Polycom H340 User Manual

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Deploying SpectraLink e340, h340 and i640 Wireless Telephones

BEST PRACTICES GUIDE

October 2010

server failure, the wireless telephone system will be disrupted. To minimize downtime related to a failed master SVP

Server or a single server, it is recommended that a spare SVP Server be readily available. The network administrator

can assign the IP address of the failed unit to the replacement SVP Server. Alternatively the number of SVP servers

can be scaled to ensure that if one or more SVP servers fail that all handsets can be allocated to the remaining SVP

servers. This will require that sufficient alias IP addresses be made available on all SVP servers to support the

allocation of additional handsets to the remaining SVP Servers.

More recent installations with multiple SVP Servers (SVP code ≥ 17x.033) use the “SVP Self Healing” feature and do

not use the Master/Slave concepts of earlier versions. There is, however, a designated primary SVP Server, called

the Registration SVP Server, that has its IP Address defined either statically in the Wireless Telephone network

configuration or acquired from DHCP option 151, thus allowing the Wireless Telephone to initially check-in to the

telephone system.

Updated handset firmware is required to take full advantage of SVP Self-Healing functionality. See Table 3 for the

firmware revisions where SVP Self-Healing functionality was first introduced.

SVP ≥ 17x.033 with

Handset model

Handset code

Avaya

3616/3620/3626

≥ 96.051

NEC

MH110/120/140

≥102.022

Nortel

2210/2211/2212

≥ 97.071

SIP

e340/h340/i640

≥ 108.011

Table 3 – Handset Code Versions That Support SVP Self-Healing

The SVP Server acts as a proxy for the handset by sending and receiving packets to/from the call server or PBX. In

some IP implementations, the SVP Server also performs Network Address Translation (NAT) for the handset. The

main functions for the SVP Server to perform are indicated in Table 4.

Function

SVP Server 1 (Registration)

SVP Server 2

Manage handsets

Proxy between voice platform and

handset

Proxy between voice platform and

handset

Send/receives all packets to/from

handset

Send/receives all packets to/from

handset

Considered ‘home’ SVP Server

Considered ‘home’ SVP Server

Manage voice packet

delivery by the AP

Limit maximum handsets in-call per

AP (static number entered by

administrator)

Limit maximum handsets in-call per

AP (static number entered by

administrator)

Receive packets from the ‘home’

SVP Server and forward to handset

though currently associated AP

Receive packets from the ‘home’

SVP Server and forward to handset

though currently associated AP

Table 4 – SVP Server Functions

The process by which the handset is able to get onto the network and register with the SVP Server and telephony

platform is a handshake process which requires multiple steps. Figure 5 is a reference followed diagram by the step

by step description of the handset and SVP Server packet handshake.