User's Manual
MC-Series System Installation & Testing
Datafill Parameters & Optimization Procedures
60 RadioFrame Networks, Inc.
6.3.7 cellPtiMax = 5 (B-Series)
The maximum power an MS is allowed to transmit in a particular cell. For Pico and Micro-Cell
applications in which the mobile subscribers are most likely near the antenna source, the MS can
transmit at a relatively low level. To conserve battery life, we recommend the lowest power
setting.
6.3.8 handoverClass
This parameter indicates for each neighbor cell, whether the neighbor cell should be considered
for handover. RFN recommends the following values for systems that are used within a building.
These values maximize the likelihood that the call will stay on the in-building system, thus
offloading the subscribers from any local macro cell.
a. macro neighbor in RFN list = 1
b. RFN on macro neighbor list = 3
c. RFN on RFN neighbor list = 2
It is also recommended that the RFN sectors isolated to upper floors of buildings do not contain
macros in their neighbor list.
6.3.9 reconnectionClass
Indicates for each neighbor cell, whether the cell should be considered for reconnection.
Reconnection is mobility management during a dispatch call. RFN recommends the following
values for systems that are used within a building. These values maximize the likelihood that the
call will stay on the in-building system, thus off-loading the subscribers from any local macro cell.
a. macro neighbor in RFN list = 1
b. RFN on macro neighbor list = 3
c. RFN on RFN neighbor list = 2
6.3.10 hdvrCINROutboundHysteresis = 8
The outbound C/I+N hysteresis, in dB, for evaluating handover candidates. This is a typical value.
6.3.11 hdvrCINRInboundThreshold = 19
The inbound C/I+N threshold, in dB, for handover and evaluating handover candidates. RFN
recommends this value for increasing the likelihood of the call staying within the RFN cell.
6.3.12 hdvrCINRInboundHysteresis = 8
The inbound C/I+N hysteresis, in dB, for evaluating handover candidates. This is a typical value.