EdgeTM v2 Hardware Installation Guide Products Covered --> EdgeTM v2 - MP-1035-CPE - MP-1015-BS3 - MP-1025-BS3 - MP-1045-BS3 - MP-1055-BS3
Copyright © 2022 Proxim Wireless Corporation, San Jose, CA. All rights reserved. Covered by one or more of the following U.S. patents: 5,231,634; 5,875,179; 6,006,090; 5,809,060; 6,075,812; 5,077,753. The content described herein are copyrighted with all rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in any form by any means without the written permission of Proxim Wireless Corporation.
1 Package Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 2 Getting Started . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Power-Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Pre-Installation Check List . . . . . . . . . . . . . . . .
Recommended Antenna Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 Sector Antenna Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 14 dBi Dual Polarized Sector Antenna. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 15.5 dBi Dual Polarized Sector Antenna . . . . . . . .
D Safety & Regulatory Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1 Package Contents Each shipment includes the items listed in the following table. Please verify that you have received all the parts in this shipment, prior to installation.
Getting Started 2 2.1 Power-Up To Power on the device, perform the following steps: 1. Connect the OUT / POE port on the PoE and the Ethernet Port of the device using a standard Cat5e cable terminated with RJ45 connectors. 2. Connect the IN / LAN port on the PoE and the NIC port of a computer. 3. Connect the AC power cord to PoE and switch ON the AC power. 4. The LEDs on the RJ45 port of the device glows. 5. Ping the device’s IP Address to check the network connectivity.
Device Overview 3 This section provides the hardware overview and installation procedure for the following product(s): • MP-1035-CPE • MP-1015-BS3 • MP-1025-BS3 • MP-1045-BS3 • MP-1055-BS3 3.
Device Overview Item 4 Features 5 GHz Antenna Ports (A3 and A4) 5 Description • A provision to connect external antenna in MIMO 4x4 mode (in addition to A1 and A2). • Connect A3 and A4 to antenna Slant Polarity ports. Notes: Antenna ports A3 and A4 are only available for Edge MP-1015-BS3 and MP-1025-BS3 • A provision to connect passive GPS antenna for device positioning.
Device Overview 3.1.2 Grounding Points To protect the device against lighting or ESD events, you must ground the device properly. To ensure proper grounding, use the ground point that is situated at the bottom corner of the device and the grounding screw (M4 thread size) to attach a ground wire of at least 12 AWG stranded to the device.
Device Installation 4 4.1 Installation Procedure This section describes the steps to install and mount the device(s). : The device must be installed by a trained professional who is familiar with radio frequency planning and regulatory limits. Please refer Safety & Regulatory Information for details. Perform the following steps to install and mount the device Step 1: Plan for Installation There are several planning factors to be considered before installing the device.
Device Installation Step 3: Gather Required Materials You should have the following materials available before installing the device: • Weatherproofing material (such as butyl mastic tape and vinyl tape) for sealing external connectors. • Straight-through UV-protected STP-rated Cat5e Ethernet cable for connecting to PC, or cable for connecting to a hub or a switch. • Another straight-through UV-protected STP-rated Cat5e Ethernet cable for connecting the OUT / POE port of PoE and device.
Device Installation Figure 4-1 Weatherproofing RJ45 Connection Additional Weatherproofing Steps To add an additional layer of protection to the connectors against the environment, see Additional Weatherproofing Steps. Step 6: Assemble Mounting Hardware (When provided with the device) 1. Place the L-Shaped Mounting Bracket onto the bottom of the Device and align with the four mounting holes. 2. Insert the screws and washers into the four mounting holes as shown in Figure 4-2 view (B). 3.
Device Installation Figure 4-3 Pole Mounting (Edge 1015 and 1025) 1. To pole mount the device to a 1 to 2.5 inch diameter pole, insert the two Hose Clamps through the hose clamp slits at the bottom of the Device. See Figure 4-4. 2. Place the device against the pole and tighten the hose clamps to the pole. Figure 4-4 Pole Mounting (Edge 1035, 1045 and 1055) Step 8: Plug in the Cables 1.
Device Installation Figure 4-5 Cable Plugged In 2. To connect the device through a hub or a switch to a Personal Computer, connect an Ethernet cable between the network interface card in the Personal Computer and the hub, and between the hub and the RJ45 IN / LAN port on the PoE Injector. 3. To connect the device directly to a Personal Computer, connect an Ethernet cable between the network interface card in the Personal Computer and the RJ45 IN / LAN port on the PoE Injector.
Device Installation Figure 4-6 Surge Protector : Use Outdoor-rated, UV protected, shielded Cat5e cable for the following: 3. Connect an RJ45 terminated cable between the indoor device and to the port on the surge protector at the building ingress. 4. Connect an RJ45 terminated cable between the surge protector and the outdoor device on the Ethernet Port. :Ensure to loop the cable before entering the premise to prevent water ingress.
Device Installation . Figure 4-7 Ground the Device Step 12: Power ON the Device After connecting the PoE Injector and the device using straight-through CAT5e cable plug the power cord into a power outlet. There is no ON/OFF switch on the device. To power down the unit, unplug the RJ45 connector from the OUT / POE port on the PoE injector. : When using a class I adapter (such as Proxim supplied PoE injector), protective earthing is used as a safeguard.
Device Link Establishment 5 Antenna alignment is the process of physically aligning the antenna of the radio receiver and transmitter to establish a link between two point-to-point devices with an optimal throughput. The antenna alignment process is usually performed during the installation of the antennas. Refer to section 8.2.6.1 Antenna Alignment using CLI Commands.
6 Technical Specifications Device Models Model Part Number Description MP-1015-BS3-US 901-00366 Edge Multipoint 1015, Base Station (1 SU) and Subscriber, 100 Mbps, integrated antenna and RP-SMA - US PoE MP-1025-BS3-WD 901-00367 Edge Multipoint 1025, Base Station (1 SU) and Subscriber, 400 Mbps, integrated antenna and RP-SMA - WD PoE MP-1025-BS3-TH 901-00368 Edge Multipoint 1025, Base Station (1 SU) and Subscriber, 400 Mbps, integrated antenna and RP-SMA - TH PoE MP-1035-CPE-WD 901-00369 Edge
Technical Specifications 949-00149 4.9 - 6.4 GHz, Quad Polarity, Vertical /Horizontal/Dual Slant,19 dBi Panel Antenna - 19 degrees.Mounting kit Included. 949-00151 Passive GPS antenna for Edge integrated GPS module, SMA Male - 10 pack 949-00152 6 ft Low Loss Coaxial Antenna Cable, 0.240”, Reverse Polarity SMA Male to Right Angle N-Male 949-00012 4.9 - 5.95 GHz, Dual Polarity, Vertical and Horizontal, 14 dBi Sector Antenna - 90 degrees. Mounting kit Included. 949-00011 4.
Technical Specifications Wireless Protocol Category Specification WORP® (Wireless Outdoor Router Protocol) Wireless Protocol Interfaces Products Category Wired Ethernet MP-1035-CPE MP-1015-BS3 MP-1025-BS3 MP-1045-BS3 MP-1055-BS3 Specification Auto MDI-X, auto configuration speed/duplex configurations and fixed One auto MDI-X RJ45 Gigabit Ethernet Port with PoE IN and Data Transmit Power Specifications (4.900 - 5.
Technical Specifications Transmit Power Specifications (5.150 - 5.925) GHz Tx Power* (dBm) Products MP-1035-CPE MP-1015-BS3 MP-1025-BS3 MP-1045-BS3 MP-1055-BS3 Stream Single stream (or) Dual Stream (or) Quad Stream MCS Index Modulation Type MCS 0 Coding Rate VHT5 (5.15-5.925 GHz) VHT10 (5.15-5.925 GHz) VHT20 (5.15-5.925 GHz) VHT40 (5.15- 5.925 GHz) VHT80 (5.15- 5.
Technical Specifications Receive Sensitivity (4.900 - 5.000) GHz Products Stream MCS Index Modulation Type Receive Sensitivity* (dBm) (4.900-5.
Technical Specifications SNR Information (4.900 - 5.000) GHz If DDRS is disabled, the user can configure the Data Rate values manually as per the reference table below. 4.900 - 5.000 GHz MCS Index Modulation No. of Streams 5 MHz 10 MHz Full (GI = 800ns) Full (GI = 800ns) Data Rate Min SNR Max SNR Data Rate Min SNR Max SNR MCS0 BPSK 1/2 Single 1.6 14 55 3.3 14 55 MCS1 QPSK 1/2 Single 3.3 15 55 6.5 15 55 MCS2 QPSK 3/4 Single 4.9 16 55 9.
Technical Specifications SNR Information (5.150 - 5.925) GHz If DDRS is disabled, the user can configure the Data Rate values manually as per the reference table below. 5.150 - 5.925 GHz MCS Index Modulation No. of Streams 5 MHz 10 MHz Full (GI = 800ns) Full (GI = 800ns) Data Rate Min SNR Max SNR Data Rate Min SNR Max SNR MCS0 BPSK 1/2 Single 1.6 14 55 3.3 14 55 MCS1 QPSK 1/2 Single 3.3 15 55 6.5 15 55 MCS2 QPSK 3/4 Single 4.9 16 55 9.
Technical Specifications 5.150 - 5.925 GHz MCS Index Modulation 20 MHz No. of Streams Full (GI = 800ns) Short (GI =400ns) Data Rate Min SNR Max SNR Data Rate Min SNR Max SNR MCS0 BPSK 1/2 Single 6.5 14 55 7.2 14 55 MCS1 QPSK 1/2 Single 13 15 55 14.4 15 55 MCS2 QPSK 3/4 Single 19.5 16 55 21.7 16 55 MCS3 16 QAM 1/2 Single 26 20 55 28.9 20 55 MCS4 16 QAM 3/4 Single 39 20 55 43.3 20 55 MCS5 64 QAM 2/3 Single 52 24 55 57.
Technical Specifications 5.150 - 5.925 GHz MCS Index Modulation 40 MHz No. of Streams Full (GI = 800ns) Short (GI =400ns) Data Rate Min SNR Max SNR Data Rate Min SNR Max SNR MCS0 BPSK 1/2 Single 13.5 14 55 15 14 55 MCS1 QPSK 1/2 Single 27 15 55 30 15 55 MCS2 QPSK 3/4 Single 40.
Technical Specifications 5.150 - 5.925 GHz MCS Index Modulation 80 MHz No. of Streams Full (GI = 800ns) Short (GI =400ns) Data Rate Min SNR Max SNR Data Rate Min SNR Max SNR MCS0 BPSK 1/2 Single 29.3 23 55 32.5 23 55 MCS1 QPSK 1/2 Single 58.5 23 55 65 23 55 MCS2 QPSK 3/4 Single 87.8 23 55 97.5 23 55 MCS3 16 QAM 1/2 Single 117 25 55 130 25 55 MCS4 16 QAM 3/4 Single 175.
Technical Specifications Power Supply Products MP-1035-CPE MP-1015-BS3 MP-1025-BS3 MP-1045-BS3 MP-1055-BS3 Category Specification Input Voltage Via RJ45 Ethernet interface supplying 36 - 56 V DC on Ethernet Port.
Technical Specifications Environmental Specifications Products Operating Temperature Storage Temperature MP-1035-CPE MP-1015-BS3 MP-1025-BS3 MP-1045-BS3 MP-1055-BS3 -30º to 55º Celsius -22º to 131º Fahrenheit -50º to 70º Celsius -58º to 158º Fahrenheit Humidity 100% relative humidity IP67 Wind Loading 180 km/h 112.
Recommended Antennas 7 7.1 Introduction to Antennas Antenna is an electrical device which distributes signals transmitted by the wireless radios, through the medium of air in a particular pattern. Antennas focus the signals on a given frequency, by reducing the signal flow in other directions. Directional antennas (sector, parabolic, flat), therefore provide maximum range. But due to their narrow beamwidth, these antennas require precise antenna alignment to achieve optimal performance.
Recommended Antennas Figure 7-2 Sector Antenna Coverage 7.
Recommended Antennas Antenna patterns Edge TM v2 - Hardware Installation Guide 33
Recommended Antennas 7.4 Recommended Antennas : Tabulated below are the antennas that Proxim recommends you to use with the EdgeTM 10xx Series devices. To buy these antennas, place an order separately with your distributor. Dual - Polarized Antennas Product(s) MP-1015-BS3 MP-1025-BS3 MP-1045-BS3 MP-1055-BS3 MP-1015-BS3 MP-1025-BS3 Part Number Antenna Type Description SA5-9014-DP Sector Antenna 4.9 - 5.95 GHz, Dual Polarity, Vertical and Horizontal, 14 dBi Sector Antenna- 90 degrees.
Recommended Antennas Electrical Specifications Frequency Range 4.9 GHz - 5.95 GHz Gain 14 dBi (min) VSWR 2:1 (max) 1.
Recommended Antennas Edge TM v2 - Hardware Installation Guide 36
Recommended Antennas 7.5.1.2 15.5 dBi Dual Polarized Sector Antenna Electrical Specifications Frequency Range 4.9 GHz - 6.0 GHz Gain 15.5 dBi (typ) VSWR 2:1 (max) 1.
Recommended Antennas Antenna Patterns Edge TM v2 - Hardware Installation Guide 38
Recommended Antennas 7.5.2 Panel Antenna Specifications • 23 dBi Dual Polarized Panel Antenna • 29 dBi Dual Polarized Panel Antenna • 19 dBi Quad Polarized Panel Antenna 7.5.2.1 23 dBi Dual Polarized Panel Antenna Electrical Specifications Frequency Range 4.9 GHz - 5.875 GHz Gain 23.5 dBi V-Pol:24.5 ± 1 dBi H-Pol:23.5 ± 1 dBi VSWR 1.7: 1 3 dB Beam-Width, H-Plane, typ. 7° to 9° 3 dB Beam-Width, E-Plane, typ. 7° to 9° Side Lobes, min.
Recommended Antennas Antenna Patterns Edge TM v2 - Hardware Installation Guide 40
Recommended Antennas 7.5.2.2 29 dBi Dual Polarized Panel Antenna Electrical Specifications Frequency Range 4.9 - 5.15 GHz 5.15 - 5.875 GHz 5.875 - 6.1 GHz • Dual Pol. 28.5±0.5 dBi 28±0.5 dBi 29±0.5 dBi 28.5±0.5 dBi 28.5±0.5 dBi 28±1 dBi VSWR, max 2:1 1.7:1 2:1 3 dB Beam-Width, H-Plane, typ. 5.2º 4.7º 4.4º 3 dB Beam-Width, E-Plane, typ. 5.2º 4.7º 4.4º Side Lobes, min. ETSI TS3 Polarization Dual Pole Dual Polarization Vertical and Horizontal ± 45° Gain • Vertical Pol.
Recommended Antennas Antenna Patterns Edge TM v2 - Hardware Installation Guide 42
Recommended Antennas 7.5.2.3 19 dBi Quad Polarized Panel Antenna Electrical Specifications Frequency Range 4.9 - 6.425 GHz Gain 4.9 - 5.15 @ 4x18 dBi 5.15 - 6.425 @ 4x19 dBi VSWR, max. 1.7:1 Polarization Quad Pole Vertical, Horizontal & Dual Slant (±45°) 3 dB Beam-Width-Azimuth, typ. 19º 3 dB Beam-Width-Elevation, typ. 19º Side Lobes, min. -12 dB Front to Back Ratio, min. -35 dB Port to Port Isolation, min.
Recommended Antennas Antenna Patterns Edge TM v2 - Hardware Installation Guide 44
Recommended Antennas Edge TM v2 - Hardware Installation Guide 45
Antenna Installation 8 8.1 Safety Precautions Listed below are the safety precautions to be satisfied, prior to the outdoor antennas installation: • Outdoor antennas and antenna cables (good conductors of electricity) should be installed properly to avoid the transients or electrostatic discharges (that occur due to lightning during thunderstorm) from damaging your equipment and causing personal injury or death to the persons touching the exposed metal connectors of the equipment.
Antenna Installation 7. Ensure that the cabling of ethernet / power cables and the surge arrestor is proper. See Connecting the Surge Arrestor and Ethernet / Power cables. 8. Ensure that the antennas are grounded properly to the grounding system, satisfying the local electrical code requirements. See Grounding the Antennas. 9. Once the antenna is properly positioned, grounded and the outdoor cable setup is verified, secure all the cables and use weatherproofing tape to seal all the outdoor connectors.
Antenna Installation 8.2.2 Determining the Optimal Antenna Placement To achieve the maximum throughput, the outdoor antenna must have clear line-of-sight with the antenna at the other end.
Antenna Installation 8.2.3 Mounting the Antenna Mounting an antenna directly to the wall does not let you align the antenna properly with the corresponding antenna at the opposite end of your wireless link. Poor antenna alignment typically results in poor performance and therefore, we recommend mounting the antennas to a mast. The two methods followed frequently to erect an antenna mast are: • Tripod Mount: The tripod mount is used primarily on peak and flat roofs.
Antenna Installation The antenna/devices located at different altitudes should be tilted at the correct angle to efficiently transmit/receive the signals between the devices in the wireless network. The following figure shows the antenna tilt and its importance when the successive devices are located at different elevations above the ground.
Antenna Installation – The antenna gain for 0 = 00 is shown in the following figure: Figure 8-4 Antenna gain at (30- 0) = 300 – Transmit Power = EIRP - G (30- 0) - MIMO Gain = 21 - 5 = 16 dBm • Case 2: 0 = 150 (antenna tilted upward) – The antenna gain for 0 = 150 is shown in the following figure: Figure 8-5 Antenna gain at (30- 0) = 150 Edge TM v2 - Hardware Installation Guide 51
Antenna Installation – Transmit Power = EIRP - G (30- 0) - MIMO Gain = 21 - 10 = 11 dBm • 0 Case 3: 0 = -15 (antenna tilted downward) – The antenna gain for 0 = -150 is shown in the following figure: Figure 8-6 Antenna gain at (30- 0) = 450 – Transmit Power = EIRP - G (30- 0) - MIMO Gain = 21 - 0 = 21 dBm : • -10 degree indicates that the antenna is tilted downwards. • 10 degrees indicates that the antenna is titled upwards.
Antenna Installation 8.2.4 Connecting the Cables Once the outdoor antennas are properly mounted, the cable setup essential to complete the outdoor antenna installation is depicted in the following figure: Figure 8-7 Cable Setup The entire outdoor cabling setup requires the following cabling to be done: 1. Connecting the Antenna Cable 2. Connecting the Surge Arrestor and Ethernet / Power cables 3. Grounding the System 8.2.4.
Antenna Installation 5. If required, adjust the direction of the antenna. 6. Tighten the nuts of the antenna to lock the antenna into its position. : Avoid over-tightening of the connector, nuts and screws that are used to mount the antenna, to protect the antenna and device from getting damaged. 7. Secure the cable along its complete length with a cable or electrical tape to relieve strain on the antenna connector.
Antenna Installation approved lightening surge protector near the device is recommended. To buy an additional Surge Protector (Part Number: 235-00001), place an order separately with your distributor. : The surge arrestor and the antenna mast must be connected to the same grounding system, by using the shortest cable possible, as prescribed by local electrical codes. 8.2.4.3 Grounding the System Direct grounding of the antenna mast, device, and surge arrestor is extremely important.
Antenna Installation Step 1: Wrap vinyl tape in a half-lapped fashion, from the weatherproof connector end and continue wrapping down 3 inches onto the CAT5e cable. a. Weatherproofing at the device end: (a) (b) b. Weatherproofing at the antenna end: (a) (c) (b) Step 2: Wrap a second layer of vinyl tape in the reverse direction over the first layer of tape. a. Weatherproofing at the device end: (a) b.
Antenna Installation Step 3: Now, wrap a third layer of vinyl tape over the other two layers but with the adhesive side up as this provides a sticky surface for the next layer. a. Weatherproofing antenna connectors on the device: (a) (b) b. Weatherproofing antenna cable: (a) (b) Step 4: Next, wrap a layer of the butyl mastic tape over the adhesive side of the tape, covering all of the tape and connector. a. Weatherproofing antenna connectors on the device: (b) (a) b.
Antenna Installation a. Weatherproofing antenna connectors on the device: (a) (b) b. Weatherproofing antenna cable: (a) (b) Step 6: Place a small zip tie over the last wrap of tape to prevent it from unwrapping over time. The figure below depicts the complete weatherproofing of the RF connection. 8.2.6 Aligning the Antenna Antenna alignment is the process of physically aligning the antenna of the radio receiver and transmitter to establish a link with a better throughput.
Antenna Installation : Applicable only to the devices with the back-haul feature (i.e., devices with 5 GHz Antennas). 8.2.6.1 Antenna Alignment using CLI Commands To enable the antenna alignment display from the CLI prompt, enter the following commands: • aad enable local: Enables display of the local signal, noise and SNR. • aad enable remote: Enables display of the remote signal, noise and SNR. • aad enable: Enables display of local and remote signal, noise and SNR.
Measuring Signal Performance 9 9.1 Introduction The performance of a microwave link (wireless link established between two outdoor antennas) is closely related to the following factors: • Range • Fresnel Zone • Clearance Factor Calculating the above factors help you align the antennas properly and achieve a better throughput. 9.
Measuring Signal Performance • Marginal communications quality in late fall (with no leaves on the trees along the signal path) might fail in the summer (with leaves on the trees along the signal path). • In winter, a wireless link can fail when the antenna is exposed to ice buildup or when the antenna elements are covered with snow. Radio paths over water or extremely flat ground require optimization of antenna height at one end. This is due to in-phase or out-of-phase reflections.
Measuring Signal Performance The path difference is the required clearance of the antenna beam from obstacles in its path to avoid loss of radio signal. Signals reflected from any even-numbered Fresnel Zone result in signal cancellation while the odd-numbered Fresnel Zones add to the direct path signal. 9.
Measuring Signal Performance Figure 9-3 Clearance Factor If the clearance for your antenna installation is equal to or better than the minimum clearance required, then the Clearance Factor for your installation is 100%. If your actual clearance is less than the minimum clearance, then refer the above figure to determine the actual range that applies to the current requirement. : Practically, it is impossible to achieve the maximum range due to the interference from the other radio products.
Measuring Signal Performance where: • Pout is the output power (in dBm) of the transmitter. • L1 is the total loss of all transmission elements between the antenna and the RF device on one side of the link (in dB). • G1 is the gain of the antenna on one side of the link (in dB). • G2 is the gain of the antenna on the opposite side of the link (in dB). • L2 is the total loss of all transmission elements between the antenna and the RF device on the opposite side of the link (in dB).
Measuring Signal Performance Procedure 1. Start with the transmit power and the number of the channel to be used in dBm. Subtract the total loss of all transmission elements between the antenna and the radio on one side of the link (dB). 2. Add the gain of the antenna you will be using. The total is the EIRP (Equivalent Isotropically Radiated Power). 3. Determine the path loss of the microwave link by using the mathematical formula of Lp, illustrated in Calculating Link Budget. 4.
Measuring Signal Performance 82 83 84 85 86 87 88 89 90 54 60 68 76 85 95 107 120 135 0.8 0.9 1.0 1.0 1.1 1.1 1.2 1.3 1.3 112 113 114 115 116 117 118 119 120 1697 1904 2136 2397 2689 3018 3386 3799 4263 4.8 5.0 5.3 5.7 6.0 6.4 6.7 7.1 7.6 142 143 144 145 146 147 148 149 150 53.7 60.2 67.6 75.8 85.0 95.4 107.1 120.1 134.8 26.8 28.4 30.1 31.9 33.7 35.7 37.9 40.1 42.5 : The Distance (m) is calculated by assuming the 60% of the 1st Fresnal to be clear.
Lightning Protection A Lightning protection is used to maximize the reliability of the communications equipment by safely re-directing current from a lightning strike or a power surge traveling along the STP Cat5e Ethernet cabling to the ground using the shortest path possible. Designing a proper grounding system prior to installing any communications equipment is critical to minimize the possibility of equipment damage, void warranties, and cause serious injury.
B Abbreviations Abbreviations AWG American Wire Gauge BSU Base Station Unit CLI Command Line Interface CPE Customer Premises Equipment DC Direct Current ESD Electrostatic Discharge FCS Frame Check Sequence LED Light Emitting Diode MIMO Multiple-input and Multiple-output MTBF Mean Time Between Failures OFDM Orthogonal frequency-division multiplexing PC Personal Computer PoE Power Over Ethernet PTMP Point-to-multipoint PTP Point-to-point QIG Quick Installation Guide RSSI Rece
Warranty and Technical Support C For Warranty and Technical Support Policy, please visit http://proxim.com/support. Obtaining Technical Service and Support If you are having trouble using the Proxim product, please read this manual and the additional documentation provided with your product.
Warranty and Technical Support Telephone Support Contact technical support via telephone as follows: USA and Canada Customers • Phone: +1-408-383-7700; +1-866-674-6626 • Business Hours: Tier 1 support: 24x7 live response. Tier 3 support: 8 a.m. to 5 p.m. M-F PST (UTC/GMT -7 hrs) International Customers • Phone: +1-408-383-7700 • Business Hours: Tier 1 support: 24x7 live response. Tier 3 support: 8 a.m. to 5 p.m.
Warranty and Technical Support 8x5 Availability Unlimited, direct access to world-class technical support engineers 8 hours a day, 5 days a week, Monday through Friday from 8:00AM - 5:00PM Pacific Standard Time.
Safety & Regulatory Information D For Safety & Regulatory Information, please refer Safety and Regulatory guide for EdgeTM MP-10x5 Series. To download the Safety and Regulatory Guide, visit http://support.proxim.com.
