SMN7103H Datasheet, PDF(1/2 Page) Micronetics, Inc. – 1/2 INCH SURFACE MOUNT AMPLIFIED NOISE SOURCE

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SMN7103H Datasheet, PDF (1/2 Pages) Micronetics, Inc. – 1/2 INCH SURFACE MOUNT AMPLIFIED NOISE SOURCE

SMN7103H

1/2 INCH SURFACE MOUNT AMPLIFIED NOISE SOURCE

DESCRIPTION

100 HZ TO 500 KHZ

7103H

The SMN7103H noise module is designed for a wide range of applications. It features high noise

output amplitude for uses ranging from encryption to baseband signal simulation. 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.

SUITABLE FOR HIGH VOLUME PRODUCTS:

The SMN7103H noise sources being surface mount, having a small footprint and available on

tape and reel, make them ideal for production manufacturing. Traditionally packaged noise

sources have been large and costly rendering them less suitable for all but the more expensive,

exotic systems. Noise can now be thought of as lower cost, more reliable, smaller and an easier

to implement alternative to costly microprocessor based solutions such as PN generators, arbtrary

waveform generators and DSP processors.

SMN7103 TYPICAL DATA

Note: Data measured in 50 ohm

load impedance. Add 14 dB to this

amplitude data for 1000 ohm load

impedance.

SPECIFICATIONS

â¢ Frequency: 100 Hz to 500 kHz

â¢ Impedance: 1100 ohm

â¢ Noise Power (N): -8 dBm

â¢ Bias: 12 Vdc (Internally Regulated)

â¢ Peak Factor: 5:1

â¢ Amplitude: VP-P = 2.0 (min), 2.4 (typ)

VRMS = 100mV (min)

120mVRMS (typ)

â¢ Current Draw: 15mA (max)

â¢ Operating Temp: -55 to +85 C

â¢ Storage Temp:

-55 to +125 C

APPLICATION NOTE

COMMON NOISE APPLICATIONS

1. Baseband Signal Simulation:

Signal impariments can be modeled by using a

noise source where ever a Gaussian process

is required. By feeding the output of the noise

source into the control lines of devices such as

attenuators, phase shifters or the LO port of a

mixer, one can simulate various impairments

such as rain fade, Rayleigh fading, etc....

2. Random Number Generation for

Encryption:

Noise sources being truly random (not

pseudorandom) give the ultimate in secure

communication because of their ability to gen-

erate a truly random number pattern. This can

be used to seed an encryption key for authen-

tication. 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 by analog techniques if in front of the

A/D converter or afterwards using DSP.

MICRONETICS, HUDSON, NH 03051 / TEL: 603-883-2900 / FAX: 603-882-8987 / NOISESALES@MICRONETICS.COM

WWW.MICRONETICS.COM

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