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

ID | Element ID | Text | M1 |

L1 | Self-inductance of coil 1 | Inductance | 1 nH |

R1 | Resistance of coil 1 | Resistance | 0 ohm |

L2 | Self-inductance of coil 2 | Inductance | 1 nH |

R2 | Resistance of coil 2 | Resistance | 0 ohm |

L3 | Self-inductance of coil 3 | Inductance | 1 nH |

R3 | Resistance of coil 3 | Resistance | 0 ohm |

L4 | Self-inductance of coil 4 | Inductance | 1 nH |

R4 | Resistance of coil 4 | Resistance | 0 ohm |

L5 | Self-inductance of coil 5 | Inductance | 1 nH |

R5 | Resistance of coil 5 | Resistance | 0 ohm |

L6 | Self-inductance of coil 6 | Inductance | 1 nH |

R6 | Resistance of coil 6 | Resistance | 0 ohm |

K1_2 | Coupling coefficient between coils 1 and 2 | 0 | |

K1_3 | Coupling coefficient between coils 1 and 3 | 0 | |

K1_4 | Coupling coefficient between coils 1 and 4 | 0 | |

K1_5 | Coupling coefficient between coils 1 and 5 | 0 | |

K1_6 | Coupling coefficient between coils 1 and 6 | 0 | |

K2_3 | Coupling coefficient between coils 2 and 3 | 0 | |

K2_4 | Coupling coefficient between coils 2 and 4 | 0 | |

K2_5 | Coupling coefficient between coils 2 and 5 | 0 | |

K2_6 | Coupling coefficient between coils 2 and 6 | 0 | |

K3_4 | Coupling coefficient between coils 3 and 4 | 0 | |

K3_5 | Coupling coefficient between coils 3 and 5 | 0 | |

K3_6 | Coupling coefficient between coils 3 and 6 | 0 | |

K4_5 | Coupling coefficient between coils 4 and 5 | 0 | |

K4_6 | Coupling coefficient between coils 4 and 6 | 0 | |

K5_6 | Coupling coefficient between coils 5 and 6 | 0 |

Pin numbers for each coil are assigned by the convention i = coupled port and N+i= output port for each coil, N = number of coils. So for coil 1, 1 is the coupled port and 7 is the output port for 6 coils. Vci is the voltage across coil I, I=1, ...,N: