User's Manual
Table Of Contents
- 1.1 Purpose
- 1.4 Referenced Documentation
- 2.1 MicroMAX Frequency Ranges
- 2.2 System Components
- 2.3 Customer Benefits
- 2.4 Architecture
- 2.5 Power
- 2.6 Models
- 3.1 Package Contents
- 3.2 Required Tools
- 3.3 Radio Site Planning
- 4.1 MicroMAX BSR
- 4.2 SDA-4S Type II
- 4.3 SDA-4SDC Type II
- 5.1 Physical Dimensions
- 5.2 Ports
- 6.1 Physical Dimensions
- 6.2 Ports
- 6.3 LEDs
- 6.4 Mounting the GPSD
- 6.5 GPSD Architecture
- 7.1 Physical Dimensions
- 7.2 Ports
- 7.3 Crimping GPS Cable
- 7.4 Contact Socket Crimping
- 8.2 Redundant PS Unit
- 9.1 Pole-Mounting the BSR
- 9.2 Wall-Mounting the BSR (Optional)
- 9.3 Installing the SDA-4S
- 10.1 Desktop mounting
- 10.2 Rack mounting
- 12.1 Rack Mounting
- 12.2 Connecting Redundant PS Unit
- 13.1 Connecting the BSR to the SDA-4S
- 13.2 SDA-4S Type II
- 13.3 Connecting the BSR to BSDU
- 13.4 Connecting BSDU to Network
- 13.5 Connecting BSDUs
- 13.6 Connecting BSDU for SNMP Management
- 14.1 Connecting the SDA-4S Type II
- 14.2 Connecting the SDA-4SDC Type II
- 14.3 Connecting SDA-4S to Ethernet Network
- 15.1 Housing the Connectors
- 15.2 Connecting to the SDA-4SDC
- 16.1 Connections
- 16.2 Power Cable Assembly
- 16.3 Housing the Connectors
- 16.4 Cable Connection
- 17.1 Lightning Protection
- 17.2 Cable Preparation (for grounding)
- 17.3 FM Interference & ESD Protection Recommendations
- 17.4 Connecting Lightning and Surge Protector
- 17.5 Lightning and Surge Protection Connection Scenarios
- 18.1 Connecting GPS Antenna to BSDU
- 19.1 Environmental
- 19.2 Glossary of Terms
- 19.3 Revision History
- 19.4 Contact Information
MicroMAX Hardware Installation User Guide
Page 99 Commercial in Confidence UWB-D00068 Rev J
NRTP
Non real time polling is similar to real time polling but is used to
request uplink bandwidth less regularly
O&M
Operations and maintenance
ODU
Outdoor unit associated with a ST
OFDM
Orthogonal frequency division multiplexing
PHY
The physical layer associated with the WiMAX interconnection stack
PMP
Point to multipoint radio systems architecture
PoE
Point to point protocol over Ethernet
PtP
Point to point radio systems architecture
QoS
Quality of service, which is used to specify level of data throughput
REC
Radio equipment controller
RTP
Real time polling allows a service flow to request uplink bandwidth at
regular intervals
Rx
Receiver
SDMA
Space division multiple access is a technique which makes it
possible to increase the capacity of a cellular mobile radio system by
taking advantage of spatial separation between users
SDR
Software defined radio
SF
Service flow
SFTP
Shielded Foiled Twisted Pair (cable type)
SME
Small to medium sized enterprise
SNMP
Simple network management protocol
SNR
Signal to noise
SOFDMA
Scalable orthogonal frequency division multiplexing
SoHo
Small office/home office
SS
Subscriber station (interchangeable with CPE or ST)
ST
Subscriber terminal (interchangeable with CPE or SS)
STC
Space time coding
T1
North American standard 1.56Mb/s pulse code modulated
transmission link
TDD
Time division duplex
TDM
Time division multiplexing
Tx
Transmitter
UCD
Uplink channel descriptor
UGS
Unsolicited grant service used to provide fixed bandwidth slots on the
uplink for an ST to transmit data at regular intervals. The bandwidth
should be used by the UGS SF, however the final decision of which
SF (if any) uses the bandwidth slot is made by the ST.
VoIP
Voice ove
r Internet protocol