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 | 0.01 | |

*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.