SMN3018-D1D Datasheet, PDF(1/2 Page) Micronetics, Inc. – SURFACE MOUNT NOISE SOURCE 200 MHZ TO 6.0 GHZ

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SMN3018-D1D Datasheet, PDF (1/2 Pages) Micronetics, Inc. – SURFACE MOUNT NOISE SOURCE 200 MHZ TO 6.0 GHZ

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SMN3018

SURFACE MOUNT NOISE SOURCE 200 MHZ TO 6.0 GHZ

The worldâs

smallest packaged

noise source

DESCRIPTION

The SMN3018 noise module is the

world's smallest packaged noise source.

This 0.150" x 0.220" surface mount

device has all the biasing circuitry built-

in so all that is required is a DC source

and ground. This module is designed

for built-in-test (BIT) and calibration of

receivers. The module is broadband,

200 MHz to 6.0 GHz for a wide range of

receiver applications from cellular base

stations to radio-astronomy telescopes.

SMN3018 DATA

ENR

SUITABLE FOR HIGH VOLUME

PRODUCTS:

The SMN3018 noise source being sur-

face mount, having a small footprint and

available on tape and reel make them

ideal for production manufacturing.

Traditionally packaged microwave noise

sources have been large and costly ren-

dering them unsuitable for all but large

expensive systems. The benefits of

having built-in test and calibration can

now be brought to mass produced prod-

ucts so they can now realize the bene-

fits of an onboard noise source.

APPLICATION NOTE

Using noise for built-in test: There are two primary uses for employing a noise signal for built-in test.

1. Noise Temperature (noise figure) or sensitivity testing: This test uses the noise source to supply a

known excess noise ratio (ENR) to a device under test for a Y-factor measurement. By taking two

receiver readings, one with the noise on and one with it off, Y-factor can be determined. By knowing

the ENR and Y-factor, one can calculate noise temperature (figure) or sensitivity.

2. Frequency Response: The noise source being broadband can be used as a replacement of a swept

source to calculate frequency response of a receiver or other device. By putting in a known spectral

signal at the input and taking a reading at the output, one can determine the gain or loss over frequency

of the entire system. Noise sources are inherently extremely stable devices. In addition, the circuitry is

much simpler than a swept source which increases reliability and lowers cost.

For more information on using noise for built-in-test, read the Feb 2004 Microwave Journal article authored

by Patrick Robbins of Micronetics.

http://www.micronetics.com/articles/microwave_journal_02-04.pdf

SPECIFICATIONS

â¢ Frequency:

200 MHzto 6.0 GHz

â¢ ENR:

26 dB min

â¢ Flatness:

2 dB max

â¢ Impedance:

50 ohms

â¢ Bias:

+12 Vdc models

+15 Vdc models

â¢ Voltage Sens: 1.0 dB/V (typ)

â¢ Temp Sens:

0.015 dB/oC (typ)

â¢ Current:

12 mA max

â¢ Operating Temp: -40 to +125oC

â¢ Storage Temp: -54 to +150oC

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

WWW.MICRONETICS.COM

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