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Mini-Circuits’ Wideband

MMIC Balun Covers 5500 to

13500MHz in 3 x 3mm QFN

Mini-Circuits’ MTX2-143+ is a

wideband MMIC balun transformer

with an impedance ratio of 2:1 covering

a wide range of applications from 5500

to 13500MHz. This model is designed

for applications where conversion of a

single-ended 50Ω line into a balanced

100Ω line is needed. Fabricated using

IPD process technology, this model

provides outstanding repeatability from

lot to lot. The transformer achieves

1.3dB insertion loss, 1.0dB amplitude

unbalance, 8° phase unbalance, and

RF power handling up to +34dBm

)2.5W(. The unit comes housed in

a tiny, 12-pad 3x3x0.80mm QFN

package with low inductance and

excellent thermal efficiency.

"MCDI" :

לפרטים נוספים

077-540-6075 :

ט

153-77-540-6051 :

פ

office@mcdi-ltd.com www.minicircuits.com

Mini-Circuits’

Reflectionless High Pass Filter

Passes 580 to 3000MHz with

High Stopband Rejection

Mini-Circuits’ revolutionary X-series

reflectionless filters now include two

and three section designs, giving

you ultra-high stopband rejection for

applications where suppression of

strong spurious signals and intermods

is needed. New model XHF-581M+

has a passband from 580 to 3000MHz

and stopband from DC to 330MHz

)20dB rejection or greater(. The filter

provides 1.2dB passband insertion

loss or better, 1.2:1 passband VSWR,

stopband rejection of 35dB from

DC to 280MHz and 27dB from 280

to 330MHz. 1.3:1 typical stopband

VSWR results in minimal stopband

signal reflections, eliminating spurs

and improving system dynamic

range. It also provides excellent

power handling of up to +32dBm in

the passband and +35dBm in the

stopband. Fabricated using IPD

process technology on GaAs, the filter

comes housed in a tiny 5x5mm QFN

package.

Mini-Circuits’ X-series of reflectionless

filters employs a novel filter topology

which absorbs and terminates

stopband signals internally rather than

reflecting them back to the source.

This new capability enables unique

applications for filter circuits beyond

those suited to traditional approaches.

Reflectionless

filters

eliminate

stopband signal reflections, allowing

them to be paired with sensitive

devices such as mixers and multipliers

without the need for extra components

like attenuators, significantly improving

system performance and saving board

space.

"MCDI" :

לפרטים נוספים

077-540-6075 :

ט

153-77-540-6051 :

פ

office@mcdi-ltd.com www.minicircuits.com

Mini-Circuits’ Ultra-

Wideband MMIC Precision Fixed

Attenuator Die, DC to 43.5GHz

Mini-Circuits’ KAT-D series of MMIC

precision fixed attenuator dice

extend coverage to a wide array of

applications from DC to 43.5GHz

including 5G systems, microwave

communications, satellite, defense

and aerospace, and more. These

fixed-value, absorptive attenuators

are fabricated through highly repetitive

MMIC processing with thin-film resistors

on GaAs substrates and achieve ultra-

wideband performance with a single,

contiguous ground-plane, simplifying

installation into customer hybrids. Model

KAT-5-D+ provides 5dB attenuation

with ±0.1 dB flatness up to 26.5GHz,

±0.5dB flatness up to 43.5GHz,

1.4W RF power handling, and 1.1:1

VSWR. KAT-series attenuator dice are

available in gel-paks of 5, 10, 50 and

100 KGD as well as partial and full

production wafers.

"MCDI" :

לפרטים נוספים

077-540-6075 :

ט

153-77-540-6051 :

פ

office@mcdi-ltd.com www.minicircuits.com

Mini-Circuits’ Miniature

Lumped Element Low Pass

Filter Passes DC to 158MHz

with Sharp Rejection

Mini-Circuits’ ULP-158+ is a surface-

mount, lumped element low pass

filter with a passband from DC to

158 MHz. This design provides very

sharp rejection with 78% slope from

the 3dB cutoff to 20dB rejection, and

greater than 40dB rejection from

255 to 1000MHz. It provides 1.5dB

typical insertion loss in the passband

and handles RF input power up to

0.8W. The unit gives designers the

advantages of excellent selectivity

and high stopband rejection in a

miniature form factor occupying only

0.25x0.25” of board space. Designed

using miniature, high-Q capacitors

and chip inductors, it provides high

New-Tech Magazine l 92