ISO/TS 10303-1689:2018-11 Interconnect physical requirement allocation


Application module: Interconnect physical requirement allocation	ISO/TS 10303-1689:2018-11(E) © ISO

Cover page
Table of contents
Copyright
Foreword
Introduction
1 Scope
2 Normative references
3 Terms, definitions and abbreviated terms
3.1 Terms and definitions
3.2 Abbreviated terms

4 Information requirements
4.1 Required AM ARMs
4.2 ARM entity definitions
4.3 ARM function definition
5 Module interpreted model
5.1 Mapping specification
5.2 MIM EXPRESS short listing
5.2.1 MIM entity definition

A MIM short names
B Information object registration
C ARM EXPRESS-G
D MIM EXPRESS-G
E Computer interpretable listings
F Change history
Bibliography
Index


         (*
ISO/TC 184/SC 4/WG 12 N9434 - ISO/TS 10303-1689 Interconnect physical requirement allocation - EXPRESS ARM
Supersedes 
         ISO/TC 184/SC 4/WG 12 N8158
*)



SCHEMA Interconnect_physical_requirement_allocation_arm;


         USE FROM
         Requirement_view_definition_relationship_arm;
            -- ISO/TS 10303-1142


         USE FROM
         Integral_shield_arm;
            -- ISO/TS 10303-1763


         REFERENCE FROM 
         Support_resource_arm   -- ISO/TS 10303-1800
  (bag_to_set);


ENTITY Electrical_isolation_requirement

           SUBTYPE OF (Requirement_view_definition);

           effective_voltage_withstand_capacity_requirement : 
         OPTIONAL 
         Value_limit;
DERIVE

           electrical_isolation_spacing_requirement : SET[1:1] OF Predefined_requirement_view_definition := get_specific_requirement_type_for_primary_rvd_relationship(SELF, 'derived from', 
         'INTERCONNECT_PLACEMENT_REQUIREMENTS_ARM.LAYOUT_SPACING_REQUIREMENT');
WHERE

           WR1: NOT EXISTS(effective_voltage_withstand_capacity_requirement) OR
            ((effective_voltage_withstand_capacity_requirement\Qualified_representation_item.qualifiers[1]\Type_qualifier.name in ['minimum'])
            AND
            ('VALUE_WITH_UNIT_EXTENSION_ARM.ELECTRIC_POTENTIAL_DATA_ELEMENT' IN TYPEOF(effective_voltage_withstand_capacity_requirement)));

           WR2: 'INTERCONNECT_PLACEMENT_REQUIREMENTS_ARM.LAYOUT_SPACING_REQUIREMENT' IN TYPEOF(electrical_isolation_spacing_requirement[1]);

           WR3: NOT EXISTS(SELF\Product_view_definition.additional_characterization);

         
         END_ENTITY;


ENTITY Interconnect_shield_allocation

           SUBTYPE OF (Requirement_assignment);

           SELF\Requirement_assignment.assigned_to : Integral_shield;

           SELF\Requirement_assignment.assigned_requirement RENAMED assigned_requirement_property : Predefined_requirement_view_definition;
WHERE

           WR1: assigned_requirement_property\Product_view_definition.initial_context\Initial_view_definition_context.application_domain
            = ps_initial_application_domain_enumeration.electrical;

         
         END_ENTITY;


ENTITY Thermal_isolation_requirement

           SUBTYPE OF (Requirement_view_definition);

           thermal_bar_width : 
         OPTIONAL 
         Length_tolerance_characteristic;

           number_of_bars : 
         OPTIONAL 
         INTEGER;

           effective_current_capacity_requirement : 
         OPTIONAL 
         Value_limit;

           angular_orientation_requirement : 
         OPTIONAL 
         Value_range;

           effective_thermal_resistance_requirement : 
         OPTIONAL 
         Value_limit;
DERIVE

           thermal_isolation_spacing_requirement : SET[1:1] OF Predefined_requirement_view_definition := get_specific_requirement_type_for_primary_rvd_relationship(SELF, 'derived from', 'INTERCONNECT_PLACEMENT_REQUIREMENTS_ARM.LAYOUT_SPACING_REQUIREMENT');
WHERE

           WR1: NOT EXISTS(SELF\Product_view_definition.additional_characterization);

           WR2: NOT(EXISTS(thermal_bar_width) XOR EXISTS(number_of_bars));

           WR3: 'INTERCONNECT_PLACEMENT_REQUIREMENTS_ARM.LAYOUT_SPACING_REQUIREMENT' IN TYPEOF(thermal_isolation_spacing_requirement[1]);

           WR4: NOT EXISTS(effective_current_capacity_requirement) OR
            ((effective_current_capacity_requirement\Qualified_representation_item.qualifiers[1]\Type_qualifier.name in ['minimum'])
            AND
            ('VALUE_WITH_UNIT_EXTENSION_ARM.ELECTRIC_CURRENT_DATA_ELEMENT' IN TYPEOF(effective_current_capacity_requirement)));

           WR5: NOT EXISTS(angular_orientation_requirement) OR
            ('VALUE_WITH_UNIT_EXTENSION_ARM.ANGLE_DATA_ELEMENT' IN TYPEOF(angular_orientation_requirement));

           WR6: NOT EXISTS(effective_thermal_resistance_requirement) OR
            ((effective_thermal_resistance_requirement\Qualified_representation_item.qualifiers[1]\Type_qualifier.name in ['minimum'])
            AND
            ('VALUE_WITH_UNIT_EXTENSION_ARM.THERMAL_RESISTANCE_DATA_ELEMENT' IN TYPEOF(effective_thermal_resistance_requirement)));

         
         END_ENTITY;


FUNCTION get_specific_requirement_type_for_primary_rvd_relationship
 (input : Requirement_view_definition; id : STRING; reqType : STRING) : SET[0:?] OF Predefined_requirement_view_definition;

LOCAL
    rvdr : SET[0:?] OF Requirement_view_definition_relationship := [];
    rdp : SET[0:?] OF Predefined_requirement_view_definition := [];  --this gives us access to the information base
END_LOCAL;
	rvdr := bag_to_set(QUERY(rvdre <* USEDIN (input, 'REQUIREMENT_VIEW_DEFINITION_RELATIONSHIP_ARM.'+ 'REQUIREMENT_VIEW_DEFINITION_RELATIONSHIP.PRIMARY')|
	                           ((rvdre.relation_type = id) AND (reqType IN TYPEOF(rvdre.secondary)))
                       ));
	-- iterate over rvdr
	REPEAT i := 1 to SIZEOF(rvdr) by 1;
      rdp := rdp + rvdr[i].secondary;
	END_REPEAT;

	RETURN(rdp);


         END_FUNCTION;



         END_SCHEMA;  -- Interconnect_physical_requirement_allocation_arm