Modelithics, Inc Logo
World’s Best RF & Microwave Simulation Models
Modelithics Johanson MVP Model Listing
 
Modelithics Vendor Partner

 

Johanson Technology Inc. was formed to address the specific passive needs of the growing wireless market. With a focus on RF, Wireless and Fiber Optic markets, Johanson Technology has quickly become a leader in RF ceramics through the design and manufacture of ceramic products with industry leading performance.

Johanson Technology provides a wide range of RF components including Low Loss Capacitors, RF Inductors, Chip Antennas, Baluns, Low Pass Filters, Band Pass Filters, Couplers and Custom Substrates and LTCC Modules.

Johanson Technology’s modern ISO 9001 certified design and manufacturing facility is located in Camarillo, California.

Modelithics Johanson MVP Brochure

Start your next design with the most accurate and well documented RF, Microwave and mm-Wave Simulation models in the industry! Modelithics passive and active, measurement-based simulation models integrate seamlessly with the latest electronic design automation (EDA) simulation tools.

Visit the Modelithics COMPLETE library for more information on the full capabilities and advantages of Modelithics high accuracy models. Our goal is to help you achieve first pass design success!


Model Free Trial

FREE trial is available for this MVP’s component library. Click the free trial image above to request.


Request vendor parts sample

 
More Info Part Number Model Body Style Max Freq (GHz) Part Values Downloads Features
R05L CAP-JOH-0201-201 0201 20 0.2 pF - 56 pF S-Parameters SS: PS: VS:
R07S CAP-JOH-0402-001 0402 20 0.1 pF - 33 pF S-Parameters SS: PS: VS:
R07S CAP-JOH-0402-001-S 0402 20 0.1 - 33 pF BB: PS: SS:
R14S CAP-JOH-0603-101 0603 20 0.1 pF -100 pF S-Parameters 3D: SS: PS: VS:
R15G CAP-JOH-0805-002 0805 20 0.3 - 100 pF S-Parameters SS: PS: VS: OS:
R15S CAP-JOH-0805-101 0805 20 0.1 - 220 pF S-Parameters SS: VS: PS: OS:
S42E CAP-JOH-S42E-001 1111 6 0.2 pF - 1000 pF S-Parameters SS: VS: PS: OS:

Legend

 
3D
3D Model
BB
Broadband Component
BRK
3D Brick EM Models™
BW
Bondwire de-embedding
DRS
Dynamic Range Selection
EB
Embedded Model
FL
Flicker Noise (1/F)
IM
3rd order IMD validated
LP
Load Pull
NL
Non-Linear
Discontinued or not recommended
for new designs
NP
Noise Parameter
OS
Orientation Selectable
PD
Pad De-embedding
PS
Pad Scaling
SP
S-Parameter Data Model
SS
Substrate Scalable
SM
Super Model
TS
Temperature Scalable
VS
Part Value Scalable/Selectable
XP
X-Parameter Data Model
More Info Part Number Model Body Style Max Freq (GHz) Part Values Downloads Features
L-05Cxxx IND-JOH-0201-001 0201 20 1 - 39 nH S-Parameters SS: VS:
L-07Cxxx IND-JOH-0402-002 0402 20 1 - 120 nH S-Parameters SS: VS:
L-07Wxxx IND-JOH-0402-001 0402 20 1.0 - 120 nH S-Parameters SS: VS:
L-14C IND-JOH-0603-001 0603 1 nH - 220 nH
L-14W IND-JOH-0603-002 0603 2 nH - 470 nH

Legend

 
3D
3D Model
BB
Broadband Component
BRK
3D Brick EM Models™
BW
Bondwire de-embedding
DRS
Dynamic Range Selection
EB
Embedded Model
FL
Flicker Noise (1/F)
IM
3rd order IMD validated
LP
Load Pull
NL
Non-Linear
Discontinued or not recommended
for new designs
NP
Noise Parameter
OS
Orientation Selectable
PD
Pad De-embedding
PS
Pad Scaling
SP
S-Parameter Data Model
SS
Substrate Scalable
SM
Super Model
TS
Temperature Scalable
VS
Part Value Scalable/Selectable
XP
X-Parameter Data Model
More Info Vendor   Part Number Model Body Style Component Max Freq (GHz) Download Type Features
Johanson R14S CAP-JOH-0603-101
   
 
CAP-JOH-0603-101
CAP-JOH-0603-101
0603 Capacitor 20   3D:
Johanson R05L CAP-JOH-0201-201-BRK
   
 
CAP-JOH-0201-201-BRK
CAP-JOH-0201-201-BRK
0201 Capacitor 20   3D: BRK:
Johanson R07S CAP-JOH-0402-001-BRK
   
 
CAP-JOH-0402-001-BRK
CAP-JOH-0402-001-BRK
0402 Capacitor 20   3D: BRK:
Johanson R07S CAP-JOH-0603-001-BRK
   
 
CAP-JOH-0603-001-BRK
CAP-JOH-0603-001-BRK
0402 Capacitor 20   3D: BRK:

Legend

 
3D
3D Model
BB
Broadband Component
BRK
3D Brick EM Models™
BW
Bondwire de-embedding
DRS
Dynamic Range Selection
EB
Embedded Model
FL
Flicker Noise (1/F)
IM
3rd order IMD validated
LP
Load Pull
NL
Non-Linear
Discontinued or not recommended
for new designs
NP
Noise Parameter
OS
Orientation Selectable
PD
Pad De-embedding
PS
Pad Scaling
SP
S-Parameter Data Model
SS
Substrate Scalable
SM
Super Model
TS
Temperature Scalable
VS
Part Value Scalable/Selectable
XP
X-Parameter Data Model

Model Listing

Application Note

  Note # Title Date Example Files
78 Using 3D Brick Models™ for Full-wave EM/Circuit Model Co-simulation of MLCC Capacitors in Ansys® HFSS™ 8/9/2021
72 A Filter Design Case Study with Nuhertz, Cadence AWR Design Environment, and Modelithics Models 1/25/2021
69 Utilizing Substrate Scalability of Modelithics Microwave Global Models™ in Ansys® Electronics Desktop 10/14/2020
68 Utilizing Substrate Scalability of Modelithics Models in Cadence AWR Design Environment 9/18/2020
61 Additional Pad Features for Modelithics CLR Library™ Models - PCB Layers and Pad Connection Options 6/28/2019
52 A Design Flow for Rapid and Accurate Filter Prototyping 6/29/2015
51 AXIEM Co-Simulation with Modelithics Models 6/23/2015
50 Good, Better And Best: Techniques For Achieving First Pass Success In Lumped Element Pcb -Based Filter Designs 3/18/2015
48 Recommendations For Port Setup When Using ADS Momentum And Modelithics Models 1/1/2014
46 Improved Microwave Circuit Design Flow Through Passive Model Yield And Sensitivity Analysis 1/1/2014
39 Accurate Co-Simulation Of Surface-Mount Capacitors In Shunt Configurations 1/1/2014
38 Design And Optimization Of Lumped Element Couplers Using Modelithics Global Models 1/1/2014
37 Performing Em-Circuit Co-Simulation With Modelithics Models Using Sonnet Suites 1/1/2014
36 Effects Of Over-Molding On Surface Mount Capacitors And Inductors 1/1/2014
35 Proximity Effects In Closely-Spaced Surface Mount Passive Components 1/1/2014
29 Lumped Element Low-Pass Filter Design And Optimization Using Agilent Genesys Software 1/1/2014
26 Capacitor PI Network For Impedance Matching 1/1/2014
25 The Importance Of Pad Geometry In Maximizing Surface Mount Component Performance (Also Published Electronically By RF Globalnet) 1/1/2014
22 Part Value Tolerance In Surface Mount Components 1/1/2014
21 Filter Design Using 0201 Surface Mount LC'S 1/1/2014
21 Filter Design Using 0201 Surface Mount LC'S 1/1/2014
20 Lumped Element Band-Pass Filter Design And Optimization 1/1/2014
19 Lumped Element High-Pass Filter Design And Optimization 1/1/2014
18 Lumped Element Low-Pass Filter Design And Optimization 1/1/2014
17 Lumped Element Filter Design And Optimization 1/1/2014
15 Reducing Part Count In Low-Pass Filter Designs 1/1/2014
14 Capacitor Tee Network Characteristics 1/1/2014


Published Articles

  Title Author Date Example File
A Case Study in Successful First-Pass Filter Design Bill Weedon, Applied Radar, Inc. & Chris DeMartino, Modelithics 1/31/2021
Moving Beyond S-Parameter Files: Advanced Scalable and 3D EM Models for Passive Devices Larry Dunleavy, The University of South Florida, Tampa, Fla. & Modelithics Inc. Tampa, Fla., Hugo Morales, Chris DeMartino and Isabella Bedford , Modelithics Inc., Tampa, Fla. 3/31/2020

White Papers

  Title Author Date Example
Filter Design With 0201 Components D. Aristizabal, R. Connick, and T. Weller 1/26/2006

White Papers (Registration not required)

  Title Author Date Example
Understanding S-Parameter Vs. Equivalent Circuit-based Models For RLC Component Simulations In Keysight ADS And Genesys Modelithics: Scott Skidmore, Laura Levesque, And Scott Muir, Along With Jason Boh And How-siang of Keysight Technologies 12/4/2014
Understanding S-Parameter Vs Equivalent Circuit-based Models For RLC Component Simulations With NI/AWR Microwave Office Modelithics, Inc. 11/20/2014


Print Ads

  Title Author Date
Johanson Print Ad Modelithics, Inc. 1/1/2018