The XLinearity element is the linearity of the machine X axis. Each value in the range represents a displacement along the X axis of a point on the X axis. The value is the value measured by high-accuracy methods minus the value reported by the CMM.
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="XLinearity" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The XLinearity element is the linearity of the machine X axis. Each value in the range represents a displacement along the X axis of a point on the X axis. The value is the value measured by high-accuracy methods minus the value reported by the CMM.</xs:documentation></xs:annotation></xs:element>
The YLinearity element is the linearity of the machine Y axis. Each value in the range represents a displacement along the Y axis of a point on the Y axis. The value is the value measured by high-accuracy methods minus the value reported by the CMM.
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="YLinearity" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The YLinearity element is the linearity of the machine Y axis. Each value in the range represents a displacement along the Y axis of a point on the Y axis. The value is the value measured by high-accuracy methods minus the value reported by the CMM.</xs:documentation></xs:annotation></xs:element>
The ZLinearity element is the linearity of the machine Z axis. Each value in the range represents a displacement along the Z axis of a point on the Z axis. The value is the value measured by high-accuracy methods minus the value reported by the CMM.
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="ZLinearity" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The ZLinearity element is the linearity of the machine Z axis. Each value in the range represents a displacement along the Z axis of a point on the Z axis. The value is the value measured by high-accuracy methods minus the value reported by the CMM.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="XAxisRoll" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The XAxisRoll element gives the local roll of the machine X axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="XAxisPitch" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The XAxisPitch element gives the local pitch of the machine X axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="XAxisYaw" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The XAxisYaw element gives the local yaw of the machine X axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="YAxisRoll" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The YAxisRoll element gives the local roll of the machine Y axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="YAxisPitch" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The YAxisPitch element gives the local pitch of the machine Y axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="YAxisYaw" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The YYaw element gives the local yaw of the machine Y axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="ZAxisRoll" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The ZAxisRoll element gives the local roll of the machine Z axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="ZAxisPitch" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The ZAxisPitch element gives the local pitch of the machine Z axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="ZAxisYaw" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The ZAxisYaw element gives the local yaw of the machine Z axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="XAxisStraightnessY" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The XAxisStraightnessY element gives the deviation from the nominal X axis in the Y direction of measured points on the machine X axis.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="XAxisStraightnessZ" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The XAxisStraightnessZ element gives the deviation from the nominal X axis in the Z direction of measured points on the machine X axis.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="YAxisStraightnessX" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The YAxisStraightnessX element gives the deviation from the nominal Y axis in the X direction of measured points on the machine Y axis.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="YAxisStraightnessZ" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The YAxisStraightnessZ element gives the deviation from the nominal Y axis in the Z direction of measured points on the machine Y axis.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="ZAxisStraightnessX" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The ZAxisStraightnessX element gives the deviation from the nominal Z axis in the X direction of measured points on the machine Z axis.</xs:documentation></xs:annotation></xs:element>
The required n attribute gives the number of values in the domain and range.
Source
<xs:element name="ZAxisStraightnessY" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The ZAxisStraightnessY element gives the deviation from the nominal Z axis in the Y direction of measured points on the machine Z axis.</xs:documentation></xs:annotation></xs:element>
The XYSquareness element is the rate of offset in the XY plane of a point on the best fit Y axis from the nominal Y axis. The amount of deviation of any point on the Y axis is the XYSquareness times the Y value of the point. A positive value means the angle is greater than a right angle. A negative value means the angle is less than a right angle.
Diagram
Type
xs:double
Properties
content
simple
Source
<xs:element name="XYSquareness" type="xs:double"><xs:annotation><xs:documentation>The XYSquareness element is the rate of offset in the XY plane of a point on the best fit Y axis from the nominal Y axis. The amount of deviation of any point on the Y axis is the XYSquareness times the Y value of the point. A positive value means the angle is greater than a right angle. A negative value means the angle is less than a right angle.</xs:documentation></xs:annotation></xs:element>
The XZSquareness element is the rate of offset in the XZ plane of a point on the best fit Z axis from the nominal Z axis. The amount of deviation of any point on the Z axis is the XZSquareness times the Z value of the point. A positive value means the angle is greater than a right angle. A negative value means the angle is less than a right angle.
Diagram
Type
xs:double
Properties
content
simple
Source
<xs:element name="XZSquareness" type="xs:double"><xs:annotation><xs:documentation>The XZSquareness element is the rate of offset in the XZ plane of a point on the best fit Z axis from the nominal Z axis. The amount of deviation of any point on the Z axis is the XZSquareness times the Z value of the point. A positive value means the angle is greater than a right angle. A negative value means the angle is less than a right angle.</xs:documentation></xs:annotation></xs:element>
The YZSquareness element is the rate of offset in the YZ plane of a point on the best fit Z axis from the nominal Z axis. The amount of deviation of any point on the Z axis is the YZSquareness times the Z value of the point. A positive value means the angle is greater than a right angle. A negative value means the angle is less than a right angle.
Diagram
Type
xs:double
Properties
content
simple
Source
<xs:element name="YZSquareness" type="xs:double"><xs:annotation><xs:documentation>The YZSquareness element is the rate of offset in the YZ plane of a point on the best fit Z axis from the nominal Z axis. The amount of deviation of any point on the Z axis is the YZSquareness times the Z value of the point. A positive value means the angle is greater than a right angle. A negative value means the angle is less than a right angle.</xs:documentation></xs:annotation></xs:element>
The FPSTestType defines a full parametric specification (FPS) of the accuracy of a CMM. The value of each element other than the squareness elements is a function of the reported value of one of the three axes. The value of the function is the error at that point on the axis.
<xs:complexType name="FPSTestType"><xs:annotation><xs:documentation>The FPSTestType defines a full parametric specification (FPS) of the accuracy of a CMM. The value of each element other than the squareness elements is a function of the reported value of one of the three axes. The value of the function is the error at that point on the axis.</xs:documentation></xs:annotation><xs:complexContent><xs:extension base="CMMAccuracyTestBaseType"><xs:sequence><xs:element name="XLinearity" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The XLinearity element is the linearity of the machine X axis. Each value in the range represents a displacement along the X axis of a point on the X axis. The value is the value measured by high-accuracy methods minus the value reported by the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="YLinearity" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The YLinearity element is the linearity of the machine Y axis. Each value in the range represents a displacement along the Y axis of a point on the Y axis. The value is the value measured by high-accuracy methods minus the value reported by the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="ZLinearity" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The ZLinearity element is the linearity of the machine Z axis. Each value in the range represents a displacement along the Z axis of a point on the Z axis. The value is the value measured by high-accuracy methods minus the value reported by the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="XAxisRoll" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The XAxisRoll element gives the local roll of the machine X axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="XAxisPitch" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The XAxisPitch element gives the local pitch of the machine X axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="XAxisYaw" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The XAxisYaw element gives the local yaw of the machine X axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="YAxisRoll" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The YAxisRoll element gives the local roll of the machine Y axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="YAxisPitch" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The YAxisPitch element gives the local pitch of the machine Y axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="YAxisYaw" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The YYaw element gives the local yaw of the machine Y axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="ZAxisRoll" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The ZAxisRoll element gives the local roll of the machine Z axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="ZAxisPitch" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The ZAxisPitch element gives the local pitch of the machine Z axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="ZAxisYaw" type="AngleFunctionDiscreteType"><xs:annotation><xs:documentation>The ZAxisYaw element gives the local yaw of the machine Z axis with respect to the nominal coordinate system of the CMM.</xs:documentation></xs:annotation></xs:element><xs:element name="XAxisStraightnessY" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The XAxisStraightnessY element gives the deviation from the nominal X axis in the Y direction of measured points on the machine X axis.</xs:documentation></xs:annotation></xs:element><xs:element name="XAxisStraightnessZ" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The XAxisStraightnessZ element gives the deviation from the nominal X axis in the Z direction of measured points on the machine X axis.</xs:documentation></xs:annotation></xs:element><xs:element name="YAxisStraightnessX" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The YAxisStraightnessX element gives the deviation from the nominal Y axis in the X direction of measured points on the machine Y axis.</xs:documentation></xs:annotation></xs:element><xs:element name="YAxisStraightnessZ" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The YAxisStraightnessZ element gives the deviation from the nominal Y axis in the Z direction of measured points on the machine Y axis.</xs:documentation></xs:annotation></xs:element><xs:element name="ZAxisStraightnessX" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The ZAxisStraightnessX element gives the deviation from the nominal Z axis in the X direction of measured points on the machine Z axis.</xs:documentation></xs:annotation></xs:element><xs:element name="ZAxisStraightnessY" type="LengthFunctionDiscreteType"><xs:annotation><xs:documentation>The ZAxisStraightnessY element gives the deviation from the nominal Z axis in the Y direction of measured points on the machine Z axis.</xs:documentation></xs:annotation></xs:element><xs:element name="XYSquareness" type="xs:double"><xs:annotation><xs:documentation>The XYSquareness element is the rate of offset in the XY plane of a point on the best fit Y axis from the nominal Y axis. The amount of deviation of any point on the Y axis is the XYSquareness times the Y value of the point. A positive value means the angle is greater than a right angle. A negative value means the angle is less than a right angle.</xs:documentation></xs:annotation></xs:element><xs:element name="XZSquareness" type="xs:double"><xs:annotation><xs:documentation>The XZSquareness element is the rate of offset in the XZ plane of a point on the best fit Z axis from the nominal Z axis. The amount of deviation of any point on the Z axis is the XZSquareness times the Z value of the point. A positive value means the angle is greater than a right angle. A negative value means the angle is less than a right angle.</xs:documentation></xs:annotation></xs:element><xs:element name="YZSquareness" type="xs:double"><xs:annotation><xs:documentation>The YZSquareness element is the rate of offset in the YZ plane of a point on the best fit Z axis from the nominal Z axis. The amount of deviation of any point on the Z axis is the YZSquareness times the Z value of the point. A positive value means the angle is greater than a right angle. A negative value means the angle is less than a right angle.</xs:documentation></xs:annotation></xs:element></xs:sequence></xs:extension></xs:complexContent></xs:complexType>
