For the 1140e phone it shall be named 1140e.cfg (1120e.cfg, 1265e.cfg etc. Note: Applies to: 2007, 1100 and 1200 series sets, with UNIStim. AACC Audible Avaya Books C.S. Friedman Code Contact Center Critique CS1000 dhcp Editorial Educational Gaming Humor IP phone LinkedIn lldp Microsoft Music Netsuite Nortel No stakes nVidia Personal Politics Reading Review Rock Science SciFi Spoilers Telecom The Madness Season Troubleshooting UNIstim vbscript Video VLAN VoIP Windows Windows 7 Work.
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UNIStim (or Unified Networks IP Stimulus) is a deprecated Telecommunicationsprotocol developed by Nortel (now acquired by Avaya) for IP Phone (terminals and soft phones) and IP PBX communications.
Most manufacturers of IP PBX equipment (Aastra, Alcatel, Avaya...) have followed the same path, developing their own proprietary protocols. These protocols are being gradually replaced or complemented by standardized protocols, including H.323, especially SIP.
Operating principle[edit]
The protocols works through a 'master' / 'slave' mode of operations. They simply reflect the basic actions a user can perform on his terminal (such as press a button) and the commands that can be sent to the display through the network to the terminal (such as turn a light on or display a message ). The 'stimulus' can implement easily any new facility telephone without having to modify the software embedded in the terminals, which simplifies the procedures for maintenance and upgrade of the installed base. In this sense, the stimulus protocols differ from functional protocols (such as SIP or H.323) that impose on the one hand that the service is defined in the standard and that the terminal loads specific logic corresponding to the service in question. This approach allows manufacturers to quickly deliver a wide range of services without having to wait until these services are standardized.
Nortel has been very active in the standardization effort of these protocols within the IETF, drawing on its work with pre-standard UNIStim and already developed work on the Nortel IP PBX systems and its IP Centrex platforms from 1996. Contributions common between Nortel and Cisco Systems for example culminated in the publication of the IETF RFC 3054 'Media Gateway IP Phone Application Profile' outlining the options in the protocol Megaco/H.248 for IP command posts.
The UNIStim protocol is implemented on Avaya IP PBX systems and licensed by third-party suppliers → History See for example the release of the company Spectralink,[1]
Details on the implementation of the protocol UNISTIM are available in the document 'Telephony and Data Network Services at a Telephone', filed in the United States Patent No. 7068641 on May 7, 1999.[2] The Secure UNIStim protocol is implemented on the AS5300 or the CS2100 enables encryption of the UNIStim protocol with the use of a SMC 2450.[3]
Ports[edit]
- 4100/udp Nortel UNIStim (Unified Networks IP Stimulus), i200x
- 5000/rudp Nortel UNIStim (Unified Networks IP Stimulus), i2002/i2004 on ITG Line
- 5100/rudp Nortel UNIStim (Unified Networks IP Stimulus), ITG Line
- 5105/udp Nortel UNIStim (Unified Networks IP Stimulus) FTP (UFTP)
- 6800/tcp Nortel Unified Manager
- 7000/rudp Nortel UNIStim (Unified Networks IP Stimulus), BCM FP1 VoIP to/from IP Phones
See also[edit]
References[edit]
- ^[1] 26 June 2002
- ^[2] → Google Patents Beta.
- ^[3] Secure Multimedia Controller 2450
Further reading[edit]
- Chaffin, Larry (2006). Building a VoIP Network with Nortel's Multimedia Communication Server 5100. Syngress Publishing, Inc. pp. 29, 42, 124–128, 274, 290. ISBN1-59749-078-4.
Retrieved from 'https://en.wikipedia.org/w/index.php?title=UNIStim&oldid=876143993'
phone. image by Alexander Lukyanov from Fotolia.com
There are three basic types of telephones that connect to PBX, or Private Branch Exchange systems. They are analog, digital and VoIP telephone sets. The PBX is the electronic switching system that connects network services to telephone sets and routes calls to the desired locations. Category 5 cable allows connectivity to all three types of phones and gives you the versatility to change the types of devices in any location without replacing or modifying the cabling.
Step 1
Locate the termination block for the PBX telephone system. It is usually found connected to a sheet of plywood mounted on the wall next to the phone system. It will have cables connected to it from the PBX.
Step 2
Locate the areas to install new Category 5 phone jacks. Look for pathways back to the area where the termination point is located.
Step 3
Mount the phone jacks to the walls in the desired locations. Surface jacks are used in existing areas and flush mount jacks are used in new construction. Use a screwdriver to install flush mount jacks and install electrical boxes for new construction.
Step 4
Run Category 5 communications cable from the PBX terminal block or patch panel to each jack location. Allow 6 inches of excess cable at the jack end and enough cable on the terminal block side for proper connectivity.
Step 5
Examine the terminal block. Find a pattern from existing service or locate the terminal block documentation. Remove the sheathing from the end of the cable with wire strippers and terminate the cables to the block with a punch-down tool in the proper manner. Small systems often use a modular patch panel and RJ45 connectors for station termination. Crimp these connectors onto the ends of the cables using a modular crimping tool making sure the wires are in the proper order. The blue and white pairs are considered pair 1, orange and white are pair 2, green and white are pair 3 and brown and white are pair 4.
Step 6
Remove about six inches of sheathing from the cable on the jack side. Connect the blue and white twisted pairs to connection one, orange and white to connection two, green and white to connection three and brown and white to connection four. Many Category 5 jacks are color-coded, making it easy to do. Some jacks require the use of a punch-down tool, while others require a flat or Phillips screwdriver to connect the wires to the jack.
Step 7
Connect the terminal side of the wiring block to the PBX services side, using either a cross-connect or Category 5 patch cable. The type of connection is dependent on the type of termination block. Analog phones use a single pair, digital phones use one or two pairs and IP phones use four pairs for connectivity.
Connect the phone into the new jack and test for connectivity.
Items you will need
- Flat and Phillips screwdriver
- Punch-down tool
- Category 5 cable
- Terminal block or patch panel
- Modular connectors and tool
- phone. image by Alexander Lukyanov from Fotolia.com