Merge pull request bSI-InfraRoom#804 from larswik/Unify-and-deprecate…

…-Reference-property

2nd Pset reconciliation

IFC4x3/Properties/a/Acknowledge_3v2mC0qS0HuO00025QrE$V/Documentation.md

@@ -1 +1 @@
-Indicates acknowledgement status where False indicates acknowlegement is required and outstanding, True indicates condition has been acknowedged, and Unknown indicates no acknowledgement is required.  Upon resetting the condition, then acknowledgement reverts to Unknown.
+Indicates acknowledgement status where False indicates acknowlegement is required and outstanding, True indicates condition has been acknowedged, and Unknown indicates no acknowledgement is required. Upon resetting the condition, then acknowledgement reverts to Unknown.

IFC4x3/Properties/a/AcousticRating_0kQnq0qT0HuO00025QrE$V/Documentation.md

@@ -1 +1,2 @@
-Acoustic rating for this object. It is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values).
+Acoustic rating for this object.
+It is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values).

IFC4x3/Properties/a/AcousticRating_13UqKWrSfDIwPMac2f7fRy/Documentation.md

@@ -1,3 +1,4 @@
-Acoustic rating for this object. It is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values).
+Acoustic rating for this object.
+It is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values).
 
 Requirement for the element filling the opening.

IFC4x3/Properties/a/AcousticRating_2LGWE0qTiHuO00025QrE$V/Documentation.md

@@ -1 +1,2 @@
-Acoustic rating for this object. It is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values).
+Acoustic rating for this object.
+It is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values).

IFC4x3/Properties/a/ActuatorStatus_31OqXYkZzE68AGS6v3SXvr/Documentation.md

@@ -1 +1 @@
-Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as "New" - element designed as new addition, "Existing" - element exists and remains, "Demolish" - element existed but is to be demolished, "Temporary" - element will exists only temporary (like a temporary support structure).
+Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as "New" - element designed as new addition, "Existing" - element exists and remains, "Demolish" - element existed but is to be demolished,  "Temporary" - element will exists only temporary (like a temporary support structure).

IFC4x3/Properties/a/AirConditioningCentral_2blg80qWmHuO00025QrE$V/Documentation.md

@@ -1,2 +1,2 @@
-Indication whether the space  requires a central air conditioning provided (TRUE) or not (FALSE).
+Indication whether the space requires a central air conditioning provided (TRUE) or not (FALSE).
 It should only be given, if the property "AirConditioning" is set to TRUE.

IFC4x3/Properties/a/AirFlowCurve_3XzvE1K1L4qhIMCR0uz5em/DocProperty.xml

@@ -0,0 +1,3 @@
+<?xml version="1.0" encoding="utf-8"?>
+<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="AirFlowCurve_3XzvE1K1L4qhIMCR0uz5em" Name="AirFlowCurve" UniqueId="e1f79381-5015-44d2-b496-31b038f45a30" PropertyType="p_referencevalue" PrimaryDataType="IfcTimeSeries" SecondaryDataType="IfcReal" />
+

IFC4x3/Properties/a/AirFlowSensible_2pbRActdTExAvYvnFsgVBp/DocProperty.xml

@@ -0,0 +1,3 @@
+<?xml version="1.0" encoding="utf-8"?>
+<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="AirFlowSensible_2pbRActdTExAvYvnFsgVBp" Name="AirFlowSensible" UniqueId="b395b2a6-de77-4eec-ae62-e713f6a9f2f3" PrimaryDataType="IfcVolumetricFlowRateMeasure" />
+

IFC4x3/Properties/a/AirFlowType_22N32mXRjDo92Q01qpFItv/DocProperty.xml

@@ -0,0 +1,5 @@
+<?xml version="1.0" encoding="utf-8"?>
+<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="AirFlowType_22N32mXRjDo92Q01qpFItv" Name="AirFlowType" UniqueId="825c30b0-85bb-4dc8-909a-001d333d2df9" PropertyType="p_enumeratedvalue" PrimaryDataType="IfcLabel">
+	<Enumeration xsi:type="DocPropertyEnumeration" xsi:nil="true" href="PEnum_AirTerminalAirFlowType" />
+</DocProperty>
+

IFC4x3/Properties/a/AirTerminalLocation_0Fi5g0qRyHuO00025QrE$V/Documentation.md

@@ -1 +1 @@
-Location (a single type of diffuser can be used for multiple locations); high means close to ceiling.
+Location  (a single type of diffuser can be used for multiple locations); high means close to ceiling.

IFC4x3/Properties/a/AirTerminalMountingType_3sz7I0qRyHuO00025QrE$V/Documentation.md

@@ -1,5 +1,4 @@
 The way the air terminal is mounted to the ceiling, wall, etc.
-
 Surface: mounted to the surface of something (e.g., wall, duct, etc.).
 Flat flush: mounted flat and flush with a surface.
 Lay-in: mounted in a lay-in type ceiling (e.g., a dropped ceiling grid).

IFC4x3/Properties/a/ArtificialLighting_2rFEk0qWeHuO00025QrE$V/Documentation.md

@@ -1 +1 @@
-Indication whether this space  requires artificial lighting (as natural lighting would be not sufficient). (TRUE) indicates yes (FALSE) otherwise.
+Indication whether this space requires artificial lighting (as natural lighting would be not sufficient). (TRUE) indicates yes (FALSE) otherwise.

IFC4x3/Properties/a/AudioVolume_1vVZE0qS8HuO00025QrE$V/Documentation.md

@@ -1 +1 @@
-Indicates discrete audio volume levels and corresponding sound power offsets, if applicable.  Missing values may be interpolated.
+Indicates discrete audio volume levels and corresponding sound power offsets, if applicable. Missing values may be interpolated.

IFC4x3/Properties/b/BackInletPatternType_3qlWI0qXSHuO00025QrE$V/Documentation.md

@@ -1,3 +1,13 @@
 Identifies the pattern of inlet connections to a gully trap.
 
 A gulley trap may have 0,1,2,3 or 4 inlet connections and the pattern of their arrangement may vary. The enumeration makes the convention that an outlet is either vertical or is placed at the bottom (south side) of the gully trap (when viewed in plan). Position 1 is to the left (west), position 2 is to the top (north), position 3 is to the right (east) and position 4 is to the bottom (south).
+
+               2
+               |
+   ----------------
+   !                       |
+1-|                       |-3
+   !                       |
+   ----------------
+               |
+              4

IFC4x3/Properties/b/BendingStrength_0mYnO4_dzB4Rfn5rgnJt$x/DocProperty.xml

@@ -1,3 +1,3 @@
 <?xml version="1.0" encoding="utf-8"?>
-<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="BendingStrength_0mYnO4_dzB4Rfn5rgnJt$x" Name="BendingStrength" UniqueId="308b1604-fa7f-4b11-ba71-175ab14f7ffb" PrimaryDataType="IfcPressureMeasure" />
+<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="BendingStrength_0mYnO4_dzB4Rfn5rgnJt$x" Name="BendingStrength" UniqueId="308b1604-fa7f-4b11-ba71-175ab14f7ffb" PropertyType="p_tablevalue" PrimaryDataType="IfcPressureMeasure" SecondaryDataType="IfcReal" />
 

IFC4x3/Properties/b/BendingStrength_0mYnO4_dzB4Rfn5rgnJt$x/Documentation.md

@@ -1,3 +1 @@
 Bending strength.
-
-Defining values: α; defined values: bending strength.

IFC4x3/Properties/b/BulbLiquidColour_1PhJQ0qUSHuO00025QrE$V/DocProperty.xml

@@ -6,6 +6,6 @@
 			<Documentation>バルブ作動スプリンクラーのバルブ液体色の設定。液体色は、スプリンクラーヘッドの作動温度に応じて変化する。また、この属性は、高速応答スプリンクラーは設定する必要はない。</Documentation>
 		</DocLocalization>
 	</Localization>
-	<Enumeration xsi:type="DocPropertyEnumeration" xsi:nil="true" href="PEnum_SprinklerBulbLiquidColor" />
+	<Enumeration xsi:type="DocPropertyEnumeration" xsi:nil="true" href="PEnum_SprinklerBulbLiquidColour" />
 </DocProperty>
 

IFC4x3/Properties/c/CapacityCurve_0Ud0g0qSaHuO00025QrE$V/Documentation.md

@@ -1,4 +1,5 @@
-Chiller cooling capacity is a function of condensing temperature and evaporating temperature, data is in table form, Capacity = f (TempCon, TempEvp), capacity = a1+b1*Tei+c1*Tei\^2+d1*Tci+e1*Tci\^2+f1*Tei*Tci. This table uses multiple input variables; to represent, both DefiningValues and DefinedValues lists are null and IfcTable is attached using IfcResourceConstraintRelationship and IfcMetric. Columns are specified in the following order:
+Chiller cooling capacity is a function of condensing temperature and evaporating temperature, data is in table form, Capacity = f (TempCon, TempEvp), capacity = a1+b1*Tei+c1*Tei\^2+d1*Tci+e1*Tci\^2+f1*Tei*Tci.
+This table uses multiple input variables; to represent, both DefiningValues and DefinedValues lists are null and IfcTable is attached using IfcResourceConstraintRelationship and IfcMetric.  Columns are specified in the following order:
 1.IfcPowerMeasure:Capacity
 2.IfcThermodynamicTemperatureMeasure:CondensingTemperature
 3.IfcThermodynamicTemperatureMeasure:EvaporatingTemperature

IFC4x3/Properties/c/CharacteristicImpedance_10mgUNnHf1VfAg7w_L3oMi/Documentation.md

@@ -1 +1,5 @@
-A quantity defined for a mode of propagation at a given frequency in a specific uniform transmission line or uniform waveguide by one of the three following relations: Z1 = S/ |I|2 Z2 = |U|2 / S Z3 = U / I where Z is the complex characteristic impedance, S the complex power and U and I are the values, usually complex, respectively of a voltage and a current conventionally defined for each type of mode by analogy with transmission line equations.
+A quantity defined for a mode of propagation at a given frequency in a specific uniform transmission line or uniform waveguide by one of the three following relations:
+Z1 = S/ |I|2
+Z2 = |U|2 / S
+Z3 = U / I
+where Z is the complex characteristic impedance, S the complex power and U and I are the values, usually complex, respectively of a voltage and a current conventionally defined for each type of mode by analogy with transmission line equations

IFC4x3/Properties/c/CoefficientOfPerformanceCurve_0dZDm0qSaHuO00025QrE$V/Documentation.md

@@ -1,3 +1,5 @@
-Chiller coefficient of performance (COP) is function of condensing temperature and evaporating temperature, data is in table form, COP= f (TempCon, TempEvp), COP = a2+b2*Tei+c2*Tei\^2+d2*Tci+e2*Tci\^2+f2*Tei*Tci. This table uses multiple input variables; to represent, both DefiningValues and DefinedValues lists are null and IfcTable is attached using IfcResourceConstraintRelationship and IfcMetric. Columns are specified in the following order: 1.IfcPositiveRatioMeasure:CoefficientOfPerformance
+Chiller coefficient of performance (COP) is function of condensing temperature and evaporating temperature, data is in table form, COP= f (TempCon, TempEvp), COP = a2+b2*Tei+c2*Tei\^2+d2*Tci+e2*Tci\^2+f2*Tei*Tci.
+This table uses multiple input variables; to represent, both DefiningValues and DefinedValues lists are null and IfcTable is attached using IfcResourceConstraintRelationship and IfcMetric.  Columns are specified in the following order:
+1.IfcPositiveRatioMeasure:CoefficientOfPerformance
 2.IfcThermodynamicTemperatureMeasure:CondensingTemperature
 3.IfcThermodynamicTemperatureMeasure:EvaporatingTemperature

IFC4x3/Properties/c/CoefficientOfPerformance_3W1b00qSWHuO00025QrE$V/Documentation.md

@@ -1 +1,4 @@
-The Coefficient of performance (COP) is the ratio of heat removed to energy input. The energy input may be obtained by multiplying Pset_DistributionPortPHistoryGas.FlowRate on the 'Fuel' port of the IfcChiller by Pset_MaterialFuel.LowerHeatingValue. The IfcDistributionPort for fuel has an associated IfcMaterial with fuel properties and is assigned to an IfcPerformanceHistory object nested within this IfcPerformanceHistory object.
+The Coefficient of performance (COP) is the ratio of heat removed to energy input.
+The energy input may be obtained by multiplying
+Pset_DistributionPortPHistoryGas.FlowRate on the 'Fuel' port of the IfcChiller by Pset_MaterialFuel.LowerHeatingValue.
+The IfcDistributionPort for fuel has an associated IfcMaterial with fuel properties and is assigned to an IfcPerformanceHistory object nested within this IfcPerformanceHistory object.

IFC4x3/Properties/c/CoilFluidArrangement_3zX_c0qSaHuO00025QrE$V/Documentation.md

@@ -1,5 +1,3 @@
-Fluid flow arrangement of the coil.
-
-CrossCounterFlow: Air and water flow enter in different directions.
+Fluid flow arrangement of the coil.CrossCounterFlow: Air and water flow enter in different directions.
 CrossFlow: Air and water flow are perpendicular.
 CrossParallelFlow: Air and water flow enter in same directions.

IFC4x3/Properties/c/CoilPlacement_39hCG0qSaHuO00025QrE$V/Documentation.md

@@ -1 +1,4 @@
-Indicates the placement of the coil. FLOOR indicates an under floor heater (if coil type is WATERHEATINGCOIL or ELECTRICHEATINGCOIL); CEILING indicates a cooling ceiling (if coil type is WATERCOOLINGCOIL); UNIT indicates that the coil is part of a cooling or heating unit, like cooled beam, etc.
+Indicates the placement of the coil.
+FLOOR indicates an under floor heater (if coil type is WATERHEATINGCOIL or ELECTRICHEATINGCOIL);
+CEILING indicates a cooling ceiling (if coil type is WATERCOOLINGCOIL);
+UNIT indicates that the coil is part of a cooling or heating unit, like cooled beam, etc.

IFC4x3/Properties/c/ColourCode_37d3A0qTGHuO00025QrE$V/Documentation.md

@@ -1 +1 @@
-Name of a color for identifying the connector, if applicable.
+Name of a colour for identifying the connector, if applicable.

IFC4x3/Properties/c/CompressorCapacity_3Q4Mw0qSeHuO00025QrE$V/Documentation.md

@@ -1 +1 @@
-The product of the  ideal capacity and the overall volumetric efficiency of the compressor.
+The product of the ideal capacity and the overall volumetric efficiency of the compressor.

IFC4x3/Properties/c/ConditionHistory_3lWPi0qS0HuO00025QrE$V/Documentation.md

@@ -1 +1 @@
-Indicates alarm condition over time. The range of possible values and their meanings is defined by Pset_AlarmTypeCommon.Condition. An empty value indicates no present alarm condition.
+Indicates alarm condition over time.  The range of possible values and their meanings is defined by Pset_AlarmTypeCommon.Condition.  An empty value indicates no present alarm condition.

IFC4x3/Properties/c/ConnectionSubType_0LsHRT7ND0l8585NRu7Ie8/DocProperty.xml → IFC4x3/Properties/c/ConnectionSubtype_0LsHRT7ND0l8585NRu7Ie8/DocProperty.xml

@@ -1,5 +1,5 @@
 <?xml version="1.0" encoding="utf-8"?>
-<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="ConnectionSubType_0LsHRT7ND0l8585NRu7Ie8" Name="ConnectionSubType" UniqueId="15d916dd-1d73-40bc-8148-1576f81d2a08" PrimaryDataType="IfcLabel">
+<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="ConnectionSubtype_0LsHRT7ND0l8585NRu7Ie8" Name="ConnectionSubtype" UniqueId="15d916dd-1d73-40bc-8148-1576f81d2a08" PrimaryDataType="IfcLabel">
 	<Localization>
 		<DocLocalization Locale="en" Name="Connection Sub Type" />
 	</Localization>

IFC4x3/Properties/c/ConnectionSubtype_0LsHRT7ND0l8585NRu7Ie8/Documentation.md

@@ -0,0 +1,11 @@
+The physical port connection subtype that further qualifies the ConnectionType. The following values are recommended:
+
+ACPLUG: A, B, C, D, E, F, EF, G, H, I, J, K, L, M
+DIN: Mini3P, Mini4P, Mini5P, Mini6P, Mini7P, Mini8P, Mini9P
+DSub: DA15, DB25, DC37, DD50, DE9, DE15
+EIAJ: RC5720
+HDMI: A, B, C
+RADIO: IEEE802.11g, IEEE802.11n
+RJ: 4P4C, 6P2C, 8P8C
+SOCKET: E-11, E-12, E-14, E-17, E-26, E-27, E-39, E-40
+TRS: TS_Mini, TS_SubMini, TRS_Mini, TRS_SubMini

IFC4x3/Properties/c/ConnectionSubtype_1A5cORvpX3_vdhIOgP0LY0/Documentation.md

@@ -1,11 +1,11 @@
 The physical port connection subtype that further qualifies the ConnectionType. The following values are recommended:
 
-* ACPLUG: A, B, C, D, E, F, EF, G, H, I, J, K, L, M
-* DIN: Mini3P, Mini4P, Mini5P, Mini6P, Mini7P, Mini8P, Mini9P
-* DSub: DA15, DB25, DC37, DD50, DE9, DE15
-* EIAJ: RC5720
-* HDMI: A, B, C
-* RADIO: IEEE802.11g, IEEE802.11n 
-* RJ: 4P4C, 6P2C, 8P8C
-* SOCKET: E-11, E-12, E-14, E-17, E-26, E-27, E-39, E-40
-* TRS: TS_Mini, TS_SubMini, TRS_Mini, TRS_SubMini
+ACPLUG: A, B, C, D, E, F, EF, G, H, I, J, K, L, M
+DIN: Mini3P, Mini4P, Mini5P, Mini6P, Mini7P, Mini8P, Mini9P
+DSub: DA15, DB25, DC37, DD50, DE9, DE15
+EIAJ: RC5720
+HDMI: A, B, C
+RADIO: IEEE802.11g, IEEE802.11n
+RJ: 4P4C, 6P2C, 8P8C
+SOCKET: E-11, E-12, E-14, E-17, E-26, E-27, E-39, E-40
+TRS: TS_Mini, TS_SubMini, TRS_Mini, TRS_SubMini

IFC4x3/Properties/c/ConnectionSubType_3V7JbtIxHAZPR8CmMAy3dW/DocProperty.xml → IFC4x3/Properties/c/ConnectionSubtype_3V7JbtIxHAZPR8CmMAy3dW/DocProperty.xml

@@ -1,5 +1,5 @@
 <?xml version="1.0" encoding="utf-8"?>
-<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="ConnectionSubType_3V7JbtIxHAZPR8CmMAy3dW" Name="ConnectionSubType" UniqueId="df1d3977-4bb4-4a8d-96c8-33058af039e0" PrimaryDataType="IfcLabel">
+<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="ConnectionSubtype_3V7JbtIxHAZPR8CmMAy3dW" Name="ConnectionSubtype" UniqueId="df1d3977-4bb4-4a8d-96c8-33058af039e0" PrimaryDataType="IfcLabel">
 	<Localization>
 		<DocLocalization Locale="en" Name="Connection Sub Type" />
 		<DocLocalization Locale="ja-JP" Name="接続サブタイプ">

IFC4x3/Properties/c/ConnectionSubtype_3V7JbtIxHAZPR8CmMAy3dW/Documentation.md

@@ -0,0 +1,11 @@
+The physical port connection subtype that further qualifies the ConnectionType. The following values are recommended:
+
+ACPLUG: A, B, C, D, E, F, EF, G, H, I, J, K, L, M
+DIN: Mini3P, Mini4P, Mini5P, Mini6P, Mini7P, Mini8P, Mini9P
+DSub: DA15, DB25, DC37, DD50, DE9, DE15
+EIAJ: RC5720
+HDMI: A, B, C
+RADIO: IEEE802.11g, IEEE802.11n
+RJ: 4P4C, 6P2C, 8P8C
+SOCKET: E-11, E-12, E-14, E-17, E-26, E-27, E-39, E-40
+TRS: TS_Mini, TS_SubMini, TRS_Mini, TRS_SubMini

IFC4x3/Properties/c/ConnectionType_3IiZcc7R5CAhGZuzSrfjuV/Documentation.md

@@ -1,17 +1,3 @@
 The end-style treatment of the duct port:
 
-BEADEDSLEEVE: Beaded Sleeve. 
-COMPRESSION: Compression. 
-CRIMP: Crimp. 
-DRAWBAND: Drawband. 
-DRIVESLIP: Drive slip. 
-FLANGED: Flanged. 
-OUTSIDESLEEVE: Outside Sleeve. 
-SLIPON: Slipon. 
-SOLDERED: Soldered. 
-SSLIP: S-Slip. 
-STANDINGSEAM: Standing seam. 
-SWEDGE: Swedge. 
-WELDED: Welded. 
-OTHER: Another type of end-style has been applied.
-NONE: No end-style has been applied.
+BEADEDSLEEVE: Beaded Sleeve. COMPRESSION: Compression. CRIMP: Crimp. DRAWBAND: Drawband. DRIVESLIP: Drive slip. FLANGED: Flanged. OUTSIDESLEEVE: Outside Sleeve. SLIPON: Slipon. SOLDERED: Soldered. SSLIP: S-Slip. STANDINGSEAM: Standing seam. SWEDGE: Swedge. WELDED: Welded. OTHER: Another type of end-style has been applied. NONE: No end-style has been applied.

IFC4x3/Properties/c/ControlStrategy_35WwK0qSyHuO00025QrE$V/Documentation.md

@@ -1,2 +1,2 @@
-FixedExitingWaterTemp: The capacity is controlled to maintain a fixed exiting water temperature. 
+FixedExitingWaterTemp: The capacity is controlled to maintain a fixed exiting water temperature.
 WetBulbTempReset: The set-point is reset based on the wet-bulb temperature.

IFC4x3/Properties/c/ControlType_1_bB00qSqHuO00025QrE$V/Documentation.md

@@ -1,4 +1,4 @@
-The type of signal modification effected and applicable ports:
+The type controller, signal modification effected and applicable ports
 
 INPUT: Controller element is a dedicated input.
 OUTPUT: Controller element is a dedicated output.

IFC4x3/Properties/c/ControlType_2X9ia0qSqHuO00025QrE$V/Documentation.md

@@ -1,4 +1,4 @@
-The type of discrete digital controller: 
+The type controller, signal modification effected and applicable ports
 
 PRIMARY: Controller has built-in communication interface for PC connection, may manage secondary controllers.
 SECONDARY: Controller communicates with primary controller and its own managed devices.

IFC4x3/Properties/c/ControlType_2zAcg0qSqHuO00025QrE$V/Documentation.md

@@ -1,5 +1,5 @@
 The type controller, signal modification effected and applicable ports
 
-PROPORTIONAL: Output is proportional to the control error. The gain of a proportional control (Kp) will have the effect of reducing the rise time and reducing , but never eliminating, the steady-state error of the variable controlled. 
-PROPORTIONALINTEGRAL: Part of the output is proportional to the control error and part is proportional to the time integral of the control error. Adding the gain of an integral control (Ki) will have the effect of eliminating the steady-state error of the variable controlled, but it may make the transient response worse. 
+PROPORTIONAL: Output is proportional to the control error. The gain of a proportional control (Kp) will have the effect of reducing the rise time and reducing , but never eliminating, the steady-state error of the variable controlled.
+PROPORTIONALINTEGRAL: Part of the output is proportional to the control error and part is proportional to the time integral of the control error. Adding the gain of an integral control (Ki) will have the effect of eliminating the steady-state error of the variable controlled, but it may make the transient response worse.
 PROPORTIONALINTEGRALDERIVATIVE: Part of the output is proportional to the control error, part is proportional to the time integral of the control error and part is proportional to the time derivative of the control error. Adding the gain of a derivative control (Kd) will have the effect of increasing the stability of the system, reducing the overshoot, and improving the transient response of the variable controlled.

IFC4x3/Properties/c/CoolingDesignAirflow_0P_4O0qWiHuO00025QrE$V/DocProperty.xml → IFC4x3/Properties/c/CoolingDesignAirFlow_0P_4O0qWiHuO00025QrE$V/DocProperty.xml

@@ -1,5 +1,5 @@
 <?xml version="1.0" encoding="utf-8"?>
-<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="CoolingDesignAirflow_0P_4O0qWiHuO00025QrE$V" Name="CoolingDesignAirflow" UniqueId="0P_4O0qWiHuO00025QrE$V" PrimaryDataType="IfcVolumetricFlowRateMeasure">
+<DocProperty xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" id="CoolingDesignAirFlow_0P_4O0qWiHuO00025QrE$V" Name="CoolingDesignAirFlow" UniqueId="0P_4O0qWiHuO00025QrE$V" PrimaryDataType="IfcVolumetricFlowRateMeasure">
 	<Localization>
 		<DocLocalization Locale="en" Name="Cooling Design Airflow" />
 		<DocLocalization Locale="ja-JP" Name="冷房設計吸気量">

IFC4x3/Properties/c/CoolingDesignDay_0EJ5M0qV8HuO00025QrE$V/Documentation.md

@@ -1 +1 @@
-The month, day  and time that has been selected for the cooling design calculations.
+The month, day and time that has been selected for the cooling design calculations.

IFC4x3/Properties/c/CoreIdentifier_2Cb080qSWHuO00025QrE$V/Documentation.md

@@ -1 +1 @@
-The core identification used  Identifiers may be used such as by color (Black, Brown, Grey) or by number (1, 2, 3) or by IEC phase reference (L1, L2, L3) etc.
+The core identification used Identifiers may be used such as by color (Black, Brown, Grey) or by number (1, 2, 3) or by IEC phase reference (L1, L2, L3) etc.