Version 1.3 compiled on Jul 25 2007 12:04:09
ELEMENT |
DESCRIPTION |
|---|---|
| abmbutterbpf10 | Two port 10th order Butterworth bandpass filter |
| abmmixer | Ideal behavioral mixer |
| abmvcann | Cann Behavorial Model |
| abmvtanh | Tanh behavioral Model |
| bjtnpn | Gummel Poon model, NPN |
| bjtnpnt | Gummel Poon model, NPN, Electro-thermal |
| bjtpnp | Gummel Poon model, PNP |
| c | Linear capacitor |
| capacitor | Linear capacitor |
| capacitorlc | Liquid Cyrstal Nonlinear capacitor |
| capacitorjn | Philips MOS9 -- CapacitorJn model |
| capacitormos | MOS Capacitor with tunneling |
| circulator | Circulator |
| cmosinv | CMOS Inverter |
| cmosinvt | CMOS Inverter, Electro-thermal |
| cmosnand | CMOS NAND Gate |
| cmosnandt | CMOS NAND Gate, Electro-thermal |
| cmosnor | CMOS NOR Gate |
| cmosnort | CMOS NOR Gate, Electro-thermal |
| cpw | Coplanar transmission line |
| d | Microwave Diode |
| dhld | Double Heterojunction Laser Diode |
| diode | Microwave diode |
| diodecompact | Spice diode model (conserves charge) |
| diodesp | Spice diode model (conserves charge) |
| diodetun | Tunnel Diode |
| fosternport | Foster N port transfer function model |
| gridex | Electromagnetic grid excitation |
| gyrator | Gyrator |
| hbtnpnxt | HBT Model, NPN, UCSD, Electro-thermal |
| iam | Amplitude Modulated current source |
| iexp | Amplitude Modulated current source |
| inductor | Inductor |
| isffm | Single Frequency FM current source |
| isolator | Isolator |
| isource | General DC and sinusoidal current source |
| jfetn | The n-channel JFET based on the SPICE model |
| jfetp | The n-channel JFET based on the SPICE model |
| k | Transformer |
| l | Inductor |
| mesfetc | Intrinsic MESFET using Curtice-Ettemberg cubic model |
| mesfetcq | Intrinsic MESFET using Curtice-Ettemberg cubic model |
| mesfetct | Intrinsic MESFET using Curtice-Ettemberg cubic model with thermal effects |
| mesfetm | Intrinsic MESFET using the Materka-Kacprzac model |
| mesfetmq | Intrinsic MESFET using the Materka-Kacprzac model |
| mesfettom | Triquint TOM model |
| mosnekv | EPFL EKV MOSFET model |
| mosnekv2 | EPFL-EKV MOST Model |
| mosnekv3 | EPFL EKV MOSFET model |
| mosn1 | Schichman-Hodges Mosfet model |
| mosn2 | Level 2 Grove-Frohman Model |
| mosn3 | Intrinsic Mosfet model level 3 |
| mosn9 | Philips MOS9 model |
| mosnbsim3 | Mosfet model using Bsim3 level, version 3.2.4 |
| mosnbsim3soi5t1 | Mosfet model using Mosnbsim3SOI5T1 level, version 3.2.4 |
| mosnbsim4 | MOSFET using BSIM4 model |
| mosnldmet | MET LDMOS |
| mosntft | HP a-Si Mosfet model level 16 |
| mosntftq | a-Si TFT MODEl |
| mospekv | EPFL EKV MOSFET model |
| mospekv2 | EPFL-EKV MOST Model |
| mosp1 | Schichman-Hodges Mosfet model |
| mosp2 | Level 2 Grove-Frohman Model |
| mosp3 | Intrinsic Mosfet model level 3 |
| mosp9 | Philips MOS9 model |
| mospbsim3 | Mosfet model using bsim3 level, version 3.2.4 |
| mospbsim3soi5t1 | Mosfet model using Mospbsim3SOI5T1 level, version 3.2.4 |
| mosnbsim3soi5t1t | BSIM3SOI Mosfet model version 3.2.4 with temperature |
| molecule1 | Two terminal molecular device simulating conduction through a single molecular energy level |
| molecule2 | Two terminal molecular device simulating conduction through a single molecular energy level |
| nport | Multi-port element defined by its port-based y parameters |
| nportt | Multi-port element defined by its y parameter transfer functions |
| opampt | LM741 OpAmp (Electro-thermal) |
| open | Open circuit to be used as a voltage meter |
| r | Resistor |
| resistor | Resistor |
| resistorphyn | Physical resistor model |
| resistorphyp | Physical resistor model |
| resistorphypoly | Physical resistor model |
| resistort | Resistor, Electro-thermal |
| thermalblock | N-port grid array substrate with NxN surface heating elements, MxM surface discretisation and non linear boundary conditions |
| thermalblockbc1 | Thermal nonlinear boundary condition element |
| thermalblockrc | Thermal Model for a block of material from layout parameters |
| thermalheatsink | N-port grid array substrate with NxN surface heating elements |
| thermalheatsink1 | Grid array substrate: 1-port thermal element with a single averaged surface heating element |
| thermalheatsinkspot | N-port grid array substrate with NxN surface heating elements |
| thermalheatsinkmmic1 | Heatsink mounted MMIC: 1-port thermal element with a single averaged surface heating element |
| thermalint | Thermal Interface |
| thermalnportnl | N-port grid array substrate with NxN surface heating elements, MxM surface discretisation and non linear boundary conditions |
| thermalshunt | 2-port MMIC die with variable base temperature (for interface matching), and a single averaged surface heating element |
| thermaltest | Heatsink mounted MMIC: Test of the time-step decoupling technique |
| thermaltransf | Heatsink mounted MMIC: Test of time-step decoupling with tranformation. |
| tlinp4 | 4 terminal physical transmission line |
| vam | Amplitude Modulated voltage source |
| vccs | Voltage-controlled current source |
| vccspoly | Voltage-controlled current source where Io = k*poly(Vin) |
| vcsel | The VCSEL Model |
| vct | Voltage-to-Current Transducer |
| vcvs | Voltage-controlled voltage source |
| vexp | Exponential voltage source |
| vpulse | Pulsed voltage source (transient analysis only) |
| vpulsexp | Pulsed voltage source with exponential taper (transient analysis only) |
| vsffm | Single Frequency FM voltage source |
| vsource | General DC and sinusoidal voltage source |
| x | Subcircuit instance |
| xsubckt | Subcircuit instance |
| ymatrix | Y-matrix defined element - Obsolete: Use nport instead |