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0. The µWave SDR
By Jonathan Naylor, ON/G4KLX
1. What Is The µWave SDR?
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Cheap access to microwaves
Use the best of modern technology
DSP to give great performance
Small form factor for remote mounting
Keep it simple - most microwave ops aren’t
computer specialists
2. The Team
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Neil Whiting, G4BRK
Chris Bartram, GW4DGU
Jonathan Naylor, ON/G4KLX
Grant Hodgson, G8UBN
Tobias Weber, DG3YEV
3. The Concept
TX
µWSDR 1
TX
µWSDR 2
RX
Switch
RX
PC
4. Unified Hardware
• Use the latest commercial IC’s/module’s
• Same devices across bands
• Two part hardware, a common back-end
and a band specific front-end
• Together Eurocard sized to fit into standard
extrusions/cases
5. Front-Ends
• Basic specifications:
100 - 200mW RF output
2 - 3dB Noise figure
• Simplifies design, reduces cost and
engineering complexity
• Fits in well with modular designs
• Can be used barefoot and still be effective
6. Front-End Block Diagram
RF In
BPF
LPF
I/Q Out
10 MHz
Osc. Control
RF Out
Control Out
BPF
I/Q In
Control In
7. Front-End Specifics 1/2
• Single Fraction-N synthesizer chip chosen,
the LMX 2486
• Divided for lower bands, thereby reducing
phase noise
• External high quality 10 MHz source is
possible
• Commercial of home made VCOs
8. Front-End Specifics 2/2
• Highly integrated RX and TX mixers:
RX – LT 5575, LT 5517
TX – ADL 5372, ADL 5385
• Three layer PCB, oscillator on one side, RX
and TX chains on the other
• Commercial or home made bandpass filters
9. Design Challenges
• Microwave band activity areas are narrow,
but they may not be the same worldwide
23cms – 1269/1296 MHz
13cms – 2304/2308/2320/2400/2424 MHz
9cms – 3400/3456 MHz
• This complicates the design of VCOs and
bandpass filters
10. Back-End
• Interface between the PC and the Front-End
• One per front-end, tightly integrated
• Converts base band to ethernet packets and
vice versa
• Takes commands to control the oscillator
and external devices
• General purpose CPU for flexibility
11. Back-End Block Diagram
I/Q In
ADC
AKM5394a
I/Q Out
DAC/
Clock
PCM1740E
CPU
AT91SAM7X256
Osc. Control
Control Out
Ethernet
12. Back-End Hardware
• CPU is a 60 MHz ARM7 core with
integrated Ethernet, programmed in C
• ADC is AKM5394a operating at either 48
or 96 Ksps
• DAC + Clock is PCM1740E, feeds clock to
the ADC, speed under software control
13. Back-End Software
• Implements a complete UDP/IP stack
• Simple command interpreter
• Possibility of hardware AGC
14. The Ethernet Protocol
• All messages use UDP/IP
• All messages have a two character identifier
• Data messages have a sequence number to
discard out-of-order packets, no retries
• Command messages have explicit
ACK/NAK
• Command messages are transported with a
simple stop-and-wait protocol
15. Why Ethernet?
• Longer distances than USB, important for /P
and remote mounting of hardware
• Less HF interference than USB
• Simple to extend with fibre optic
• A more portable API on computers
16. µWave SDR Software
• A suite of four programs:
The GUI
SDRSetup
GUISetup
SDRHelp
• Very simple to install and use
• Completely cross platform, Windows,
Linux and Mac OS X
17. SDRSetup
• Sets up the UWSDR
hardware
18. GUISetup
• Creates or changes an
instance of the GUI
• Sets up external
connection information,
dependent on the type of
SDR chosen
19. SDRHelp
• Help available for the
other programs
• Available from within
the GUI
20. The GUI
21. GUI Features
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Uncluttered design and easy to use
Looks similar to existing radios
Runs on small-ish computers
Supports multiple hardware types:
UWSDR
SoftRock (RX and RXTX)
Demo mode
22. GUI Internals
• DSP core based on DttSP but converted to
C++
• Removed esoteric features
• Added Weaver method
• I/O via interfaces making the addition of
new hardware simple
• More tightly integrated than DttSP, more
like PowerSDR
23. GUI Usage
• Less used features are hidden away, similar
to the IC-706
• Spectrum display is adjustable
• S/Power Meter is adjustable
• CW/Voice keyer
• Has the concept of default bandwidth, AGC
speed and tuning speed per mode
• Target audience are not computer geeks
24. 3cms SoftRock RXTX?
• Fixed LO based on WiMAX VCO and
fractional-N synthesizer
• Passive bi-directional mixer
• Integrated patch antenna for dish mounting
-6 dBm RF output (250 µW)
10 dB noise figure
• Great for /P use on hills/mountains
25. µWave SDR Progress
• Software is mature and in use on-air with
SoftRocks
• Back-end is progressing well, currently
evaluating new Ethernet hardware
• Front-Ends are not so advanced
26. Contact
• Software is under the GPL
• Hardware will probably use the TAPR OHL
• If you would like to help the µWave SDR
project, either hardware or software
Web page: http://www.uwsdr.net
E-mail: [email protected]