proteus mx front etsi 1110 - · pdf filethe proteus mx is designed for applications requiring...
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Proteus MXETSI
www.MicrowaveNetworks.com
Native E1 and IP Hybrid Transport Radio6 to 38 GHz8 to 350 Mbps
Proteus MXETSI
www.MicrowaveNetworks.com
The convergence of voice, data, and video networks is quickly changing the wireless telecommunications landscape. Network operators must protect existing infrastructure investments while quickly moving to provide more capacity and new IP based services. The need to deliver substantial cost savings and scalable architecture has never been greater. Microwave Networks is ready to extend your core infrastructure investments, reduce costs, and simplify operations with our unique point-to-point microwave radio products.
The Proteus MX is MNI’s next generation Ethernet/TDM Hybrid backhaul radio. Designed for capacities up to 350 Mbps, it o�ers carrier-class Ethernet and TDM in a single, feature rich and extremely �exible platform allowing easy and cost e�ective migration from legacy networks to Gigabit Ethernet.
The unique combination of integrated add/drop mux, E1 loop protection, and comprehensive data grooming along with the use of Adaptive Code Modulation (ACM) to increase throughput while protecting critical tra�c sets Proteus MX apart from other radios. Whether you’re keeping pace with growing tra�c demands or regularly recon�guring radio-link payload for new services, the Proteus MX is speci�cally designed to adapt to your needs at the lowest cost of ownership.
The Proteus MX is designed for applications requiring extreme reliability and features 100% redundancy of all tra�c and overhead channels with automatic switchover. This makes it the perfect choice for Public Safety and Utility networks where critical tra�c must be maintained, as well as for Mobile Carriers, Wireless Broadband, Railroad, and Enterprise LANs and WANs.
Intelligent Bandwidth for Evolving Networks
Proteus MXETSI
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Integrated Tra�c Management
● Dynamic Payload MappingTM suite of features:
Integrated add/drop mux from E3.
Self-healing E1-level loop protection and Rapid Ethernet Ring Protection for ring network topologies.
Detailed tra�c routing and cross-connect across the hop and between co-located terminals at a node. Reallocate payload among interface types as needed.
● MicrobusTM interface simplies connections and reduces expense at repeater and nodal sites.
Only dropped tributaries need to be terminated.
The remaining payload is passed between terminals using the MicrobusTM high-speed serial interface and a standard Cat-5 cable.
TDM and IP Convergence
● Native Gigabit Ethernet is combined with native TDM (E1, E3, STM-1) on the same hardware platform.
● Software-selected bandwidth, modulation, capacity, channel frequency, and output power. Increase capacity through software license upgrade w/o hardware changes.
● Reallocate payload among interface types as needed to accommodate changing tra�c patterns.
● Adaptive Code Modulation (ACM) can be con�gured to maintain critical tra�c during adverse path conditions while operating at a signi�cantly higher throughput under normal conditions.
● VLAN using IEEE 802.1p & 802.1Q for Tra�c Class priorities (QoS), port-based and tag-based VLAN.
● MPLS and LTE compatible.
With Proteus MX, migrating from existing TDM to new IP-based networks and services including 4G/LTE is simple, convenient, and economical. The unique combinations of native TDM and native IP con�gurations are the most comprehensive in the industry on a single radio platform. Proteus MX’s unmatched tra�c management features combined with software-based con�guration and upgrades gives network providers the needed control over how and when to make the transition and maximize the return on their investment.
LTE Migration
Reliability and Management
● Errorless diversity switching protection options including.
● Complete hot-standby protection; 100% redundancy of all active components.
● Removable license card retains terminal con�guration during changeovers.
● Secure Network Management with SNMPv3.
● Built-in chart recorder for real-time diagnostics and link performance monitoring.
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Data Line Interface 32xE1 (64-pin Telco) ; 4xE3 (75-ohm BNC) ; 155 Mbps (optical LC; SM or MM)Gigabit Ethernet 2 x 10/100/1000 BaseT Gigabit Ethernet portsFEC & Coding Reed Solomon FEC; Low Density Parity Check (LDPC) codingAuxiliary Interfaces Digital Engineering Orderwire Integrated Digital or External RS-422 Digital O/W; 2 x RJ-45 jacks for daisy chain/external connection Auxiliary Data Channels 2 x RS-232 up to 19.2 kbps async; 1 x RS-422 at 64 kbps async (not available if EOW configured) Relay Alarm Outputs 4 x Form-C relays, NO & NC contacts, (software mapped) External Inputs 6 x TTL floating inputsConfiguration Memory Removable SD FLASH memory card (store link/terminal data)Dimensions (h x w x d) 4.5 cm x 48.2 cm. x 34.0 cm (2RU)Weight 4.4 kg.Temperature -5° C to +50° C)Humidity Up to 95% non-condensingInput Power +/- 19 to +/- 60 volts DC
Signal Processing Unit (SPU)
All-indoor RFSplit-mount RF6, 7, 8, and 11 GHzAll indoor rack mounted17.78 cm. x 48.26 cm. x 29.21 cm. (4RU)21.36 kg.
-5° C to +50° C
95% (no condensation)4,500 m.
Remote mount with elliptical waveguide;CMR-137F (6G); UG-51/U (7/8G); UG-39/U (11G)
6, 7, 8, 11, 13, 15, 18, 23, 26 and 38 GHzSplit-mount; SPU inside / ODU outside26 cm. diameter; 15 cm. deep4.9 kg.
-33° C to +55° C-55° C to +55° CUp to 100%4,500 m.TNC female (SPU); N-type female (ODU)Times LMR-400 or RG-8A/U equivalent; 50 Ohms275 meters using LMR-400IDU to ODU - 350 MHz; ODU to IDU - 140 MHz30, 45, 60, 90, 120, 180Integrated push-fit or remote mounting
FrequenciesConfigurationDimensionsWeightTemperature Full Performance OperationalHumidityAltitudeSPU to ODU InterfaceRecommended CableMax. SPU to ODU distanceIntermediate FrequenciesAntenna Diameters (cm.)Antenna Connection Options
RF Unit and Antenna
T/R Spacing (MHz) All ETSI, FCC, and ITU spacings 154, 160, 161, 196 119, 126, 208, 266, 311.32 490, 530 266 315, 420, 475, 490, 640, 644, 728 1008, 1010, 1560 1008, 1200, 1232 800, 1008 700, 1260+/- 10 ppm (.001 %)-20 dBm for < 10-6 BERBetter than 10-12
Manual or Automatic, -4 dBm to Max.Split-mount: 80 W non-protect, 166 W protected All-indoor: 180 W non-protect, 360 W protected
Operating Frequencies 5.925 - 7.125 GHz 7.125 - 7.900 GHz 7.900 - 8.500 GHz 10.70 - 11.70 GHz 12.75 - 13.25 GHz 14.40 - 15.35 GHz 17.70 - 19.70 GHz 21.20 - 23.60 GHz 24.20 - 26.50 GHz 37.00 - 40.00 GHzFrequency StabilityRX overloadResidual BEROutput Power ControlPower Consumption (max.)
System Specifications
Proteus MXETSI
* All speci�cations are subject to change without notice
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Safety EN 60950EMI/EMC EN 301 489; EN 300 385RF EN 302 217-2Power Supply EN 300 132-2Storage ETS 300 019-1-1 (Class 1.1E)Transport ETS 300 019-1-2 (Class 2.1E)Environmental - SPU ETS 300 019-1-3 (Class 3.1E)
Standards Compliance
Protocol SNMPv3 (supports SNMP v1 and v2)Element Manager (EM) Java based management software from MNI; access radio through any local/remote management NMS Interface 2 x RJ-45; 10/100 BaseT; for access and bridgingCommand Line Interface RS-232 serial DB-9; for local VT-100 type interface or TELNET accessModem (PPP) RS-232 serial DB9; for dial-up accessManagement IP Routing RIP2 and OSPF dynamic routing or static route mapsNMS Compatibility OpenViewTM, NetViewTM, SNMPcTM, or other SNMP-based NMS; Motorola MOSCAD
Management
Proteus MXETSI
Additional Branching Loss
Split Mount All-Indoor Primary Standby Primary Standby
Hot-Standby Transmitter 1.9 dB 6.5 dB 0.0 dB 1.0 dB Receiver 1.9 dB 6.5 dB 0.5 dB 10.5 dB
Space Diversity Transmitter 0.0 dB 0.0 dB 0.0 dB 1.0 dB Receiver 0.0 dB 0.0 dB 0.0 dB 0.0 dB
Hot-Standby Protected SPU (2 RU)
* All speci�cations are subject to change without notice
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Proteus MXETSI
4 QAM
16xE11xE3
33.5
-88.0-88.0-86.0
32.032.030.0
120.0120.0116.0
67.0
4 QAM
20x11E3+4E1
42.8
-85.5-85.5-83.5
32.032.030.0
117.5117.5113.5
67.0
16 QAM
24xE11E3+8E1
52.3
-84.0-84.0-82.0
32.032.031.0
116.0116.0112.0
62.0
16 QAM
28xE11E3+12E1
60.6
-83.5-83.5-81.5
32.032.031.0
115.5115.5111.5
61.5
16 QAM
32xE12xE3
68.9
-82.5-82.5-80.5
32.032.030.0
114.5114.5110.5
61.0
16 QAM
38xE12E3+6E1
81.4
-80.5-80.5-78.5
32.032.030.0
112.5112.5108.5
61.0
32 QAM
48xE13xE3
102.9
-77.0-77.0-75.0
32.032.030.0
109.0109.0105.0
56.5
32 QAM
54xE13E3+6E1
115.7
-74.5-74.5-72.5
32.032.030.0
106.5106.5102.5
56.5
Modulation
Maximum Data Configurations1
E1 only 2
E3 + E1 STM-1 Ethernet Only (Mbps) 3
RX Threshold (10-6 BER) (dBm) 6 GHz 7, 8 GHz 11 GHzTX Power (dBm) 6 GHz 7, 8 GHz 11 GHz System Gain (10-6 BER) (dB) 6 GHz 7, 8 GHz 11 GHzDispersive Fade Margin (10-6 BER) (dB)
Emission Designator
64 QAM
64xE14xE3
137.2
-71.5-71.5-69.5
32.032.030.0
103.5103.599.5
52.0
128 QAM
72xE14E3+8E11xSTM-1
155.6
-70.5-70.5-68.5
32.032.030.0
102.5102.598.5
49.5
128 QAM
76xE14E3+12E1STM1+2E1
163.5
-68.5-68.5-66.5
32.032.030.0
100.5100.596.5
49.0
28M0D7W
28 MHz
256 QAM
86xE14E3+22E1
STM1+12E1180.8
-65.0-65.0-63.0
29.029.027.0
94.094.090.0
43.0
System SpecificationsThe table below indicates Transmitter and Receiver specifications grouped by channel bandwidth and capacity. For each configuration the radio can operate in different combinations of E1, E3, STM-1, and Ethernet up to the maximum data throughput indicated. The maximum equivalent for each interface type and combination is shown as a reference.
Note: Specifications represent non-protected configurations intended for preliminary network planning and may change without notice. Improvements may be attained depending on actual project requirements. 1. Not all variations of quantity and type of data are shown. Any combination is allowed as long as total capacity does not exceed the maximum data throughput. Contact MNI for more information. 2. The total number of E1s that can be transported across the link is shown. However, the actual number of E1s that can be dropped at a site is limited to the physical interfaces available at the SPU. 3. Empty bytes between packets and within the IP header are removed to achieve a type of compression. The values shown indicate the minimum Ethernet throughput that can be achieved when all packet sizes = 1518 bytes. Maximum throughput occurs with 64 byte packets and is 18% greater than shown.
Rev. 11/10
All-Indoor Configurations3.5 MHz 7 MHz
16 QAM
4xE1
8.2
-89.0-89.0-87.0
32.032.030.0
121.0121.0117.0
70.5
64 QAM
8xE1
16.5
-80.0-80.0-78.0
32.032.030.0
112.0112.0108.0
61.5
4 QAM
4xE1
8.3
-92.5-92.5-90.5
32.032.030.0
124.5124.5120.5
73.5
16 QAM
8xE1
16.7
-87.0-87.0-85.0
32.032.030.0
119.0119.0115.0
67.5
32 QAM
12xE1
25.0
-83.0-83.0-81.0
32.032.030.0
115.0115.0111.0
63.0
128 QAM
16xE11xE334.0
-76.5-76.5-74.5
32.032.030.0
108.5108.5104.5
56.0
256 QAM
20xES11E3+4E1
41.9
-71.5-71.5-69.5
29.029.027.0
100.5100.596.5
49.5
4 QAM
8xE1
16.7
-90.0-90.0-88.0
32.032.030.0
122.0122.0118.0
70.0
Modulation
Maximum Data Configurations1
E1 only 2
E3 + E1 Ethernet Only (Mbps) 3
RX Threshold (10-6 BER) (dBm) 6 GHz 7, 8 GHz 11 GHzTX Power (dBm) 6 GHz 7, 8 GHz 11 GHz System Gain (10-6 BER) (dB) 6 GHz 7, 8 GHz 11 GHzDispersive Fade Margin (10-6 BER) (dB)
Emission Designator
16 QAM
16xE11xE334.4
-84.5-84.5-82.5
32.032.030.0
116.5116.5112.5
64.5
16 QAM
20xE11E3+4E1
42.2
-81.5-81.5-79.5
32.032.030.0
113.5113.5109.5
64.5
32 QAM
24xDS11E3+8E1
50.6
-80.5-80.5-78.5
32.032.030.0
112.5112.5108.5
60.0
64 QAM
28xE11E3+12E1
58.8
-77.5-77.5-75.5
32.032.030.0
109.5109.5105.5
55.0
64 QAM
32xE12xE368.9
-73.5-73.5-71.5
32.032.030.0
105.5105.5101.5
55.0
128 QAM
36x12E3+4E1
77.1
-71.0-71.0-69.0
32.032.030.0
103.0103.099.0
53.0
256 QAM
42xE12E3+10E1
90.0
-67.5-67.5-65.5
29.029.027.0
96.596.592.5
46.0
3M50D7W 7M00D7W 14M0D7W
14 MHz
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Proteus MXETSI
System SpecificationsThe table below indicates Transmitter and Receiver specifications grouped by channel bandwidth and capacity. For each configuration the radio can operate in different combinations of E1, E3, STM-1, and Ethernet up to the maximum data throughput indicated. The maximum equivalent for each interface type and combination is shown as a reference.
Note: Specifications represent non-protected configurations intended for preliminary network planning and may change without notice. Improvements may be attained depending on actual project requirements. 1. Not all variations of quantity and type of data are shown. Any combination is allowed as long as total capacity does not exceed the maximum data throughput. Contact MNI for more information. 2. The total number of E1s that can be transported across the link is shown. However, the actual number of E1s that can be dropped at a site is limited to the physical interfaces available at the SPU. 3. Empty bytes between packets and within the IP header are removed to achieve a type of compression. The values shown indicate the minimum Ethernet throughput that can be achieved when all packet sizes = 1518 bytes. Maximum throughput occurs with 64 byte packets and is 18% greater than shown.
Split-Mount Configurations3.5 MHz 7 MHz
16 QAM
4xE1
8.2
-89.0-89.0-89.5-89.5
--------
24.0 / 27.021.0 / 24.020.0 / 23.019.0 / 22.0
--------
113.0 / 116.0110.0 / 113.0109.5 / 112.5108.5 / 111.5
--------
70.5
4 QAM
4xE1
8.3
-92.0-90.5-93.0-93.0-92.5-92.5-92.5-89.5
25.0 / 28.025.0 / 28.024.0 / 27.023.0 / 26.021.0 / 24.021.0 / 24.020.0 / 23.018.0 / 21.0
117.0 / 120.0115.5 / 118.5117.0 / 120.0116.0 / 119.0113.5 / 116.5113.5 / 116.5112.5 / 115.5107.5 / 110.5
73.5
16 QAM
8xE1
16.7
-87.0-87.0-87.5-87.5-87.0-87.0-87.0-86.0
24.0 / 27.021.0 / 24.020.0 / 23.019.0 / 22.018.0 / 21.017.0 / 20.016.0 / 19.014.0 / 17.0
111.0 / 114.0108.0 / 111.0107.5 / 110.5106.5 / 109.5105.0 / 108.0104.0 / 107.0103.0 / 106.0100.0 / 103.0
67.5
32 QAM
12xE1
25.1
-83.0-83.0-83.5-83.5
--------
22.0 / 25.020.0 / 23.019.0 / 22.019.0 / 22.0
--------
105.0 / 108.0103.0 / 106.0102.5 / 105.5102.5 / 105.5
--------
63.0
4 QAM
8xE1
16.7
-90.0-90.0-90.5-90.5-90.0-90.0-90.0-87.0
25.0 / 28.025.0 / 28.024.0 / 27.023.0 / 26.021.0 / 24.021.0 / 24.020.0 / 23.018.0 / 21.0
115.0 / 118.0115.0 / 118.0114.5 / 117.5113.5 / 116.5111.0 / 114.0111.0 / 114.0110.0 / 113.0105.0 / 108.0
70.0
16 QAM
12xE1
27.1
-85.5-85.5-86.0-86.0-85.5-85.5-85.5-82.5
24.0 / 27.021.0 / 24.020.0 / 23.019.0 / 22.018.0 / 21.017.0 / 20.016.0 / 19.013.0 / 16.0
109.5 / 112.5106.5 / 109.5106.0 / 109.0105.0 / 108.0103.5 / 106.5102.5 / 105.5101.5 / 104.595.5 / 98.5
65.0
16 QAM
16xE11xE3
34.4
-84.5-84.5-85.0-85.0-84.5-84.5-84.5-81.5
24.0 / 27.021.0 / 24.020.0 / 23.019.0 / 22.018.0 / 21.017.0 / 20.016.0 / 19.014.0 / 17.0
108.5 / 111.5105.5 / 108.5105.0 / 108.0104.0 / 107.0102.5 / 105.5101.5 / 104.5100.5 / 103.595.5 / 98.5
64.5
16 QAM
20xE11E3+4E1
42.2
-81.5-81.5-82.0-82.0-81.5-81.5-81.5-80.5
21.0 / 24.019.0 / 22.019.0 / 22.019.0 / 22.018.0 / 21.017.0 / 20.016.0 / 19.013.0 / 16.0
102.5 / 105.5100.5 / 103.5101.0 / 104.0101.0 / 104.099.5 / 102.598.5 / 101.597.5 / 100.593.5 / 96.5
64.5
Modulation
Maximum Data Configurations1
E1 only 2
E3 + E1 STM-1 Ethernet Only (Mbps) 3
RX Threshold (10-6 BER) (dBm) 6 GHz 7, 8 GHz 11,13,15 GHz 18 GHz 23 GHz 26 GHz 32 GHz 38 GHzTX Power (dBm) - Std. / High Power 6 GHz 7, 8 GHz 11, 13,15 GHz 18 GHz 23 GHz 26 GHz 32 GHz 38 GHzSystem Gain (10-6 BER) (dB) - Std. / High Power 6 GHz 7, 8 GHz 11, 13, 15 GHz 18 GHz 23 GHz 26 GHz 32 GHz 38 GHzDispersive Fade Margin (10-6 BER) (dB)
Emission Designator
32 QAM
24xE11E3+8E1
50.6
-80.5-80.5-81.0-81.0-80.5-80.5-80.5-79.5
21.0 / 24.019.0 / 22.019.0 / 22.019.0 / 22.018.0 / 21.017.0 / 20.016.0 / 19.014.0 / 17.0
101.5 / 104.599.5 / 102.5
100.0 / 103.0100.0 / 103.098.5 / 101.597.5 / 100.596.5 / 99.593.5 / 96.5
60.0
64 QAM
28xE11E3+12E1
58.8
-79.5-77.5-78.0-78.0
--------
20.0 / 23.019.0 / 22.018.0 / 21.017.0 / 20.0
--------
99.5 / 102.596.5 / 99.596.0 / 99.095.0 / 98.0
--------
55.0
3M50D7W 7M00D7W 14M0D7W
14 MHz
64 QAM
32xE12xE3
68.9
-74.0-74.0-74.5-74.5
--------
20.0 / 23.019.0 / 22.018.0 / 21.017.0 / 20.0
--------
94.0 / 97.093.0 / 96.092.5 / 95.591.5 / 94.5
--------
55.0
Rev. 11/10
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Proteus MXETSI
Modulation
Maximum Data Configurations1
E1 only 2
E3 + E1 STM-1 Ethernet Only (Mbps) 3
RX Threshold (10-6 BER) (dBm) 6 GHz 7, 8 GHz 11 GHz 13,15 GHz 18 GHz 23, 26 GHz 32 GHz 38 GHzTX Power (dBm) - Std. / High Power 6 GHz 7, 8 GHz 11, 13, 15 GHz 18 GHz 23 GHz 26 GHz 32 GHz 38 GHzSystem Gain (10-6 BER) (dB) - Std. / High Power 6 GHz 7, 8 GHz 11, 13, 15 GHz 18 GHz 23 GHz 26 GHz 32 GHz 38 GHzDispersive Fade Margin (10-6 BER) (dB)
Emission Designator
4 QAM
16xE11xE3
33.5
-88.0-88.0-88.5-88.5-88.0-88.0-88.0-85.0
25.0 / 28.025.0 / 28.024.0 / 27.023.0 / 26.021.0 / 24.021.0 / 24.020.0 / 23.018.0 / 21.0
113.0 / 116.0113.0 / 116.0112.5 / 115.5111.5 / 114.5109.0 / 112.0109.0 / 112.0108.0 / 111.0103.0 / 106.0
67.0
16 QAM
24xE11E3+8E1
52.3
-84.0-84.0-84.5-84.5-84.0-84.0-84.0-81.0
24.0 / 27.021.0 / 24.020.0 / 23.019.0 / 22.018.0 / 21.017.0 / 20.016.0 / 19.014.0 / 17.0
108.0 / 111.0105.0 / 108.0104.5 / 107.5103.5 / 106.5102.0 / 105.0101.0 / 104.0100.0 / 103.095.0 / 98.0
62.0
16 QAM
32xE12xE3
68.9
-82.5-82.5-83.0-83.0-82.5-82.5-82.5-79.5
24.0 / 27.021.0 / 24.020.0 / 23.019.0 / 22.018.0 / 21.017.0 / 20.016.0 / 19.014.0 / 17.0
106.5 / 109.5103.5 / 106.5103.0 / 106.0102.0 / 105.0100.5 / 103.599.5 / 102.598.5 / 101.593.5 / 96.5
61.0
32 QAM
48xE13xE3
102.3
-77.5-77.5-78.0-78.0-77.5-77.5-77.5-74.5
22.0 / 25.020.0 / 23.019.0 / 22.019.0 / 22.018.0 / 21.017.0 / 20.016.0 / 19.014.0 / 17.0
99.5 / 102.597.5 / 100.597.0 / 100.097.0 / 100.095.5 / 98.594.5 / 97.593.5 / 96.588.5 / 91.5
56.5
64 QAM
64xE14xE3
134.1
-72.0-72.0-72.5-72.5-72.0-72.0-72.0-69.0
18.0 / 21.018.0 / 21.017.0 / 20.016.0 / 19.015.0 / 18.014.0 / 17.013.0 / 16.013.0 / 16.0
90.0 / 93.090.0 / 93.089.5 / 92.588.5 / 91.587.0 / 90.086.0 / 89.085.0 / 88.082.0 / 85.0
52.0
128 QAM
72xE14E3+8E11xSTM-1
155.6
-71.0-70.5-71.0-71.0-70.5-70.5-70.5
--
19.0 / 22.018.0 / 21.017.0 / 20.016.0 / 19.014.0 / 17.013.0 / 16.012.0 / 15.0
--
90.0 / 93.088.5 / 91.588.0 / 91.087.0 / 90.084.5 / 87.583.5 / 86.582.5 / 85.5
--
49.5
128 QAM
76xE14E3+12E1STM1+2E1
163.5
-68.5--------------
19.0 / 22.0--------------
87.5 / 90.5--------------
50.0
28M0D7W
28 MHz
32 QAM
96xE16xE3
200.5
-74.5-74.5-75.0-75.0-74.5-74.5-74.5-71.5
20.0 / 23.018.0 / 21.017.0 / 20.017.0 / 20.016.0 / 19.015.0 / 18.014.0 / 17.012.0 / 15.0
94.5 / 97.592.5 / 95.592.0 / 95.092.0 / 95.090.5 / 93.589.5 / 92.588.5 / 91.583.5 / 86.5
51.0
System SpecificationsThe table below indicates Transmitter and Receiver specifications grouped by channel bandwidth and capacity. For each configuration the radio can operate in different combinations of E1, E3, STM-1, and Ethernet up to the maximum data throughput indicated. The maximum equivalent for each interface type and combination is shown as a reference.
Note: Specifications represent non-protected configurations intended for preliminary network planning and may change without notice. Improvements may be attained depending on actual project requirements. 1. Not all variations of quantity and type of data are shown. Any combination is allowed as long as total capacity does not exceed the maximum data throughput. Contact MNI for more information. 2. The total number of E1s that can be transported across the link is shown. However, the actual number of E1s that can be dropped at a site is limited to the physical interfaces available at the SPU. 3. Empty bytes between packets and within the IP header are removed to achieve a type of compression. The values shown indicate the minimum Ethernet throughput that can be achieved when all packet sizes = 1518 bytes. Maximum throughput occurs with 64 byte packets and is 18% greater than shown.
Rev. 11/10
64 QAM
118xE18xE3
262.8
-69.0-69.0-69.5-69.5-69.0-69.0-69.0-66.0
16.0 / 19.016.0 / 19.015.0 / 18.014.0 / 17.013.0 / 16.012.0 / 15.011.0 / 14.011.0 / 14.0
85.0 / 88.085.0 / 88.084.5 / 87.583.5 / 86.582.0 / 85.081.0 / 84.080.0 / 83.077.0 / 80.0
48.0
128 QAM
118xE18E3+8E1
304.9
-68.0-67.5-68.0-68.0-67.5-67.5-67.5
--
17.0 / 20.016.0 / 19.015.0 / 18.014.0 / 17.012.0 / 15.011.0 / 14.010.0 / 13.0
--
85.0 / 88.083.5 / 86.583.0 / 86.082.0 / 85.079.5 / 82.578.5 / 81.577.5 / 80.5
--
45.5
56 MHz
56M0D7W
Split-Mount Configurations