2. Transforming Backhaul Networks to All-IP
High Speed Packet Transport
A combination of advanced features enables link speeds up to 2 Gbit/s from
a single compact unit.
Highest Nodal Packet Capacity
New Packet Plane accelerates nodal networking with 5 Gbit/s of packet-handling
capacity.
Enhancing Frequency Efficiency
Adaptive Coding and Modulation, XPIC, and optimized packet transmission drives
more throughput than ever before while also preserving valuable frequency resources.
Advanced IP Intelligence
Latest generation embedded Layer 2 Ethernet switch provides sophisticated
QoS controls and traffic monitoring
Native Mixed Mode Operation
Comprehensive hybrid support for Native Mixed Mode TDM+IP transport
enables smooth network migration
Key Convergence Features
Including network optimization, intelligent Pseudo wires and integration
synchronization transport.
Improved System Performance
The very latest in modem technology provides up to an additional 6dB of
system gain, compared to the standard Eclipse platform.
Manage Explosive Network Growth
Eclipse Packet Node is the industry-leading wireless
backhaul solution for 4G network evolution. Eclipse
Packet Node delivers a unique combination of scalable
high capacity packet transport, intelligent IP networking
and key convergence features.
Full-on 4G Backhaul EvolutionEclipse
02

3. System Parameters
Eclipse Packet Node supports the broadest range of frequency, capacity and modulation options of any other platform on the market, to
give network operators the maximum choice of solutions to fit their unique network needs.
With full compliance ETSI and ITU standards, while also being the first wireless transmission platform to meet both MEF 9 and 14
standards for Carrier Ethernet transport, Eclipse Packet Node is designed for superior operation anywhere in the world, in even the most
extreme of environmental conditions.
Eclipse Packet Node is built on the Eclipse Nodal Wireless platform, which has been providing advanced wireless backhaul since
its introduction in 2004. Eclipse has now been deployed in over 150 mobile backhaul networks worldwide, with proven superior
performance and reliability.
General
Operating Frequency Range 5 to 38 GHz
Throughput/Capacity Range Options Native Carrier Ethernet/IP 9 - 540 Mbit/s
Native TDM 1 - 100x E1
Modulation Options Fixed or Adaptive QPSK, 16, 64, 128, 256 QAM
Error Correction Fixed or Adaptive FEC, Reed Solomon Decoding
Adaptive Equalisation 24 tap T/2 equalizer
Standards Compliance
EMC Indoor Equipment EN 301 489-1, EN 301 489-4 (EN 55022 Class A)
Operation Outdoor Equipment ETS 300 019, Class 4.1
Operation Indoor Equipment ETS 300 019, Class 3.2
Safety IEC 60950-1/EN 60950-1
Radio Frequency EN 302 217-2-2
Environmental
Operating Temperature Indoor Equipment Guaranteed -5° to +45° C (23° to +113° F)
Extended [1]
-5° to +55° C (23° to +131° F)
Outdoor Equipment Guaranteed -33° to +55° C (-27° to +131° F)
Extended [1]
-50° to +65° C (-58° to +149° F)
Fault and Configuration Management
Protocol SNMP v2
Local/remote Configuration Tool Eclipse Portal
Element Management Harris Stratex Networks ProVision
Network Management Harris Stratex Networks NetBoss
Dispersive Fade Margin (DFM) Capacity Channel Modulation DFM (dB)
9-11 Mbit/s 7 MHz QPSK 75
18-23 Mbit/s 14 MHz QPSK 72
38-46 Mbit/s 28 MHz QPSK 67
75-92 Mbit/s 56 MHz QPSK 52
18-23 Mbit/s 7 MHz 16 QAM 75
38-46 Mbit/s 14 MHz 16 QAM 69
75-91 Mbit/s 28 MHz 16 QAM 55
148-185 Mbit/s 56 MHz 16 QAM 48
30-35 Mbit/s 7 MHz 64 QAM 67
60-69 Mbit/s 14 MHz 64 QAM 64
124-141 Mbit/s 28 MHz 64 QAM 50
246-290 Mbit/s 56 MHz 64 QAM 44
43-47 Mbit/s 7 MHz 256 QAM 65
84-93 Mbit/s 14 MHz 256 QAM 55
173-190 Mbit/s 28 MHz 256 QAM 46
345-382 Mbit/s 56 MHz 256 QAM 39
All specifications are typical values unless otherwise stated, and are subject to change without notice.
[1] Over full Extended Operating Temperature Eclipse may be subject to reduced performance. Contact Harris Stratex Networks for more details.
Eclipse Packet Node ETSI Datasheet
03

4. Data Throughput
Eclipse Packet Node supports high speed transport of native packet (Ethernet/IP) data, with hybrid support for TDM native
mixed mode data. The following table details the available data throughputs that are supported by RF channel size and modulation
step, both for packet and TDM data.
Throughput figures are shown for raw airlink capacity, and Layer 1 (L1) and Layer 2 (L2) data throughput. L1 throughput is the
Ethernet port speed (port utilization), while L2 throughput is a measure of Ethernet frame throughput, excluding the preamble and
IFG (usually determined using RFC 2544 testing).
Eclipse Packet Node employs Ethernet frame pre-suppression and compression to enable throughput performance that can
exceed the actual raw airlink capacity by nearly 50% for small Ethernet frame sizes.
Eclipse Packet Node also enables users to configure the radio link to support either maximum throughput, or maximum system
performance (refer to pages 6 and 7 for further details).
Airlink Capacity
L1 Throughput L2 Throughput
Max E1s[1]
7 MHz Channel Min Max Min Max
Maximum System Gain QPSK 9 Mbit/s 9 Mbit/s 13 Mbit/s 9 Mbit/s 10 Mbit/s 4
16 QAM 18 Mbit/s 18 Mbit/s 25 Mbit/s 18 Mbit/s 20 Mbit/s 9
64 QAM 30 Mbit/s 30 Mbit/s 42 Mbit/s 29 Mbit/s 32 Mbit/s 15
256 QAM 43 Mbit/s 43 Mbit/s 61 Mbit/s 42 Mbit/s 46 Mbit/s 21
Maximum Throughput QPSK 11 Mbit/s 11 Mbit/s 16 Mbit/s 11 Mbit/s 12 Mbit/s 6
16 QAM 23 Mbit/s 23 Mbit/s 32 Mbit/s 23 Mbit/s 25 Mbit/s 11
64 QAM 35 Mbit/s 35 Mbit/s 50 Mbit/s 34 Mbit/s 38 Mbit/s 17
256 QAM 47 Mbit/s 47 Mbit/s 67 Mbit/s 46 Mbit/s 51 Mbit/s 23
13.75/14 MHz Channel
Maximum System Gain QPSK 18 Mbit/s 18 Mbit/s 25 Mbit/s 18 Mbit/s 20 Mbit/s 9
16 QAM 38 Mbit/s 38 Mbit/s 54 Mbit/s 37 Mbit/s 41 Mbit/s 19
64 QAM 60 Mbit/s 60 Mbit/s 85 Mbit/s 59 Mbit/s 65 Mbit/s 29
256 QAM 84 Mbit/s 83 Mbit/s 119 Mbit/s 82 Mbit/s 91 Mbit/s 41
Maximum Throughput QPSK 23 Mbit/s 23 Mbit/s 32 Mbit/s 23 Mbit/s 25 Mbit/s 11
16 QAM 46 Mbit/s 46 Mbit/s 66 Mbit/s 45 Mbit/s 50 Mbit/s 23
64 QAM 69 Mbit/s 69 Mbit/s 98 Mbit/s 68 Mbit/s 74 Mbit/s 34
256 QAM 93 Mbit/s 93 Mbit/s 131 Mbit/s 91 Mbit/s 100 Mbit/s 46
27.5/28 MHz Channel
Maximum System Gain QPSK 38 Mbit/s 38 Mbit/s 54 Mbit/s 37 Mbit/s 41 Mbit/s 18
16 QAM 75 Mbit/s 74 Mbit/s 106 Mbit/s 74 Mbit/s 81 Mbit/s 37
64 QAM 124 Mbit/s 122 Mbit/s 175 Mbit/s 121 Mbit/s 133 Mbit/s 61
256 QAM 173 Mbit/s 171 Mbit/s 244 Mbit/s 170 Mbit/s 186 Mbit/s 85
Maximum Throughput QPSK 46 Mbit/s 46 Mbit/s 66 Mbit/s 45 Mbit/s 50 Mbit/s 22
16 QAM 91 Mbit/s 91 Mbit/s 128 Mbit/s 89 Mbit/s 98 Mbit/s 45
64 QAM 141 Mbit/s 139 Mbit/s 198 Mbit/s 138 Mbit/s 152 Mbit/s 69
256 QAM 190 Mbit/s 188 Mbit/s 268 Mbit/s 186 Mbit/s 204 Mbit/s 93
55/56 MHz Channel
Maximum System Gain QPSK 75 Mbit/s 74 Mbit/s 106 Mbit/s 74 Mbit/s 81 Mbit/s 36
16 QAM 148 Mbit/s 147 Mbit/s 208 Mbit/s 145 Mbit/s 159 Mbit/s 72
64 QAM 246 Mbit/s 243 Mbit/s 347 Mbit/s 240 Mbit/s 264 Mbit/s 100
256 QAM 345 Mbit/s 342 Mbit/s 488 Mbit/s 337 Mbit/s 371 Mbit/s 100
Maximum Throughput QPSK 92 Mbit/s 92 Mbit/s 129 Mbit/s 90 Mbit/s 99 Mbit/s 45
16 QAM 185 Mbit/s 183 Mbit/s 261 Mbit/s 181 Mbit/s 198 Mbit/s 91
64 QAM 290 Mbit/s 287 Mbit/s 410 Mbit/s 283 Mbit/s 312 Mbit/s 100
256 QAM 382 Mbit/s 379 Mbit/s 540 Mbit/s 374 Mbit/s 412 Mbit/s 100
All specifications are typical values unless otherwise stated, and are subject to change without notice.
[1] Enabling TDM transport will subtract equivalent capacity from available Ethernet Throughput figures shown.
Full-on 4G Backhaul EvolutionEclipse
04

5. Radio Access Cards (RAC)
RAC 60/RAC 6X
IF connector SMA[1]
IF interface Transmit 311 MHz, -8.0 to -12.0 dBm
Receive 126 MHz, -8 to -27 dBm
Packet Plane Interface, electrical Interfaces 1x 10/100/1000baseT
Connector RJ45
LED Indicators 2x Tri-state (‘Online’, ‘Status’)
ODUs supported ODU300hp, ep
Capacities supported 9 - 382 Mbit/s (Nx E1 + Ethernet)
Modulations supported Fixed and Adaptive Coding & Modulation QPSK, 16, 64, 256QAM
XPD Improvement RAC 6X only 20 dB
XPIC connectors RAC 6X only 2x SMB
Power consumption 12W
Dimensions (including front panel and rear con-
nector)
22mm (0.5RU) x 130mm (5.1in) x 268mm (10.6in)
Weight < 0.38 kg (0.84 lb)
Data Access Cards (DAC)
General
LED Indicators 1x Tri-state (‘Status’)
Power consumption (nominal) < 3W
Dimensions (including front panel and rear con-
nector)
22mm (0.5RU) x 130mm (5.1in) x 268mm (10.6in)
Weight (nominal) < 0.34 kg (0.74 lb)
Carrier Ethernet/IP
Backplane Transport channels 2
Throughput capacity, per channel 2 - 200 Mbit/s, 2 Mbit/s increments
155 or 311 Mbps
Ethernet Traffic Interface, electrical Interfaces 3x 10/100/1000baseT
Connectors 3x 8-pin RJ45
Ethernet Traffic Interface, optical Interfaces 1x optical IEEE 802.3z 1000BASE-LX
Connectors 1x LC (SFP)
Optical interface parameters Tx Output Center Wavelength, λc 1270 to 1355 nm
Tx Average Optical Output Power, Po -9.5 to -3 dBm
Rx Input Operating Center Wavelength, λc 1260 to 1610 nm
Rx Sensitivity, Pin -20 dBm
Rx Input Power Saturation, Pin -3 dBm
LED Indicators 1x Tri-state (‘Status’)
Ethernet Standards Compliance
Ethernet IEEE 802.3u
Framing IPv4 and IPv6, IEEE 802.3d
Flow Control IEEE 802.3x
VLAN IEEE 802.1q
QoS Port based, IEEE 802.1p, Diffserv (RFC 2474)
RMON RFC 1757
Frame sizes supported 64 - 9600 bytes
TDM (NxE1)
Interface, configurable DAC 4x Electrical 1 to 4x 2.048 Mbit/s (E1)
DAC 16x Electrical 1 to 16x 2.048 Mbit/s (E1)
Electrical interface parameters Standards Compliance E1 Compliant to ITU-T Rec. G.703, G.823
Line code E1 HDB3
Connectors DAC 4x RJ45
DAC 16x 48 pin mini-RJ21
Impedance E1 75Ω unbalanced or 120Ω balanced, configurable
All specifications are typical values unless otherwise stated, and are subject to change without notice.
[1] RAC Installation Kit includes 3 meter jumper cable, SMA to N-type.
Eclipse Packet Node ETSI Datasheet
05

6. RF Specifications - Maximum Throughput
For applications where data capacity is more important than system gain performance, Eclipse Packet Node provides flexibility for
the user to configure the link by software to support maximum data throughput in a given RF channel bandwidth and using
Adaptive Coding and Modulation (ACM).
Throughput is maximized by reducing the Error Correction overhead, allowing this bandwidth to be allocated to customer data
payload instead. The radio link will meet error performance objectives, including the specified minimum residual bit error rate,
but with a slightly lower receiver threshold.
System 5 GHz L6/U6 GHz 7/8 GHz 10 GHz 11 GHz 13 GHz 15 GHz 18 GHz 23 GHz 26 GHz 28 GHz 32 GHz 38 GHz
Frequency Range, GHz 4.4 - 5.0 5.925 - 6.425
6.425 - 7.11
7.125 - 7.9
7.725 - 8.5
10.0 - 10.68 10.7 - 11.7 12.75 - 13.25 14.4 - 15.35 17.7 - 19.7 21.2 - 23.632 24.52 - 26.483 27.5 - 29.5 31.8 - 33.4 37.0 - 39.46
System Gain [2]
System Gain 11 Mbit/s 7 MHz QPSK 125.0 dB 123.5 dB 123.5 dB 120.5 dB 118.5 dB 117.5 dB 116.5 dB 113.5 dB 113.5 dB 108.5 dB 107.0 dB 109.5 dB 109.0 dB
at 10-6
BER 23 Mbit/s 13.75 / 14 MHz QPSK 122.0 dB 120.5 dB 120.5 dB 117.5 dB 115.5 dB 114.5 dB 113.5 dB 110.5 dB 110.5 dB 105.5 dB 104.0 dB 106.5 dB 106.0 dB
23 Mbit/s 7 MHz 16QAM 113.0 dB 113.5 dB 113.5 dB 110.5 dB 108.5 dB 107.5 dB 106.5 dB 103.5 dB 103.5 dB 98.5 dB 97.0 dB 99.5 dB 99.0 dB
35 Mbit/s 7 MHz 64 QAM 107.0 dB 107.5 dB 107.5 dB 104.5 dB 102.5 dB 101.5 dB 100.5 dB 97.5 dB 97.5 dB 92.5 dB 91.0 dB 93.5 dB 93.0 dB
46 Mbit/s 27.5 / 28 MHz QPSK 119.0 dB 117.5 dB 117.5 dB 114.5 dB 112.5 dB 111.5 dB 110.5 dB 107.5 dB 107.5 dB 102.5 dB 101.0 dB 103.5 dB 103.0 dB
46 Mbit/s 13.75 / 14 MHz 16QAM 110.0 dB 110.5 dB 110.5 dB 107.5 dB 105.5 dB 104.5 dB 103.5 dB 100.5 dB 100.5 dB 95.5 dB 94.0 dB 96.5 dB 96.0 dB
47 Mbit/s 7 MHz 256 QAM 99.5 dB 100.0 dB 100.0 dB 97.0 dB 95.0 dB 94.0 dB 93.0 dB 90.0 dB 90.0 dB 85.0 dB 83.5 dB 86.0 dB 85.5 dB
69 Mbit/s 13.75 / 14 MHz 64 QAM 104.0 dB 104.5 dB 104.5 dB 101.5 dB 99.5 dB 98.5 dB 97.5 dB 94.5 dB 94.5 dB 89.5 dB 88.0 dB 90.5 dB 90.0 dB
91 Mbit/s 27.5 / 28 MHz 16QAM 106.5 dB 107.0 dB 107.0 dB 104.0 dB 102.0 dB 101.0 dB 100.0 dB 97.0 dB 97.0 dB 92.0 dB 90.5 dB 93.0 dB 92.5 dB
92 Mbit/s 55 / 56 MHz QPSK 116.0 dB 114.5 dB 114.5 dB 111.5 dB 109.5 dB 108.5 dB 107.5 dB 104.5 dB 104.5 dB 99.5 dB 98.0 dB 100.5 dB 100.0 dB
94 Mbit/s 13.75 / 14 MHz 256 QAM 96.5 dB 97.0 dB 97.0 dB 94.0 dB 92.0 dB 91.0 dB 90.0 dB 87.0 dB 87.0 dB 82.0 dB 80.5 dB 83.0 dB 82.5 dB
141 Mbit/s 27.5 / 28 MHz 64 QAM 101.0 dB 101.5 dB 101.5 dB 98.5 dB 96.5 dB 95.5 dB 94.5 dB 91.5 dB 91.5 dB 86.5 dB 85.0 dB 87.5 dB 87.0 dB
185 Mbit/s 55 / 56 MHz 16QAM 103.5 dB 104.0 dB 104.0 dB 101.0 dB 99.0 dB 98.0 dB 97.0 dB 94.0 dB 94.0 dB 89.0 dB 87.5 dB 90.0 dB 89.5 dB
190 Mbit/s 27.5 / 28 MHz 256 QAM 92.5 dB 93.0 dB 93.0 dB 90.0 dB 88.0 dB 87.0 dB 86.0 dB 83.0 dB 83.0 dB 78.0 dB 76.5 dB 79.0 dB 78.5 dB
290 Mbit/s 55 / 56 MHz 64 QAM 98.0 dB 98.5 dB 98.5 dB 95.5 dB 93.5 dB 92.5 dB 91.5 dB 88.5 dB 88.5 dB 83.5 dB 82.0 dB 84.5 dB 84.0 dB
382 Mbit/s 55 / 56 MHz 256 QAM 89.5 dB 90.0 dB 90.0 dB 87.0 dB 85.0 dB 84.0 dB 83.0 dB 80.0 dB 80.0 dB 75.0 dB 73.5 dB 76.0 dB 75.5 dB
Transmitter Specifications
Power Output, nominal QPSK 30.5 dBm 28.5 dBm 28.5 dBm 26.0 dBm 24.0 dBm 23.0 dBm 22.0 dBm 19.5 dBm 19.5 dBm 15.5 dBm 15.0 dBm 18.0 dBm 17.5 dBm
16 QAM 26.5 dBm 26.5 dBm 26.5 dBm 24.0 dBm 22.0 dBm 21.0 dBm 20.0 dBm 17.5 dBm 17.5 dBm 13.5 dBm 13.0 dBm 16.0 dBm 15.5 dBm
64 QAM 26.5 dBm 26.5 dBm 26.5 dBm 24.0 dBm 22.0 dBm 21.0 dBm 20.0 dBm 17.5 dBm 17.5 dBm 13.5 dBm 13.0 dBm 16.0 dBm 15.5 dBm
128 QAM 26.5 dBm 26.5 dBm 26.5 dBm 24.0 dBm 22.0 dBm 21.0 dBm 20.0 dBm 17.5 dBm 17.5 dBm 13.5 dBm 13.0 dBm 16.0 dBm 15.5 dBm
256 QAM 26.5 dBm 26.5 dBm 26.5 dBm 24.0 dBm 22.0 dBm 21.0 dBm 20.0 dBm 17.5 dBm 17.5 dBm 13.5 dBm 13.0 dBm 16.0 dBm 15.5 dBm
Receiver Specifications [2]
Threshold 11 Mbit/s 7 MHz QPSK -94.5 dBm -95.0 dBm -95.0 dBm -94.5 dBm -94.5 dBm -94.5 dBm -94.5 dBm -94.0 dBm -94.0 dBm -93.0 dBm -92.0 dBm -91.5 dBm -91.5 dBm
at 10-6
BER 23 Mbit/s 13.75 / 14 MHz QPSK -91.5 dBm -92.0 dBm -92.0 dBm -91.5 dBm -91.5 dBm -91.5 dBm -91.5 dBm -91.0 dBm -91.0 dBm -90.0 dBm -89.0 dBm -88.5 dBm -88.5 dBm
23 Mbit/s 7 MHz 16QAM -86.5 dBm -87.0 dBm -87.0 dBm -86.5 dBm -86.5 dBm -86.5 dBm -86.5 dBm -86.0 dBm -86.0 dBm -85.0 dBm -84.0 dBm -83.5 dBm -83.5 dBm
35 Mbit/s 7 MHz 64 QAM -80.5 dBm -81.0 dBm -81.0 dBm -80.5 dBm -80.5 dBm -80.5 dBm -80.5 dBm -80.0 dBm -80.0 dBm -79.0 dBm -78.0 dBm -77.5 dBm -77.5 dBm
46 Mbit/s 27.5 / 28 MHz QPSK -88.5 dBm -89.0 dBm -89.0 dBm -88.5 dBm -88.5 dBm -88.5 dBm -88.5 dBm -88.0 dBm -88.0 dBm -87.0 dBm -86.0 dBm -85.5 dBm -85.5 dBm
46 Mbit/s 13.75 / 14 MHz 16QAM -83.5 dBm -84.0 dBm -84.0 dBm -83.5 dBm -83.5 dBm -83.5 dBm -83.5 dBm -83.0 dBm -83.0 dBm -82.0 dBm -81.0 dBm -80.5 dBm -80.5 dBm
47 Mbit/s 7 MHz 256 QAM -73.0 dBm -73.5 dBm -73.5 dBm -73.0 dBm -73.0 dBm -73.0 dBm -73.0 dBm -72.5 dBm -72.5 dBm -71.5 dBm -70.5 dBm -70.0 dBm -70.0 dBm
69 Mbit/s 13.75 / 14 MHz 64 QAM -77.5 dBm -78.0 dBm -78.0 dBm -77.5 dBm -77.5 dBm -77.5 dBm -77.5 dBm -77.0 dBm -77.0 dBm -76.0 dBm -75.0 dBm -74.5 dBm -74.5 dBm
91 Mbit/s 27.5 / 28 MHz 16QAM -80.0 dBm -80.5 dBm -80.5 dBm -80.0 dBm -80.0 dBm -80.0 dBm -80.0 dBm -79.5 dBm -79.5 dBm -78.5 dBm -77.5 dBm -77.0 dBm -77.0 dBm
92 Mbit/s 55 / 56 MHz QPSK -85.5 dBm -86.0 dBm -86.0 dBm -85.5 dBm -85.5 dBm -85.5 dBm -85.5 dBm -85.0 dBm -85.0 dBm -84.0 dBm -83.0 dBm -82.5 dBm -82.5 dBm
94 Mbit/s 13.75 / 14 MHz 256 QAM -70.0 dBm -70.5 dBm -70.5 dBm -70.0 dBm -70.0 dBm -70.0 dBm -70.0 dBm -69.5 dBm -69.5 dBm -68.5 dBm -67.5 dBm -67.0 dBm -67.0 dBm
141 Mbit/s 27.5 / 28 MHz 64 QAM -74.5 dBm -75.0 dBm -75.0 dBm -74.5 dBm -74.5 dBm -74.5 dBm -74.5 dBm -74.0 dBm -74.0 dBm -73.0 dBm -72.0 dBm -71.5 dBm -71.5 dBm
185 Mbit/s 55 / 56 MHz 16QAM -77.0 dBm -77.5 dBm -77.5 dBm -77.0 dBm -77.0 dBm -77.0 dBm -77.0 dBm -76.5 dBm -76.5 dBm -75.5 dBm -74.5 dBm -74.0 dBm -74.0 dBm
190 Mbit/s 27.5 / 28 MHz 256 QAM -66.0 dBm -66.5 dBm -66.5 dBm -66.0 dBm -66.0 dBm -66.0 dBm -66.0 dBm -65.5 dBm -65.5 dBm -64.5 dBm -63.5 dBm -63.0 dBm -63.0 dBm
290 Mbit/s 55 / 56 MHz 64 QAM -71.5 dBm -72.0 dBm -72.0 dBm -71.5 dBm -71.5 dBm -71.5 dBm -71.5 dBm -71.0 dBm -71.0 dBm -70.0 dBm -69.0 dBm -68.5 dBm -68.5 dBm
382 Mbit/s 55 / 56 MHz 256 QAM -63.0 dBm -63.5 dBm -63.5 dBm -63.0 dBm -63.0 dBm -63.0 dBm -63.0 dBm -62.5 dBm -62.5 dBm -61.5 dBm -60.5 dBm -60.0 dBm -60.0 dBm
All specifications are referenced to the ODU antenna flange, and are typical values unless otherwise stated, and are subject to change without notice.
For Guaranteed values (over time and operational range) subtract 2 dB from Power Output, add 2dB to Threshold values, and subtract 4dB from System Gain values.
[1] 10GHz Power Output and System Gain specifications are reduced by 0.5dB, 0.5dB and 1.0dB respectively for 91MHz T-R option.
[2] System Gain & Rx Threshold values are for BER=10-6. Values for BER=10-3 are improved by 1dB.
Full-on 4G Backhaul EvolutionEclipse
06

7. Eclipse Packet Node ETSI Datasheet
RF Specifications - Maximum System Gain
For applications where additional system performance is required to meet error performance objectives over a particular path,
to extend the radio path distance, or to allow smaller antennas to be used to meet tower loading requirements, users can select
to configure the link for maximum system performance.
In this mode available payload throughput is slightly reduced to enable Error Correction can be enhanced, leading to improved
receiver threshold/system gain.
System 5 GHz L6/U6 GHz 7/8 GHz 10 GHz[1]
11 GHz 13 GHz 15 GHz 18 GHz 23 GHz 26 GHz 28 GHz 32 GHz 38 GHz
Frequency Range, GHz 4.4 - 5.0 5.925 - 6.425
6.425 - 7.11
7.125 - 7.9
7.725 - 8.5
10.0 - 10.68 10.7 - 11.7 12.75 - 13.25 14.4 - 15.35 17.7 - 19.7 21.2 - 23.632 24.52 - 26.483 27.5 - 29.5 31.8 - 33.4 37.0 - 39.46
System Gain [2]
System Gain 9 Mbit/s 7 MHz QPSK 127.5 dB 126.0 dB 126.0 dB 123.0 dB 121.0 dB 120.0 dB 119.0 dB 116.0 dB 116.0 dB 111.0 dB 109.5 dB 112.0 dB 111.5 dB
at 10-6
BER 18 Mbit/s 13.75 / 14 MHz QPSK 124.5 dB 123.0 dB 123.0 dB 120.0 dB 118.0 dB 117.0 dB 116.0 dB 113.0 dB 113.0 dB 108.0 dB 106.5 dB 109.0 dB 108.5 dB
18 Mbit/s 7 MHz 16QAM 117.3 dB 117.8 dB 117.8 dB 114.8 dB 112.8 dB 111.8 dB 110.8 dB 107.8 dB 107.8 dB 102.8 dB 101.3 dB 103.8 dB 103.3 dB
30 Mbit/s 7 MHz 64 QAM 110.3 dB 110.8 dB 110.8 dB 107.8 dB 105.8 dB 104.8 dB 103.8 dB 100.8 dB 100.8 dB 95.8 dB 94.3 dB 96.8 dB 96.3 dB
38 Mbit/s 27.5 / 28 MHz QPSK 121.5 dB 120.0 dB 120.0 dB 117.0 dB 115.0 dB 114.0 dB 113.0 dB 110.0 dB 110.0 dB 105.0 dB 103.5 dB 106.0 dB 105.5 dB
38 Mbit/s 13.75 / 14 MHz 16QAM 114.3 dB 114.8 dB 114.8 dB 111.8 dB 109.8 dB 108.8 dB 107.8 dB 104.8 dB 104.8 dB 99.8 dB 98.3 dB 100.8 dB 100.3 dB
43 Mbit/s 7 MHz 256 QAM 103.8 dB 104.3 dB 104.3 dB 101.3 dB 99.3 dB 98.3 dB 97.3 dB 94.3 dB 94.3 dB 89.3 dB 87.8 dB 90.3 dB 89.8 dB
60 Mbit/s 13.75 / 14 MHz 64 QAM 107.3 dB 107.8 dB 107.8 dB 104.8 dB 102.8 dB 101.8 dB 100.8 dB 97.8 dB 97.8 dB 92.8 dB 91.3 dB 93.8 dB 93.3 dB
75 Mbit/s 27.5 / 28 MHz 16QAM 114.5 dB 115.0 dB 115.0 dB 112.0 dB 110.0 dB 109.0 dB 108.0 dB 105.0 dB 105.0 dB 100.0 dB 98.5 dB 101.0 dB 100.5 dB
75 Mbit/s 55 / 56 MHz QPSK 115.0 dB 113.5 dB 113.5 dB 110.5 dB 108.5 dB 107.5 dB 106.5 dB 103.5 dB 103.5 dB 98.5 dB 97.0 dB 99.5 dB 99.0 dB
84 Mbit/s 13.75 / 14 MHz 256 QAM 100.8 dB 101.3 dB 101.3 dB 98.3 dB 96.3 dB 95.3 dB 94.3 dB 91.3 dB 91.3 dB 86.3 dB 84.8 dB 87.3 dB 86.8 dB
124 Mbit/s 27.5 / 28 MHz 64 QAM 104.3 dB 104.8 dB 104.8 dB 101.8 dB 99.8 dB 98.8 dB 97.8 dB 94.8 dB 94.8 dB 89.8 dB 88.3 dB 90.8 dB 90.3 dB
148 Mbit/s 55 / 56 MHz 16QAM 108.0 dB 108.5 dB 108.5 dB 105.5 dB 103.5 dB 102.5 dB 101.5 dB 98.5 dB 98.5 dB 93.5 dB 92.0 dB 94.5 dB 94.0 dB
173 Mbit/s 27.5 / 28 MHz 256 QAM 96.5 dB 97.0 dB 97.0 dB 94.0 dB 92.0 dB 91.0 dB 90.0 dB 87.0 dB 87.0 dB 82.0 dB 80.5 dB 83.0 dB 82.5 dB
246 Mbit/s 55 / 56 MHz 64 QAM 101.3 dB 101.8 dB 101.8 dB 98.8 dB 96.8 dB 95.8 dB 94.8 dB 91.8 dB 91.8 dB 86.8 dB 85.3 dB 87.8 dB 87.3 dB
345 Mbit/s 55 / 56 MHz 256 QAM 93.5 dB 94.0 dB 94.0 dB 91.0 dB 89.0 dB 88.0 dB 87.0 dB 84.0 dB 84.0 dB 79.0 dB 77.5 dB 80.0 dB 79.5 dB
Transmitter Specifications
Power Output, nominal QPSK 30.5 dBm 28.5 dBm 28.5 dBm 26.0 dBm 24.0 dBm 23.0 dBm 22.0 dBm 19.5 dBm 19.5 dBm 15.5 dBm 15.0 dBm 18.0 dBm 17.5 dBm
16 QAM 26.5 dBm 26.5 dBm 26.5 dBm 24.0 dBm 22.0 dBm 21.0 dBm 20.0 dBm 17.5 dBm 17.5 dBm 13.5 dBm 13.0 dBm 16.0 dBm 15.5 dBm
64 QAM 26.5 dBm 26.5 dBm 26.5 dBm 24.0 dBm 22.0 dBm 21.0 dBm 20.0 dBm 17.5 dBm 17.5 dBm 13.5 dBm 13.0 dBm 16.0 dBm 15.5 dBm
128 QAM 26.5 dBm 26.5 dBm 26.5 dBm 24.0 dBm 22.0 dBm 21.0 dBm 20.0 dBm 17.5 dBm 17.5 dBm 13.5 dBm 13.0 dBm 16.0 dBm 15.5 dBm
256 QAM 26.5 dBm 26.5 dBm 26.5 dBm 24.0 dBm 22.0 dBm 21.0 dBm 20.0 dBm 17.5 dBm 17.5 dBm 13.5 dBm 13.0 dBm 16.0 dBm 15.5 dBm
Receiver Specifications [2]
Threshold 9 Mbit/s 7 MHz QPSK -97.0 dBm -97.5 dBm -97.5 dBm -97.0 dBm -97.0 dBm -97.0 dBm -97.0 dBm -96.5 dBm -96.5 dBm -95.5 dBm -94.5 dBm -94.0 dBm -94.0 dBm
at 10-6
BER 18 Mbit/s 13.75 / 14 MHz QPSK -94.0 dBm -94.5 dBm -94.5 dBm -94.0 dBm -94.0 dBm -94.0 dBm -94.0 dBm -93.5 dBm -93.5 dBm -92.5 dBm -91.5 dBm -91.0 dBm -91.0 dBm
18 Mbit/s 7 MHz 16QAM -90.8 dBm -91.3 dBm -91.3 dBm -90.8 dBm -90.8 dBm -90.8 dBm -90.8 dBm -90.3 dBm -90.3 dBm -89.3 dBm -88.3 dBm -87.8 dBm -87.8 dBm
30 Mbit/s 7 MHz 64 QAM -83.8 dBm -84.3 dBm -84.3 dBm -83.8 dBm -83.8 dBm -83.8 dBm -83.8 dBm -83.3 dBm -83.3 dBm -82.3 dBm -81.3 dBm -80.8 dBm -80.8 dBm
38 Mbit/s 27.5 / 28 MHz QPSK -91.0 dBm -91.5 dBm -91.5 dBm -91.0 dBm -91.0 dBm -91.0 dBm -91.0 dBm -90.5 dBm -90.5 dBm -89.5 dBm -88.5 dBm -88.0 dBm -88.0 dBm
38 Mbit/s 13.75 / 14 MHz 16QAM -87.8 dBm -88.3 dBm -88.3 dBm -87.8 dBm -87.8 dBm -87.8 dBm -87.8 dBm -87.3 dBm -87.3 dBm -86.3 dBm -85.3 dBm -84.8 dBm -84.8 dBm
43 Mbit/s 7 MHz 256 QAM -77.3 dBm -77.8 dBm -77.8 dBm -77.3 dBm -77.3 dBm -77.3 dBm -77.3 dBm -76.8 dBm -76.8 dBm -75.8 dBm -74.8 dBm -74.3 dBm -74.3 dBm
60 Mbit/s 13.75 / 14 MHz 64 QAM -80.8 dBm -81.3 dBm -81.3 dBm -80.8 dBm -80.8 dBm -80.8 dBm -80.8 dBm -80.3 dBm -80.3 dBm -79.3 dBm -78.3 dBm -77.8 dBm -77.8 dBm
75 Mbit/s 27.5 / 28 MHz 16QAM -88.0 dBm -88.5 dBm -88.5 dBm -88.0 dBm -88.0 dBm -88.0 dBm -88.0 dBm -87.5 dBm -87.5 dBm -86.5 dBm -85.5 dBm -85.0 dBm -85.0 dBm
75 Mbit/s 55 / 56 MHz QPSK -84.5 dBm -85.0 dBm -85.0 dBm -84.5 dBm -84.5 dBm -84.5 dBm -84.5 dBm -84.0 dBm -84.0 dBm -83.0 dBm -82.0 dBm -81.5 dBm -81.5 dBm
84 Mbit/s 13.75 / 14 MHz 256 QAM -74.3 dBm -74.8 dBm -74.8 dBm -74.3 dBm -74.3 dBm -74.3 dBm -74.3 dBm -73.8 dBm -73.8 dBm -72.8 dBm -71.8 dBm -71.3 dBm -71.3 dBm
124 Mbit/s 27.5 / 28 MHz 64 QAM -77.8 dBm -78.3 dBm -78.3 dBm -77.8 dBm -77.8 dBm -77.8 dBm -77.8 dBm -77.3 dBm -77.3 dBm -76.3 dBm -75.3 dBm -74.8 dBm -74.8 dBm
148 Mbit/s 55 / 56 MHz 16QAM -81.5 dBm -82.0 dBm -82.0 dBm -81.5 dBm -81.5 dBm -81.5 dBm -81.5 dBm -81.0 dBm -81.0 dBm -80.0 dBm -79.0 dBm -78.5 dBm -78.5 dBm
173 Mbit/s 27.5 / 28 MHz 256 QAM -70.0 dBm -70.5 dBm -70.5 dBm -70.0 dBm -70.0 dBm -70.0 dBm -70.0 dBm -69.5 dBm -69.5 dBm -68.5 dBm -67.5 dBm -67.0 dBm -67.0 dBm
246 Mbit/s 55 / 56 MHz 64 QAM -74.8 dBm -75.3 dBm -75.3 dBm -74.8 dBm -74.8 dBm -74.8 dBm -74.8 dBm -74.3 dBm -74.3 dBm -73.3 dBm -72.3 dBm -71.8 dBm -71.8 dBm
345 Mbit/s 55 / 56 MHz 256 QAM -67.0 dBm -67.5 dBm -67.5 dBm -67.0 dBm -67.0 dBm -67.0 dBm -67.0 dBm -66.5 dBm -66.5 dBm -65.5 dBm -64.5 dBm -64.0 dBm -64.0 dBm
All specifications are referenced to the ODU antenna flange, and are typical values unless otherwise stated, and are subject to change without notice.
For Guaranteed values (over time and operational range) subtract 2 dB from Power Output, add 2dB to Threshold values, and subtract 4dB from System Gain values.
[1] 10GHz Transmitter Power Output, Receiver Threshold and System Gain specifications are reduced by 0.5dB, 0.5dB and 1.0dB respectively for 91MHz T-R option.
[2] System Gain and Rx Threshold values are for BER=10-6
. Values for BER=10-3
are improved by 1dB.
07

8. Harris Stratex Networks is a trademark or registered trademark of Harris Stratex
Networks Operating Corporation, a wholly owned subsidiary of Harris Stratex
Networks, Inc. and/or its subsidiaries in the United States and other countries.
© Harris Stratex Networks, Inc. 2009
Data subject to change without notice.
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