Connection Diagram

ManualsBrandsCisco Systems ManualsElectronicsISM band BTS with 17 dBi Panel Antenna

Navini Networks, Inc. Ripwave Base Station I&C Guide

Part #40-00047-00 Rev F v1.0 (TTA) 109

October 23, 2003

Appendix A: Sample Statement of Work (SoW)

The following is an example of a Statement of Work. The Statement of Work outlines the general

activities that must be conducted in order to complete the installation and commissioning tasks for a

Ripwave Base Station.

Example:

Statement of Work for Standard Installation Services

The following statement of work will be used to outline the areas of responsibilities for the Navini

Networks antenna (known as the RFS) and Base Station (known as the BTS) installations to be

completed with Navini Networks Client (referred to as Client in this document). Client may choose

to hire a contractor or tower crew to assist with its activities. Navini Networks has no formal

contract relationship with the contractor, who will be managed by Client. The following work items

are suggested content only - - final scope and terms to be negotiated directly with Client. Navini

Networks support personnel will be on site for the entire installation and commissioning process,

and will provide technical expertise, information, and recommendations with respect to site design

and installation.

It is recommended that contractor have a Non-Disclosure Agreement (NDA) in place with Client and

Navini Networks prior to execution of work. Contractor shall not publicly disclose any information

concerning this deployment or trial with any other parties, unless approved in writing in advance by

Client and Navini Networks.

Navini Networks

1. Provide Field Engineer to consult with Client and Contractor for planning efforts. Review

Site design sketches and BOM prepared by others.

2. Review network architecture information (connection diagram and logical addresses) prior to

start of installation.

3. Review Sweep results with Client and contractor. Sweep to be provided of RFS after

shipment, of coax cables and RF path on tower, and of cables and RFS after installation,

before power up.

4. Review AC and DC power system installation. Review DC power system test with Client

and contractor.

5. Review backhaul circuit installation test results with Client.

6. Review GPS antenna and cable installations.

7. Review and Verify Cable and Antenna System Installation Work

8. Site walk with contractor and Client for Punchlist.

9. Load EMS software on Client supplied workstation, and verify connectivity to BTS.

Summary of content (72 pages)

PAGE 1
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix A: Sample Statement of Work (SoW) The following is an example of a Statement of Work. The Statement of Work outlines the general activities that must be conducted in order to complete the installation and commissioning tasks for a Ripwave Base Station.
PAGE 2
Ripwave Base Station I&C Guide Navini Networks, Inc. 10. Provide BTS installation – Chassis and Cards. 11. Apply power to BTS and perform all power up, BTS calibration verification checks, commissioning and initial testing of Navini Networks system. May use EMS on local laptop. 12. With assistance of Client, Perform Drive Test / Coverage Verification. 13. With assistance of Client, perform data rate testing at mutually specified locations – 15 for Omni, 5 for each panel RFS. 14.
PAGE 3
Navini Networks, Inc. Ripwave Base Station I&C Guide antenna to BTS. 20. Site walk at completion with Client and Navini, create Punchlist; clear applicable punchlist items. 21. Arrange disposal of trash 22. Provide RF coverage analysis plots before start of installation. Provide model tuning, if required. 23. Provide architecture document before start of installation, including connection diagram and logical network element assignments (IP addresses, PVCs, etc.). 24.
PAGE 4
Ripwave Base Station I&C Guide 112 Navini Networks, Inc. Part #40-00047-00 Rev F v1.
PAGE 5
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix B: Sample Responsibility Assignment Matrix (RAM) The following is an example of a Responsibility Assignment Matrix (RAM). The RAM is a tool for capturing who will do what to get systems deployed and turned up. It provides an easy-to-read and follow tabular format. Each of the activities in the list must be addressed in order to complete the installation and commissioning tasks for a Ripwave Base Station.
PAGE 6
Ripwave Base Station I&C Guide Item # Task / Activity Navini Networks, Inc.
PAGE 7
Navini Networks, Inc.
PAGE 8
Ripwave Base Station I&C Guide Item # Task / Activity Navini Networks, Inc. Navini Client 11 Intra – rack cabling S, I 12 Electrical Circuits S, I 13 Electrical – wiring from panel to rack S, I 14 Electrical (conduit, distribution panels, etc.
PAGE 9
Navini Networks, Inc.
PAGE 10
Ripwave Base Station I&C Guide Item # Task / Activity 14 Navini Networks, Inc. Navini Client Configure monitoring for routers Other Notes 1 TESTING 1 Determine Network Test Criteria 2 1 Based on trial agreement. 2 Determine RF Test Criteria 1 1 Based on trial agreement.
PAGE 11
Navini Networks, Inc. Item # Task / Activity 3 End User Contact (answer phones) 4 Fault Determination and Isolation 5 Ripwave Base Station I&C Guide Navini Client Notes 1 2 1 Performance Reporting 2 1 6 Field Repairs / Replacements (if needed) 1 2 7 Shipping for Repairs / Replacements 2 1 8 Spares 9 Install Hardware Upgrades (if needed) 2 1 10 Install Software Upgrades (if needed) 2 1 Part #40-00047-00 Rev F v1.
PAGE 12
Ripwave Base Station I&C Guide 120 Navini Networks, Inc. Part #40-00047-00 Rev F v1.
PAGE 13
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix C: Sample Work Breakdown Structure (WBS) Site Deployment Work Breakdown Item No. 1 Activity 1.1 1.2 1.3 1.4 1.5 1.6 1.
PAGE 14
Ripwave Base Station I&C Guide 7 7.1 7.2 7.3 7.4 7.5 7.6 7.7 7.8 7.9 7.10 7.11 7.12 7.13 7.14 7.15 7.16 7.
PAGE 15
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix D: Site Candidate Evaluation Form NAVINI NETWORKS SITE EVALUATION FORM PN - 40-00091-00 Site Name Date FSE SITE INFORMATION COMPANY NAME ADDRESS SITE OWNER SITE CONTACT NO. GPS COORDINATES ANT TYPE (OMNI, PANEL) LAT OMNI PANEL ENCLOSURE TYPE (HUT, ETC) TOWER TYPE (SS, MP,ETC) SITE ACCESS RESTRICTIONS 24HRS LONG 2.3GHZ 2.4GHZ 2.5GHZ ELEV (AMSL) FEET HEIGHT (AGL) FEET 8-5PM 2.
PAGE 16
Ripwave Base Station I&C Guide Navini Networks, Inc.
PAGE 17
Navini Networks, Inc. Ripwave Base Station I&C Guide NAVINI NETWORKS SITE EVALUATION FORM Site Name 0 SITE MAP / SKETCH Comments GPS ANTENNA LOCATION Comments Part #40-00047-00 Rev F v1.
PAGE 18
Ripwave Base Station I&C Guide Navini Networks, Inc. NAVINI NETWORKS SITE EVALUATION FORM Site Name 0 NORTH VIEW Comments NORTHEAST VIEW Comments 126 Part #40-00047-00 Rev F v1.
PAGE 19
Navini Networks, Inc. Ripwave Base Station I&C Guide NAVINI NETWORKS SITE EVALUATION FORM Site Name 0 EAST VIEW Comments SOUTHEAST VIEW Comments Part #40-00047-00 Rev F v1.
PAGE 20
Ripwave Base Station I&C Guide Navini Networks, Inc. NAVINI NETWORKS SITE EVALUATION FORM Site Name 0 SOUTH VIEW Comments SOUTHWEST VIEW Comments 128 Part #40-00047-00 Rev F v1.
PAGE 21
Navini Networks, Inc. Ripwave Base Station I&C Guide NAVINI NETWORKS SITE EVALUATION FORM Site Name 0 WEST VIEW Comments NORTHWEST VIEW Comments Part #40-00047-00 Rev F v1.
PAGE 22
Ripwave Base Station I&C Guide Navini Networks, Inc. NAVINI NETWORKS SITE EVALUATION FORM Site Name 0 EXISTING COMPOUND PICTURE Comments GROUNDING Comments 130 Part #40-00047-00 Rev F v1.
PAGE 23
Navini Networks, Inc. Ripwave Base Station I&C Guide NAVINI NETWORKS SITE EVALUATION FORM Site Name 0 INGRESS Comments EGRESS Comments Part #40-00047-00 Rev F v1.
PAGE 24
Ripwave Base Station I&C Guide Navini Networks, Inc. NAVINI NETWORKS SITE EVALUATION FORM Site Name 0 POWER Comments TELCO Comments 132 Part #40-00047-00 Rev F v1.
PAGE 25
Navini Networks, Inc. Ripwave Base Station I&C Guide NAVINI NETWORKS SITE EVALUATION FORM Site Name 0 SHELTER PICTURE Comments SHELTER LAYOUT AND DIMENSION DRAWING Comments Part #40-00047-00 Rev F v1.
PAGE 26
Ripwave Base Station I&C Guide 134 Navini Networks, Inc. Part #40-00047-00 Rev F v1.
PAGE 27
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix E: Interference Sweep Procedure Before You Start The instructions in this document assume the Field Engineer is at the Base Station site and that the BTS and RFS have not yet been installed. Required Equipment You will need the following equipment to perform the Interference Sweep: ?? HP4404B Spectrum Analyzer or equivalent.
PAGE 28
Ripwave Base Station I&C Guide Navini Networks, Inc. Figure E1: Initial Configuration Figure 1: Initial Configuration Antenna DC Powered Cavity Filter LNA Module Spectrum Analyzer Step 1. Configure test equipment as shown in Figure E1. Step 2. Program the initial Spectrum Analyzer settings, per the following: A. B. C. D. E. F. G. Step 3.
PAGE 29
Navini Networks, Inc. Ripwave Base Station I&C Guide sweeps to cover the same 360 degree area. The smaller beamwidth requires more sweeps but gives you greater accuracy in determining the source of the interfering signal. On each pass the directional antenna is moved per the beamwidth. Refer to Figure E2. With both types of antennas, try to determine the polarization of the interfering signals during each sweep. To do this, flip the antenna 90 degrees.
PAGE 30
Ripwave Base Station I&C Guide Navini Networks, Inc. You will only need the Max-hold portion of the procedure for 2.6GHz systems. Max-hold The Max-hold portion of the procedure is to be used for both unlicensed and licensed systems. Step 1. If using a directional antenna, check the direction of the antenna with a compass. Record the results. Step 2. Set the Start Frequency to 2.390GHz for a 2.4GHz system and to 2.595GHz for a 2.6GHz system. Step 3. Set the Stop Frequency to 2.5GHz for a 2.
PAGE 31
Navini Networks, Inc. Ripwave Base Station I&C Guide Time Domain The Time Domain portion of the procedure is for unlicensed systems only. Step 1. Set the Center Frequency to 2.4025GHz. Set the Resolution Bandwidth to 5 MHz. Step 2. Set the Video Bandwidth to 1MHz. Step 3. Set the Sweep Time to 40 ms. Step 4. Set the Span to 0 Hz. Step 5. Replace the antenna with a terminator to get a noise floor level. Save a screen capture. Step 6. Set the display line to the noise floor level.
PAGE 32
Ripwave Base Station I&C Guide Navini Networks, Inc. 2.4GHz Band Center Frequency 2.4075GHz 2.4125GHz 2.4175GHz 2.4225GHz 2.4275GHz 2.4325GHz Up to 2.4875GHz Step 10. If a directional antenna is used, repeat the Max-hold and Time Domain steps for each direction. Figure E4: Time Domain Screen Capture 140 Part #40-00047-00 Rev F v1.
PAGE 33
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix F: Interference Sweep Tool Overview The Navini 2.4 GHz frequency Interference Sweep Test tool is used by an Installation & Commissioning Technician or Field Engineer to sweep and collect data concerning RF conditions at a specific site. The location is typically a site that has been identified as a potentially good candidate for a Base Station installation.
PAGE 34
Ripwave Base Station I&C Guide Navini Networks, Inc. Figure F2: Laptop & Cable Configuration Mounting The Navini Test Box should be installed in the location where the RFS will be installed, or as close as possible. This will give the most accurate representation of the interference at the site. On the upper portion of the test box there are three labels indicating 0, 120, and 240 degrees (Figure F3). These are the antennas that are inside the test box.
PAGE 35
Navini Networks, Inc. Ripwave Base Station I&C Guide Figure F4 shows a sample of the mounting requirements for the installation. Figure F4: Mounting Requirements Using the Site Survey Tool Recommended Settings 1. Interval Setting Provided by Navini Networks RF planning group 2. Frequency Selection 2.400 to 2.476 GHz approved ISM operating frequency 3. Number of Frames for Gain Adjustment Provided by Navini Networks RF planning group; site specific 4.
PAGE 36
Ripwave Base Station I&C Guide Navini Networks, Inc. Procedure Step 1. Open the application by selecting the Data Logger icon. Figure F5 shows the icon in the background. Figure F5: Data Logger Step 2. Select the desired Ethernet adapter in the pop-up window. Step 3. Starting in the upper left corner of the program screen, set the date and time for the application to start its measurement interval. If the date and time set are earlier than the current time, logging will begin immediately. Step 4.
PAGE 37
Navini Networks, Inc. Step 5. Ripwave Base Station I&C Guide Select the frequencies to be measured. a. There are 3 frequency band selections. By default two are not available until selected by clicking on the white checkboxes to the right of each. b. If you select more than one band, it is best if you put in some delay between each band’s measurements, as mentioned in Step 6 below. Step 6. If more than one frequency band has been selected, choose the delay to be used between each band’s measurements.
PAGE 38
Ripwave Base Station I&C Guide Navini Networks, Inc. Figure F7: Verify Data Analysis of Data Not available on this release. FTP Instructions Step 1. Launch FTP Pro. Step 2. Select the file, “Rfsweep”. Step 3. The FTP Password is provided by Navini in a separate document. Step 4. To transfer the file, locate the Navinidatalog folder on the “C” drive of the laptop. Step 5. Select all files in the data folder via FTP browser, then, send the files. Step 6.
PAGE 39
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix G: BTS Specifications Figure G1: Combo Chassis (Front) Part #40-00047-00 Rev F v1.
PAGE 40
Ripwave Base Station I&C Guide Navini Networks, Inc. Figure G2: Combo Chassis (Back) 148 Part #40-00047-00 Rev F v1.
PAGE 41
Navini Networks, Inc. Ripwave Base Station I&C Guide Figure G3: Split Digital Chassis (Front) Part #40-00047-00 Rev F v1.
PAGE 42
Ripwave Base Station I&C Guide Navini Networks, Inc. Figure G4: Split Digital Chassis (Back) 150 Part #40-00047-00 Rev F v1.
PAGE 43
Navini Networks, Inc. Ripwave Base Station I&C Guide Figure G5: Split RF Chassis (Front) Part #40-00047-00 Rev F v1.
PAGE 44
Ripwave Base Station I&C Guide Navini Networks, Inc. Figure G6: Split RF Chassis (Back) 152 Part #40-00047-00 Rev F v1.
PAGE 45
Navini Networks, Inc. Ripwave Base Station I&C Guide Figure G7: TTA Digital Chassis (Front) Part #40-00047-00 Rev F v1.
PAGE 46
Ripwave Base Station I&C Guide Navini Networks, Inc. Figure G8: TTA Digital Chassis (Back) 154 Part #40-00047-00 Rev F v1.
PAGE 47
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix H: RFS Data Sheets Figure H1: Panel Broadband Sectored Panel Antenna Navini RFS 22.9" Panel RFS Antenna Pattern 0.00 53.4" -5.00 -10.00 -15.00 -20.00 Vertical Horizontal Scale NAVINI PART NUMBER: 2.3GHz Low Band 2.3GHz Low Band w/o LNAs 95-23000-00 95-23100-00 2.3GHz High Band 2.3GHz High Band w/o LNAs 95-23000-05 95-23100-05 2.4GHz with LNAs 2.4GHz w/o LNAs 95-00043-05 95-10043-05 2.5GHz ABCD with LNAs 2.
PAGE 48
Ripwave Base Station I&C Guide Navini Networks, Inc. Broadband Sectored Panel Antenna Navini RFS 22.9" Panel RFS Antenna Pattern 53.4" 0.00 -5.00 -10.00 -15.00 -20.00 Vertical Horizontal Scale NAVINI PART NUMBER: 2.4GHz TTA RFS 95-00043-10 4.5 OD pipe sch 40 pipe 12.6" 5" DESCRIPTION Frequency Range 2.4GHz range = 2.4GHz through 2.483GHz GALVANIZED ANTENNA MOUNTING PIPE 54.5" 57.
PAGE 49
Navini Networks, Inc. Ripwave Base Station I&C Guide Figure H3: Omni Broadband Omnidirectional Antenna Navini RFS P/N 44-00038-01 Rev A v1.0 Feb.14, 2003 Omni RFS Antenna Pattern 0.00 -5.00 -10.00 -15.00 Vertical Horizontal -20.00 Scale NAVINI PART NUMBERS: 2.3GHz- low band with LNAs note: * 02 or 12 are for degree of 2.3GHz- high band with LNAs downtilt also available are 04 and 2.3GHz- low band without LNAs 14 2.
PAGE 50
Ripwave Base Station I&C Guide Navini Networks, Inc. Figure H4: Omni TTA Broadband Omnidirectional Antenna Navini RFS Omni RFS Antenna Pattern 0.00 -5.00 -10.00 Vertical -15.00 Horizontal -20.00 Scale NAVINI PART NUMBERS: 2.4GHz TTA RFS, 2 degree downtilt 8.9" 95-24018-02 DESCRIPTION Frequency Range 13.057" 2.4GHz range = 2.4GHz through 2.483GHz 73.5" Polarization Vertical Antenna Gain 11.
PAGE 51
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix I: BTS Outdoor Enclosure Manufacturers General Navini Networks does not manufacture external cabinets for the Ripwave BTS. The following lists two manufacturers who are positioned to provide external cabinets for the Navini system. Inclusion of the manufacturers on this list does not represent an endorsement of the manufacturer or its products by Navini Networks. Manufacturers List Purcell Systems 22924 E.
PAGE 52
Ripwave Base Station I&C Guide 160 Navini Networks, Inc. Part #40-00047-00 Rev F v1.
PAGE 53
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix J: Rectifier/BBU Suppliers General This section includes contact information for two rectifier/BBU suppliers. Inclusion of a supplier on this list does not represent an endorsement of the supplier or its products. Suppliers List Valere Power Systems 651 N. Plano Road, Suite 421 Richardson, TX 75081 469 330-9100 Matt McManus Argus DC Power Argus Regional Sales Manager Addison, IL 630 530-5006 Richard Meyer http://www.argusdcpower.
PAGE 54
Ripwave Base Station I&C Guide 162 Navini Networks, Inc. Part #40-00047-00 Rev F v1.
PAGE 55
Navini Networks, Inc.
PAGE 56
Ripwave Base Station I&C Guide Navini Networks, Inc. NOTE 1.CABLE BUNDLE CONSIST OF 9 RF CABLES AND 1 POWER/DATA CABLE 2.RF CABLE TYPE TO BE DETERMINED BASED ON RUN LENGTH AND DB LOSS/FT 3.CABLE HANGERS TO BE SPECIFIED/RECOMMENDED BY TOWER CREW 4.ANTENNA BRACKET TO BE SUPPLIED BY CUSTOMER AS RECOMMENDED BY TOWER CREW 5.BTS REQUIRES 24VDC @ 60A. 6.PSX-ME SURGE PROTECTORS TO BE INSTALLED IN-LINE BETWEEN RF CABLE AND ANTENNA 7.PSX SURGE PROTECTOR TO BE MOUNTED ON GROUND BAR CLOSE TO BTS CABINET/CHASSIS 8.
PAGE 57
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix L: Antenna Power & Cable Selection Overview This section provides formulas and data that are necessary inputs for determining the right cable to be measured, cut, and installed. There are 3 types of cables that are part of the Base Station installation: antenna cables, calibration (cal) cable, and data/power cable. The antenna cables are the eight cables that carry amplified RF signals.
PAGE 58
Ripwave Base Station I&C Guide Step/Formula 1 Navini Networks, Inc. Determine the maximum capable BTS output power to the antenna. = [(PA Output to Meet FCC) or (to Meet SNR)] – BTS Loss – RFS Loss – BTS Antenna Cable Loss* [Column A or B]1 – [Column E] 2 – [Column F or G] – [Calculated* or Measured] ?? BTS Antenna Cable loss < 18 dB for ACTIVE RFS configurations ?? BTS Antenna Cable loss < 8 dB for PASSIVE RFS configurations Change the EMS settings accordingly.
PAGE 59
Navini Networks, Inc. Ripwave Base Station I&C Guide NOTES 1 This note pertains to Step/Formula 1: For PA_Output_Powe r, if in the U.S. use Column A. If outside the U.S., as a precaution contact Navini Technical Support (Engineering) for sign-off. The value input cannot be more than the value shown in Column B. 2 This note pertains to Step/Formula 1: BTS_Loss is either (a) loss with a filter - i.e., if operating in the U.S. or other market that requires a filter, or (b) loss with a bypass cable.
PAGE 60
Ripwave Base Station I&C Guide Navini Networks, Inc. Table L2: Cable Attenuation in dB per 100 Feet LMR 600 ½? Super flex FSJ 450B LMR 500 3/8? LDF 250A LMR 400 0.630 0.590 0.520 0.500 0.440 0.405 2.27 3.25 3.9 5.09 4.84 5.17 6 2.9 2.52 3.63 4.3 5.67 5.4 5.67 6.6 2.07 3 2.58 3.70 4.42 5.8 5.48 5.79 6.8 2.3 2.12 3.1 2.64 3.78 4.5 5.94 5.6 5.91 6.9 0.63 0.45 0.33 0.27 0.15 0.15 0.13 0.14 0.1 0.08 0.07 15 6.5 10 3 8 5 1.5 3 1.25 3.
PAGE 61
Navini Networks, Inc. Ripwave Base Station I&C Guide Table L5: 3.5 GHz TTA BTA Max Power and Frequency Range Supported Max Power Frequency Range Supported 30 dBm 3.410 to 3.700 GHz ETSI (Omni & Sector) Table L6: 3.5 GHz TTA BTA Cable Loss and Corresponding Cable Length ETSI (Omni & Sector) Cable Loss Calculated Length of RG6 Bundled Cable Calculated Length of RG11 Bundled Cable Min 5 dB 35 ft (11 m) 53 ft (16 m) Max(1) 30 dB 225 ft (68 m) 340 ft (104 m) Part #40-00047-00 Rev F v1.
PAGE 62
Ripwave Base Station I&C Guide 170 Navini Networks, Inc. Part #40-00047-00 Rev F v1.
PAGE 63
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix M: Sample Bill of Materials (BoM) 1/13/2003 1:58:54 PM BOM EXPLOSION REPORT KIT, INSTALLATION, BTS, 2.6 Revision B Part Number: 95-05001-00 Part 13-00034-00 : CONN, COAX, CRIMP, N STRAIGHT PLUG, EZ PIN (LMR600) . Quantity: 36 Part 13-00194-00 A CONN, COAX, CRIMP, N STRAIGHT PLUG, EZ PIN, MALE (LMR400). Quantity: 8 Part Connectors, NType 13-00218-00 A CONN, LUG, ONE-HOLE #6. Quantity: 10 Connectors 13-00219-00 : CONN, LUG, TWO-HOLE #6.
PAGE 64
Ripwave Base Station I&C Guide Navini Networks, Inc. Mechanical Hardware 24-00156-00 : CLAMP, PIPE TO PIPE, KIT OF 2. Quantity: 1 Mechanical Hardware 24-00170-00 : NUT, REG. HEX, CRES, #10-24. Quantity: 3 Part 24-00171-00 : WASH, STAR, #10. Quantity: 3 Part 24-00172-00 : WASH, STAR, ¼. Quantity: 16 Part 24-00250-10 : BOLT, HEX, 1/4-20 X 1.000 LG, SSPA. Quantity: 8 Mechanical Hardware 24-06156-43 : WASH, FLAT, CRES, #6 T-B-REGULAR, .156 X .438 X .040.
PAGE 65
Navini Networks, Inc. Ripwave Base Station I&C Guide Mechanical Hardware 24-09001-00 : WASHER, SQ, ALUMINUM, ANTENNA MOUNT. Quantity: 4 Mechanical Hardware 24-09002-00 : WASHER, SQ, GALVANIZED, ANTENNA MOUNT. Quantity: 4 Mechanical Hardware 24-09003-00 : FLAT WASHER 7/16 REG GALVANIZED. Quantity: 12 Mechanical Hardware 24-09005-00 : LOCK WASHER, 7/16, GALVANIZED. Quantity: 12 Mechanical Hardware 24-09004-00 : HEX NUT 7/16 GALVANIZED. Quantity: 12 Mechanical Hardware 24-00124-00 : BOLT, HEX 1/4-20 X 1.
PAGE 66
Ripwave Base Station I&C Guide 174 Navini Networks, Inc. Part #40-00047-00 Rev F v1.
PAGE 67
Navini Networks, Inc. Ripwave Base Station I&C Guide Appendix N: Install Connectors on Cables Reference Chapter 1, Page 8 “Regulatory Information” requirements. The following article, written by Lou Caruso of Times Microwave Systems , appears in Volume 8 Issue 5, 2000 of Telecom Exchange. “Among the keys to success in any wireless system are the quality and reliability of the connector installations on the coaxial cable transmission lines.
PAGE 68
Ripwave Base Station I&C Guide Navini Networks, Inc. The typical procedure for installing the connector on cable sizes LMR-400 and LMR-600 (also is the same procedure on DB and FR) is: ?? Flush cut the cable squarely. ?? Slide the heat shrink boot and crimp ring onto the cable. Strip the cable-end using the ST-400-EZ or ST-600-EZ prep/strip tool by inserting the cable into End 1 and rotating the tool. Remove any residual dielectric material from the center conductor.
PAGE 69
Navini Networks, Inc. Ripwave Base Station I&C Guide For installing the ‘EZ’ connectors on LMR-900-DB, FR and LLPL cables and larger, the process is as follows: ?? Flush cut the cable squarely. ?? Slide the backnut and gasket onto the cable. ?? Strip the cable-end using the EZ prep/strip tool by inserting the cable into the proper end of the tool (note that only one strip is needed).
PAGE 70
Ripwave Base Station I&C Guide LMR? FR DB 600 600 Interface Description Part Number Female UHF Male Polarity Straight Plug Straight Plug Straight Plug Straight Jack Straight Plug Right Angle Straight Jack Straight Plug Straight Plug Straight Jack Straight Plug Straight Jack Straight Plug Straight Plug Straight Jack Straight Plug Straight Jack TM-RP EZ-600UM EZ-600716-MH EZ-900NMC EZ-900NFC EZ-900716MC EZ-900716-MCRA EZ-900716-FC EZ-90078EIA EZ-1200NMC EZ-1200NFC EZ-1200716MC EZ-1200716-FC EZ-120078EI
PAGE 71
Navini Networks, Inc.
PAGE 72
Ripwave Base Station I&C Guide 180 Navini Networks, Inc. Part #40-00047-00 Rev F v1.