NX 1872 Series Monthly Update · SHIP_DESIGN DRAFTING SHIP_SECTN_DRWG 1892.2920 9626003 Profiles Sketches with same position numbers on same sheet SHIP_DESIGN DRAWING_AUTO INVRS_BEND_LINE

Unrestricted

Si

Welcome to NX

Welcome to NX February 2020 Dear Siemens Customer: We are proud to introduce the latest release of our product development solution. With this release, we continue to provide innovative ways to deliver solutions that meet the next generation of your product design, development, and manufacturing challenges. The new version of NX is robust and powerful, and it delivers advanced technologies for product design, development, and manufacturing in a single, multidisciplinary platform. It preserves best-in-class customer deployment readiness and builds on the productivity and stability achievements of the previous release. Sincerely, Siemens Digital Industries Software

NX 1872 Series – Monthly Update

CONTENTS Notices .......................................................................................................................................................... 4

NX Automatic Update ........................................................................................................................... 4

Caveat - Siemens Cloud Connector Service Form ................................................................................. 4

NX Release Summaries ......................................................................................................................... 4

NX 1892.3201 ................................................................................................................................................ 5

1892.3201 FIXED PROBLEM REPORTS ...................................................................................................... 5

1892.3201 ENHANCEMENTS ..................................................................................................................... 5

NX 1892.2940 ................................................................................................................................................ 6


1892.2940 ENHANCEMENTS ..................................................................................................................... 6

NX 1892.2920 ................................................................................................................................................ 7


1892.2920 ENHANCEMENTS ..................................................................................................................... 7

NX 1892 ......................................................................................................................................................... 8

1892 FIXED PROBLEM REPORTS ................................................................................................................ 8

1892 ENHANCEMENTS .............................................................................................................................. 8

Line Designer: Fixer Planner ................................................................................................................. 9

NX 1888 ....................................................................................................................................................... 29

1888 FIXED PROBLEM REPORTS .............................................................................................................. 29

1888 ENHANCEMENTS ............................................................................................................................ 29

NX 1884 ....................................................................................................................................................... 30


1884 ENHANCEMENTS ............................................................................................................................ 30

Computer Aided Manufacturing: Multiselect for Facet Bodies .......................................................... 31

Computer Aided Manufacturing: Hole Milling and Thread Milling Cycles ......................................... 34

NX 1880 ....................................................................................................................................................... 38


1880 ENHANCEMENTS ............................................................................................................................ 38

Automation Designer: Electrical BOM ................................................................................................ 39

Coordinate Measuring Machine: Inspection Supplement .................................................................. 42

NX 1876 ....................................................................................................................................................... 45


1876 ENHANCEMENTS ............................................................................................................................ 45

Line Designer: Plant Navigator ............................................................................................................ 46

Discrete Drivetrain: Additional Motion Bodies ................................................................................... 48

Sheet Metal: Component Placement Enhancement .......................................................................... 50

NX Release Summaries ............................................................................................................................... 51

NX 1872 Series Summary ........................................................................................................................ 51

Main Release Summaries ........................................................................................................................ 51

1892 .................................................................................................................................................... 51

1888 .................................................................................................................................................... 54

1884 .................................................................................................................................................... 56

1880 .................................................................................................................................................... 58

1876 .................................................................................................................................................... 59

Maintenance Release Summaries ........................................................................................................... 60

1892.3201 ........................................................................................................................................... 60

1892.2940 ........................................................................................................................................... 61

1892.2920 ........................................................................................................................................... 61

Global Technical Access Center .................................................................................................................. 62

Installation Assistance............................................................................................................................. 62

NOTICES

NX Automatic Update Automatic updates will not be available for releases on NX 1872 Series after NX 1892, including NX 1892.3201. Users who are on 1892 with automatic update option turned on will be notified to download and install the 1899 release. If any release on the NX 1872 Series is preferred, users must download the release from the GTAC Download Server.

Caveat - Siemens Cloud Connector Service Form Users will see below issues while trying to login using Siemens Cloud Connector Service form:

1. The Siemens Cloud Connector Service login form embedded in NX does not have scroll bar. Users will have to re-size the window to see the “Sign In” button. This issue will be addressed in 1926.

2. Siemens Cloud Connector Service will remember the webkey login credentials entered by user even if user reboots his machine. To work around this, users will need to clear the cache on the web browser.

NX Release Summaries Main and maintenance release summaries are collected in the final section of this document.

NX 1892.3201

1892.3201 FIXED PROBLEM REPORTS For a cumulative list of PR fixes, see Fixed_Problem_Reports.csv included with the release documents. Please see the table below for a summary of the PR updates included in this release.

Application Count of PR Number

SYSENG 22

CAM 16

DRAFTING 10

KDA 8

NXMANAGER 7

ASSEMBLIES 5

TRANSLATOR 4

SHIP_DESIGN 4

DESIGN 4

TC_FEATURES 3

CAE 3

CORRUPTED_PARTS 2

ROUTING_GENERAL 2

SYSTEM 1

MECHATRONICS 1

Total 92

1892.3201 ENHANCEMENTS Please see below for a list of enhancements included in this release. ERs:

• ER9548477 - Error while opening Released replica UG Assembly

NX 1892.2940

1892.2940 FIXED PROBLEM REPORTS For a cumulative list of PR fixes, see Fixed_Problem_Reports.csv included with the release documents. Please see the table below for the PR updates included in this release.

Release PR Number Description Application Function Sub_Function

1892.2940 9413878 Synchronize Assembly Arrangement flag: change FindNo in SM gives wrong position

NXMANAGER ASSEMBLY UPDATE_STRUCT

1892.2940 ENHANCEMENTS No ERs were included in this update.

NX 1892.2920

1892.2920 FIXED PROBLEM REPORTS For a cumulative list of PR fixes, see Fixed_Problem_Reports.csv included with the release documents. Please see the table below for the PR updates included in this release.

Release PR Number Description Application Function Sub_Function

1892.2920 9618423 Performance of Profile Sketches

SHIP_DESIGN DRAWING_AUTO INVRS_BEND_LINE

1892.2920 9622649 Section drawing to support sloped plates

SHIP_DESIGN DRAFTING SHIP_SECTN_DRWG

1892.2920 9626003 Profiles Sketches with same position numbers on same sheet

SHIP_DESIGN DRAWING_AUTO INVRS_BEND_LINE

1892.2920 ENHANCEMENTS No ERs were included in this update.

NX 1892

1892 FIXED PROBLEM REPORTS For a cumulative list of PR fixes, see Fixed_Problem_Reports.csv included with the release documents. Please see the table below for a summary of the PR updates included in this release.


CAM 19

CAE 16

NXMANAGER 11

DRAFTING 9

TRANSLATOR 6

KDA 6

SYSENG 5

PMI 4

TC_FEATURES 3

CMM_INSPECTION 3

SHIP_DESIGN 2

NX_SHEET_METAL 2

PCB_EXCHANGE 1

MECHATRONICS 1

TECH_DATA_PKG 1

ASSEMBLIES 1

ROUTING_GENERAL 1

GATEWAY 1

Total 92

1892 ENHANCEMENTS Please see below for a list of enhancements included in this release.

Line Designer: Fixer Planner

Introduction

Using dynamic in-process assembly objects in a study In the Fixture Planner application, you can now:

• Load the study containing the dynamic in-process assemblies (DIPA) in the Planning Navigator in NX.

• View the notification about DIPA objects in NX, informing you when other users dynamically make changes to the design of a DIPA assembly.

• Accept the changes suggested by the other users in the DIPA in notifications, and update the DIPA.

• Ignore the DIPA updates, if a design review or a project review is pending.

Dynamic in-process assembly

Components of the DIPA

Why should I use it? You can now differentiate between the in-process assembly and the dynamic in-process assembly, and can now use DIPA objects effectively in the study. Note: In NX managed mode, collaborative tools such as Process Simulate and Manufacturing Process Planner use DIPA, and now Fixture Planner also supports DIPA.

Where do I find it?

Application Fixture Planner

Technical Documentation

Using dynamic in-process assembly objects in a study In the Fixture Planner application, you need to collaborate with process planning to check the product build-up sequence at the stations. This sequence decides how many and what assemblies are planned for a particular station. You also need to manage the in-process assemblies (IPA) and the dynamic inprocess assemblies (DIPA) that are consumed in a particular station in a study. DIPA objects are the components of the dynamic assembly that you can define and create in Teamcenter, and that you can use in Fixture Planner in NX.

Dynamic in-process assembly

Components of the DIPA

Once you have DIPA objects in your study, you can:

• Load the study containing the DIPA objects in the Planning Navigator, in a Fixture Planner

session in NX.

• View the notification about DIPA objects in NX, informing you when other users dynamically

make changes to the design of a DIPA assembly.

• Accept the changes suggested by the other users in the DIPA in notifications, and update the

DIPA.

• Ignore the DIPA updates, if a design review or a project review is pending

Where do I find it?


What’s New

Creating Driving Joints in a Kinematic Assembly In the Fixture Planner application, you can now:

● Create a new Driving joint, which controls the movement of the kinematic assembly as a whole.

● Set an existing joint as a Driving joint in the Fixture Planner session in NX.

● Govern the movements of the kinematic assembly using Driving joints. All other joints response

is based on the driving joint.

Revolute joint as driving joint

Why should I use it? Now you can create active and non-active joints and focus on a particular active joint to create the poses so the non-active joints appear hidden. You can see that a driving joint acts like a motor that controls the movement of the other joints in a kinematic assembly. This helps you to focus on the driving joints without any exposure to all other joints in the Joint Jog dialog box.

Where do I find it?


Kinematics Navigator

Create a Slider joint or a Revolute joint→ Set as Driving Joint

Or

Set as Driving Joint

Technical Documentation

Working with rigid groups and joints in a kinematic assembly In a fixture, when you work with the kinematic assemblies, you must specify the rigid groups and the joints. This helps you to position the components relative to each other, and to effectively study the motion analysis of a kinematic assembly.

Rigid group

A rigid group is the set of components that you define to group together and to treat as one rigid body. The rigid groups represent the kinematics definition of the components. In a rigid group, you can conveniently fix the components in place relative to one another. When you create the rigid groups, you add the individual rigid joints between the groups of the components. In a rigid group, the group components can remain fix in a place relative to one another. This makes an easy and quick way to keep the components positioned properly in a kinematic assembly.

First component of a rigid group

Second component of a rigid group

Joint

A joint is the connection between one or more rigid groups. You can apply joints to control the movement of the components in the assembly, so you can position them correctly and have the desired mechanical motion.

Several joints making the motion in a kinematic assembly

Once you create the rigid groups, you can specify the joints to connect the rigid groups to each other. You can create fixed, slider, and revolute joints for the given components in a kinematic assembly.

Fixed joint

A fixed joint joins one or more rigid groups to keep them in a fixed position relative to one another. A fixed joint allows zero degrees of freedom. Using a fixed joint, you can connect a rigid body to a fixed position such as the ground.

Fixed joint

Slider joint

A slider joint joins two or more rigid groups, and allows the components to translate along a single axis. A slider joint does not allow the components to rotate with respect to each other.

Revolute joint

A revolute joint joins two rigid groups, and allows the component to rotate around the joint origin. A revolute joint allows one rotational degree of freedom along an axis. It does not allow translational movement in any direction between the two components.

Driving joint

A driving joint drives the kinematic assembly as a whole. This is a joint between two rigid groups. When you set any joint as a driving joint, NX shows only this joint as active and editable in a kinematic assembly. NX hides all other joints and they are non-editable. When you jog the driving joint, the other joints reacts based on the driving joint, and the whole kinematic assembly moves.

Note: A driving joint acts like a motor that controls the movement of the other joints in a kinematic assembly.

Revolute joint as Driving joint

Where do I find it?


Command Finder

Rigid Group

Fixed Joint

Slider Joint

Revolute Joint

Kinematics Navigator

Create a Slider joint or a Revolute joint→ Set as Driving Joint

Or

Set as Driving Joint

What’s New

Create joints and rigid groups in Kinematics Navigator This set of procedures shows how to create rigid groups and add slider, fixed, revolute, and driving joints to connect the rigid groups.

At the beginning of each procedure, click Kinematics Navigator in the Resource bar. In the Planning Navigator, select a fixture node from the kinematic assembly, right-click and select Make Work

Part . Perform the tasks in the procedure to:

● Create a rigid group in a kinematic assembly

● Create a fixed joint

● Create a revolute joint

● Create a slider joint

● Create a driving joint

Create a rigid group in a kinematic assembly This procedure shows how to create rigid groups in a kinematic assembly.

Base

CylinderBody

CylinderRod

ClampArm

1. Choose Home tab→Kinematics group→Kinematics Editor .

2. In the Kinematics Navigator, click .

3. In the Rigid Group dialog box, in the Rigid Group Objects group, select the objects from the kinematic assembly. NX adds the selected objects in the Select Objects table.

4. In the Name group, type a name Base for the rigid group. You can use alphanumeric characters.

5. Click OK. NX creates the rigid group as Base. You can also create the rigid groups as ClampArm, CylinderRod, and CylinderBody.

Create a fixed joint This procedure shows how to create a fixed joint using the rigid groups in a kinematic assembly that you created.


2. In the Fixed Joint dialog box, in the Rigid Group, click Select Rigid Group and select the Base group created earlier.

3. In the Name group, type a name Fixed_Base for the fixed joint. You can use alphanumeric characters.

4. Click OK. NX creates the fixed joint as Fixed_Base.

Create a revolute joint This procedure shows how to create a revolute joint, using the rigid groups in a kinematic assembly that you created.


2. In the Revolute Joint dialog box, in the Rigid Groups group, click Select Source Rigid Group, and select the Base group created earlier.

3. Click Select Target Rigid Group and select the ClampArm group created earlier.

4. In the Axis group, from the vector list, select Curve/Axis Vector and select the axis.

Curve axis vector

5. Click Point Dialog .

6. In the Point dialog box, in the Type group, choose Existing Point , and select the point shown, and click OK.

Point on a rigid group

7. In the Limits group, set the following:

Upper = 160

Lower = 2

8. In the Start Angle group, type 10.

9. In the Name group, type Revolute_1 for the revolute joint. You can use alphanumeric characters.

10. Click OK. NX creates the revolute joint as Revolute_1.

Create a slider joint This procedure shows how to create a slider joint, using the rigid groups in a kinematic assembly that you created.


2. In the Slider Joint dialog box, in the Rigid Groups group, click Select Source Rigid Group, and select the CylinderRod group created earlier.

3. Click Select Target Rigid Group and select the ClampArm group created earlier.

4. In the Axis group, from the vector list, select Curve/Axis Vector and select the axis.

Curve axis vector

5. In the Limits group, set the following:

Upper = 140

Lower = 1

6. In the Offset group, type 2.

7. In the Name group, type Slider_1 for the slider joint. You can use alphanumeric characters.

8. Click OK. NX creates the slider joint as Slider_1.

Create a driving joint This procedure shows how to create a driving joint, using the rigid groups in a kinematic assembly that you created.

1. In the Kinematics Navigator, in the Joints group, select any revolute joint.

Revolute joint

2. Right-click the revolute joint and choose Set as Driving Joint . The revolute joint is now the driving joint.

Revolute joint as Driving joint

Whats New

Distinguishing rigid groups by color In the Fixture Planner application, you can now:

● View the rigid group colors in the Kinematics Navigator tree and in the graphics window. Thus,

you can identify the rigid groups in a kinematic assembly.

● Identify the rigid group objects by colors and the non-rigid group objects by gray tones.

● Display the colors of the newly created and edited rigid group objects.

Rigid groups without colors

Rigid groups with colors

Base

CylinderBody

CylinderRod

ClampArm

Why should I use it? Now you can effectively distinguish between the rigid groups and the non-rigid groups in a kinematic assembly. You can also identify group of objects that helps to understand the details of a kinematic assembly.

Where do I find it?


Resource bar Kinematics Navigator →Rigid Group Color

Technical documentation

Identifying rigid groups using colors in a kinematic assembly A rigid group is a group of components that remain in fixed positions relative to each other; they do not move. Rigid groups can be connected by joints and form a kinematic assembly. While working in a kinematic assembly, you must define the rigid groups. This helps you to form a kinematic loop using the rigid groups.

Once you define the rigid groups, you can distinguish them using colors. Use the Rigid Group Color command to display the colors of the objects in the rigid groups. Once you define the rigid groups, you can:

• View the rigid group colors in the Kinematics Navigator tree and in the graphics window.

• Identify the rigid group objects by colors and the non-rigid group objects by gray tones.

Note: When you switch between work parts, NX colors the rigid groups in the active work

part.

• Display the colors of the newly created and edited rigid group objects.

Note: When you close the Kinematics Navigator, NX removes the color of all the rigid group

objects.

Rigid groups without colors

Rigid groups with colors

Base

CylinderBody

CylinderRod

ClampArm

Where do I find it?


Resource bar Kinematics Navigator →Rigid Group Color

What’s New

Supporting kinematic loops in a station In the Fixture Planner application, you can now:

● Create poses for joints that have upper and lower limits in a kinematic assembly in NX.

● Define the driving joints, so you can hide all other joints that are not acting as a motor or an actuator in the Joint Jog dialog box.

● Create complex mechanisms that have three or more rigid groups working together.

● Use Joint Jog to move a unit design that has three or more joints defined for movement.

Kinematic loop

Joints of a kinematic loop

Why should I use it? Now you can jog the joints in the kinematic loops of a kinematic assembly in Fixture Planner. You can also move a unit design with three or more joints that have kinematic loops defined for the movement.

Where do I find it?


Resource bar Joint Jog

Technical documentation

Working with kinematic loops in a station When you work in a fixture assembly, you need to understand the working behavior of the unit designs, the rigid groups, and the weld guns. When you work with a unit design,it is a part of a fixture assembly that helps to hold the products for the welding process in the station. In kinematics, a unit design is a combination of the rigid groups that are locked together using joints. The joints with the rigid groups and the driver joints form the kinematic loop in a unit design. In order to make the kinematic loop work, you need to define a driving joint. In a loop kinematics, you can create critical mechanisms where three or more joints work together. In loop kinematics, you can use the Joint Jog command to move a unit design that has three or more joints.

Kinematic loop

Joints of a kinematic loop

If you have a kinematic loop in the unit design, you can:

● Create poses for joints that have upper and lower limits in a kinematic assembly in the Fixture

Planner session in NX.

● Define the driving joints, so you can hide all other joints that are not acting as a motor or an

actuator in the Joint Jog dialog box.

● Create complex mechanisms that have three or more rigid groups working together.

● Use Joint Jog to move a unit design that has three or more joints defined for movement.

Where do I find it?


Resource bar Joint Jog

NX 1888



SYSTEM 22

CAE 11

ASSEMBLIES 10

CAM 10

SHIP_DESIGN 10

ROUTING_GENERAL 6

NX_SHEET_METAL 4

NXMANAGER 4

TRANSLATOR 4

GATEWAY 3

CMM 2

DRAFTING 2

TC_FEATURES 2

TRANSLATORS 2

AUTOMATN_DESIGN 1

DMU 1

KDA 1

MECHATRONICS 1

PMI 1

SYSENG 1

Total 98

1888 ENHANCEMENTS Please see below for a list of enhancements included in this release. ERs:

• ER9449370 - Improve assembly Load performance for large assembly

• ER9518853 - Support view on Shell (shell expansion / view drawings)

NX 1884



SYSTEM 22

CAE 19

NASTRAN 16

CAM 7

KDA 5

TRANSLATOR 5

ASSEMBLIES 5

SYSENG 4

SHIP_DESIGN 3

FLEXIBLE_PIPE 2

NXMANAGER 2

DESIGN 2

DRAFTING 1

CMM_INSPECTION 1

MECHATRONICS 1

ADD_FIXED_PLANE 1

Total 96

1884 ENHANCEMENTS Please see below for a list of enhancements included in this release.

Computer Aided Manufacturing: Multiselect for Facet Bodies

Introduction

Multiselect for Facet Bodies

You can now use the multiselect gestures to select multiple facet bodies for part, blank, or check geometry. In an assembly, NX adds facets from all components within the multiselect gesture to the geometry definition. NX creates a separate geometry set for each facet body and displays an alert message to tell you that multiple geometry sets were created.

Geometry to select

16 separate facet bodies

19 separate solid bodies

Type Filter = Facet Body Type Filter = Solid Body

NX creates 16 geometry sets. Each set contains one facet body.

NX creates one geometry set that contains 19 solid bodies.

Type Filter = Facet Body Type Filter = Solid Body

NX creates 16 geometry sets. Each set contains one facet body.

NX creates one geometry set that contains 19 solid bodies.

Type Filter = No Selection Filter or Detailed Filtering = Facet Body and Solid Body

NX creates 17 geometry sets. One geometry set that contains 19 solid bodies, and 16 geometry sets that each contain one facet body.

Note: In the alert message ignore the following statement: Suspect geometry items were placed

in separate sets. This statement will be removed in a future release.

Where do I find it?

Application Manufacturing

Location in dialog box Workpiece dialog box→Geometry group

Top Border bar Type Filter or General Selection Filters →Detailed Filtering

Computer Aided Manufacturing: Hole Milling and Thread Milling Cycles

Introduction

Hole Milling Cycle Output

You can now output either single moves or machine cycles for hole milling operations. NX outputs two new MOM events to the postprocessor with the machine cycle: MOM_mill_hole and

MOM_mill_hole_move. You must enhance existing postprocessors to support the new MOM events.

To output machine cycles, use the new Motion Output parameter to select Machine Cycle. Note: Because cycles are controller specific, the hole milling operations support a limited set of basic functionality. Parameter differences The Machine Cycle output supports the Helical and Circular cut patterns only. Parameters that are handled by the machine cycle on the controller do not appear in the dialog box. These include the following:

Path Settings Cutting Parameters Non-cutting Moves

• Axial Stepover • Radial Stepover • Offset from Start

Diameter

• Minimum Helix Diameter • Cleanup Passes • Feed Adjustment on Arcs • Top Offset

• Cutter Compensation • Overlap parameters • Engage parameters • Retract parameters

Output differences

Machine Cycle Output

GOTO/0.0000,0.0000,0.2000,0.0000000,0.0000000,1.0000000

PAINT/COLOR,1

RAPID

GOTO/0.0000,0.0000,0.0986

CYCLE/MILL,HOLE,HELICAL,RAPTO,0.0000,FEDTO,-0.6586,RTRCTO,0.0000,IPM,10.0000

PAINT/COLOR,3

GOTO/0.0000,0.0000,0.0986

CYCLE/OFF

Single Moves Output

GOTO/0.0000,0.0000,0.2236,0.0000000,0.0000000,1.0000000

PAINT/COLOR,42

FEDRAT/IPM,10.0000

GOTO/0.6581,0.1499,0.2236

CIRCLE/0.6118,0.3532,0.2236,0.0000000,0.0000000,1.0000000,0.2085,0.0020,0.50

00,1.7500,0.0000

GOTO/0.7924,0.4575,0.2236

PAINT/COLOR,3

CIRCLE/0.0000,0.0000,-

0.5600,0.0000000,0.0000000,1.0000000,0.9150,0.0020,0.5000,1.7500,0.0000,TIME

S,2

GOTO/0.6445,-0.6495,-0.5600

CIRCLE/0.0000,0.0000,-

0.5600,0.0000000,0.0000000,1.0000000,0.9150,0.0020,0.5000,1.7500,0.0000

GOTO/0.6495,0.6445,-0.5600

CIRCLE/0.0000,0.0000,-

0.5600,0.0000000,0.0000000,1.0000000,0.9150,0.0020,0.5000,1.7500,0.0000

GOTO/-0.6445,0.6495,-0.5600

CIRCLE/0.0000,0.0000,-0.5600,0.0000000,0.0000000,-

1.0000000,0.9150,0.0020,0.5000,1.7500,0.0000

GOTO/-0.6495,-0.6445,-0.5600

CIRCLE/0.0000,0.0000,-0.5600,0.0000000,0.0000000,-

1.0000000,0.9150,0.0020,0.5000,1.7500,0.0000

GOTO/0.6445,-0.6495,-0.5600

PAINT/COLOR,7

CIRCLE/0.4977,-0.5014,-0.5600,0.0000000,0.0000000,-

1.0000000,0.2085,0.0020,0.5000,1.7500,0.0000

GOTO/0.5957,-0.3174,-0.5600

GOTO/0.0000,0.0000,-0.5600

PAINT/COLOR,1

Where do I find it?


Prerequisite You must customize the Hole Milling dialog box to add Motion Output to the Path Settings group.

Location in dialog box [Hole milling operation] dialog box→Path Settings group→ Motion Output→Machine Cycle or Single Moves

Thread Milling Cycle Output

You can now output either single moves or machine cycles for thread milling operations. NX outputs two new MOM events to the postprocessor with the machine cycle: MOM_mill_hole_thread and MOM_mill_hole_thread_move. You must enhance

existing postprocessors to support the new MOM events.

To output machine cycles, use the new Motion Output parameter to select Machine Cycle.

Note: Because cycles are controller specific, the thread milling operations support a limited set of basic functionalities.

Parameter differences Parameters that are handled by the machine cycle on the controller do not appear in the dialog box. These include the following:

Path Settings Cutting Parameters Non-cutting Moves

• Axial Stepover • Radial Stepover • Spring Passes

• Cleanup Passes • Feed Adjustment on Arcs • Top Offset

• Cutter Compensation • Engage parameters • Retract parameters

Machine Cycle output adds the Minimal Clearance parameter.

Output differences

Machine Cycle Output

RAPID

GOTO/-74.9449,2.8754,0.0000

CYCLE/MILL,HOLE,THREAD,RAPTO,0.0000,FEDTO,10.0000,RTRCTO,0.0000,MMPM,250.000

0

PAINT/COLOR,31

GOTO/-74.9449,2.8754,0.0000

CYCLE/OFF

Single Moves Output

RAPID

GOTO/-74.9449,2.8754,25.0000,0.0000000,0.0000000,1.0000000

PAINT/COLOR,211

RAPID

GOTO/-74.9449,2.8754,-10.3750

PAINT/COLOR,42

FEDRAT/MMPM,250.0000

CIRCLE/-75.2574,3.4167,-10.0000,0.0000000,0.0000000,-

1.0000000,0.6250,0.0600,0.5000,7.5000,0.0000

GOTO/-75.5699,3.9579,-10.0000

PAINT/COLOR,31

CIRCLE/-74.9449,2.8754,-8.5000,0.0000000,0.0000000,-

1.0000000,1.2500,0.0600,0.5000,7.5000,0.0000

GOTO/-75.5699,3.9579,-8.5000

PAINT/COLOR,37

CIRCLE/-75.2574,3.4167,-8.1250,0.0000000,0.0000000,-

1.0000000,0.6250,0.0600,0.5000,7.5000,0.0000

GOTO/-74.9449,2.8754,-8.1250

Where do I find it?


Prerequisite You must customize the Thread Milling dialog box to add Motion Outputto the Path Settings group.

Location in dialog box [Thread milling operation] dialog box→Path Settings group→ Motion Output→Machine Cycle or Single Moves

Add Machine Cycle Output to a Hole Milling or Thread Milling Dialog Box

You must customize the Hole Milling or the Thread Milling dialog box to output machine cycles.

1. In the Operation Navigator, right-click the operation to customize, and choose Object→Customize ...

2. In the Customize Dialog dialog box, in the Items Used group, from the list, select Group: Path Settings.

3. In the Items to Add group, from the Dialog Item Type list, select Customizable Item.

4. From the list, select Cycle - Canned Cycle.

The Cycle - Canned Cycle item adds the Motion Output list to the operation dialog box.

5. In the Items to Add group, click Add to Dialog .

The Cycle - Canned Cycle parameter appears within the Path Settings group.

6. (Optional) Use the up or down arrows / to adjust the position of Cycle - Canned Cycle in the Items Used list.

7. In the Customize Dialog dialog box, click OK to save your changes to the dialog box.

NX 1880


Applications Count of PR Number

CAM 15

CAE 10

SHIP_DESIGN 4

SYSTEM 4

CMM_INSPECTION 3

KDA 3

ADD_FIXED_PLANE 2

DESIGN 2

TRANSLATOR 2

ROUTING_MECH 1

Total 46

1880 ENHANCEMENTS Please see below for a list of enhancements included in this release. ERs

• ER7774710 – Request to create the scanning path while rotating table

• ER9447573 – Add support for analog scanning probe filters via the GEOALG statements to NX CMM

• ER9449040 – Enhance DMIS and GD&T logical check in NX CMM similar to Inspector DMIS engine

Automation Designer: Electrical BOM

Introduction

Bill of Material

Use the Bill of Material command to create an electrical Bill of Material (BOM). An electrical BOM contains only electrical products, such as switches, DI/DO modules, and interface modules.

Teamcenter Compatibility You can only use this feature with Teamcenter 12.2. Automation Designer stores electrical BOMs in Teamcenter. Therefore, you can exchange them directly with ERP systems and suppliers. Procurement departments often use BOMs for ordering system components or generating reports. An electrical BOM provides an overall part summary of one or more electrical products. You can create either an electrical BOM for your entire project, or a partial electrical BOM for parts of your project. You can create multiple electrical BOMs out of your project or you can create new revisions of the already existing electrical BOM.

Before you Start The electrical BOM generates empty lines in Teamcenter if the products are checked out during electrical BOM generation. Before you start with the generation of the electrical BOM, please make sure that you successfully save the project. This will ensure that all objects are checked-in and the generation can start.

Application Automation Designer

Command Finder Bill of Material

Create an Electrical BOM

1. Choose Collaboration tab→Teamcenter group→Bill of Material

2. In the Create BOM in Teamcenter dialog box, from the list, select Create New.

3. In the Name and Attributes group, double-click the Value cell in the ID row.

4. (Optional) Change the name.

5. In the Source group, from the Scope of Bill of Material list, select either Entire Project or Partial. If you select Partial, in the aspect navigators, select one or more parent objects to define the scope of the electrical BOM.

6. In the Location group, browse to the location where you want to store the BOM.

7. Click OK.

Create a New Revision of an Existing BOM

1. Choose Collaboration tab→Teamcenter group→Bill of Material .

2. In the Create BOM in Teamcenter dialog box, from the list, select Create New Revision of Existing.

3. In the Existing Bill of Material group, select the BOM for which you want to create a new revision.

4. In the Source group, from the Scope of Bill of Material list, select either Entire Project or Partial. If you select Partial, in the aspect navigators, select one or more parent objects to define the scope of the electrical BOM.

5. Click OK.

Create BOM in Teamcenter Dialog Box

Creation list Create New

Lets you create a new BOM.

Create New Revision of Existing

Lets you create a new revision of an existing BOM.

Existing Bill of Material

Available if you set the Creation list to Create New Revision of Existing.

Project Displays the name of the open project.

Existing bill of material list Lists the existing BOMs in the project.

Name and Attributes

Lets you determine the name and other attributes of the BOM.

Secondary Attributes

Opens the Attributes dialog box, where you can view and modify attributes of the BOM.

Source

Scope of Bill of Material Entire Project

Lets you include the entire project in the scope.

Partial

Lets you include part of the project in the scope.

Partial Bill of Material

Available if you set the Scope of Bill of Material list to Partial.

Select Parent Objects

Lets you select parent objects to include in the partial bill of material.

Parent objects list Lists the parent objects in the partial bill of material.

Add to the List

Lets you add parent objects to the list.

Remove from the List

Lets you remove parent objects from the list.

Location

Part File

Lets you choose a location to store the BOM. You can modify the location only if you are creating a new BOM, and not if you are creating a new revision.

Coordinate Measuring Machine: Inspection Supplement

Introduction

Data Elimination and Data Filtering

Data Elimination means the removal of measured data points, sometimes called ‘outliers’, that are outside a range of standard deviations from the mean deviation. Data Filtering means a high pass, low pass, or band pass filter is applied to the measured data in order to isolate form deviation from surface texture. You can enable these and set the parameters using new groups in the feature dialogs and the method dialog

These settings are supported by the DMIS 5.2 post-processor using a statement of the following format:

GEOALG/CIRCLE,LSTSQR,STDDEV_LIMIT,2.,FILTER,CIRCULAR,HIGH,15.,GAUSS Other post-processors do not currently support these settings.

Head Touch on Outer Circles and Cylinders

Simulation of inspection paths using the PH20 in Head Touch mode has been improved for the following feature types:

• CIRCLE/OUTER

• CYLNDR/OUTER

• GCURVE on the surface of a CYLNDR/OUTER

Verify Program

Inspection programs can now be verified before sending them to the shop floor for execution. Many common errors are detected and reported in the NX information window.

• Feature not measured or constructed

• Datum not defined before a tolerance that references it

• Size tolerance missing when using MMC or LMC modifiers

Arc Scan using Rotary Table

Arc Scans may now be performed by bringing the probe into contact with the part, then rotating the part with the rotary table while holding the probe at a stationary XYZ. You can specify this on the Scan Arc dialog using a new choice for Scan Mode:

This is supported by the DMIS 5.2 post-processor using a statement of the following format:

PAMEAS/P(CIRCLE1_PATH_Scan_Arc),ROTARY,RT(ROTARY1) Other post-processors do not currently support this statement type.

DMIS Support – Support for Valisys Programs

Inspection programs written using Valisys (eM-ProbeCAD) may now be imported into NX CMM with good success. Less than 10% of operations will need to be edited by hand. Support for the following statement types was added in NX12.0.2 MP8:

• DATSET statement

• MACRO and CALL statements

• CONST/POINT,…,BF

• Convert 3 character datum letters VP1,VS1,VT1 to valid datum letters

• Option to ignore BND1,BND2,BND3,BND4,F(VBND and BOUND/

• Option to ignore Comments

• OUTPUT that isnt a T() or F() format

• Valisys GEOALG formats

• GSURF/GCURVE Features

• Width Tolerance

• OUTPUT/R()

• TEXT/OPER

• ROTAB/

• SAVE/FA

Link PMI Processing of Ordinate Dimensions

When processing ordinate dimensions, the Link PMI function now inserts operations into the CMM program to establish a Part Coordinate System (PCS) at the origin of the ordinate dimension. If several ordinate dimensions are based on the same origin, they will share the same PCS. The PCS column in the operation navigator will show the PCS assigned to the CORTOL tolerance.

Link PMI Processing of Hole Callouts

The Link PMI function now links PMI Hole Callouts into the appropriate set of CMM Inspection operations. The following hole types are supported:

• Cylindrical Through Hole

• Threaded Hole

• Counterbored Hole

• Countersunk Hole

• Blind hole (non through hole)

• Tapered Hole Inspection features, tolerances, and paths are created to measure the following characteristics:

• Cylinder Diameter

• Counterbore Diameter

• Countersink Angle

• Counterbore Depth (Using plane features)

• Countersink Depth (Using constructed circle)

• Hole Depth (Using point features)

• Tapered Hole Cone Angle Note: Hole depth is measured using point features in order to minimize inspection time.

Inspection Programming using Rotary Table

When programming a part involving a rotary table, the inspection part and rotary table will be displayed in the rotated position when viewing and editing inspection paths.

NX 1876



NX_SHEET_METAL 9

ROUTING_GENERAL 6

CAE 3

NXMANAGER 3

TRANSLATOR 2

ASSEMBLIES 1

BETA_EAP 1

DESIGN 1

FLEX_PC_DESIGN 1

FLEXIBLE_PIPE 1

KDA 1

ROUTING_ELEC 1

SHIP_DESIGN 1

TC_FEATURES 1

Total 32

1876 ENHANCEMENTS Please see below for a list of enhancements included in this release. ERs

• ER9071549 - FPC Design App - Attach bodies to flex and bring them along when flattening

Line Designer: Plant Navigator

Introduction

Creating End Items in the Plant Navigator

What is it?

In the Line Designer application, you can now create the end items for the components in the Plant Navigator. You can:

• Create end items in the Plant Navigator.

• Load the end items as a single component either as an item or as an occurrence, in the Plant Navigator. You can still see the geometry of all end items in the graphics window.

• Modify the end items for further design.

• Expand the end item structure using the Expand End Items option and collapse the end item structure using the Create/Collapse End Item option.

• Remove the end item state from the Plant Navigator using the Remove End Item Assembly State option.

Why should I use it?

You can now quickly navigate through the Plant Navigator tree structure. Also creating end items in a

plant layout helps you reduce the number of BOM lines included in the structure, in the Plant Navigator,

and you can create the desired structure of the plant layout.

Where do I find it?

Application Line Designer

Plant Navigator Right-click the component or work area object→

Create/Collapse End Item Expand End Items Remove End Item Assembly State

Working with end items in the Plant Navigator

When you load a plant layout with a large number of assemblies and components and want to navigate

to an assembly, you need to scroll throughout the plant structure to that assembly, which takes more

time. To simplify the layout structure and to focus on the assembly of interest, you can display these

assemblies as a single Bill of Material (BOM) line using Create/Collapse End Item shortcut menu option.

Creating end items in a plant layout helps you reduce the number of BOM lines included in the

structure in the Plant Navigator, and you can create the desired structure for the plant layout.

When you select the customer default Load End Items Defined in Teamcenter, you can easily

navigate in the Plant Navigator tree structure of a plant layout using the Create/Collapse End Item

shortcut menu option.

= Load End Items Defined in Teamcenter Note To find a customer default, choose File tab → Utilities → Customer Defaults, and

click Find Default .

In Line Designer, when you load a plant layout, you can now:

● Create end items in the Plant Navigator. To avoid affecting instances of the component in

other structures, you can use the Occurrence option to create end items.

● Load the end items as a single component either as an item or as an occurrence, in the Plant

Navigator. You can still see the geometry of all the end items in the graphics window.

● Modify the end items for further design.

● Expand the end item structure using the Expand End Items option, and collapse the end item

structure using the Create/Collapse End Item option.

● Remove the end item state from the Plant Navigator using the Remove End Item Assembly

State option.

Discrete Drivetrain: Additional Motion Bodies

Introduction Pattern Elements now support the definition of Additional Motion Bodies.

Additional Motion Bodies

The Motion Body selected in Select Motion Body is treated as the main Motion Body in this Pattern Element. Additional Motion Bodies in this list can be replicated and passively positioned as part of the Pattern Element along with the main Motion Body. These Additional Motion Bodies maintain their position and orientation relative to the main Motion Body in a pattern instance. Additional Motion Bodies may be connected to the main Motion Body or to each other. Any Motion elements like joints, forces or constraints which connect them are also replicated when Build Pattern Instances is clicked. Note: Additional Motion Bodies may NOT be connected to a neighboring Pattern Element’s main Motion Body or additional Motion Bodies. Such connections are not replicated when Build Pattern Instances is clicked.

Sheet Metal: Component Placement Enhancement

Introduction

Associate Object When you create a Flat Solid in the Flexible Printed Circuit Design application with Transform Components option set to Body, the components associated with the faces of the formed body using the Associate Object command are copied, and these copies are transformed to the corresponding faces in the flattened body.

NX RELEASE SUMMARIES

NX 1872 Series Summary A complete list of NX 1872 Series releases is included below. NX 1872 Functional Release – Jun 2019

• NX 1876 Monthly Update – Jul 2019

• NX 1880 Monthly Update – Aug 2019

• NX 1884 Monthly Update – Sep 2019

• NX 1888 Monthly Update – Oct 2019

• NX 1892 Monthly Update – Nov 2019

• NX 1892.2920 Maintenance Software Fix – Dec 2019

• NX 1892.2940 Maintenance Software Fix – Dec 2019

• NX 1892.3201 Maintenance Software Fix – Feb 2020

Main Release Summaries The following table represents a release overview of the PR and ER fix counts. More details can be found in the Fixed_Problem_Reports.CSV file that accompanies this release.

Release PR Count ER Count Total

1892 92 4 96

1888 98 2 100

1884 96 2 98

1880 46 5 51

1876 32 3 35

Total 364 16 380

The following tables show high level area overviews of the PR fixes in each main release.

1892 Application Function Sub-function PR Count

ASSEMBLIES ASSEMBLY_MODEL DEFORM 1

CAE ADV_SIMULATION ANSYS_EXPORT 1

CAE ADV_SIMULATION ANSYS_IMPORT 2

CAE ADV_SIMULATION LSDYNA_EXPORT 1

CAE ADV_SIMULATION NASTRN_NX_EXPRT 1

CAE ADV_SIMULATION POST_DISPLAY 1

CAE ADV_SIMULATION POST_PROBE 1

CAE ADV_SIMULATION POST_RESULT 1

CAE ADV_SIMULATION SYSNOISE_SOLVER 1

CAE ADV_SIMULATION THERM_FLOW 1

CAE MOTION FLEX_BODY_SC 1

CAE MOTION RESULT_MEASURE 2

CAE MOTION VL2NXMIGRATION 3

CAM BASIC_FUNCTIONS MIRROR 1

CAM DRILLING GEOMETRY 1

CAM FEATURE_BASED FEATURE_RECOGNI 1

CAM FEATURE_BASED OTHER 5

CAM HOLE_BOSS_MILL OTHER 1

CAM ISV MACH_CODE_BASED 1

CAM TC_MFG MRL_CONNECT 3

CAM TC_MFG OTHER 1

CAM TURNING OTHER 1

CAM TURNING ROUGH 1

CAM TURNING TEACHMODE 1

CAM WORK_INSTRUCTN ALL 2

CMM_INSPECTION ANALYZE ALL 1



DRAFTING DIMENSION LINEAR 1

DRAFTING DRAWING/VIEW SECTION_LINE 1

DRAFTING FILE_OPS CGM_DRAWING 5

DRAFTING SHIPBUILDING VIEW_CREATION 1

DRAFTING TABLES TABULAR_NOTES 1

GATEWAY PLOTTING ALL 1

KDA MOLDWIZARD CREATE_POCKETS 1

KDA MOLDWIZARD FAMILY_MOLD 3

KDA REUSE_LIBRARY ADD_REUSE_COMP 1

KDA WELD_ASSISTANT WELDING_JOINT 1

MECHATRONICS BASIC_PHYSICS RIGID_BODY 1

NX_SHEET_METAL FLAT_PAT_EXPORT DXF 1

NXMANAGER ASSEMBLY PENDING_COMP 1

NXMANAGER ATTRIBUTES MAPPING 4

NXMANAGER CLONE_IMPORT IMPORT_ASSEMBLY 1

NXMANAGER FILE_OPEN WORKSET 1

NXMANAGER SEARCH EFFECTIVITY 4

PCB_EXCHANGE IDX_IMPORT ALL 1

PMI PART_NAV ALL 1

PMI SUPPRESS ALL 1

PMI TABLES CORE 1

PMI UPD_READING_DIR ALL 1

ROUTING_GENERAL STOCK_AS_COMP EDIT_CHARX 1

SHIP_DESIGN BASIC_DESIGN WEIGHT&CG 1

SHIP_DESIGN STEEL_FEATURES END_CUT 1

SYSENG CONFIG_UPGRADE ROLES 1

SYSENG INSTALL_ISSUES AUTO_UPDATE 2

SYSENG INSTALL_ISSUES INSTALLER 1

SYSENG UI_TOOLS ROLES 1

TC_FEATURES RESOURCE_MGR AUTO_ASSEMBLY 3

TECH_DATA_PKG PUBLISH CORE 1

TRANSLATOR DXF_DWG ALL 2

TRANSLATOR PROE_INTERFACE ALL 2

TRANSLATOR STEP_AP214 IMPORT_GEOMETRY 2

Total 92


ASSEMBLIES ASSEMBLY_MODEL FACET_JT_REPS 3

ASSEMBLIES ASSEMBLY_MODEL PERFORMANCE 1

ASSEMBLIES ASSEMBLY_MODEL WEIGHT_MANAGE 4

ASSEMBLIES PART_FILE_OPS OPEN_SOLID_WORK 2

AUTOMATN_DESIGN EXPRESSIONS NAVIGATION 1

CAE ADV_SIMULATION AFEM 1

CAE ADV_SIMULATION CAE_GROUPS 1

CAE ADV_SIMULATION CONDITION_SEQ 1

CAE ADV_SIMULATION MATERIALS 1

CAE ADV_SIMULATION MESH_MATING 1

CAE ADV_SIMULATION POST_PROBE 2

CAE ADV_SIMULATION POST_RESULT 1


CAE MOTION MODEL_CHECK 1

CAE MOTION VL2NXMIGRATION 1

CAM CAVITY_MILLING OTHER 1

CAM DRILLING GEOMETRY 1

CAM FEATURE_BASED OTHER 3

CAM GENERIC_MOTION OTHER 1

CAM GUIDING_CURVE VARIABLE_AXIS 1

CAM HOLE_BOSS_MILL OTHER 1


CAM LIBRARIES FEEDS_SPEEDS 1

CMM IDEAS ALL 2

DMU SNAPSHOT GENERAL 1

DRAFTING DRAWING/VIEW SHEET_TEMPLATE 1

DRAFTING DRAWING/VIEW VW_DEP_EDIT 1

GATEWAY SAVE_PART UNDETERMINED 3

KDA REUSE_LIBRARY 2D_SECTION 1

MECHATRONICS BASIC_PHYSICS RIGID_BODY 1

NX_SHEET_METAL FLAT_PAT_EXPORT TRUMPF 2

NX_SHEET_METAL PREFERENCES ALL 2

NXMANAGER ACTIVEWORKSPACE ALL 1

NXMANAGER ASSEMBLY PART_FAMILY_CRE 1

NXMANAGER FILE_SAVE_AS NEW_ITEM 1

NXMANAGER INTELLIGNT_SAVE UI 1

PMI UPD_READING_DIR ALL 1

ROUTING_GENERAL CONSTRAINTS GENERAL 1

ROUTING_GENERAL PART PLACE_PART 1

ROUTING_GENERAL PATH CONNECT_PATH 1

ROUTING_GENERAL REUSE_LIBRARY PLACE_PART 1

ROUTING_GENERAL REUSE_LIBRARY PTS_PART 1

ROUTING_GENERAL REUSE_LIBRARY SPECIFICATIONS 1

SHIP_DESIGN BASIC_DESIGN WEIGHT&CG 1

SHIP_DESIGN DRAWING_AUTO INVRS_BEND_LINE 1

SHIP_DESIGN MANUFACTURING MANUXML_OUT 2

SHIP_DESIGN MANUFACTURING MFG_PREP 3

SHIP_DESIGN PLAN/SECTION SHELL_EXPANSION 1

SHIP_DESIGN STEEL_FEATURES PLATE 1

SHIP_DESIGN STEEL_FEATURES PROFILE_CUTOUT 1

SYSENG VISUALIZATION NAVIGATE 1

SYSTEM SYSTEM_TOOLS FLEXLM 22


TRANSLATOR CATIAV5 EXPORT_GEOMETRY 2

TRANSLATOR CATIAV5 IMPORT_GEOMETRY 1

TRANSLATOR NX_JT GENERAL 1

TRANSLATORS PRO/E XT_READ 1

TRANSLATORS PRO/E XT_WRITE 1

Total 98


ADD_FIXED_PLANE NESTING OTHER 1

ASSEMBLIES ASSEMBLY_MODEL CLONE_ASSEMBLY 1

ASSEMBLIES ASSEMBLY_MODEL COMP_REPLACE 2

ASSEMBLIES ASSEMBLY_MODEL REFERENCE_SETS 1

ASSEMBLIES PART_FILE_OPS OPEN_SOLID_WORK 1

CAE ADV_SIMULATION AFEM 1

CAE ADV_SIMULATION CONNECTIONS_UNI 1

CAE ADV_SIMULATION DUR_SPEC_SOLV 2

CAE ADV_SIMULATION SMART_SELECTION 1

CAE ADV_SIMULATION SYSNOISE_EXPORT 1


CAE ADV_SIMULATION VL2NX_ACOUSTIC 4

CAE MOTION LICENSE_CHECK 8

CAM ISV TOOL_PATH_BASED 1

CAM MACHTOOL_BUILDR ALL 1

CAM SURFACE_CONTOUR OTHER 1

CAM TC_MFG OTHER 1

CAM TEMPLATES MECHANISM 1

CAM TOOLS ALL 1

CAM VERIFY OTHER 1


DESIGN CURVE SHADOW_CURVE 1

DESIGN CURVE TRIM_CURVE 1

DRAFTING DIMENSION LINEAR 1

FLEXIBLE_PIPE GENERAL ALL 2

KDA GC_TOOLKIT GEAR_MODELING 1

KDA MOLDED_PART_VAL FLOW_ANALYSIS 1


KDA VALIDATION CK_INFO 1

MECHATRONICS OPC UA_SERVER 1

NASTRAN DYNAMICS SOL_108_SEDFREQ 1

NASTRAN DYNAMICS SOL_111_SEMFREQ 2

NASTRAN STRUCTURES SOL_101_SESTAT 4

NASTRAN STRUCTURES SOL_103_SEMODES 1

NASTRAN STRUCTURES SOL_401_MSTEPNN 4

NASTRAN STRUCTURES SOL_402 3

NASTRAN STRUCTURES SOL_601_106 1

NXMANAGER INTELLIGNT_SAVE CORE 2

SHIP_DESIGN BASIC_DESIGN HULL 1

SHIP_DESIGN DRAFTING ANNOTATE_DRWG 1

SHIP_DESIGN PLAN/SECTION SHELL_EXPANSION 1

SYSENG VIRTUAL_REALITY GRAPHIC_DISPLAY 3

SYSENG VISUALIZATION SHADED_QUALITY 1

SYSTEM SYSTEM_TOOLS FLEXLM 22


TRANSLATOR NX_JT TC_INTEGRATION 1

TRANSLATOR RAPID_PROTO BATCH_PROCESS 3

Total 96


ADD_FIXED_PLANE NESTING OTHER 1

ADD_FIXED_PLANE SUPPORTS OTHER 1

CAE ADV_SIMULATION CONNECTIONS_UNI 2

CAE ADV_SIMULATION DURABILITY 1

CAE ADV_SIMULATION FIELDS 1

CAE ADV_SIMULATION NXOPEN 1

CAE ADV_SIMULATION SYSNOISE_SOLVER 2

CAE ADV_SIMULATION UNIF_DATA_VIE 1

CAE MOTION JOINT 2

CAM BASIC_FUNCTIONS UNDETERMINED 5

CAM FEATURE_BASED FEATURE_RECOGNI 1

CAM FEATURE_BASED RULES_OOTB 1


CAM ISV TOOL_PATH_BASED 1

CAM LIBRARIES MECHANISM 1

CAM PART_CORRUPTION ALL 1

CAM SURFACE_CONTOUR FASC_FIX_PROJ 1

CAM TC_MFG OTHER 1

CAM USER_INTERFACE CAM_SESSION 1

CAM USER_INTERFACE OTHER 1


CMM_INSPECTION PATH ALL 1

CMM_INSPECTION TOLERANCES ALL 1

DESIGN FEATURE_MODEL HOLE 1

DESIGN FEATURE_MODEL MOVE_OBJECT 1

KDA ELECTRODE_DESGN DRAWING 2


ROUTING_MECH TOOLS BEND_REPORT 1

SHIP_DESIGN CONCEPT CUTOUT 1

SHIP_DESIGN DRAFTING SHIP_SECTN_DRWG 1

SHIP_DESIGN STEEL_FEATURES BRACKET 1

SHIP_DESIGN TOOLS PENETRATION_MGT 1

SYSTEM WNT_INSTALL ALL 4

TRANSLATOR DXF_DWG ALL 1

TRANSLATOR STEP_AP242 UG_TO_STEP 1

Total 46


ASSEMBLIES ASSEMBLY_MODEL COMP_REPLACE 1

BETA_EAP ARCHITECTURE ALL 1

CAE ADV_SIMULATION ELEMENT_PROPS 1

CAE ADV_SIMULATION NODE_OPERATIONS 1

CAE ADV_SIMULATION POST_JT 1

DESIGN FEATURE_MODEL HOLE 1

FLEX_PC_DESIGN PREFERENCES ALL 1

FLEXIBLE_PIPE GENERAL ALL 1

KDA GENERAL_PACKAGE BUMPER 1

NX_SHEET_METAL FLANGE ALL 9

NXMANAGER FILE_SAVE ALL 1

NXMANAGER FILE_SAVE_AS NEW_ITEM 1

NXMANAGER MAKE_UNIQUE ALL 1

ROUTING_ELEC COMPONENT_LIST SELECT_ALL 1

ROUTING_GENERAL ADMINISTRATION NXOPEN 1

ROUTING_GENERAL PART QUALIFY_PART 3

ROUTING_GENERAL PATH SIMPLIFY_PATH 1

ROUTING_GENERAL RUN_NAVIGATOR FIND_RUN 1

SHIP_DESIGN STEEL_FEATURES EDGE_RNFC 1


TRANSLATOR STEP_AP214 IMPORT_ASSEMBLY 1

TRANSLATOR STEP_AP214 IMPORT_GEOMETRY 1

Total 32

Maintenance Release Summaries The following table represents a release overview of the PR fix counts. More details can be found in the Fixed_Problem_Reports.CSV file that accompanies this release.

Release PR Count ER Count Total

1892.3201 92 1 93

1892.2940 1 0 1

1892.2920 3 0 3

Total 96 1 97

The following tables show high level area overviews of the PR fixes in each maintenance release.

1892.3201 Application Function Sub-function PR Count

ASSEMBLIES ASSEMBLY_MODEL DESIGN_FEATURE 1

ASSEMBLIES PART_FILE_OPS OPEN_CATIA 1

ASSEMBLIES SEQUENCING MOTION 2

ASSEMBLIES WEIGHT_MANAGE ALL 1

CAE ADV_SIMULATION MATERIALS 1

CAE ADV_SIMULATION POST_OTHER 1

CAE MOTION SUBMECHANISM 1

CAM BASIC_FUNCTIONS UNDETERMINED 1

CAM FLOOR_WALL_MILL CONTAINMENT 1

CAM FLOOR_WALL_MILL NON_CUT_MOVES 1


CAM TC_MFG OTHER 8

CAM TURNING OTHER 1

CAM USER_DEF_EVENT ALL 3

CORRUPTED_PARTS ASSEMBLIES ALL 1

CORRUPTED_PARTS KDA ALL 1

DESIGN EXPRESSION FUNCTION_BUILDR 2

DESIGN FEATURE_MODEL BOOLEAN 1

DESIGN WAVE NAVIGATORS 1

DRAFTING DRAWING/VIEW VIEW_BREAK 1

DRAFTING DRAWING/VIEW VWBRK_CONTENT 3

DRAFTING SHIPBUILDING VIEW_CREATION 1

DRAFTING SYMBOL CUSTOMER_SYMBOL 4

DRAFTING SYMBOL RESUSE_LIBRARY 1

KDA MOLDED_PART_VAL FLOW_ANALYSIS 1

KDA MOLDWIZARD CREATE_POCKETS 1

KDA MOLDWIZARD LOAD_PRODUCT 1

KDA WELD_ASSISTANT EASY_SPOT 2

KDA WELD_ASSISTANT FILLET 1

KDA WELD_ASSISTANT IMPACT_ANALYSIS 1

KDA WELD_ASSISTANT TRANSFORM 1

MECHATRONICS OPC UA_SERVER 1

NXMANAGER ASSEMBLY PART_FAMILY_CRE 1

NXMANAGER ASSEMBLY UPDATE_STRUCT 1

NXMANAGER FILE_OPEN WORKSET 1

NXMANAGER SEARCH EFFECTIVITY 4

ROUTING_GENERAL CUST_DEFAULTS GENERAL 1

ROUTING_GENERAL REUSE_LIBRARY PLACE_PART 1



SHIP_DESIGN STEEL_FEATURES MIRROR_COPY 1

SYSENG CONFIG_UPGRADE ROLES 1

SYSENG SELECTION SNAP_POINT 1

SYSENG UI_TOOLS COMMAND_FINDER 1

SYSENG UI_TOOLS ROLES 2

SYSENG VISUALIZATION COLOR_PALETTE 17

SYSTEM WNT_OS_ISSUES ALL 1



TRANSLATOR DXF_DWG EXPORT_DRAFTING 1

TRANSLATOR STEP_AP214 ALL 1

TRANSLATOR STEP_AP214 STEP_TO_UG 1

Total 92


NXMANAGER ASSEMBLY UPDATE_STRUCT 1

Total 1




Total 3

GLOBAL TECHNICAL ACCESS CENTER

Installation Assistance For additional installation assistance, or to report any problems, contact the Global Technical Access Center (GTAC). Website: http://support.industrysoftware.automation.siemens.com/gtac.shtml Phone: United States and Canada: 800-955-0000 or 714-952-5444 Outside the United States and Canada: Contact your local support office.

http://support.industrysoftware.automation.siemens.com/gtac.shtml

NX 1872 Series Monthly Update · SHIP_DESIGN DRAFTING SHIP_SECTN_DRWG 1892.2920 9626003 Profiles Sketches with same position numbers on same sheet SHIP_DESIGN DRAWING_AUTO INVRS_BEND_LINE

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