pf active¶

Path	Dimensions	Type	Units	Description
pf_active (alpha)				Description of the axisymmetric active poloidal field (PF) coils and supplies; includes the limits of these systems; includes the forces on them; does not include non-axisymmetric coil systems
pf_active.circuit (alpha)	[1...N]	STRUCT_ARRAY		Circuits, connecting multiple PF coils to multiple supplies, defining the current and voltage relationships in the system
pf_active.circuit[:].connections (alpha)	[1...N, 1...N]	INT_2D		Description of the supplies and coils connections (nodes) across the circuit. Nodes of the circuit are listed as the first dimension of the matrix. Supplies (listed first) and coils (listed second) SIDES are listed as the second dimension. Thus the second dimension has a size equal to 2*(N_supplies+N_coils). N_supplies (resp. N_coils) is the total number of supplies (resp. coils) listed in the supply (resp.coil) array of structure, i.e. including also supplies/coils that are not part of the actual circuit. The (i,j) matrix elements are 1 if the j-th supply or coil side is connected to the i-th node, or 0 otherwise. For coils, sides are listed so that a current flowing from side 1 to side 2 (inside the coil) is positive (i.e. counter-clockwise when seen from above).
pf_active.circuit[:].current (alpha)		STRUCTURE	A	Current in the circuit between the sides of the group of supplies (only for circuits with a single supply or in which supplies are grouped)
pf_active.circuit[:].current.data (alpha)	[pf_active.circuit[:].current.time]	FLT_1D (uncertain)	A	Data
pf_active.circuit[:].current.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.circuit[:].identifier (alpha)		STR_0D		ID of the circuit
pf_active.circuit[:].name (alpha)		STR_0D		Name of the circuit
pf_active.circuit[:].type (alpha)		STR_0D		Type of the circuit
pf_active.circuit[:].voltage (alpha)		STRUCTURE	V	Voltage on the circuit between the sides of the group of supplies (only for circuits with a single supply or in which supplies are grouped)
pf_active.circuit[:].voltage.data (alpha)	[pf_active.circuit[:].voltage.time]	FLT_1D (uncertain)	V	Data
pf_active.circuit[:].voltage.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.code (alpha)		STRUCTURE		Generic decription of the code-specific parameters for the code that has produced this IDS
pf_active.code.commit (alpha)		STR_0D		Unique commit reference of software
pf_active.code.description (alpha)		STR_0D		Short description of the software (type, purpose)
pf_active.code.library (alpha)	[1...N]	STRUCT_ARRAY		List of external libraries used by the code that has produced this IDS
pf_active.code.library[:].commit (alpha)		STR_0D		Unique commit reference of software
pf_active.code.library[:].description (alpha)		STR_0D		Short description of the software (type, purpose)
pf_active.code.library[:].name (alpha)		STR_0D		Name of software
pf_active.code.library[:].parameters (alpha)		STR_0D		List of the code specific parameters in XML format
pf_active.code.library[:].repository (alpha)		STR_0D		URL of software repository
pf_active.code.library[:].version (alpha)		STR_0D		Unique version (tag) of software
pf_active.code.name (alpha)		STR_0D		Name of software generating IDS
pf_active.code.output_flag (alpha)	[pf_active.time]	INT_1D		Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.
pf_active.code.parameters (alpha)		STR_0D		List of the code specific parameters in XML format
pf_active.code.repository (alpha)		STR_0D		URL of software repository
pf_active.code.version (alpha)		STR_0D		Unique version (tag) of software
pf_active.coil (alpha)	[1...N]	STRUCT_ARRAY		Active PF coils
pf_active.coil[:].b_field_max (alpha)	[1...N]	FLT_1D (uncertain)	T	List of values of the maximum magnetic field on the conductor surface (coordinate for current_limit_max)
pf_active.coil[:].b_field_max_timed (alpha)		STRUCTURE	T	Maximum absolute value of the magnetic field on the conductor surface
pf_active.coil[:].b_field_max_timed.data (alpha)	[pf_active.coil[:].b_field_max_timed.time]	FLT_1D (uncertain)	T	Data
pf_active.coil[:].b_field_max_timed.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.coil[:].current (alpha)		STRUCTURE	A	Current fed in the coil (for 1 turn, to be multiplied by the number of turns to obtain the generated magnetic field), positive when flowing from side 1 to side 2 of the coil (inside the coil), this numbering being made consistently with the convention that the current is counter-clockwise when seen from above.
pf_active.coil[:].current.data (alpha)	[pf_active.coil[:].current.time]	FLT_1D (uncertain)	A	Data
pf_active.coil[:].current.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.coil[:].current_limit_max (alpha)	[pf_active.coil[:].b_field_max, pf_active.coil[:].temperature]	FLT_2D	A	Maximum tolerable current in the conductor
pf_active.coil[:].element (alpha)	[1...N]	STRUCT_ARRAY		Each PF coil is comprised of a number of cross-section elements described individually
pf_active.coil[:].element[:].area (alpha)		FLT_0D (uncertain)	m^2	Cross-sectional areas of the element
pf_active.coil[:].element[:].geometry (alpha)		STRUCTURE		Cross-sectional shape of the element
pf_active.coil[:].element[:].geometry.annulus (alpha)		STRUCTURE		The element is an annulus of centre R, Z, with inner radius radius_inner and outer radius radius_outer
pf_active.coil[:].element[:].geometry.annulus.r (alpha)		FLT_0D (uncertain)	m	Centre major radius
pf_active.coil[:].element[:].geometry.annulus.radius_inner (alpha)		FLT_0D (uncertain)	m	Inner radius
pf_active.coil[:].element[:].geometry.annulus.radius_outer (alpha)		FLT_0D (uncertain)	m	Outer radius
pf_active.coil[:].element[:].geometry.annulus.z (alpha)		FLT_0D (uncertain)	m	Centre height
pf_active.coil[:].element[:].geometry.arcs_of_circle (alpha)		STRUCTURE		Description of the element contour by a set of arcs of circle. For each of these, the position of the start point is given together with the curvature radius. The end point is given by the start point of the next arc of circle.
pf_active.coil[:].element[:].geometry.arcs_of_circle.curvature_radii (alpha)	[pf_active.coil[:].element[:].geometry.arcs_of_circle.r]	FLT_1D (uncertain)	m	Curvature radius of each arc of circle
pf_active.coil[:].element[:].geometry.arcs_of_circle.r (alpha)	[1...N]	FLT_1D (uncertain)	m	Major radii of the start point of each arc of circle
pf_active.coil[:].element[:].geometry.arcs_of_circle.z (alpha)	[pf_active.coil[:].element[:].geometry.arcs_of_circle.r]	FLT_1D (uncertain)	m	Height of the start point of each arc of circle
pf_active.coil[:].element[:].geometry.geometry_type (alpha)		INT_0D		Type used to describe the element shape (1:'outline', 2:'rectangle', 3:'oblique', 4:'arcs of circle, 5: 'annulus', 6 : 'thick line')
pf_active.coil[:].element[:].geometry.oblique (alpha)		STRUCTURE		Parallelogram description of the element
pf_active.coil[:].element[:].geometry.oblique.alpha (alpha)		FLT_0D (uncertain)	rad	Inclination of first angle measured counter-clockwise from horizontal outwardly directed radial vector (grad R).
pf_active.coil[:].element[:].geometry.oblique.beta (alpha)		FLT_0D (uncertain)	rad	Inclination of second angle measured counter-clockwise from vertically upwards directed vector (grad Z). If both alpha and beta are zero (rectangle) then the simpler rectangular elements description should be used.
pf_active.coil[:].element[:].geometry.oblique.length_alpha (alpha)		FLT_0D (uncertain)	m	Length of the parallelogram side inclined with angle alpha with respect to the major radius axis
pf_active.coil[:].element[:].geometry.oblique.length_beta (alpha)		FLT_0D (uncertain)	m	Length of the parallelogram side inclined with angle beta with respect to the height axis
pf_active.coil[:].element[:].geometry.oblique.r (alpha)		FLT_0D (uncertain)	m	Major radius of the reference point (from which the alpha and beta angles are defined, marked by a + on the diagram)
pf_active.coil[:].element[:].geometry.oblique.z (alpha)		FLT_0D (uncertain)	m	Height of the reference point (from which the alpha and beta angles are defined, marked by a + on the diagram)
pf_active.coil[:].element[:].geometry.outline (alpha)		STRUCTURE		Irregular outline of the element. Do NOT repeat the first point.
pf_active.coil[:].element[:].geometry.outline.r (alpha)	[1...N]	FLT_1D (uncertain)	m	Major radius
pf_active.coil[:].element[:].geometry.outline.z (alpha)	[pf_active.coil[:].element[:].geometry.outline.r]	FLT_1D (uncertain)	m	Height
pf_active.coil[:].element[:].geometry.rectangle (alpha)		STRUCTURE		Rectangular description of the element
pf_active.coil[:].element[:].geometry.rectangle.height (alpha)		FLT_0D (uncertain)	m	Vertical full height
pf_active.coil[:].element[:].geometry.rectangle.r (alpha)		FLT_0D (uncertain)	m	Geometric centre R
pf_active.coil[:].element[:].geometry.rectangle.width (alpha)		FLT_0D (uncertain)	m	Horizontal full width
pf_active.coil[:].element[:].geometry.rectangle.z (alpha)		FLT_0D (uncertain)	m	Geometric centre Z
pf_active.coil[:].element[:].geometry.thick_line (alpha)		STRUCTURE		The element is approximated by a rectangle defined by a central segment and a thickness in the direction perpendicular to the segment
pf_active.coil[:].element[:].geometry.thick_line.first_point (alpha)		STRUCTURE		Position of the first point
pf_active.coil[:].element[:].geometry.thick_line.first_point.r (alpha)		FLT_0D (uncertain)	m	Major radius
pf_active.coil[:].element[:].geometry.thick_line.first_point.z (alpha)		FLT_0D (uncertain)	m	Height
pf_active.coil[:].element[:].geometry.thick_line.second_point (alpha)		STRUCTURE		Position of the second point
pf_active.coil[:].element[:].geometry.thick_line.second_point.r (alpha)		FLT_0D (uncertain)	m	Major radius
pf_active.coil[:].element[:].geometry.thick_line.second_point.z (alpha)		FLT_0D (uncertain)	m	Height
pf_active.coil[:].element[:].geometry.thick_line.thickness (alpha)		FLT_0D (uncertain)	m	Thickness
pf_active.coil[:].element[:].identifier (alpha)		STR_0D		Identifier of this element
pf_active.coil[:].element[:].name (alpha)		STR_0D		Name of this element
pf_active.coil[:].element[:].turns_with_sign (alpha)		FLT_0D (uncertain)	-	Number of effective turns in the element for calculating magnetic fields of the coil/loop; includes the sign of the number of turns (positive means current is counter-clockwise when seen from above)
pf_active.coil[:].energy_limit_max (alpha)		FLT_0D	J	Maximum Energy to be dissipated in the coil
pf_active.coil[:].force_radial (alpha)		STRUCTURE	N	Radial force applied on this coil (positive when outwards)
pf_active.coil[:].force_radial.data (alpha)	[pf_active.coil[:].force_radial.time]	FLT_1D (uncertain)	N	Data
pf_active.coil[:].force_radial.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.coil[:].force_radial_crushing (alpha)		STRUCTURE	N	Radial crushing force applied on this coil (positive when compressive)
pf_active.coil[:].force_radial_crushing.data (alpha)	[pf_active.coil[:].force_radial_crushing.time]	FLT_1D (uncertain)	N	Data
pf_active.coil[:].force_radial_crushing.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.coil[:].force_vertical (alpha)		STRUCTURE	N	Vertical force applied on this coil (positive when upwards)
pf_active.coil[:].force_vertical.data (alpha)	[pf_active.coil[:].force_vertical.time]	FLT_1D (uncertain)	N	Data
pf_active.coil[:].force_vertical.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.coil[:].force_vertical_crushing (alpha)		STRUCTURE	N	Vertical crushing force applied on this coil (positive when compressive)
pf_active.coil[:].force_vertical_crushing.data (alpha)	[pf_active.coil[:].force_vertical_crushing.time]	FLT_1D (uncertain)	N	Data
pf_active.coil[:].force_vertical_crushing.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.coil[:].function (alpha)	[1...N]	STRUCT_ARRAY		Set of functions for which this coil may be used 0) flux : Generate flux (drive toroidal current) 1) b_field_shaping : Generate magnetic field for shaping 2) b_field_fb : Generate magnetic field for vertical force balance
pf_active.coil[:].function[:].description (alpha)		STR_0D		Verbose description
pf_active.coil[:].function[:].index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
pf_active.coil[:].function[:].name (alpha)		STR_0D		Short string identifier
pf_active.coil[:].identifier (alpha)		STR_0D		Alphanumeric identifier of coils used for convenience
pf_active.coil[:].name (alpha)		STR_0D		Name of the coil
pf_active.coil[:].resistance (alpha)		FLT_0D (uncertain)	Ohm	Coil resistance
pf_active.coil[:].resistance_additional (alpha)		STRUCTURE	Ohm	Additional resistance due to e.g. dynamically switchable resistors. The coil effective resistance is obtained by adding this dynamic quantity to the static resistance of the coil.
pf_active.coil[:].resistance_additional.data (alpha)	[pf_active.coil[:].resistance_additional.time]	FLT_1D (uncertain)	Ohm	Data
pf_active.coil[:].resistance_additional.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.coil[:].temperature (alpha)	[1...N]	FLT_1D (uncertain)	K	List of values of the conductor temperature (coordinate for current_limit_max)
pf_active.coil[:].voltage (alpha)		STRUCTURE	V	Voltage on the coil terminals (Vside1-Vside2) - including additional resistors if any
pf_active.coil[:].voltage.data (alpha)	[pf_active.coil[:].voltage.time]	FLT_1D (uncertain)	V	Data
pf_active.coil[:].voltage.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.force_limits (alpha)		STRUCTURE		Description of force limits on the axisymmetric PF coil system
pf_active.force_limits.combination_matrix (alpha)	[pf_active.force_limits.limit_max, 1...N]	FLT_2D (uncertain)	-	Force limits are expressed as a linear combination of the forces on each individual coil. The weights of the linear combination are given by this matrix, while the limits are given by the sibling nodes limit_min and limit_max. Each row of this matrix corresponds to a force limit. The columns represent, for each coil, the 4 types of forces on the coil namely [coil1_radial, coil1_vertical, coil1_radial_crush, coil1_vertical_crush, coil2_radial, coil2_vertical, coil2_radial_crush, coil2_vertical_crush, ...]. There are therefore 4*coils_n columns.
pf_active.force_limits.force (alpha)		STRUCTURE	N	Force (positive when upwards for a vertical force, positive when outwards for a radial force)
pf_active.force_limits.force.data (alpha)	[pf_active.force_limits.force.time]	FLT_1D (uncertain)	N	Data
pf_active.force_limits.force.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.force_limits.limit_max (alpha)	[1...N]	FLT_1D (uncertain)	N	Maximum force limit, for each limit (line of the combination matrix). EMPTY_FLT value means unbounded
pf_active.force_limits.limit_min (alpha)	[pf_active.force_limits.limit_max]	FLT_1D (uncertain)	N	Minimum force limit, for each limit (line of the combination matrix). EMPTY_FLT value means unbounded
pf_active.ids_properties (alpha)		STRUCTURE		Interface Data Structure properties. This element identifies the node above as an IDS
pf_active.ids_properties.comment (alpha)		STR_0D		Any comment describing the content of this IDS
pf_active.ids_properties.creation_date (alpha)		STR_0D		Date at which this data has been produced
pf_active.ids_properties.homogeneous_time (alpha)		INT_0D		This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2
pf_active.ids_properties.name (alpha)		STR_0D		User-defined name for this IDS occurrence
pf_active.ids_properties.occurrence		INT_0D
pf_active.ids_properties.occurrence_type (alpha)		STRUCTURE		Type of data contained in this occurrence 1) reconstruction : Equilibrium reconstruction 2) prediction_fixed : Equilibrium prediction, fixed boundary 3) prediction_free : Equilibrium prediction, free boundary 4) mapping : Used for mapping equilibrium results from one grid type / resolution to another, or for including variables not present in the first set such as the calculation of magnetic field of other derived parameters
pf_active.ids_properties.occurrence_type.description (alpha)		STR_0D		Verbose description
pf_active.ids_properties.occurrence_type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
pf_active.ids_properties.occurrence_type.name (alpha)		STR_0D		Short string identifier
pf_active.ids_properties.plugins (alpha)		STRUCTURE		Information about the plugins used to write/read this IDS. This structure is filled automatically by the Access Layer at GET/PUT time, no need to fill it via a user program.
pf_active.ids_properties.plugins.infrastructure_get (alpha)		STRUCTURE		Plugin infrastructure used to GET the data
pf_active.ids_properties.plugins.infrastructure_get.commit (alpha)		STR_0D		Unique commit reference of software
pf_active.ids_properties.plugins.infrastructure_get.description (alpha)		STR_0D		Short description of the software (type, purpose)
pf_active.ids_properties.plugins.infrastructure_get.name (alpha)		STR_0D		Name of software used
pf_active.ids_properties.plugins.infrastructure_get.repository (alpha)		STR_0D		URL of software repository
pf_active.ids_properties.plugins.infrastructure_get.version (alpha)		STR_0D		Unique version (tag) of software
pf_active.ids_properties.plugins.infrastructure_put (alpha)		STRUCTURE		Plugin infrastructure used to PUT the data
pf_active.ids_properties.plugins.infrastructure_put.commit (alpha)		STR_0D		Unique commit reference of software
pf_active.ids_properties.plugins.infrastructure_put.description (alpha)		STR_0D		Short description of the software (type, purpose)
pf_active.ids_properties.plugins.infrastructure_put.name (alpha)		STR_0D		Name of software used
pf_active.ids_properties.plugins.infrastructure_put.repository (alpha)		STR_0D		URL of software repository
pf_active.ids_properties.plugins.infrastructure_put.version (alpha)		STR_0D		Unique version (tag) of software
pf_active.ids_properties.plugins.node (alpha)	[1...N]	STRUCT_ARRAY		Set of IDS nodes for which a plugin has been applied
pf_active.ids_properties.plugins.node[:].get_operation (alpha)	[1...N]	STRUCT_ARRAY		Plugins actually used to read back a node (potentially, multiple plugins can be applied, listed in reverse order of application). This information is filled by the plugin infrastructure during the GET operation.
pf_active.ids_properties.plugins.node[:].get_operation[:].commit (alpha)		STR_0D		Unique commit reference of software
pf_active.ids_properties.plugins.node[:].get_operation[:].description (alpha)		STR_0D		Short description of the software (type, purpose)
pf_active.ids_properties.plugins.node[:].get_operation[:].name (alpha)		STR_0D		Name of software used
pf_active.ids_properties.plugins.node[:].get_operation[:].parameters (alpha)		STR_0D		List of the code specific parameters in XML format
pf_active.ids_properties.plugins.node[:].get_operation[:].repository (alpha)		STR_0D		URL of software repository
pf_active.ids_properties.plugins.node[:].get_operation[:].version (alpha)		STR_0D		Unique version (tag) of software
pf_active.ids_properties.plugins.node[:].path (alpha)		STR_0D		Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.
pf_active.ids_properties.plugins.node[:].put_operation (alpha)	[1...N]	STRUCT_ARRAY		Plugins used to PUT a node (potentially, multiple plugins can be applied, if so they are listed by order of application)
pf_active.ids_properties.plugins.node[:].put_operation[:].commit (alpha)		STR_0D		Unique commit reference of software
pf_active.ids_properties.plugins.node[:].put_operation[:].description (alpha)		STR_0D		Short description of the software (type, purpose)
pf_active.ids_properties.plugins.node[:].put_operation[:].name (alpha)		STR_0D		Name of software used
pf_active.ids_properties.plugins.node[:].put_operation[:].parameters (alpha)		STR_0D		List of the code specific parameters in XML format
pf_active.ids_properties.plugins.node[:].put_operation[:].repository (alpha)		STR_0D		URL of software repository
pf_active.ids_properties.plugins.node[:].put_operation[:].version (alpha)		STR_0D		Unique version (tag) of software
pf_active.ids_properties.plugins.node[:].readback (alpha)	[1...N]	STRUCT_ARRAY		Plugins to be used to read back a node (potentially, multiple plugins can be applied, listed in reverse order of application)
pf_active.ids_properties.plugins.node[:].readback[:].commit (alpha)		STR_0D		Unique commit reference of software
pf_active.ids_properties.plugins.node[:].readback[:].description (alpha)		STR_0D		Short description of the software (type, purpose)
pf_active.ids_properties.plugins.node[:].readback[:].name (alpha)		STR_0D		Name of software used
pf_active.ids_properties.plugins.node[:].readback[:].parameters (alpha)		STR_0D		List of the code specific parameters in XML format
pf_active.ids_properties.plugins.node[:].readback[:].repository (alpha)		STR_0D		URL of software repository
pf_active.ids_properties.plugins.node[:].readback[:].version (alpha)		STR_0D		Unique version (tag) of software
pf_active.ids_properties.provenance (alpha)		STRUCTURE		Provenance information about this IDS
pf_active.ids_properties.provenance.node (alpha)	[1...N]	STRUCT_ARRAY		Set of IDS nodes for which the provenance is given. The provenance information applies to the whole structure below the IDS node. For documenting provenance information for the whole IDS, set the size of this array of structure to 1 and leave the child "path" node empty
pf_active.ids_properties.provenance.node[:].path (alpha)		STR_0D		Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.
pf_active.ids_properties.provenance.node[:].sources (alpha)	[1...N]	STR_1D		List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.
pf_active.ids_properties.provider (alpha)		STR_0D		Name of the person in charge of producing this data
pf_active.ids_properties.source (obsolescent)		STR_0D		Source of the data (any comment describing the origin of the data : code, path to diagnostic signals, processing method, ...). Superseeded by the new provenance structure.
pf_active.ids_properties.version_put (alpha)		STRUCTURE		Version of the access layer package used to PUT this IDS
pf_active.ids_properties.version_put.access_layer (alpha)		STR_0D		Version of Access Layer used to PUT this IDS
pf_active.ids_properties.version_put.access_layer_language (alpha)		STR_0D		Programming language of the Access Layer high level API used to PUT this IDS
pf_active.ids_properties.version_put.data_dictionary (alpha)		STR_0D		Version of Data Dictionary used to PUT this IDS
pf_active.latency (alpha)		FLT_0D (uncertain)	s	Upper bound of the delay between input command received from the RT network and actuator starting to react. Applies globally to the system described by this IDS unless specific latencies (e.g. channel-specific or antenna-specific) are provided at a deeper level in the IDS structure.
pf_active.radial_force (obsolescent)	[1...N]	STRUCT_ARRAY		Radial forces on the axisymmetric PF coil system
pf_active.radial_force[:].combination (obsolescent)	[1...N]	FLT_1D (uncertain)	-	Coils involved in the force combinations. Normally the force would be the full set of coils, but in some cases, we want to have a difference in forces, such as a CS coil separation force. We therefore give each coil a force weight which we call the combination
pf_active.radial_force[:].force (obsolescent)		STRUCTURE	N	Force (positive when upwards for a vertical force, positive when outwards for a radial force)
pf_active.radial_force[:].force.data (obsolescent)	[pf_active.radial_force[:].force.time]	FLT_1D (uncertain)	N	Data
pf_active.radial_force[:].force.time (obsolescent)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.radial_force[:].limit_max (obsolescent)		FLT_0D (uncertain)	N	Maximum force combination limit
pf_active.radial_force[:].limit_min (obsolescent)		FLT_0D (uncertain)	N	Minimum force combination limit
pf_active.radial_force[:].name (obsolescent)		STR_0D		Name of the force combination
pf_active.supply (alpha)	[1...N]	STRUCT_ARRAY		PF power supplies
pf_active.supply[:].current (alpha)		STRUCTURE	A	Current at the supply output, defined positive if it flows from point 1 to point 2 in the circuit connected to the supply (outside the supply)
pf_active.supply[:].current.data (alpha)	[pf_active.supply[:].current.time]	FLT_1D (uncertain)	A	Data
pf_active.supply[:].current.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.supply[:].current_limit_max (alpha)		FLT_0D	A	Maximum current in the supply
pf_active.supply[:].current_limit_min (alpha)		FLT_0D	A	Minimum current in the supply
pf_active.supply[:].current_limiter_gain (alpha)		FLT_0D (uncertain)	V	Gain to prevent overcurrent in a linear model of the supply
pf_active.supply[:].delay (alpha)		FLT_0D (uncertain)	s	Pure delay in the supply
pf_active.supply[:].energy_limit_max (alpha)		FLT_0D	J	Maximum energy to be dissipated in the supply during a pulse
pf_active.supply[:].filter_denominator (alpha)	[1...N]	FLT_1D (uncertain)	mixed	Coefficients of the denominator, in increasing order : b0 + b1s + ... + bms^m; used for a linear supply description
pf_active.supply[:].filter_numerator (alpha)	[1...N]	FLT_1D (uncertain)	mixed	Coefficients of the numerator, in increasing order : a0 + a1s + ... + ans^n; used for a linear supply description
pf_active.supply[:].identifier (alpha)		STR_0D		Identifier of the supply
pf_active.supply[:].name (alpha)		STR_0D		Name of the PF supply
pf_active.supply[:].nonlinear_model (alpha)		STR_0D		Description of the nonlinear transfer function of the supply
pf_active.supply[:].resistance (alpha)		FLT_0D (uncertain)	Ohm	Power supply internal resistance
pf_active.supply[:].type (alpha)		INT_0D		Type of the supply; TBD add free description of non-linear power supplies
pf_active.supply[:].voltage (alpha)		STRUCTURE	V	Voltage at the supply output (Vside1-Vside2)
pf_active.supply[:].voltage.data (alpha)	[pf_active.supply[:].voltage.time]	FLT_1D (uncertain)	V	Data
pf_active.supply[:].voltage.time (alpha)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.supply[:].voltage_limit_max (alpha)		FLT_0D	V	Maximum voltage from the supply
pf_active.supply[:].voltage_limit_min (alpha)		FLT_0D	V	Minimum voltage from the supply
pf_active.time (alpha)	[1...N]	FLT_1D_TYPE	s	Generic time
pf_active.vertical_force (obsolescent)	[1...N]	STRUCT_ARRAY		Vertical forces on the axisymmetric PF coil system
pf_active.vertical_force[:].combination (obsolescent)	[1...N]	FLT_1D (uncertain)	-	Coils involved in the force combinations. Normally the force would be the full set of coils, but in some cases, we want to have a difference in forces, such as a CS coil separation force. We therefore give each coil a force weight which we call the combination
pf_active.vertical_force[:].force (obsolescent)		STRUCTURE	N	Force (positive when upwards for a vertical force, positive when outwards for a radial force)
pf_active.vertical_force[:].force.data (obsolescent)	[pf_active.vertical_force[:].force.time]	FLT_1D (uncertain)	N	Data
pf_active.vertical_force[:].force.time (obsolescent)	[1...N]	FLT_1D_TYPE	s	Time
pf_active.vertical_force[:].limit_max (obsolescent)		FLT_0D (uncertain)	N	Maximum force combination limit
pf_active.vertical_force[:].limit_min (obsolescent)		FLT_0D (uncertain)	N	Minimum force combination limit
pf_active.vertical_force[:].name (obsolescent)		STR_0D		Name of the force combination