English
Language : 

E6719J Datasheet, PDF (13/16 Pages) Keysight Technologies – E6706G 1xEV-DO Lab Application
13 | Keysight | E6706G 1xEV-DO Lab Application - Technical Overview
1xEV-DO enhanced multi-flow packet application
Enhanced multi-flow packet application
Protocol stack
1xEV-DO Release A only
Enhanced multi-flow packet applica- Allows the test set to emulate a complete data network
tion operation
by providing transparent connectivity to a 1xEV-DO AT. In
EMPA the test set supports multiple IP flows in both the
forward and reverse links with RoHC and quality of service.
Requires that the test be connected to a external servers
(SIP and application) via the rear panel LAN connector
Air interface support
Supports all physical layer subtype 2 parameters and
functionality
IP flows
Supports up to 16 forward and reverse IP flows
RLP flows
Supports 5 forward RLP flows and 5 reverse RLP flows
RTC MAC subtype 3 flows
Supports 4 user-configurable RTCMAC subtype 3 flows
Forward mapping rule parameters For each of the 6 user-configurable mapping rules: User
settable profile ID (hex input), RLP flow mapping (RLP flow
0 through 4), reservation idle state behavior (no change,
close with connection, or follow connection), and AN sched-
uler priority (0 through 7 with 0 being the lowest priority)
Reverse mapping rule parameters
For each of the 6 user-configurable mapping rules: User
settable profile ID (hex input), RLP flow mapping (RLP flow 0
through 4), and reservation idle state behavior (no change,
close with connection, or follow connection)
Forward link flow parameters
For each of the 5 RLP flows: EMPA NAK enable (On or
Off), EMPA abort timer (ms), EMPA flush timer (ms), EMPA
sequence length (6, 14, or 22 bits), EMPA data configuration
(HDLC framing, packet/octet, or packet/packet), EMPA out
of order delivery allowed (Off or On)
Reverse link flow parameters
For each of the 5 RLP flows: EMPA NAK enable (On or Off),
EMPA physical layer NAK enable (On or Off), EMPA transmit
abort timer specified state (not specified or specified), EMPA
transmit abort timer (ms), EMPA abort timer (ms), EMPA
flush timer (ms), EMPA sequence length (6, 14, or 22 bits),
EMPA data configuration (HDLC framing, packet/octet,
or packet/packet), EMPA RTC MAC flow mapping (flows 1
through 4), and EMPA data over signaling allowed (On or Off)
Robust header compression (RoHC) Supports for forward link flows 2, 3, and 4: Max CID, large
CID state, maximum reconstructed reception unit (MRRU),
profile count, profile 1, profile 2, profile 3
Data throughput monitor
Session application
pre-configurations
Supports for reverse link flows 2, 3, and 4: ROHC mode
(O-Mode, R-Mode, or U-Mode), max CID, large CID state,
maximum reconstructed reception unit (MRRU), timer based
compression state, profile count, profile 1, profile 2
Supports four user-definable data throughput monitor
(DTM) contexts in both the forward and reverse links that
can be assigned to any of the mapping rules. Each context
appears on the data throughput monitor as a trace allowing
analysis of data throughput for a specific IP flow
Supports five pre-configurations that set all related EMPA
parameters of specific applications: Preset values (return
to power-up state), IS-856 protocol default values, EMPA
maximum throughput best effort with video telephony
at 64 kbps, EMPA best effort with video telephony at
64 kbps, and EMPA VoIP