Name | Description | Unit Type | Default |
---|---|---|---|

ID | Device ID | Text | VC1 |

*R1 | Input resistance | Resistance | 1 ohm |

*R2 | output resistance | Resistance | 1e+06 ohm |

*SC | Scale factor | 1 | |

*A0 | Polynomial coefficient | 0 | |

*A1 | Polynomial coefficient | 0.01 | |

*A2 | Polynomial coefficient | 0 | |

*A3 | Polynomial coefficient | 0 | |

*A4 | Polynomial coefficient | 0 | |

*A5 | Polynomial coefficient | 0 | |

*A6 | Polynomial coefficient | 0 | |

*A7 | Polynomial coefficient | 0 | |

*A8 | Polynomial coefficient | 0 | |

*A9 | Polynomial coefficient | 0 | |

*A10 | Polynomial coefficient | 0 | |

*A11 | Polynomial coefficient | 0 | |

*A12 | Polynomial coefficient | 0 | |

*A13 | Polynomial coefficient | 0 | |

*A14 | Polynomial coefficient | 0 | |

*A15 | Polynomial coefficient | 0 |

`* indicates a secondary parameter`

The polynomials in SPICE controlled sources operate on the instantaneous, time domain representations of their input(s), not on the spectra. Non-zero nonlinear coefficients cause frequency translations. For example, a non-zero square coefficient converts a sinusoidal input into an output with frequency components at DC and at twice the input frequency.

**NOTES:**

1. SC is a scale factor that scales the parameters as if it were a FET.

2. R1 and R2 are scaled inversely with SC.

This element does not have an assigned layout cell. You can assign artwork cells to any element. See “Assigning Artwork Cells to Layout of Schematic Elements” for details.