mt_metadata.timeseries.electric
===============================

.. py:module:: mt_metadata.timeseries.electric


Classes
-------

.. autoapisummary::

   mt_metadata.timeseries.electric.Electric


Module Contents
---------------

.. py:class:: Electric(**data)

   Bases: :py:obj:`mt_metadata.timeseries.ChannelBase`


   Base class for all metadata objects with Pydantic validation.

   MetadataBase extends DotNotationBaseModel (which inherits from Pydantic's
   BaseModel) to provide automatic validation according to metadata standards.
   It adds functionality beyond dictionaries, supporting JSON, XML, pandas
   Series, and other formats for metadata interchange.

   .. attribute:: _skip_equals

      Private attribute listing fields to skip in equality comparisons

      :type: list[str]

   .. attribute:: _fields

      Private attribute caching field information

      :type: dict[str, Any]

   .. rubric:: Notes

   - All field assignments are validated automatically via Pydantic
   - None values are converted to appropriate defaults (empty string or 0.0)
   - Supports nested attribute access via dot notation
   - Thread-safe for read operations after initialization


   .. py:attribute:: component
      :type:  Annotated[str, Field(default='e_default', description='Component of the electric field.', alias=None, pattern='^[eE][a-zA-Z0-9_]*$', json_schema_extra={'units': None, 'required': True, 'examples': ['Ex']})]


   .. py:attribute:: dipole_length
      :type:  Annotated[float, Field(default=0.0, description='Length of the dipole as measured in a straight line from electrode to electrode.', alias=None, json_schema_extra={'units': 'meters', 'required': True, 'examples': ['55.25']})]


   .. py:attribute:: positive
      :type:  Annotated[mt_metadata.timeseries.Electrode, Field(default_factory=Electrode, description='Positive electrode.', alias=None, json_schema_extra={'units': None, 'required': True, 'examples': ['Electrode()']})]


   .. py:attribute:: negative
      :type:  Annotated[mt_metadata.timeseries.Electrode, Field(default_factory=Electrode, description='Negative electrode.', alias=None, json_schema_extra={'units': None, 'required': True, 'examples': ['Electrode()']})]


   .. py:attribute:: contact_resistance
      :type:  Annotated[mt_metadata.common.StartEndRange, Field(default_factory=StartEndRange, description='Contact resistance start and end values.', alias=None, json_schema_extra={'units': None, 'required': True, 'examples': ['StartEndRange()']})]


   .. py:attribute:: ac
      :type:  Annotated[mt_metadata.common.StartEndRange, Field(default_factory=StartEndRange, description='AC start and end values.', alias=None, json_schema_extra={'units': None, 'required': True, 'examples': ['StartEndRange()']})]


   .. py:attribute:: dc
      :type:  Annotated[mt_metadata.common.StartEndRange, Field(default_factory=StartEndRange, description='DC start and end values.', alias=None, json_schema_extra={'units': None, 'required': True, 'examples': ['StartEndRange()']})]


   .. py:attribute:: type
      :type:  Annotated[str, Field(default='electric', description='Data type for the channel, should be a descriptive word that a user can understand.', alias=None, json_schema_extra={'units': None, 'required': True, 'examples': ['electric']})]