an introduction to roofing filters www.ac0c
TRANSCRIPT
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www.ac0c.com
An Introduction to Roofing Filters
Jeff Blaine – ACØC CADXA – 6 Oct 2011
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www.ac0c.comFirst: The Required IMD Refresher
Virtually Math Free!
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www.ac0c.comHeterodyne Receiver 101
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www.ac0c.comIMD and the 3rd Order Rule
• IMD - Inter Modulation Distortion
• Caused by nonlinear processes – all components can be nonlinear
• 3rd Order Rule - IMD products increase at 3x signal levels
• IMDDR3 or DR3 – Third Order Intermodulation Limited Dynamic Range
• Other “order” IMD products also exist – but 3rd order is the trouble maker
© Jeff Blaine AC0C 2011, all rights reserved 4
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www.ac0c.comThird Order IMD - Graphically
© Jeff Blaine AC0C 2011, all rights reserved 5
• Assume inputs at 7.010, 7.020• IMD3 products located at 7.000, 7.030
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www.ac0c.com3rd Order IMD Limited Dynamic Range
• IMDDR3: Standard term (written several ways)
• A measure of 1)the strength needed for 2 signals2) which cause an IMD product that 3) extends just above the noise floor
• Standard signal spacing –2/5/10/20 KHz à 2 KHz key
• Often called THE key receiver metric (for RX comparisons)
• Superhets – closer spacing, worse DR3 performance
© Jeff Blaine AC0C 2011, all rights reserved 6
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www.ac0c.comIn-Band vs. Out-of-Band DR3
• Out-Of-Band:
o Roofing filter width < test tone spacing width
o Test tones are attenuated by roof
o DR3 value is limited by UPSTREAM components (includes the roof)
• In-Band:
o Roofing filter width >> test tone spacing
o Test tones are not significantly attenuated by the roof
o DR3 value is limited by DOWNSTREAM stages (2nd mixer ?)
© Jeff Blaine AC0C 2011, all rights reserved 7
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www.ac0c.comWhat About IP3?
• IP3 is a calculation based on the SLOPE of input signal and IMD products:
o IP3 = ½ ( IMDDR3 ) + Input Power or 1.5 (IMDDR3) + noise floor
• Can also be extrapolated from rig measurements
• The point where the two lines cross is called the Intercept Point
• Assumes the 3rd order law is followed
• Further complicated: input (IIP3) and output (OIP3) definitions
• Personal opinion: IMDDR3 is typically a more precise term
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www.ac0c.comIP3 Example – FT-1000 MP
• From: Smith, Improved Dynamic Range, QEX Jul/Aug 2002 – data by W1RFI/ARRL
© Jeff Blaine AC0C 2011, all rights reserved 9
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www.ac0c.comIP3 Example – IC-765
• From: Smith, Improved Dynamic Range, QEX Jul/Aug 2002 – data by W1RFI/ARRL
© Jeff Blaine AC0C 2011, all rights reserved 10
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www.ac0c.comSidebar: Understanding the Plots
• Signal generator à Antenna Input• 450 KHz Spectrum Analyser tied to output of 2nd IF • Shows what the 3rd mixer “sees” – isolates 1st IF • Plots in this presentation – actual data – NOT simulated• IMD testing setup is very difficult – especially the signal source
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www.ac0c.comIMD Products: A Ghost in the Machine?
© Jeff Blaine AC0C 2011, all rights reserved 12
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www.ac0c.com
© Jeff Blaine AC0C 2011, all rights reserved 13
“Rare DX Here”A Roofing Filter Story in Pictures
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www.ac0c.comA Quiet Day in DX Land
© Jeff Blaine AC0C 2011, all rights reserved 14
What the 3rd Mixer Sees – Lone DX station – IMD products not a factor
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www.ac0c.comUntil N7DD and N6SS Arrive
© Jeff Blaine AC0C 2011, all rights reserved 15
What the 3rd Mixer Sees – Two strong signals in-band – IMD everywhere
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www.ac0c.comEngaging Our OEM Roofing Filter (~6+ Khz)
© Jeff Blaine AC0C 2011, all rights reserved 16
What the 3rd Mixer Sees – 6 KHz BW roof – minor reduction in signals à IMD
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www.ac0c.comFinally, the 2.4 Khz Filter
© Jeff Blaine AC0C 2011, all rights reserved 17
What the 3rd Mixer Sees – 2.4 KHz NS roof – Significant sig reduction à IMD t
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www.ac0c.com
© Jeff Blaine AC0C 2011, all rights reserved 18
Roofing FiltersBasics, Capabilities, Limitations
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www.ac0c.comRoofing Filter Basics
• Where: First filter, as close to the antenna as possible – 1st IF typical
• Why: Protects following circuits from nonlinear operation due to strong out of band signals
• What: MCF or discrete crystal construction
• Width: Sized to pass the widest mode of operation
• Improve DR3 begins with spacing ¼ filter width, or more
© Jeff Blaine AC0C 2011, all rights reserved 19
Rodhe, Recent Advances in Receiver Design, QST Nov 1992
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www.ac0c.comRoofing Filter Capabilities
• IMD productso Result from non-linear operation (overload)o Key point à IMD products are generated within the RX chaino Typical IMD sources: pre-selector, mixer and switching
• Action: Attenuates adjacent strong signals àreduces / eliminates IMD products
• Other benefitso Reduce AGC pumping à AGC loop after the roofo DSP has less bandwidth (information content) to process
© Jeff Blaine AC0C 2011, all rights reserved 20
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www.ac0c.comRoofing Filter Limitations
• Originally not intended as selectivity filters
• Rather, supplement to DSP (final) filtering
• Cannot improve in-band DR3
• A good filter reveals the next weaker link in the chain
• Cannot filter in-band interference (splatter, key clicks)
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www.ac0c.comRoofing Filter Limitations – Key Clicks
Courtesy NC0B Rob Sherwood
• Faster rise time, wider bandwidth -> more “clicks” • Clicks are not filterable – the energy is “in-band”
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www.ac0c.comRoofing Filter Limitations – Sidebands
Courtesy NC0B Rob Sherwood
• Even properly adjusted transmitters not perfect• Splatter not filterable – the energy is “in-band”
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www.ac0c.com
© Jeff Blaine AC0C 2011, all rights reserved 24
What AboutUp Conversion vs. Down Conversion?
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www.ac0c.comDown Conversion vs. Up Conversion
• Up Conversion Architecture – 70 Mhz typical 1st IFo Uniform performance over entire frequency rangeo Needs VHF roofing filters (wide/cheap **or** narrow/expensive)o Excellent image rejectiono Close-in DR varies
• Down Conversion Architecture – 9 Mhz typical 1st IFo Performance near IF is not uniformo Image rejection near ham bands requires design attentiono Needs only HF roofing filters (narrow/cheap)o Close-in DR generally good, even in lower end models
• Roofing filters found in both architectures – serving the same purpose - protection
© Jeff Blaine AC0C 2011, all rights reserved 25
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www.ac0c.comWhat’s Driving Down-Conversion Rigs?
1) Market focus on close-in specs vs. image rejection
2) Crystal Performance vs. Cost - optimal around 9 Mhz
3) Crystal cost increases with frequency:
o ~ 3x going upo ~ 2x going down
4) HF vs. VHF front ends are cheaper in most other ways
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www.ac0c.comUp-conversion VHF OEM Filters – Filter on VNA
• 3/6 KHz OEM filters: 6-7 KHz @ -6 db15-18 KHz @ -50 db
• NS roofing filter:2.4 KHz @ -6 db5.6 KHz @ -50 db
• Single signal selectivity for SSB
• Improves DR3 on all spacing's from 600 Hz and up –great for CW/digi
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www.ac0c.comUp-conversion VHF Roofing Filters – Filter In Rig
• Lot 19 FT-2000D• Measured values
• 3 KHz OEM Filtero 6.3 KHz @ -6 dbo 18.5 Khz @ -50 dbo $11
• 2.4 KHz NS Filtero 2.2 KHz @ -6 dbo 5.3 KHz @ -50 dbo $300
© Jeff Blaine AC0C 2011, all rights reserved 28
3 KHz OEM
2.4 KHz NS
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www.ac0c.comIcom Has Better Marketing Luck Than Yaesu???
• “3 Khz” seems to mean different things to different companies…
© Jeff Blaine AC0C 2011, all rights reserved 29
VHFRoofFrom IcomIC-7600 andIC-7700Brochures
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www.ac0c.comDown-Conversion HF Roofing Filters - VNA
© Jeff Blaine AC0C 2011, all rights reserved 30
Elecraft 8-pole 400 Hz & 1.8 KHz Inrad Filters
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www.ac0c.comDown-Conversion HF Roofing Filters - VNA
© Jeff Blaine AC0C 2011, all rights reserved 31
Yaesu FT-dx5000 300 Hz filter
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www.ac0c.comRoofing Filters – Bandwidth Tip
© Jeff Blaine AC0C 2011, all rights reserved 32
• Use a wider roof if conditions allow – less fatigue• Crystal filter designs à focus on steep skirts• Trade-off is uneven “group delay” à ringing• Group delay is a problem for RTTY • DSP implementations (regarding ringing) vary à IIR types best
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www.ac0c.comThe Last Word on the DR3 Spec
How Much is Enough?
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www.ac0c.com
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DR3 – How Much is Enough?• Expert Opinion
o NC0B Rob Sherwood: 80 db @ 2 Khz CW, 70 db SSBo W8JI Tom : 80-85 db @ 2 Khz
• Contest Community Exampleso K3LR – Runs IC-7800 (85 db)o W3LPL – Mix of 10 FT-1000 (78 db) + 2 K3o K5G0 – Runs mix of 3 K3 + 6 IC-765 (DR3???)o NR5M – Mix of IC-7800, IC-7700, ProIIIo P49X – Mix of Pro3, FT990, FT1K, K3o WRTC 2010 – 5 of top 10 teams ran FT-1000
• How much is enough?
80 db CW + 70 db SSB **most of the time**
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www.ac0c.comPublished Test Result Example
Yaesu FT-dx5000
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www.ac0c.comYaesu Representations
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www.ac0c.comARRL – December 2010
© Jeff Blaine AC0C 2011, all rights reserved 37
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www.ac0c.comRSGB – June 2010
© Jeff Blaine AC0C 2011, all rights reserved 38
Yaesu Published Conditions
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www.ac0c.comWhen Comparing Review Numbers…
• DR3 results vary with many conditions
• Conditions usually not consistent between reviewer
• Factors may include:o DSP bandwidth (RSGB 500 hz vs. ARRL 300 hz)o Roof bandwidth (RSGB 600 hz vs. ARRL 300 hz)o IMD product measurement (RSGB AF voltmeter vs. ARRL 3 hz RBW SA) o MDS floor (ARRL uses 3 different ones)o Frequency of test (RSGB 7 Mhz vs. ARRL 14 Mhz)o Preamp setting (default, in both cases)o Preselector settings (IPO1, in both cases)o Equipment and setupo Measurement methods for one source - may change over time
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www.ac0c.comRig Examples
Where the Roofs Are
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www.ac0c.comRoofing Filter: FT-2000
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www.ac0c.comRoofing Filter: FT-5000
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www.ac0c.comRoofing Filter: K3
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www.ac0c.comRoofing Filter: IC-7800 / IC-7700
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www.ac0c.comA Secret Weapon
Free Insurance for your Roof
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www.ac0c.comSecret Weapon: Use ATTN + Preamps Off
• No soldering iron required
• Free “virtual” DR3 improvement
• Set IPO mode (preamps off)
• Add ATTN
• IMD products drop by 3x the selected attenuation value!
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www.ac0c.comSecret Weapon: Use ATTN
• Effect of ATTN on IMD product levels ~ 3:1 ratio
© Jeff Blaine AC0C 2011, all rights reserved 47
What the 3rd Mixer Sees – With varying ATTN
ATTN IMD Level-6 db t 15 db-12 db t 30 db-18 db t 45 db
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www.ac0c.comSecret Weapon: Use Preamps With Caution
• Effect of PRE on IMD product levels ~ 3:1 ratio
© Jeff Blaine AC0C 2011, all rights reserved 48
What the 3rd Mixer Sees – With varying PRE
PREAMP IMD LevelIPO (no pre) <Baseline>PRE 1 (+11 db) s 30 dbPRE 2 (+17 db) s 50 db
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www.ac0c.comSecret Weapon: Attenuation with Band
Band Attn possible IMD level drop by160m 12-18 db 36-54 db80m 12 db 36 db40m 6-12 db 18-36 db20m 6 db 18 db15m 0-6 db 0-18 db10m 0 0
© Jeff Blaine AC0C 2011, all rights reserved 49
• Shows ATTN switch range possible without loss of useable sensitivity
• Table ignores phase noise limits
Lot 19 FT-2000D @ AC0C tested 7/21/2011
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www.ac0c.comClosing Thoughts
© Jeff Blaine AC0C 2011, all rights reserved 50
• Roofs serve a critical function à beware marketing spin
• Specs (DR3, etc) are hard to compare à on 100% same-same basis
• Fact: Mid-tier modern rigs will give you the QSO in most cases àuse attenuation on the low bands when needed
• Personal testimonials (“buddy hype”) are almost never unbiased
• Am I insuring for the possible exception – or paying up for real utility?
• Sports vs. luxury outlook – know your operating style
• Ergonomics and aesthetics ARE important
• The perfect rig has yet to be built
• Any rig is FB – if you don’t operate…
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www.ac0c.com
Thanks to the CADXA!
© Jeff Blaine AC0C 2011, all rights reserved 51
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www.ac0c.comContact AC0C
Web: www.acØc.com
Email: jeff@acØc.com
© Jeff Blaine AC0C 2011, all rights reserved 52
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www.ac0c.comReferences• Rohde, Ulrich L., KA2WEU, Key Components of Modern Receiver Design – Parts 1-3, QST May-Jul 1994• Rohde, Ulrich L., KA2WEU, Key Components of Modern Receiver Design: A Second Look, QST Dec 1994• Smith, Doug., KF6DX, Improved Dynamic Range Testing, QEX Jul/Aug 2002• Asbrink, Leif, SM5BSZ, Blocking Dynamic Range in Receivers, QEX Mar/Apr 2006• Rohde, Ulrich L., KA2WEU, Theory of Intermodulation and Reciprocal Mixing: Practice, Definitions and
Measurements in Devices and Systems, Parts 1-2, QEX Nov/Dec 2002, Jan/Feb 2003• Chadwick, Peter, G3RZP, HF Receiver Dynamic Range: How Much Do We Need?, QEX May/Jun 2002• Cartoceti, Sergio, IK4AUY, A Doubly Balanced “H-Mode” Mixer for HF, QEX Jul/Aug 2004• Sherwood, Rob, NC0B, Roofing Filters, Transmitted IMD and Receiver Performance, BARC 2008
presentation• Hayward, Wes, W7ZOI, Campbell, Rick, KK7B, Larkin, Bob, W7PUA, Experimental Methods in RF Design,
Revised First Edition, 2009• Bakker, Martein, PA3AKE, WWW: martein.home.xs4all.nl/pa3ake/hmode/receiver_intro.html• Rohde, Ulrich L., KA2WEU, Recent Advances in Receiver Design, QST Nov 1992• Fishk, James, W1DTY, Receiver Noise Figure Sensitivity and Dynamic Range – What the Numbers Mean,
Ham Radio, Oct 1975• Rauch, Tom, W8JI, WWW: w8ji.com/receiver_tests.htm• WRTC 2010 Result Table, WWW: wrtc2010.ru/result_table.php• Smith, Pete, N4ZR, World HF Contest Station Database, WWW: conteststations.com• Anritsu, Intermodulation Distortion, Application Note 13, WWW: downloadfile.anritsu.com/RefFiles/en-
US/Services-Support/Downloads/Application-Notes/Application-Note/IMDanREVc.pdf
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