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World’s Best RF & Microwave Simulation Models
Part Number Simulator Description
EP2Cplus ADS The SPLSP-MCL-EP2CPlus-001 is a multi-substrate selectable S-parameter data model for the Mini-Circuits EP2C+ series surface mount chip splitter in a 4x4 mm QFN package(additional information is available at (www.minicircuits.com). The splitter/combiner is designed for wideband operation from 1800 MHz to 12500 MHz. These S-Parameters represent typical component performance on a 6.6 mil thick Rogers 4350B, a 10 mil thick Rogers 4350B substrate, or similar board type.
EP2K1plus ADS The SPLSP-MCL-EP2K1Plus-001 is a multi-substrate selectable S-parameter data model for the Mini-Circuits EP2K1+ series surface mount chip splitter in a 4x4 mm QFN package(additional information is available at (www.minicircuits.com). The splitter/combiner is designed for wideband operation from 1.8 GHz to 28 GHz. These S-Parameters represent typical component performance on a 6.6 mil thick Rogers 4350B, a 10 mil thick Rogers 4350B substrate, or similar board type.
EP2Kplus ADS The SPLSP-MCL-EP2KPlus-001 is a multi-substrate selectable S-parameter data model for the Mini-Circuits EP2K+ series surface mount chip splitter in a 4x4 mm QFN package(additional information is available at (www.minicircuits.com). The splitter/combiner is designed for wideband operation from 5 GHz to 20 GHz. These S-Parameters represent typical component performance on a 6.6 mil thick Rogers 4350B, a 10 mil thick Rogers 4350B substrate, or similar board type.
EP2W1plus ADS The SPLSP-MCL-EP2W1Plus-001 is a multi-substrate selectable S-parameter data model for the Mini-Circuits EP2W1+ series surface mount chip splitter in a 5x5 mm QFN package(additional information is available at (www.minicircuits.com). The splitter/combiner is designed for wideband operation from 500 MHz to 9500 MHz. These S-Parameters represent typical component performance on a 6.6 mil thick Rogers 4350B, a 10 mil thick Rogers 4350B substrate, or similar board type.
EP2Wplus ADS The SPLSP-MCL-EP2WPlus-001 is a multi-substrate selectable S-parameter data model for the Mini-Circuits EP2W+ series surface mount chip splitter in a 5x5 mm QFN package(additional information is available at (www.minicircuits.com). The splitter/combiner is designed for wideband operation from 700 MHz to 6000 MHz. These S-Parameters represent typical component performance on a 6.6 mil thick Rogers 4350B, a 10 mil thick Rogers 4350B substrate, or similar board type.
EPQ133plus ADS The SPLSP-MCL-EPQ133Plus-001 is a multi-substrate selectable S-parameter data model for the Mini-Circuits EPQ-133+ series surface mount chip splitter in a 4x4 mm QFN package(additional information is available at (www.minicircuits.com). The splitter/combiner is designed for wideband operation from 6000 MHz to 14000 MHz. These S-Parameters represent typical component performance on a 6.6 mil thick Rogers 4350B, a 10 mil thick Rogers 4350B substrate, or similar board type.
GVA-62plus ADS Non-linear behavioral model for the Mini-Circuits GVA-62+ flat gain, high linearity amplifier in a SOT-89 package. This amplifier is designed for 0.01-6 GHz applications and offers an excellent dynamic range.
GVA-63plus ADS Non-linear behavioral model for the Mini-Circuits GVA-63+ high gain, high linearity amplifier in a SOT-89 package. This amplifier is designed for 0.01-6 GHz applications and offers an excellent dynamic range
GVA-84plus ADS Non-linear behavioral model for the Mini-Circuits GVA-84+ wideband amplifier in a SOT-89 package. This amplifier is designed for DC-7GHz applications and offers an excellent dynamic range.
HFCN-2700plus ADS The HPF-MCL-HFCN2700-001 is a substrate scalable Global Model™ for the Mini Circuits P/N HFCN- 2700+ceramic high-pass surface mount filter
HFCN-2700plus ADS The HPF-MCL-HFCN2700-001-S is a substrate scalable Global Model™ for the Mini Circuits P/N HFCN- 2700+ceramic high-pass surface mount filter
HFCN-3800plus ADS The HPF-MCL-HFCN3800-001 is a substrate scalable Global Model™ for the Mini Circuits P/N HFCN- 3800+ceramic high-pass surface mount filter.
HFCN-5500plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N HFCN-5500+ ceramic high-pass surface mount filter; additional information is available at www.minicircuits.com.
HFCN-740plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N HFCN-740+ ceramic high-pass surface mount filter; additional information is available at www.minicircuits.com.
HFCN-880plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N HFCN-880+ ceramic high-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-1000plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-1000+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-1200Dplus ADS Substrate scalable Global Model™ for the Mini-Circuits® P/N LFCN-1200D+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-1200plus ADS Substrate scalable Global Model™ for the Mini-Circuits® P/N LFCN-1200+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-120plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-120+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-1700plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-1700+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-1800Dplus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-1800D+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-1800plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-1800+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-2250plus ADS Substrate scalable Global Model™ for the Mini-Circuits P/N LFCN-2250+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-3000plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-3000+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-3800plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-3800+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-400plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-400+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-4400plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-4400+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-490plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-490+ ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-630plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N LFCN-630 ceramic low-pass surface mount filter; additional information is available at www.minicircuits.com.
LFCN-80plus ADS Substrate scalable Global Model™ for the Mini Circuits P/N HFCN-880+ceramic high-pass surface mount filter; additional information is available at www.minicircuits.com.
PGA-102plus ADS Non-linear behavioral model for the Mini-Circuits PGA-102+ wideband amplifier in a SOT-89 package. This amplifier is designed for 0.05 - 6GHz applications and offers an excellent dynamic range.
PGA-103plus ADS Non-linear behavioral model for the Mini-Circuits PGA-103+ wideband amplifier in a SOT-89 package. This amplifier is designed for 0.05 - 4GHz applications and offers an excellent dynamic range.
PGA-105plus ADS Non-linear behavioral model for the Mini-Circuits PGA-105+ flat gain amplifier in a SOT-89 package. This amplifier is designed for 0.04 - 2.6GHz applications and offers an excellent dynamic range.
PHA-1plus ADS Non-linear behavioral model for the Mini-Circuits PHA-1+ low noise, high linearity amplifier in a SOT-89 package. This amplifier is designed for 0.05-6 GHz applications and offers an excellent dynamic range.
PHA-22plus ADS Non-linear behavioral model for the Mini-Circuits PHA-22+ dual matched wideband amplifier in a 6.0 x 4.9mm MCLP package. This amplifier is designed for 0.05-1.5GHz applications and offers a gain match of 0.2dB, phase match of 1.6 degrees and low noise.
PSA4-5043plus ADS
RCAT MWO The ATT-MCL-RCAT-001-S model for the Mini-Circuits RCAT attenuators is developed for use in broadband applications using a multi-via ground plane configuration land pattern.
RCAT MWO The ATT-MCL-RCAT-002-S model for the Mini-Circuits RCAT attenuators is developed for use with spaceconservative microstrip footprints using a simple grounding approach and recommended for lower frequency applications.
RCAT ADS The ATT-MCL-RCAT-001-S model for the Mini-Circuits RCAT attenuators is developed for use in broadband applications using a multi-via ground plane configuration land pattern.
RCAT ADS The ATT-MCL-RCAT-002-S model for the Mini-Circuits RCAT attenuators is developed for use with spaceconservative microstrip footprints using a simple grounding approach and recommended for lower frequency applications.
YAT ADS The ATT-MCL-YAT-001-S model for the Mini-Circuits YAT attenuators is developed for use in broadband applications using a multi-via ground plane configuration land pattern.
YAT ADS The ATT-MCL-YAT-002-S model for the Mini-Circuits YAT attenuators is developed for use with spaceconservative microstrip footprints using a simple grounding approach and recommended for lower frequency applications.
YAT MWO The ATT-MCL-YAT-001-S model for the Mini-Circuits YAT attenuators is developed for use in broadband applications using a multi-via ground plane configuration land pattern.
YAT MWO The ATT-MCL-YAT-002-S model for the Mini-Circuits YAT attenuators is developed for use with spaceconservative microstrip footprints using a simple grounding approach and recommended for lower frequency applications.