3D Connexion 17621 setup guide

Page 9

(*)NOTES: Private IP Addresses for the Frane Relay connection across the "WAN Cloud".

(**)NOTES: All of the machines in the NAT network must address their IP packets to the Internal Interface of the MR 2220 "NAT Router" (Ethernet 1).

Unlike Example 1, only part of the network behind this NAT Router is actually a NAT Network. Again, the part of the IP network connected to Ethernet 0 is accessible as part of the Internet. External sources can communicate with almost all of the IP addresses on Ethernet 0 without restriction. WAN 0 is the External NAT Port, Ethernet 1 is the Internal NAT Port and Ethernet 0 is not really involved with Network Address Translation; it just directly connects a portion of the user's network using "global" IP addresses to the Internet.

The NAT PassThru Range (198.41.9.195/27 in this case) allows the NAT Router to transmit IP packets between WAN 0 and Ethernet 0 as if the NAT Router is not even using NAT. However, NAT functionality does exist for the WAN 0 IP interface of the NAT Router.

PACKETS FROM THE NAT NETWORK THROUGH ETHERNET 1

(CONDITION 1, AGAIN)

The NAT Network packets, from the "private" IP address range of 10.0.0.0/8, are translated as they travel through the NAT Router and appear on the External Network to originate from the IP source address of 198.41.9.214. Packets from the External Network in response, with the destination IP address 198.41.9.214, will be translated to the proper "private" 10.0.0.0/8 network address by the NAT Router and transmitted through IP Interface Ethernet 1 to the NAT Network.

As has been previously stated, only sites on the NAT Network may create NAT Sessions for IP Address Translation unless one or more NAT Map Database one−to−one translation pairs exist in the [NAT Global] Configuration. None of these pairs exist in this example. All communication between the NAT Network and External Network must be initiated by the NAT Network. This example demonstrates two other important aspects of the Compatible

Page 8 Page 10
Image 9
Page 8 Page 10
Contents Contents − Network Address Translation Configuration Guide Final Notes Important Disclaimers NAT Functionality Local Network SecurityExample ONE AN Example NAT Session Condition Page Condition 1 a NAT Session Initiated from the Outside Example TWO Pinging the NAT Router ConditionPage Example Three Pinging the Macintosh AT 198.41.9.210 ConditionPage Console Commands for the NAT Software Show NAT Show NAT ConfigConcluding Explanation Remarks Line−by−line description of this display follows TCP SYN timeout period sec Show NAT Sessions Show NAT MAPShow NAT Statistics Show NAT Addressdb NAT Global Page RespondICMP NAT interface responses to Icmp packets NAT Mapping IP Section ID Port Configuration for NAT for Example ONE External NAT PORT, Example Internal NAT PORT, Example IP Section ID Port Configuration for NAT for Example ThreeHere is the configuration of the IP ports Entered External range NAT Passthru RANGE, Example Final NotesCurrently Supported IP Applications Updated Aug 19 Document ID

17621 specifications

3D Connexion's SpaceMouse Wireless (model 17621) is a state-of-the-art input device designed specifically for professionals in the fields of 3D modeling, CAD, and visualization. This innovative device brings a new level of precision and control to digital design workflows, making it an indispensable tool for architects, engineers, and designers.

One of the standout features of the SpaceMouse Wireless is its six-degrees-of-freedom (6DoF) sensor. This technology allows users to intuitively navigate 3D environments by gently tilting, rotating, or panning the controller’s cap. The result is smooth and fluid movement, enabling users to explore complex models effortlessly. The device is particularly beneficial for applications where quick adjustments and precise control are paramount.

In addition to its advanced sensing capabilities, the SpaceMouse Wireless incorporates a comfortable, ergonomic design. The device features a large, easy-to-use control cap that ensures maximum comfort during extended use. The soft-touch surface provides a tactile experience, making it easy to manipulate 3D objects with minimal effort. Its compact size further enhances portability, allowing professionals to take their workflow on the go without compromising performance.

The wireless functionality of the SpaceMouse Wireless eliminates the clutter of cables, providing users with greater freedom of movement. The device connects seamlessly via a USB receiver, ensuring a reliable and stable connection. With a rechargeable battery that lasts up to a month on a single charge, users can work for long hours without worrying about losing power.

Customization is another key feature of the SpaceMouse Wireless. The device comes equipped with an array of programmable buttons that can be tailored to suit individual preferences and workflows. Users can assign frequently used commands, shortcuts, or tools to these buttons, creating a more efficient and productive working environment.

Moreover, the SpaceMouse Wireless is compatible with a wide range of software applications, including popular CAD programs like SolidWorks, AutoCAD, and Rhino, among others. This versatility makes it an ideal choice for professionals across various industries, from mechanical engineering to graphic design.

In summary, the 3D Connexion SpaceMouse Wireless (17621) stands out for its advanced 6DoF sensor technology, ergonomic design, wireless capabilities, and customizable features. These characteristics combine to provide professionals with an unparalleled level of precision and control, making it a vital tool in the realm of 3D design and modeling. As technology continues to evolve, devices like the SpaceMouse Wireless represent the future of intuitive and efficient digital creation.
Top Page Image Contents