MICRONETICS CNS7109

CNS7109
COAXIAL AMPLIFIED NOISE SOURCE
5 MHZ TO 500 MHZ
available
from stock
D ESCRIPTION
The CNS7109 noise module is designed
for a wide range of applications. It features high noise output amplitude for
uses ranging from encryption to jamming. All biasing and amplification circuitry is built-in making it easy to design into
your system. It features a built-in voltage
regulator for highly stable output even if
your DC supply lines are not.
A PPLICATIONS
Common Noise Applications
CNS7109 TYPICAL DATA
1. Built-in IF Testing:
Highly stable flat over frequency noise
sources serve to provide built-in test
for an IF subsystem. By injecting a
stable signal reference through the IF
chain, one can calibrate the gain/loss
and frequency response. In addition,
the noise source can be used to set
up Eb/No for built-in stimulated BER
testing of digital demodulation.
1. Barrage Jamming:
The noise source is fed into the tuning
port of a VCO via a bias tee and a positive DC voltage. The random nature of
noise makes the output of the VCO to
hop around in a given frequency band
randomly making an ideal jamming signal. Further circuitry can be used
between the noise source and tuning
port to shape the noise probability density function (PDF) for the desired jamming effect.
S PECIFICATIONS
• Frequency:
5 MHz to 500 MHz
• Noise Power Spectral Density (No): -103 dBm/Hz (min)
• Noise Power (N): -16 dBm
• Spectral Flatness: 3 dB (total window)
• Bias:
12 Vdc, Internally Regulated
• Current Draw:
50 mA Max
• Peak Factor:
5:1
• Operating Temp: -55 to +85 C
• Storage Temp:
-55 to 125 C
MICRONETICS, HUDSON, NH 03051 / TEL: 603-883-2900 / FAX: 603-882-8987 / [email protected]
2. Random Number Generation for
Encryption:
Noise sources being truly random (not
pseudorandom) give the ultimate in
secure communication because of their
ability to generate a truly random number pattern. This can be used to seed
an encryption key for authentication.
The noise signal can be fed directly into
an A/D converter for sampling or a simpler techniques might use a comparator.
Further shaping of the noise is often
employed whether either analog if in
front of the A/D converter or afterwards
using DSP.
WWW.MICRONETICS.COM