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05 - VerySimpleFixedPVC2_with_electrical_layout.pvc2
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672 lines (672 loc) · 24.7 KB
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<?xml version="1.0" encoding="utf-8"?>
<COLLADA xmlns:xsd="http://www.w3.org/2001/XMLSchema"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:pv="http://www.example.com/pvcollada"
version="1.5.0" xmlns="http://www.collada.org/2008/03/COLLADASchema">
<asset>
<contributor>
<author>PVsyst</author>
<comments>PVC 2.0 sample file : 1 terrain and 3 tables, all based on the same model. Electrical components and circuit (3 inverters, 1 AC combiner, 1 tranformer)</comments>
</contributor>
<coverage>
<geographic_location>
<longitude>6.1432</longitude>
<latitude>46.2044</latitude>
<altitude mode="absolute">375</altitude>
</geographic_location>
</coverage>
<created>2024-06-06T13:32:31Z</created>
<modified>2024-06-06T13:32:31Z</modified>
<unit meter="0.01" name="cm" />
<up_axis>Z_UP</up_axis>
<extra>
<technique profile="PVCollada-2.0">
<!-- software tag -->
<pv:software>
<pv:source>Helios 3D</pv:source>
<pv:target>PVsyst</pv:target>
</pv:software>
<!-- project tag -->
<pv:project>
<pv:name>Project in Geneva</pv:name>
<pv:drawing>Project drawing</pv:drawing>
<pv:company>Test company</pv:company>
<pv:country>CH</pv:country>
<pv:timezone>Europe/Zurich</pv:timezone>
<pv:timezone_offset>2</pv:timezone_offset>
<!-- pv:boundary></pv:boundary -->
<pv:module_count>12</pv:module_count>
<pv:table_count>3</pv:table_count>
<pv:string_count>3</pv:string_count>
<pv:capacity_dc>4800</pv:capacity_dc>
<pv:capacity_ac>4000</pv:capacity_ac>
<pv:interconnection_limit>12000</pv:interconnection_limit>
</pv:project>
<!-- components tag -->
<pv:components>
<!-- List of modules -->
<pv:modules>
<!-- module tag. Would usually contain a link to a PAN file or its content as CDATA -->
<pv:module id="ModuleModel1">
<pv:manufacturer>Generic</pv:manufacturer>
<pv:name>Generic 400W bifacial</pv:name>
<pv:module_type>bifacial</pv:module_type>
<pv:nom_power>400</pv:nom_power>
<pv:length>1992</pv:length>
<pv:width>1000</pv:width>
<pv:depth>6</pv:depth>
<pv:num_cells>72</pv:num_cells>
<pv:num_cells_length>12</pv:num_cells_length>
<pv:num_cells_width>6</pv:num_cells_width>
<pv:num_cells_series>72</pv:num_cells_series>
<pv:num_strings>1</pv:num_strings>
<pv:cell_material>polySi</pv:cell_material>
<pv:bifacial_factor>0.680</pv:bifacial_factor>
<pv:t_coef_power>-0.37</pv:t_coef_power>
<pv:t_coef_isc>-0.3</pv:t_coef_isc>
<pv:t_coef_voc>49.7</pv:t_coef_voc>
<pv:i_sc>10.35</pv:i_sc>
<pv:i_mpp>9.79</pv:i_mpp>
<pv:v_oc>49.63</pv:v_oc>
<pv:v_mpp>41.19</pv:v_mpp>
</pv:module>
</pv:modules>
<!-- List of inverters -->
<pv:inverters>
<!-- inverter tag. Would usually contain a link to an OND file or its content as CDATA -->
<pv:inverter id="InverterModel1">
<pv:manufacturer>Generic</pv:manufacturer>
<pv:name>Generic 2kW inverter</pv:name>
<pv:inverter_type>string</pv:inverter_type>
<pv:nom_power_ac>2000</pv:nom_power_ac>
<pv:nom_power_dc>2050</pv:nom_power_dc>
<pv:capacity_ac>2000</pv:capacity_ac>
<pv:capacity_dc>2050</pv:capacity_dc>
<pv:v_mpp_min>40</pv:v_mpp_min>
<pv:v_mpp_max>560</pv:v_mpp_max>
<pv:v_mpp_nom>360</pv:v_mpp_nom>
<pv:i_max_dc>9.10</pv:i_max_dc>
<pv:mppt_count>1</pv:mppt_count>
<pv:mppts>
<pv:mppt id="MPPT1">
<pv:input_count>1</pv:input_count>
</pv:mppt>
</pv:mppts>
<pv:v_out_ac>230</pv:v_out_ac>
<pv:self_consumption>5</pv:self_consumption>
<pv:night_tare>3</pv:night_tare>
<pv:temperature_derate>
<pv:pt>20.0 0.98</pv:pt>
<pv:pt>30.0 0.98</pv:pt>
<pv:pt>40.0 0.97</pv:pt>
<pv:pt>50.0 0.80</pv:pt>
</pv:temperature_derate>
<pv:efficiency>98.0</pv:efficiency>
<pv:efficiency_standard_value>97.0</pv:efficiency_standard_value>
<pv:efficiency_standard_type>EU</pv:efficiency_standard_type>
</pv:inverter>
</pv:inverters>
<!-- List of AC combiners -->
<pv:combiners_ac>
<!-- combiner_ac tag -->
<pv:combiner_ac id="CombinerACModel1">
<pv:manufacturer>Generic</pv:manufacturer>
<pv:name>Generic AC combiner</pv:name>
<pv:input_count>3</pv:input_count>
</pv:combiner_ac>
</pv:combiners_ac>
<!-- List of transformers -->
<pv:transformers>
<!-- transformer tag -->
<pv:transformer id="TransformerModel1">
<pv:manufacturer>Generic</pv:manufacturer>
<pv:name>Generic transformer</pv:name>
<pv:nom_power>6000</pv:nom_power>
<pv:v_in>230</pv:v_in>
<pv:v_out>1100</pv:v_out>
<pv:efficiency>95.0</pv:efficiency>
<pv:iron_loss>10</pv:iron_loss>
<pv:copper_loss>15</pv:copper_loss>
<pv:night_disconnect>false</pv:night_disconnect>
</pv:transformer>
</pv:transformers>
<!-- List of cables -->
<pv:cables>
<!-- cable tag -->
<!-- For this basic example we have 2 types of cable only, which is not realistic -->
<pv:cable id="DCCableModel1">
<pv:manufacturer>Generic</pv:manufacturer>
<pv:name>Generic cable</pv:name>
<pv:cross_section>2.5</pv:cross_section>
<pv:num_conductors>3</pv:num_conductors>
<pv:material>copper</pv:material>
<!-- pv:type>DC</pv:type -->
<pv:resistance>10</pv:resistance>
<pv:impedance>25</pv:impedance>
</pv:cable>
<pv:cable id="ACCableModel1">
<pv:manufacturer>Generic</pv:manufacturer>
<pv:name>Generic cable</pv:name>
<pv:cross_section>2.5</pv:cross_section>
<pv:num_conductors>3</pv:num_conductors>
<pv:material>copper</pv:material>
<!-- pv:type>AC</pv:type -->
<pv:resistance>10</pv:resistance>
<pv:impedance>25</pv:impedance>
</pv:cable>
</pv:cables>
</pv:components>
<!-- circuit tag (tree) -->
<pv:circuit>
<!-- circuit_root tag => Always the parent of the tree -->
<pv:circuit_root>
<!-- instance_transformer tag, in this case the transformer that will inject into the grid -->
<pv:instance_transformer url="#TransformerModel1" id="transformerInstance">
<!-- Cable between the transformer and the circuit_root -->
<pv:cable_to_parent url="#ACCableModel1" length="5" id="cableInstance1" />
<pv:inputs>
<!-- instance_combiner_ac tag, the AC combiner that will combine the 3 strings -->
<pv:instance_combiner_ac url="#CombinerACModel1" id="combinerAcInstance">
<!-- Cable between the AC combiner and the transformer -->
<pv:cable_to_parent url="#ACCableModel1" length="10" id="cableInstance2" />
<!-- inputs tag => the 3 inverters strings -->
<pv:inputs>
<!-- Inverter #1 -->
<pv:instance_inverter url="#InverterModel1" id="inverterInstance1" name="Inverter #1">
<!-- Cable between the inverter and the AC combiner -->
<pv:cable_to_parent url="#ACCableModel1" length="10" id="cableInstance3" />
<!-- mppts tag -->
<pv:mppts>
<!-- mppt tag -->
<pv:mppt>
<!-- first string tag => the string connected to this mppt input -->
<pv:string id="string1">
<pv:module_array>
<!-- Cable between the module_array and the inverter -->
<pv:cable_to_parent url="#DCCableModel1" length="3" id="cableInstance4" />
<pv:module_layout url="#rackId1">
<pv:position_in_string>1</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>1</pv:column>
</pv:module_layout>
<pv:module_layout url="#rackId1">
<pv:position_in_string>2</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>2</pv:column>
</pv:module_layout>
<pv:module_layout url="#rackId1">
<pv:position_in_string>3</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>3</pv:column>
</pv:module_layout>
<pv:module_layout url="#rackId1">
<pv:position_in_string>4</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>4</pv:column>
</pv:module_layout>
</pv:module_array>
</pv:string>
</pv:mppt>
</pv:mppts>
</pv:instance_inverter>
<!-- Inverter #2 -->
<pv:instance_inverter url="#InverterModel1" id="inverterInstance2" name="Inverter #2">
<!-- Cable between the inverter and the AC combiner -->
<pv:cable_to_parent url="#ACCableModel1" length="11" id="cableInstance9" />
<!-- mppts tag -->
<pv:mppts>
<!-- mppt tag -->
<pv:mppt>
<!-- second string tag => the string connected to this mppt input -->
<pv:string id="string2">
<pv:module_array>
<!-- Cable between the module_array and the inverter -->
<pv:cable_to_parent url="#DCCableModel1" length="3" id="cableInstance10" />
<pv:module_layout url="#rackId2">
<pv:position_in_string>1</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>1</pv:column>
</pv:module_layout>
<pv:module_layout url="#rackId2">
<pv:position_in_string>2</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>2</pv:column>
</pv:module_layout>
<pv:module_layout url="#rackId2">
<pv:position_in_string>3</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>3</pv:column>
</pv:module_layout>
<pv:module_layout url="#rackId2">
<pv:position_in_string>4</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>4</pv:column>
</pv:module_layout>
</pv:module_array>
</pv:string>
</pv:mppt>
</pv:mppts>
</pv:instance_inverter>
<!-- Inverter #3 -->
<pv:instance_inverter url="#InverterModel1" id="inverterInstance3" name="Inverter #3">
<!-- Cable between the inverter and the AC combiner -->
<pv:cable_to_parent url="#ACCableModel1" length="12" id="cableInstance15" />
<!-- mppts tag -->
<pv:mppts>
<!-- mppt tag -->
<pv:mppt>
<!-- third string tag => the string connected to this mppt input -->
<pv:string id="string3">
<pv:module_array>
<!-- Cable between the module_array and the inverter -->
<pv:cable_to_parent url="#DCCableModel1" length="3" id="cableInstance16" />
<pv:module_layout url="#rackId3">
<pv:position_in_string>1</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>1</pv:column>
</pv:module_layout>
<pv:module_layout url="#rackId3">
<pv:position_in_string>2</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>2</pv:column>
</pv:module_layout>
<pv:module_layout url="#rackId3">
<pv:position_in_string>3</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>3</pv:column>
</pv:module_layout>
<pv:module_layout url="#rackId3">
<pv:position_in_string>4</pv:position_in_string>
<pv:row>1</pv:row>
<pv:column>4</pv:column>
</pv:module_layout>
</pv:module_array>
</pv:string>
</pv:mppt>
</pv:mppts>
</pv:instance_inverter>
</pv:inputs>
</pv:instance_combiner_ac>
</pv:inputs>
</pv:instance_transformer>
</pv:circuit_root>
</pv:circuit>
</technique>
</extra>
</asset>
<library_materials>
<material id="Material1" name="Dummy Material">
<instance_effect url="#Material1EffectId" />
</material>
</library_materials>
<library_effects>
<effect id="Material1EffectId" name="Dummy Material Effect">
<profile_COMMON>
<technique sid="standard">
<lambert>
<emission>
<color sid="emission">0.000000 0.000000 0.000000 1.000000</color>
</emission>
<ambient>
<color sid="ambient">0.200000 0.200000 0.200000 1.000000</color>
</ambient>
<diffuse>
<color sid="diffuse">0.250000 0.500000 0.000000 1.000000</color>
</diffuse>
<transparent opaque="RGB_ZERO">
<color sid="transparent">0.000000 0.000000 0.000000 1.000000</color>
</transparent>
<transparency>
<float sid="transparency">0</float>
</transparency>
</lambert>
</technique>
</profile_COMMON>
</effect>
</library_effects>
<library_geometries>
<!-- We define a terrain -->
<geometry id="TerrainModel1">
<mesh>
<source id="terrain1MeshSource">
<float_array id="terrain1FloatArray" count="12">
2000 -2500 0
-2000 -2500 0
-2000 2500 0
2000 2500 0
</float_array>
<technique_common>
<accessor count="4" source="#terrain1FloatArray" stride="3">
<param name="X" type="float" />
<param name="Y" type="float" />
<param name="Z" type="float" />
</accessor>
</technique_common>
</source>
<vertices id="terrain1VerticesSource">
<input semantic="POSITION" source="#terrain1MeshSource" />
</vertices>
<polylist material="CommonMaterial" count="1">
<input offset="0" semantic="VERTEX" source="#terrain1VerticesSource" />
<vcount>5</vcount>
<p>0 1 2 3 0</p>
</polylist>
</mesh>
<extra>
<technique profile="PVCollada-2.0">
<!-- terrain tag -->
<pv:terrain>
<pv:vertex_count>4</pv:vertex_count>
<pv:triangle_count>2</pv:triangle_count>
<pv:bounding_box_min>-10.0 -20.0 -30.0</pv:bounding_box_min>
<pv:bounding_box_max>10.0 20.0 30.0</pv:bounding_box_max>
</pv:terrain>
</technique>
</extra>
</geometry>
<!-- We define the model for a rack -->
<geometry id="RackModel1">
<mesh>
<source id="rack1MeshSource">
<float_array id="rack1FloatArray" count="12">
0 0 0
-1500 0 0
-1500 -500 200
0 -500 200
</float_array>
<technique_common>
<accessor count="4" source="#rack1FloatArray" stride="3">
<param name="X" type="float" />
<param name="Y" type="float" />
<param name="Z" type="float" />
</accessor>
</technique_common>
</source>
<vertices id="rack1VerticesSource">
<input semantic="POSITION" source="#rack1MeshSource" />
</vertices>
<triangles count="2" material="CommonMaterial">
<input offset="0" semantic="VERTEX" source="#rack1VerticesSource" />
<p>3 1 2 1 3 0</p>
</triangles>
</mesh>
<extra>
<technique profile="PVCollada-2.0">
<!-- rack tag -->
<pv:rack>
<pv:rack_type>fixed_tilt</pv:rack_type>
<pv:row_spacing>20</pv:row_spacing>
<pv:column_spacing>20</pv:column_spacing>
<pv:module_rows>1</pv:module_rows>
<pv:module_columns>4</pv:module_columns>
<pv:module_orientation>portrait</pv:module_orientation>
<pv:tilt>21.8</pv:tilt>
<pv:azimuth>0</pv:azimuth>
<pv:slope>0</pv:slope>
<pv:module_id>ModuleModel1</pv:module_id>
</pv:rack>
</technique>
</extra>
</geometry>
<!-- We define the 3D model for inverters (contains the geometry of the inverter) -->
<geometry id="Inverter3DModel1">
<mesh>
<source id="inverter_positions">
<float_array id="inverter_positions_array" count="24">
-50 -100 0 50 -100 0 50 100 0 -50 100 0
-50 -100 60 50 -100 60 50 100 60 -50 100 60
</float_array>
<technique_common>
<accessor source="#inverter_positions_array" count="8" stride="3">
<param name="X" type="float" />
<param name="Y" type="float" />
<param name="Z" type="float" />
</accessor>
</technique_common>
</source>
<vertices id="inverter_vertices">
<input semantic="POSITION" source="#inverter_positions" />
</vertices>
<polygons count="6">
<input semantic="VERTEX" source="#inverter_vertices" offset="0" />
<p>0 1 2 3</p>
<p>4 5 6 7</p>
<p>0 1 5 4</p>
<p>1 2 6 5</p>
<p>2 3 7 6</p>
<p>3 0 4 7</p>
</polygons>
</mesh>
<extra>
<technique profile="PVCollada-2.0">
<!-- inverter3d tag, references the inverter defined in components -->
<pv:inverter3d inverter_id="InverterModel1" />
</technique>
</extra>
</geometry>
<!-- We define the 3D model for AC combiners (contains the geometry of the AC combiner) -->
<geometry id="CombinerAC3DModel">
<mesh>
<source id="combiner_ac_positions">
<float_array id="combiner_ac_positions_array" count="24">
-100 -100 0 100 -100 0 100 100 0 -100 100 0
-100 -100 120 100 -100 120 100 100 120 -100 100 120
</float_array>
<technique_common>
<accessor source="#combiner_ac_positions_array" count="8" stride="3">
<param name="X" type="float" />
<param name="Y" type="float" />
<param name="Z" type="float" />
</accessor>
</technique_common>
</source>
<vertices id="combiner_ac_vertices">
<input semantic="POSITION" source="#combiner_ac_positions" />
</vertices>
<polygons count="6">
<input semantic="VERTEX" source="#combiner_ac_vertices" offset="0" />
<p>0 1 2 3</p>
<p>4 5 6 7</p>
<p>0 1 5 4</p>
<p>1 2 6 5</p>
<p>2 3 7 6</p>
<p>3 0 4 7</p>
</polygons>
</mesh>
<extra>
<technique profile="PVCollada-2.0">
<!-- combiner_ac3d tag, references the combiner_ac defined in components -->
<pv:combiner_ac3d combiner_ac_id="CombinerACModel1" />
</technique>
</extra>
</geometry>
<!-- We define the 3D model for transformers (contains the geometry of the transformer) -->
<geometry id="Transformer3DModel">
<mesh>
<source id="transformer_positions">
<float_array id="transformer_positions_array" count="24">
-200 -200 0 200 -200 0 200 200 0 -200 200 0
-200 -200 240 200 -200 240 200 200 240 -200 200 240
</float_array>
<technique_common>
<accessor source="#transformer_positions_array" count="8" stride="3">
<param name="X" type="float" />
<param name="Y" type="float" />
<param name="Z" type="float" />
</accessor>
</technique_common>
</source>
<vertices id="transformer_vertices">
<input semantic="POSITION" source="#transformer_positions" />
</vertices>
<polygons count="6">
<input semantic="VERTEX" source="#transformer_vertices" offset="0" />
<p>0 1 2 3</p>
<p>4 5 6 7</p>
<p>0 1 5 4</p>
<p>1 2 6 5</p>
<p>2 3 7 6</p>
<p>3 0 4 7</p>
</polygons>
</mesh>
<extra>
<technique profile="PVCollada-2.0">
<!-- transformer3d tag, references the transformer defined in components -->
<pv:transformer3d transformer_id="TransformerModel1" />
</technique>
</extra>
</geometry>
</library_geometries>
<library_nodes>
<!-- We define the model for a table with 1 rack -->
<node id="TableModel1" sid="TableModel1">
<!-- We instantiate the rack model -->
<instance_geometry url="#RackModel1">
<bind_material>
<technique_common>
<instance_material symbol="CommonMaterial" target="#Material1" />
</technique_common>
</bind_material>
<extra>
<technique profile="PVCollada-2.0">
<!-- instance_rack tag -->
<pv:instance_rack id="rackInstance1" />
</technique>
</extra>
</instance_geometry>
<extra>
<technique profile="PVCollada-2.0">
<!-- table tag -->
<pv:table>
<pv:type>fixed</pv:type>
</pv:table>
</technique>
</extra>
</node>
</library_nodes>
<library_visual_scenes>
<visual_scene id="VisualSceneModel" name="Visual Scene">
<!-- We instantiate the terrain -->
<node id="TerrainNode1" name="TerrainNode1" sid="TerrainNode1">
<instance_geometry url="#TerrainModel1">
<extra>
<technique profile="PVCollada-2.0">
<!-- instance_terrain tag, might not have any child tags at the start but can be useful in the future -->
<pv:instance_terrain />
</technique>
</extra>
</instance_geometry>
</node>
<!-- We instantiate a first fixed tilt table, without any transformation -->
<node id="PVnode1" name="PVnode1" sid="PVnode1">
<instance_node url="#TableModel1">
<extra>
<technique profile="PVCollada-2.0">
<!-- instance_table tag -->
<pv:instance_table>
<pv:instance_racks_array>
<pv:instance_rack_ref id="rackId1" url="#rackInstance1" />
</pv:instance_racks_array>
</pv:instance_table>
</technique>
</extra>
</instance_node>
</node>
<!-- We instantiate the first inverter -->
<node id="Inverter3DNode1" name="Inverter3DNode1" sid="Inverter3DNode1">
<translate>100 -100 0</translate>
<instance_geometry url="#Inverter3DModel1">
<extra>
<technique profile="PVCollada-2.0">
<!-- instance_inverter3d tag, references the corresponding instance_inverter of the circuit -->
<pv:instance_inverter3d instance_inverter_id="inverterInstance1" />
</technique>
</extra>
</instance_geometry>
</node>
<!-- We instantiate a second fixed tilt table (with a translation) -->
<node id="PVnode2" name="PVnode2" sid="PVnode2">
<translate>0 -800 0</translate>
<instance_node url="#TableModel1">
<extra>
<technique profile="PVCollada-2.0">
<!-- instance_table tag -->
<pv:instance_table>
<pv:instance_racks_array>
<pv:instance_rack_ref id="rackId2" url="#rackInstance1" />
</pv:instance_racks_array>
</pv:instance_table>
</technique>
</extra>
</instance_node>
</node>
<!-- We instantiate the second inverter -->
<node id="Inverter3DNode2" name="Inverter3DNode2" sid="Inverter3DNode2">
<translate>100 -900 0</translate>
<instance_geometry url="#Inverter3DModel1">
<extra>
<technique profile="PVCollada-2.0">
<!-- instance_inverter3d tag, references the corresponding instance_inverter of the circuit -->
<pv:instance_inverter3d instance_inverter_id="inverterInstance2" />
</technique>
</extra>
</instance_geometry>
</node>
<!-- We instantiate a third fixed tilt table (with another translation) -->
<node id="PVnode3" name="PVnode3" sid="PVnode3">
<translate>0 -1600 0</translate>
<instance_node url="#TableModel1">
<extra>
<technique profile="PVCollada-2.0">
<!-- instance_table tag -->
<pv:instance_table>
<pv:instance_racks_array>
<pv:instance_rack_ref id="rackId3" url="#rackInstance1" />
</pv:instance_racks_array>
</pv:instance_table>
</technique>
</extra>
</instance_node>
</node>
<!-- We instantiate the third inverter -->
<node id="Inverter3DNode3" name="Inverter3DNode3" sid="Inverter3DNode3">
<translate>100 -1700 0</translate>
<instance_geometry url="#Inverter3DModel1">
<extra>
<technique profile="PVCollada-2.0">
<!-- instance_inverter3d tag, references the corresponding instance_inverter of the circuit -->
<pv:instance_inverter3d instance_inverter_id="inverterInstance3" />
</technique>
</extra>
</instance_geometry>
</node>
<!-- We instantiate the AC combiner -->
<node id="CombinerAC3DNode" name="CombinerAC3DNode" sid="CombinerAC3DNode">
<translate>600 -900 0</translate>
<instance_geometry url="#CombinerAC3DModel">
<extra>
<technique profile="PVCollada-2.0">
<!-- instance_combiner_ac3d tag, references the corresponding instance_combiner_ac of the circuit -->
<pv:instance_combiner_ac3d instance_combiner_ac_id="combinerAcInstance" />
</technique>
</extra>
</instance_geometry>
</node>
<!-- We instantiate the transformer -->
<node id="Transformer3DNode" name="Transformer3DNode" sid="Transformer3DNode">
<translate>1800 -850 0</translate>
<instance_geometry url="#Transformer3DModel">
<extra>
<technique profile="PVCollada-2.0">
<!-- instance_transformer3d tag, references the corresponding instance_transformer of the circuit -->
<pv:instance_transformer3d instance_transformer_id="transformerInstance" />
</technique>
</extra>
</instance_geometry>
</node>
</visual_scene>
</library_visual_scenes>
<scene>
<instance_visual_scene url="#VisualSceneModel" />
</scene>
</COLLADA>