz99 MHz2f2-f
12f
1-f
23rd Order
1 MHz201 MHzf2+f
1f1+f
22nd Order
101 MHz100 MHzf2
f1
1st Order
Tone 2Tone 1FrequenciesOrder
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Intermodulation
Intermodulation Orders
Order:
1 0 18 7 6 5 4 3 2 3 4 5 6 7
0 1 2 3 4 5 6 7 8
1 1 3 5 7 9 11 13 15
2
7 6 5 4 3 2 1
15 13 11 9 7 5 3
f1:f2:
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Intermodulation
InterferenceInterferenceInterferenceInterferenceInterferenceInterferenceInterferenceInterference
ffff1111
ffff2222
ffff1111+f+f+f+f2222
ffff2222----ffff1111
2f2f2f2f1111----ffff2222
2f2f2f2f1111
2f2f2f2f2222
2f2f2f2f2222----ffff1111
3f3f3f3f2222----2f2f2f2f
1111
4f4f4f4f2222----3f3f3f3f
1111
3f3f3f3f1111----2f2f2f2f
2222
4f4f4f4f1111----3f3f3f3f
2222
DesiredDesiredDesiredDesired
PIM is a result of signal mixing at nonlinearities
IM3 PIM non-linearity increases, in theory, at a ratio of 3:1 (PIM to signal)
A 1 dB increase in carrier power correlates to a theoretical increase of 3 dB in PIM signal power.
In practice, the actual effect is closer to 2,3-2,5 dB as the thermal noise constant -174 dBm/ Hz becomes an error contributor.
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Intermodulation
PIM multiplies bandwidth
If bandwidth of f1 and f2 is 1 MHz then
BWIM3 = 3 MHz
BWIM5 = 5 MHz
BWIM7 = 7 MHz
PIM are clogging up complete RF bands
ffff1111
ffff2222
ffffIM7IM7IM7IM7
ffffIM5IM5IM5IM5
ffffIM3IM3IM3IM3
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PIM impacts UL-bands of other services
A real scenario result and it’s spectrum
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PIM impacts UL-bands of other services
A real example - TELSTRA Next GTM UMTS 850
Example
f1 = 887 MHz, 5 MHz UMTS TX
f2 = 935 MHz, 200 kHz GSM TX
fIM3 = 839 MHz, CDMA RX
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PIM Summary
PIM is of particular concern when
• PIM products fall in the RX band
• Two or more transmitter channels share a common antenna
• TX signal levels are high
• RX sensitivity is high
• TX and RX are diplexed
Summary of the phenomenon
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PIM Summary
PIM is measured
acc. to IEC 62037 Ed. 1 1999 - RF connectors, connector cable assemblies, and cables intermodulation level measurement
Standard specifies the use of two 20 watt carriers ( 2 x +43 dBm)
Typical IM3 value is ≥≥≥≥ -165 dBc
Summary of the phenomenon
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Passive Intermodulation
Non-Linearities take two different forms
Contact Non-Linearity
Material Non-Linearity
PIM Causes
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Passive Intermodulation
Causes of contact Non-Linearities
Junction capacitance due to thin oxide layer between conductors
Impurities on metal surface
Semiconductor tunnel / schottky effect at point of contact
Contact restistance caused by two dissimilar metals
PIM Causes - Contect Non-Linearities
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Passive Intermodulation
Causes of material Non-Linearities
Hysteresis effect in ferromagnetic materials(nickel, iron, steel)
Thermal Heating due to poor conduction rate(torque, corrosion, cracks)
PIM Causes - Material Non-Linearities
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Passive Intermodulation
Loose and / or inconsistent metal to metal contacts
Not enough contact pressure.Cracked solder jointsCold solder jointsScratches or dents at mating interfacesBurrsMetal flakes, chips, dustImproperly formed or sized partsMisaligned partsRough mating surfaces (saw cut)Loose metal to metal contactsLoose or rusty bolts
Ferromagnetic materials (steel, nickel, etc.)
ContaminationTrapped between mating surfacesTrapped between plating layersSolder splattersDirt or debris
Surface OxidesInsufficient thickness of plated metal causing RF heatingToo much or too little torque at connections
Root Causes of PIM in a real RF environment
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Passive Intermodulation
ferromagnetic materials
cracked solder joints
Antenna showing oxidation
within the power divider
Field Examples
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Poor cable preparation
Dirt / trash
Passive Intermodulation
Field Examples
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Passive Intermodulation
LDF4-50A RF-Repeater feeder cable
-10 dB Return Loss after installation
no Repeater operation possible due to high noise level in Donor-SiteRX band
-35 dB Return Loss after connector swap
Field Examples
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Passive Intermodulation
A common PIM field failure in hardware is not PIM at all, it is arcing
Arching produces a wide-band noise signal that covers a much broader band than intermodulation.
Arcing, because it is wide-band, raises the whole receive noise floor.
PIM versus Arcing
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PIM sources within the RF interconnection
Co-Siting GSM 900 / GSM 1800 / UMTS
Copyright@Kathrein Corporation
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PIM sources within the RF interconnection
Co-Siting 3 Op GSM 900 / GSM 1800 and 4 Op UMTS
Copyright@Kathrein Corporation
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Fails PIM at 1900 MHzFails PIM at 1900 MHz
Passive Intermodulation
Does it matter at what frequency I test at?
PIM is not frequency selective
If the antenna system can pass
PIM test equipment frequenciesand intermodulation frequencies
Then test at those frequencies
If there are frequency limitating
antennas
TMAs
lightning arrestors
combiners/duplexers
Then pick frequencies in pass band
Fails PIM at 900 MHzFails PIM at 900 MHz
Testing the same cable
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Passive Intermodulation
The PIM level at which repairs must be made depends on a number of factors:
PIM level near to -110 dBmRX will begin to compete with Cell Phones
assuming TX carriers at +43 dBm, the threshold becomes-110 dBm or -153 dBc
due to RX Diversity PIM problems on a single RX branch can be toleratedfor ~ 10 - 15 dB above the -153 dBc
-143 to -138 dBcBeyond this point the BTS begins to lose receive diversity and call quality suffers
PIM Levels - Figures for practice
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Passive Intermodulation
The PIM level of a connector depends on material, power and torque
DIN 7/16 coax cable connectors
typically PIM values of -140 to -168 dBc
recommended torque (IEC) 35 Nm, in practice often 25 -30 Nm
Example: PIM difference between hand-tightend and torque specified
900 MHz band signals with 25 MHz tone separation and each 10 W carrier power
hand-tightened connector & & & & IM3 = -115,3 dB
25 Nm torque-tightened connector &&&& IM3 = -173.1 dB
PIM performance of DIN 7/16 connectors
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Passive Intermodulation
Coaxial cables together with connectors are the major source of PIM in communications systems
Comparision of 2 commercial PCS 1900 BTS feeder cables with 7/16” connectors
IM3 PIM was measured with 2 CW tones each with +40 dBm power
it was said that connectors are PIM3 < -120 dBm
PIM of a connector cable assembly
Copyright@NIST 1998
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Passive Intermodulation
Conventional way to measure PIM
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Indicators of PIM in a Cellular Network
Intermodulation products generated by TX signals can interfere in the RX band,
The common result is that these IM´́́́s can “over-power” receive channels.
Calls are dropped or
Channels are believed to be occupied and being used by the BTS
Loss of Air Time and thus ARPU
Cell Coverage shrinks
Data Transmission rate drops
RX control loop shows no problem
Antenna sweep detects no issue
RX Noise Level is high
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PIM Measurments
No, because
a single signal does not create mixing,
RF TX level too low,
Dynamic Range is too low
You need a tool to identify PIM
with respect to level
Noise Floor
source
and location
A tool to verify the quality of installation and discrete component performance
Can you detect PIM with a Sweeper?
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Anritsu – The Solution Box
Model RF Band RF range for f1 and f2 Power Levels
MW8219A PCS 1930 - 1990 MHz
AWS 2110 - 2155 MHz
MW8209A E-GSM 925 - 960 MHz
MW8208A US Cellular 869 - 894 MHz
20, 30 o4 40 W
Anritsu PIM MasterTM
The Fastest Way to Pinpoint the Source of PIM
Available PIM Master models
Handheld models supporting PIM MasterSite Master™S332E, S362ESpectrum Master™MS271xE, MS2721B, MS272xCCell Master™MT8212E, MT8213EBTS Master™MT8221B, MT8222B
20, 30, 40 W
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Passive Intermodulation Measurements
Measure PIM level and location
Run PIM TestRun PIM Test
Is there a problem Is there a problem ––
Yes!Yes!
Run DTP TestRun DTP Test
Troubleshoot largest Troubleshoot largest
PIM sourcePIM source
Amplitude Scale 75Amplitude Scale 75--100 dB100 dB
DUT 26 m cable with PIM Sources @ 3.1 m, 10.7 m, 25.9 m
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Passive Intermodulation Measurements
Finding of hidden and unknown PIM sources
Using Distance-to-Fault to Verify Antenna Location
Using Marker and Delta Marker to Identify Distance-to-PIM beyond the Antenna
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Passive Intermodulation Measurements
Prior way to measure PIM levels (example)
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Passive Intermodulation Measurements
Examplified principle on how to measure DTP
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PIM = reduces site performance
PIM sources can be eliminated / minimized through:
Careful construction techniques’
Use of low PIM components.
Careful site design.
PIM testing should be dynamic (not static)
PIM testing AND VSWR testing are needed to verify system performance.
Passive Intermodulation Measurements
Summary Statement
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