| Radio Receiver Technology |
Radio receiver technology
Information, articles, and tutorials about all the essentials of radio
receivers from basic principles, specifications and circuits to overall radio
receiver concepts including the superheterodyne receiver, SDR, and cognitive
radio for radio communications.
Radio receivers are obviously a very important part of
wireless and radio communications technology. Their performance is critical to
many applications. The basic radio receiver concepts including the superhet or
superheterodyne receiver and other topologies such as the direct conversion
receiver are of great interest. Elements such as selectivity, sensitivity
including signal to noise ratio, SINAD, and noise figure, dynamic range, and
many more are of great importance to any radio receiver. So too are some of the
circuits and techniques employed. Mixers, demodulators and frequency
synthesizers along with techniques such as digital signal processing, DSP,
software defined radio, SDR are a few examples.
Radio receivers are used in a very wide variety of radio
communications applications ranging from two way radio communications as well as
general fixed and mobile radio communications and satellite communications. In
addition to this radio receivers are sued in cellular telecommunications as well
as applications such as Wi-Fi, WiMAX, and many other standards. As such radio
receivers represent an important technology in radio communications.
Radio receiver types
Principle of the superhet. Virtually all receivers today use
the superhet or superheterodyne principle. Find out how the superhet, or
superheterodyne receiver works.
Introduction to the superhet or superheterodyne radio receiver
Radio receiver specifications
There are many specifications and facilities related to radio
receivers and hence to radio communications systems. Sensitivity, noise figure,
SINAD, overload and dynamic range, selectivity, filter shape factor and many
more are all important:
Selectivity - filter specifications and shape factor
Image response and IF breakthrough
Sensitivity - signal to noise, SINAD and noise figure
Signal to noise ratio
SINAD
Noise figure
The noise floor of a radio receiver
Cross modulation, intermodulation distortion and intercept point
Dynamic range
FM reception - squelch, quieting and capture ratio
Phase locked loops, PLLs
Phase locked loops, PLLs are widely used in radio circuits as
the basis of many frequency synthesizers and for FM demodulators amongst other
radio communications applications.
The phase
locked loop the basis of many synthesizers and Fm demodulators
- Phase detector
-
Voltage controlled oscillator, VCO
- Low phase noise oscillator
- Loop filter
Frequency Synthesizers
Frequency synthesizers are widely used in radio receivers.
Upon their performance depends many of the parameters of the whole receiver.
Particularly important is the phase noise performance as this can limit the
performance of a complete radio communications system.
Basic operation of an indirect (PLL) frequency synthesizer
Phase noise and reciprocal mixing
The basics of direct digital synthesis
Graphical method for designing frequency synthesizers to meet a phase noise
specification
Demodulators and demodulation
AM demodulation using a diode detector
Synchronous AM demodulation
FM demodulation and demodulators
Filters
Within a radio receiver the filter is one of the most
critical items as it provides the selectivity for the set.
Radio receiver filter options - a summary of the options available including
LC, crystal, mechnical and ceramic filters.
Quartz crystal band pass filters
Mechanical filters
Surface acoustic wave, SAW, filter
Digital Signal Processing, DSP
Digital signal processing, DSP, is becoming more widely used
now that sufficiently powerful processors are available for relatively low cost,
making DSP cards an attractive proposition for many radio receiver applications.
Basics of Digital Signal Processing, DSP
The
trade-off between FPGAs and DSP processors for DSP hardware
Software defined radio (SDR)
With software taking over more of the function of a radio,
the software defined radio is the ultimate and provides many advantages in many
circumstances.
An overview of the software defined radio
Cognitive Radio - a technology beyond the software defined radio
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