| RFEL stretches the Dynamic Range of ADCs to provide 'Best in Class' Product Performance |
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Newport, Isle
of Wight, UK - 5 October 2012 - RFEL, who specialize
in high performance electronic signal processing solutions, has produced a
solution to overcome the common performance bottleneck of the
dynamic range of high speed ADCs that can prevent innovative projects in
wireless communications and instrumentation from getting off the ground. RFEL
has successfully extended the dynamic range of an 8bit 800MSPS ADC from 52dB up
to 74dB (see figure) in order to meet specific customer requirements for an
industrial test product design.
Dr. Alex Kuhrt, RFEL's CEO,
explained, "Our many man-years of leading-edge, signal processing
design knowledge enabled us to really push the envelope of the ADCs' dynamic
range so that the customer could get a new product on the market that has 'best
in class' performance. Breaking through the dynamic range limit of the ADCs was
just one of the design challenges for this project, which is one of the growing
number of complete box solutions that we are providing as part of our Design
Services operation. RFEL was responsible for the entire design flow from initial
concepts and algorithms through to PCB layout, design of firmware, software,
mechanical housing, and final environmental and EMC testing."
The ADCs were supplied by
e2V and Francis Jones, e2V's Business Development Manager, commented, "We are
delighted to see our devices being used in such an innovative way to extend
their dynamic range. It is impressive to see just how much
additional performance can be achieved by using our
device."
The multi-channel analogue
and digital design uses six, quad speed, EV8AQ160 ADCs, two 1.6GHz PLLs, four
high speed FPGAs and a processor. The complexity of integrating multiple large
BGA devices and associated high speed I/O into a small area required a 14-layer
PCB design. The added signal sensitivity requirement necessitated linear power
supply regulators, low noise analogue components and careful layout of power
planes. Analogue simulation was used to prove the stability and frequency
response of the input chain whilst the RTL design was checked against a bit true
Matlab model.
The dynamic range of the
ADC was extended by employing a stacked ADC architecture. This approach provides
large gains in dynamic range by use of parallel data capture paths with
staggered attenuation settings. Matching the frequency, phase and amplitude
characteristics on these parallel paths is critical to a successful
implementation. Therefore special attention was focused on the architecture of
the analogue design to mitigate potential mismatch of device
characteristics.
After the received signal
has been converted to the digital domain, the input data rate for each channel
is 29Gb/s. Initial signal processing reduces the rate whilst maintaining full
timing precision. Further time and frequency domain measurements are applied
before passing results on to the processor. Software handles final adjustments
to the data and manages the user interface. A network connection allows control,
data transfer and updates to be carried out via remote access.
RFEL
RFEL is a UK-based
electronic systems designer, providing high specification signal, image and
video processing IP solutions that run on FPGAs, as well as supplying digital
receiver and complete product solutions for the defense, communications,
homeland security and instrumentation markets. Applications include
communications base stations, satellite communications systems, test and
measurement instrumentation, and bespoke wideband
receivers/transceivers.
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