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M/A-Com OpenSky 800 Installation Manual

Opensky base station/tower
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Download this manual See also: Maintenance Manual, Operator's Manual
Rhein Tech Laboratories, Inc.
360 Herndon Parkway
Suite 1400
Herndon, VA 20170
http://www.rheintech.com
Appendix K:
User Manual
Please refer to the following pages.
Client: M/A-COM, Inc.
Model: OpenSky 800 MHz Base Station
ID's: BV8MBS800B075/3670A-MBS800B
Standards: FCC Part 90/IC RSS-119
Report #: 2008072
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Summary of Contents for M/A-Com OpenSky 800

  • Page 1 Rhein Tech Laboratories, Inc. Client: M/A-COM, Inc. 360 Herndon Parkway Model: OpenSky 800 MHz Base Station Suite 1400 ID’s: BV8MBS800B075/3670A-MBS800B Herndon, VA 20170 Standards: FCC Part 90/IC RSS-119 http://www.rheintech.com Report #: 2008072 Appendix K: User Manual Please refer to the following pages.
  • Page 2 Installation Manual MM102225V1 Rev. B, Jul-05 Base Station/Tower Site...
  • Page 3 This manual is published by M/A-COM, Inc. without any warranty. Improvements and changes to this manual necessitated by typographical errors, inaccuracies of current information, or improvements to programs and/or equipment, may be made by M/A-COM, Inc., at any time and without notice.
  • Page 4 MM102225V1, Rev. B TABLE OF CONTENTS Page GENERAL INFORMATION..........................6 1.1. INTRODUCTION .............................6 1.2. REFERENCE MATERIAL..........................6 1.3. TOOLS AND TEST EQUIPMENT........................7 1.4. TOOLS REQUIRED FOR SPECIFIC TASK....................9 1.5. SAFETY INFORMATION ..........................9 1.6. SAFETY SYMBOLS ............................11 1.7. BASE STATION EQUIPMENT SPECIFICATION (G )............12 ENERAL SITE PREPARATION............................13...
  • Page 5 MM102225V1, Rev. B TABLE OF CONTENTS Page 6.1.1 12dB SINAD Receiver Sensitivity ......................43 ANALOG PERFORMANCE TESTING OF TOWER TOP AMPLIFIERS ........... 46 6.2.1 Tower Top Amplifier Performance Test....................46 TOWER TOP LOW NOISE AMPLIFIER (TTA) GAIN MEASUREMENT (REQUIRED) ......47 ANTENNA 20DB QUIETING TEST (MANDATORY)................
  • Page 6 MM102225V1, Rev. B TABLE OF CONTENTS Page APPENDIX L.................................96 RECORDED DATA SHEET ............................96 FIGURES Figure 3-1: Bolt Assembly Hardware..........................20 Figure 3-2: Nylon Washer and Bolt Assembly......................20 Figure 3-3: Concrete Floor Mounting..........................20 Figure 3-4: Bolt Assembly Used to Bolt Rack to Concrete Floor ................. 21 Figure 3-5: Raised Floor Rack Attachment ........................

  • Page 7: General Information

    This manual specifies procedures for installing and testing OpenSky® Base Station/Tower equipment racks at a communication site. This manual is intended for M/A-COM and contracted personnel responsible for supervising or conducting the equipment rack installation process. Before attempting to install or checkout this equipment, become familiar with the contents of this manual.

  • Page 8: Tools And Test Equipment

    MM102225V1, Rev. B Title Publication Number • OE-100 Outdoor Enclosure........MM102226V1 • M/A-COM, Inc. Quality Standards Manual....GQM0221 • Rack Breaker Panel Maintenance Manual ....(Not Available) • RX Amplifier Maintenance Manual ......(Not Available) • Duplexer and Power Sensor Maintenance Manual ..........
  • Page 9 MM102225V1, Rev. B NAME OF TOOL USE/COMMENTS Soft Jaw Connector Pliers Tightening or loosening N-type connectors Crescent Pliers: M/A-COM Part Number 529-10 or Tessco Part Number 83040 Superflex Antenna Cable To convey antenna signals to equipment racks within a shelter Torque Wrench...

  • Page 10: Tools Required For Specific Task

    Tightening or loosening N- SoftJaw Connector Pliers Type connectors Crescent Pliers, M/A-COM Part Number 529-10 or Tessco Part Number 83040 Look for notes and cautions in the installation procedures that remind the installer when these tools must be used to complete an installation step properly.
  • Page 11 4. Care should be taken so objects do not fall or liquids do not spill into the equipment. 5. DO NOT expose equipment to extreme temperatures. 6. DO NOT use auxiliary equipment not recommended or sold by M/A-COM. To do so may result in a risk of fire, electric shock or injury to persons.

  • Page 12: Safety Symbols

    MM102225V1, Rev. B 11. DO NOT operate equipment with damaged power cords or plugs - replace them immediately. 12. DO NOT operate this product in an explosive atmosphere. 13. To reduce risk of electric shock, unplug unit from outlet before attempting any maintenance or cleaning.
  • Page 13 MM102225V1, Rev. B 1.7. OpenSky BASE STATION EQUIPMENT SPECIFICATION (General) Type: Indoor Cabinet 83 Inch Floor Mount Size: Height: 83 inches (77 inches usable) Width: 22 inches Depth: 24 inches Number of Rack Units (RU): 44 RU available Weight (Approximate) Depending on the number of RF channels installed, the weight could range from 350 to 500 LBS for the...

  • Page 14: Site Preparation

    MM102225V1, Rev. B 2.0 SITE PREPARATION INTRODUCTION This section provides instructions for preparing the site and other installation items, which must be completed prior to installing OpenSky Communication equipment. The areas covered include the following: Antenna System - This includes installation of the antenna tower, receive and transmit antennas, tower top amplifier and the installation of the transmission lines from the antenna to the tower top amplifier to the equipment shelter.
  • Page 15 MM102225V1, Rev. B 2.2.2.2 Minimum Bending Radius Always adhere to the minimum bending requirements provided by the manufacturer. For Andrew Products, the values are: CABLE SIZE BENDING RADIUS 1/4-inch 1-inch (25 mm) 1/2-inch 1.25-inch (32 mm) 7/8-inch 10-inches (250 mm) 1-5/8-inch 20-inches (510 mm)

  • Page 16: Tower Top Amplifier

    MM102225V1, Rev. B Adapters for each antenna system are selected when ordering the system. If the coaxial cable must be attached to a structure that is not compatible with any of the above hangers or adapters, then additional materials or other special considerations may be required. To secure 1/4-inch or 1/2-inch vertical or horizontal coaxial cables of any size, use UV resistant, black nylon cable ties.

  • Page 17: Electrical Power

    MM102225V1, Rev. B Although the temperature requirements for individual pieces of trunked equipment may be broader, when several units are assembled together in a cabinet more heat is generated. Because of this condition, the ambient room temperature outside the cabinet must be lowered to ensure the temperature inside the cabinet does not exceed the limits for the equipment.
  • Page 18 MM102225V1, Rev. B 4. Record the design gain of the antenna. 5. If the antenna is directional, record the bearing of the main lobe, using the magnetic declination for True North. If it is Omni, write "Omni" in the data entry line. 6.

  • Page 19: Base Station Installation

    MM102225V1, Rev. B 3.0 BASE STATION INSTALLATION The following sections present the steps required for installation of populated OpenSky base station equipment racks at a communications site. To a certain extent, installations must be planned site-by-site, because of the wide variety of installation conditions and configurations.

  • Page 20: Securing Equipment Racks To The Floor

    MM102225V1, Rev. B • Connecting the power supply and site subsystems external to the OpenSky equipment racks SECURING EQUIPMENT RACKS TO THE FLOOR Move the racks into the designated positions and prepare to bolt them to the floor. In rare cases, bolting to the floor may be prohibited.

  • Page 21: Figure 3-1: Bolt Assembly Hardware

    MM102225V1, Rev. B LEAD ANCHOR BOLT NYLON WASHER FENDER WASHER Figure 3-1: Bolt Assembly Hardware Side View Bottom View Top View Bolt Assembly Figure 3-2: Nylon Washer and Bolt Assembly BOLT BOTTOM OF CABINET NYLON WASHER PHENOLIC STRIP FENDER WASHER EXPANDABLE CONCRETE ANCHOR CONCRETE FLOORING...

  • Page 22: Figure 3-4: Bolt Assembly Used To Bolt Rack To Concrete Floor

    MM102225V1, Rev. B BOLT ASSEMBLIES Figure 3-4: Bolt Assembly Used to Bolt Rack to Concrete Floor • For wood floors, use a lag bolt with an insulating nylon washer under the head to bolt the racks to the floor. Insulating phenolic strips under the racks are not required.

  • Page 23: Cabling Equipment Rack Components

    Follow this procedure in accordance with M/A-COM, Inc. Quality Standards Manual GQM0221. Possible rack-ups of equipment cabinets are shown in Figures 6 and 7.

  • Page 24: Interrack Cable Connections

    MM102225V1, Rev. B 44 RU--- 1 RU RACK LABEL 3 RU RACK BREAKER PANEL 40 RU--- 2 RU BLANK 2 RU RX AMPLIFIER 35 RU--- 3 RU TT AMP CONTROLLER 44 RU available Rack total height is 83" of 30 RU--- TX COMBINER which 77"...

  • Page 25: Figure 3-8: Hpa Rf Input Connection

    MM102225V1, Rev. B Figure 3-8: HPA RF Input Connection Figure 3-9: DCX RF Output Connection 2. Racks that hold the HPA's have two large unconnected wire bundles covered with a split loom. Pull these bundles to the adjacent rack, which contains the DCXs and the Base Station Alarm Module (see Figure 3-10: Wire Bundles with DCX and Base Station Alarm Wiring).

  • Page 26: Figure 3-10: Wire Bundles With Dcx And Base Station Alarm Wiring

    MM102225V1, Rev. B ION Alarm Bundle with Lock-n-Mate Connectors Figure 3-10: Wire Bundles with DCX and Base Station Alarm Wiring (This figure is for the ION Alarm only. The DPS Alarm uses punchblock connections.) 3. Included in the wire bundle above, is a wiring harness with the female half of a MATE-N-LOK®...

  • Page 27: Figure 3-12: Rs-485 Main Cable And Pigtail Plug Connected To Dcx

    MM102225V1, Rev. B 4. The remaining cables in this wiring bundle are data cables that attach to each DCX. Dress these cables into the cable tray. Each data cable terminates in a pigtail with an RS-485 connector on both the main cable and its pigtail. Following the labels on each data cable, plug the main cable and its pigtail into the two RS-485 ports on each DCX.

  • Page 28: Connecting Power Source And External Equipment

    MM102225V1, Rev. B Multi-Coupler port (see Figure 3-14: Cable Connecting the Tower-Top Amplifier Control Box to the Input port of the Multi-Coupler). Figure 3-14: Cable Connecting the Tower-Top Amplifier Control Box to the Input port of the Multi- Coupler Connecting Power Source and External Equipment 3.4.2 Once rack-to-rack cables have been connected, the racked equipment in the enclosure must be connected to external equipment and to the power source.

  • Page 29: Connect Cabling For The Power Source

    MM102225V1, Rev. B Connect Cabling for the Power Source 3.4.3 1. Run two DC power cables (#6 insulated red connected to -48 volts) and ground (DC return insulated black) from the site's -48VDC Distribution Panel (see Figure 3-17: - 48 Volt Breaker Distribution Panel of the DC Power Supply - Red Wire and Figure 3-18: DC Return Distribution Bar - Black Wires) to each rack, attaching the cables to the racks.

  • Page 30: Figure 3-18: Dc Return Distribution Bar - Black Wires

    MM102225V1, Rev. B Figure 3-18: DC Return Distribution Bar - Black Wires 2. If not already labeled, label OpenSky circuits in the breaker panel to identify each rack (see Figure 3-19: Properly Labeled OpenSky Circuit Breakers in the Distribution Panel - OpenSky Rack 1, OpenSky Rack 2, etc.) Figure 3-19: Properly Labeled OpenSky Circuit Breakers in the Distribution Panel 3.

  • Page 31: Connect Grounding Cables To Equipment Racks

    All bends in the grounding cables must be < 70-degrees. All bends in the grounding cables must have minimum bend radius of 8 inches. See the M/A-COM Quality Standards Manual (GQM0221) for more information. CAUTION 2. At a single point cabinet ground, use a two-hole lug to attach the ground cable. Route...

  • Page 32: Connect Antenna Cables To Equipment Racks

    MM102225V1, Rev. B 3. Route the ground cables together and maintain at least two inches (2") spacing between the ground cable bundle and other types of cables. Connect Antenna Cables to Equipment Racks 3.4.5 Attach the antenna cables to the communications equipment. 1.

  • Page 33: Connect The T1 Network

    MM102225V1, Rev. B Connect the T1 Network 3.4.6 Connect the high-speed digital T1 (telephone) network Interface to the Site Access Server as defined by the Site Deployment Order. In most installations, this connection goes to microwave equipment. NOTE Site Clean Up 3.4.7 Before leaving, remove any debris, such as wire clippings, metal shavings, dust mounds, etc.

  • Page 34: Site Test Procedures

    MM102225V1, Rev. B 4.0 SITE TEST PROCEDURES PURPOSE AND SCOPE This section describes post installation tests required for compliance testing of the M/A- COM Wireless Systems OpenSky Digital Base Station. This section defines and details the test plan and methodology for each test. Objective: This test confirms a base site receive channel is not corrupted by site specific noise or interference.

  • Page 35: Overview Of Opensky Base Site Equipment

    MM102225V1, Rev. B OVERVIEW OF OPENSKY BASE SITE EQUIPMENT An OpenSky base station consists of a variety of products and includes radio transmitting and receiving equipment, RF distribution equipment and network communications system interface equipment. OpenSky is a digital system and has some significant differences in terms of fixed network connectivity to that commonly seen with conventional analog systems.

  • Page 36: Preparation

    MM102225V1, Rev. B PREPARATION To prepare for the start of testing, it is important that all test equipment be powered up now and allowed to thermally stabilize. Begin by powering up the Communications Test Set HP 8920. Record the specifics of each of the system components. Before testing the complete system, verify that the system is cabled correctly.

  • Page 37: Inspection

    MM102225V1, Rev. B INSPECTION In this section, the location of the installation is recorded and equipment configuration parameters are verified against the As Built. In addition, general workmanship and quality of assembly and installation are inspected Only selected parameters are checked against the recorded factory configuration as all parameters are programmed into equipment before leaving the factory and hence should NOTE not require to be modified.

  • Page 38: Interrack Cabling

    MM102225V1, Rev. B Interrack Cabling 4.7.2 ALARM ACTION MISCELLANEOUS CABLING The photograph to the right shows the location of the inter-rack alarm interconnect cable. Verify that it has been connected as shown where the circle is located RECEIVE ACTION MISCELLANEOUS MULTICOUPLER INPUT The photograph to the right shows the...
  • Page 39 MM102225V1, Rev. B HPA RF ACTION MISCELLANEOUS INPUT The photograph to the right shows the destination point for the HPA RF Input. Verify that they are connected as shown HPA CONTROL ACTION MISCELLANEOUS CONNECTION The photograph to the right shows the destination point for the HPA control cable.

  • Page 40: New Cabling

    MM102225V1, Rev. B New Cabling 4.7.3 RACK POWER ACTION MISCELLANEOUS CONNECTION Black The photograph to the right shows the connection points and polarity of the DC power connection to each power distribution panel. Verify that they are connected as shown. Note: The red cable is the most negative, i.e.
  • Page 41 MM102225V1, Rev. B SYSTEM ACTION MISCELLANEOUS COMMUNI- CATIONS The photograph to the right shows the in-rack connection point for T1 communications. The destination of this connection will vary by site; however, verify that a modular style plug wired (T568B) is used to connect the site communications interface with the base site T1.
  • Page 42 MM102225V1, Rev. B TRANSMIT ANTENNA ACTION MISCELLANEOUS CONNECTION The photograph to the right shows the in-rack connection point for the system transmit antenna. Verify that the jumper cable is present and disconnect it from the Bird Power Monitor output. DUPLEX ACTION MISCELLANEOUS ANTENNA...

  • Page 43: Equipment Configuration

    MM102225V1, Rev. B 5.0 EQUIPMENT CONFIGURATION The objective of this procedure is to verify that base station equipment has been correctly programmed for the site at which it is installed. Testing involves connecting a laptop computer to each piece of equipment and interrogating and recording configuration files. A record of the configuration files will be shipped with the radio rack.

  • Page 44: Performance Testing

    DCX of the base station under test. Note: Requires Black Cisco cable & adapter and a communications data rate of 19,200 bps. Ensure that the Disable/Enable switches on all HPA’s are DISABLED. Taken from M/A-COM, Inc - Drawing No. GTP-0296, Rev. A...
  • Page 45 MM102225V1, Rev. B STEPS ACTION MISCELLANEOUS Offline [CR] ;<Various status messages> at@outmode0 [CR] To place the DCX in Analog Mode, enter the sequence of commands indicated by bold script in the example save_config [CR] seen to the right. Reboot [CR] ;...
  • Page 46 MM102225V1, Rev. B STEPS ACTION MISCELLANEOUS Select the RF GEN screen and place the cursor on the Amplitude field. Configure test as follows: • Verify HP 8920 RF IN/OUT port is connected to the antenna port of the TTA Controller. •...

  • Page 47: Analog Performance Testing Of Tower Top Amplifiers

    MM102225V1, Rev. B ANALOG PERFORMANCE TESTING OF TOWER TOP AMPLIFIERS This single channel measurement is performed using external antenna coupling between the transmit and receive antennas to deliver a test signal to the TTA. A SINAD System level test is performed with the TTA "On" and "Off" to measure the receive system improvement provided by the TTA.

  • Page 48: Tower Top Low Noise Amplifier (Tta) Gain Measurement (Required)

    MM102225V1, Rev. B TOWER TOP LOW NOISE AMPLIFIER (TTA) GAIN MEASUREMENT (REQUIRED) The purpose of this test is to measure the gain of the TTA. The method will be to inject a test signal into the transmit jumper cable using a receive channel frequency. This signal will be coupled from the transmit antenna to the receive antenna and a reference power level measurement will be made with the TTA “On”...
  • Page 49 MM102225V1, Rev. B STEPS ACTION MISCELLANEOUS Record the power level as indicated in the HP 8920 Spectrum Analyzer Lvl field. Enter this value in the TTA Gain table, column 2 for TTA “On” Turn the Power Switch on the front of the TTA Control Panel to the “Off”...

  • Page 50: Antenna 20Db Quieting Test (Mandatory)

    MM102225V1, Rev. B ANTENNA 20DB QUIETING TEST (MANDATORY) Objective: This test measures the susceptibility of the site to de-sense resulting from site-specific interference. STEPS ACTION MISCELLANEOUS On the HP 8920, select the RF GEN screen and set the following configuration: RF Gen Freq: Set for the receive frequency of the RF path...
  • Page 51 MM102225V1, Rev. B STEPS ACTION MISCELLANEOUS Configure test as follows: • Connect the 30dB Directional Coupler to the input of the receive multicoupler. • Connect the RF IN/OUT connector of the HP 8920 to the coupler port labeled TO ANALY. •...
  • Page 52 Repeat for all other channels. If the Site Noise on all RX Channels exceeds 5 dB or if a single channel exceeds 5 dB contact M/A-COM Engineering. Refer to APPENDIX L- RECORDED DATA SHEET.

  • Page 53: Base Station Transmit (Bsx) Frequency Accuracy Test (Mandatory)

    MM102225V1, Rev. B BASE STATION TRANSMIT (BSX) FREQUENCY ACCURACY TEST (MANDATORY) Objective: The purpose of the Base Station Frequency Test is to verify that the DCX is operating on the allocated frequency and compliant with the FCC specifications. STEPS ACTION MISCELLANEOUS Connect the PC to the DCX TERMINAL port.

  • Page 54: Transmit Deviation (Mandatory)

    MM102225V1, Rev. B TRANSMIT DEVIATION (MANDATORY) Objective: The objective of this test is to ensure that the transmit deviation is correctly adjusted. STEPS ACTION MISCELLANEOUS Verify that the HPA transmit Enable/ Disable switch is set to the Disable position for all HPA’s. Select the RF GEN screen and set the Amplitude field to Off by pressing the ON/OFF / (YES) key.

  • Page 55: Tx Power Calibration (Mandatory)

    MM102225V1, Rev. B TX POWER CALIBRATION (MANDATORY) Objective: The following procedure sets the output power level at the final rack RF transmit port based on the transmit Antenna/Feedline Gains and Losses shown in the following examples. STEPS ACTION MISCELLANEOUS Example of Calculating and Setting an ERP of 50dBm: Ant Gain in dB 10dB...
  • Page 56 MM102225V1, Rev. B STEPS ACTION MISCELLANEOUS Example: buck40: Press the Enter key on the laptop buck40-bs1> keyboard. The status information on the right will be displayed on the PC console application. Similar to the text found on the right. Setting the HPA TX Power Enter the command:...

  • Page 57: Hpa Tx Power Benchmarks – Bird Vswr –57Dbm Port (Required)

    MM102225V1, Rev. B STEPS ACTION MISCELLANEOUS Complete the summary acceptance table confirming that the HPA transmit power for each channel was set to provide the site specified ERP. HPA TX POWER BENCHMARKS – BIRD VSWR –57DBM PORT (REQUIRED) Objective: The objective of this test is to provide a reference power measurement for each transmitter at the Bird Power Monitor (VSWR) –57dBm Port with the Bird Power Monitor Output Port connected to the TX Antenna.
  • Page 58 MM102225V1, Rev. B STEPS ACTION MISCELLANEOUS Select the AF ANL screen and configure the following settings: • TX Power: dBm (Average 10) • AF Anl In: FM Demod • De-Emphasis: Off • Detector: Pk+-/2 Set the HPA Enable/Disable switch to the Enable position.
  • Page 59 MM102225V1, Rev. B STEPS ACTION MISCELLANEOUS Record the results in table provided with the data worksheet. Refer to APPENDIX L - RECORDED DATA SHEET...

  • Page 60: Operational Testing

    MM102225V1, Rev. B 7.0 OPERATIONAL TESTING STANDALONE SITE ACCEPTANCE (MANDATORY) Objective: To verify correct functionality of the site in a standalone mode of operation. Successful completion of this series of tests together with all preceding mandatory tests will allow full operation of the site in standalone or repeater mode. This stage of site certification permits its use in the event that backhaul communications are not available.

  • Page 61: Network Connectivity - Backbone Communications (Required)

    MM102225V1, Rev. B STEPS ACTION MISCELLANEOUS Disable all HPA’s except RF channel under test. Select the RF channel under test (C. U. T.) and different talk group for both radios. Key the radio transmitters simultaneously and verify both stay on the same RF channel. Repeat for all RF channels allocated to site.
  • Page 62 MM102225V1, Rev. B STEPS ACTION MISCELLANEOUS Check the rear panel of the Cisco 3600 access server and observe whether the Carrier Detect LED is lit and the LOCAL and REMOTE ALARM LED’s are off. Connect the PC to the CON port of the Cisco 3600 access server.

  • Page 63: T1 Quality Link

    MM102225V1, Rev. B T1 QUALITY LINK Objective: The Cisco 3600 provides comprehensive monitoring capabilities for the T1 port that carries data traffic over the communications backbone. The showcontroller command accumulates statistics over sixteen 15-minute intervals. This test does not form part of the site acceptance testing but is included as a diagnostic tool to aid resolution of link related issues.

  • Page 64: Final Departure Check

    MM102225V1, Rev. B Continued STEPS ACTION MISCELLANEOUS Data in Interval 14: 0 Line Code Violations, 0 Path Code Violations 0 Slip Secs, 0 Fr Loss Secs, 0 Line Err Secs, 0 Degraded Mins 0 Errored Secs, 0 Bursty Err Secs, 0 Severely Err Secs, 0 Unavail Secs Data in Interval 15: 0 Line Code Violations, 0 Path Code Violations...

  • Page 65: Power Failure

    MM102225V1, Rev. B Power Failure 7.4.1 STEPS MISCELLANEOUS ACTION Connect the PC to the TERMINAL port of the DCX. Type the command: opred ? [CR] Manadabs2> opred? OPRED: BssN Status: Socket: 7 MCAddr: 225.1.2.35[6801] Cond: 1 OPRED: SasN Status: Socket: 8 MCAddr: 225.1.1.32[6802] Cond: 1 OPRED: Device Status: BSC:Up HPA:Keyed BSX:Up...

  • Page 66: Multi Site Trunking

    MM102225V1, Rev. B Multi Site Trunking 7.4.2 STEPS ACTION MISCELLANEOUS Verify all HPA ENABLE/DISABLE switches to the ENABLE position. Configure two mobile radios using the station parameters of the site under test. Power cycle the radios using their front panel power switch. Unit to Unit Call Trunk Call to another site.

  • Page 67: Common Terms

    MM102225V1, Rev. B 8.0 COMMON TERMS The following brief explanations describe OpenSky Base Station rack components and define other common terms: Table 8-1: Common Terms TERM ACRONYM OR DEFINITION ALIAS Alarm Module Environment and equipment monitor with network or pager alarm capability, providing detection of out-of-specification conditions.
  • Page 68 MM102225V1, Rev. B TERM ACRONYM OR DEFINITION ALIAS InterModulation The reject to the production, in a nonlinear element of a Rejection system, of frequencies corresponding to the sum and difference frequencies of the fundamentals and harmonics thereof that are transmitted through the element. ISM Controller Control unit used to process data from the tower-top- (BackHaul...
  • Page 69 MM102225V1, Rev. B TERM ACRONYM OR DEFINITION ALIAS TX/RX Isolator Prevents reflection of RF energy back into the RF source (the transmitter). Voltage Standing VSWR Monitor Placed in the antenna feed circuit, it continuously monitors Wave Ratio the forward and reverse power using a directional coupler. Monitor...
  • Page 70 MM102225V1, Rev. B This page intentionally left blank...

  • Page 71: Appendix A

    ATTACHING MIL-SPEC (MS) CONNECTOR TO END OF CONTROL CABLE/SOLDERING TOWER TOP AMPLIFIER CONTROL CABLE Detail “A” A – PRI ALARM (Blue) B – SEC. ALARM (Green) C – ALM POWER (Red) D – METER LINE (White) E - GROUND Taken from M/A-COM, Inc. Drawing No. GTP-0296...
  • Page 72 MM102225V1, Rev. B This page intentionally left blank...

  • Page 73: Appendix B

    Yes/ Aux DB9 9600 DB9 F-M Yes Via Cisco Bird Power Mon Yes/ RS-232 9600 DB9 F-M Yes available on DB9 via Front ION Box Panel Connector on DPS or ION Alarm. Taken from M/A-COM, Inc. Drawing No. GTP-0296, Rev. A.
  • Page 74 MM102225V1, Rev. B This page intentionally left blank...

  • Page 75: Appendix C

    MM102225V1, Rev. B APPENDIX C EQUIPMENT SERIAL NUMBERS RACK EQUIPMENT SERIAL NUMBER Alarm DCX 1 DCX 2 DCX 3 Cisco Bird Power Mon TTA Controller HPA 1 HPA 2 HPA 3 RCVR Multicoupler Taken from M/A-COM, Inc. Drawing No. GTP-0296, Rev. A.
  • Page 76 MM102225V1, Rev. B This page intentionally left blank...

  • Page 77: Appendix D

    5 $1$ZKEn$1ZY/cQ0ILIKvSDh/sODJT0 ip subnet-zero no ip domain-lookup ip multicast-routing ip dvmrp route-limit 20000 controller T1 1/0 framing esf linecode b8zs channel-group 0 timeslots 1-4 speed 64 Taken from M/A-COM, Inc. Drawing No. GTP-0296, Rev. A.
  • Page 78 MM102225V1, Rev. B PARAMETER & VALUE EXPLANATION process-max-time 200 interface Loopback0 ip address 10.136.24.158 255.255.255.224 no ip directed-broadcast ip pim dense-mode no ip mroute-cache interface Loopback1 ip address 10.136.24.190 255.255.255.224 no ip directed-broadcast interface FastEthernet1/0 ip address 10.136.24.222 255.255.255.224 no ip directed-broadcast interface Serial1/0:0 ip unnumbered Loopback0 no ip directed-broadcast...
  • Page 79 MM102225V1, Rev. B PARAMETER & VALUE EXPLANATION interface Async3 ip unnumbered Loopback0 no ip directed-broadcast ip pim dense-mode no ip mroute-cache async mode dedicated interface Async6 ip unnumbered Loopback1 no ip directed-broadcast ip pim dense-mode no ip mroute-cache async mode dedicated interface Async7 ip unnumbered Loopback1 no ip directed-broadcast...
  • Page 80 MM102225V1, Rev. B PARAMETER & VALUE EXPLANATION no ip address no ip directed-broadcast async mode interactive interface Async13 no ip address no ip directed-broadcast async mode interactive interface Async15 ip unnumbered Loopback1 no ip directed-broadcast async mode dedicated interface Async16 ip unnumbered Loopback1 no ip directed-broadcast encapsulation ppp...
  • Page 81 MM102225V1, Rev. B PARAMETER & VALUE EXPLANATION snmp-server engineID local 000000090200003080C45CA0 snmp-server community public RO line con 0 exec-timeout 0 0 transport input none stopbits 1 flowcontrol hardware line 1 10 stopbits 1 speed 38400 line 11 14 transport preferred telnet transport input telnet transport output none telnet speed 19200 19200...
  • Page 82 MM102225V1, Rev. B PARAMETER & VALUE EXPLANATION password cisco login buck40sas#...

  • Page 83: Appendix E

    SHUTDOWN TIMER: User ID: Station ID: AutoRegistration: AutoProvisioning: Auto-Online Command: Delay Host Ready: Side Tone Level: 16384 Roam Tone Level: 1500 Grant Tone Level: 1500 Enable Secondary Registration: TNIC ADDRESS: 148.174.104.71 Taken from M/A-COM, Inc. Drawing No. GTP-0296, Rev. A.
  • Page 84 MM102225V1, Rev. B TNIC PORT: 5766 DIPP Format: USE DTR/DSR: AUDIO INPUT: AUDIO OUTPUT: SCAN MODE: Enable Data Registration: Voice Re-registration Timer: Voice Re-registration Count: Enable Voice Registration: Queue Timer: Emergency Timer: Start Profile Number: VCO Calibration(CF_ADJUSTMENT): Save VCO Calibration: Fix the voice AGC gain: Sync loss report mark: VERBOSITY:...

  • Page 85: Appendix F

    8[8] RSSI Scan Time: 90[5a] RSSI Scan Delta: 8[8] RSSI Average Time: 5[5] BLER Threshold: 10[a] BLER Average Time: 5[5] CBLER Threshold: 20[14] CBLER Average Time: 10[a] RRM CSI Epoch: 60[3c] Taken from M/A-COM, Inc. Drawing No. GTP-0296, Rev. A.
  • Page 86 MM102225V1, Rev. B RRM Cell Configuration Epoch: 30[1e] RRM Quality Parameters Epoch: 120[78] RRM RC Roaming Epoch: 10[a] RRM RC Roaming Parameters: 80[50] 40[28] 2[2] 25[19] 10[a] RRM RC Utilization Epoch: 0[0] RRM Utilization Roaming Parameters: 10[a] 40[28] 0[0] 60[3c] 30[1e] RRM Deactivation Roaming Parameters: 4[4] NMS Port:...
  • Page 87 MM102225V1, Rev. B Dispatch Network Netmask: 255.255.240.0 Peer Port: 6800[1a90] Redundancy SAS Multicast Address: 225.1.1.32 Redundancy SAS Multicast Port: 6802[1a92] Redundancy BSS Multicast Address: 225.1.2.35 Redundancy BSS Multicast Port: 6801[1a91] Redundancy Peers: 1[1] Redundancy Standbys: 0[0] Redundancy Peer Heartbeat Timeout: 10[a] Redundancy Peer Query Timeout: 5[5]...
  • Page 88 MM102225V1, Rev. B Voice Group Add: 16: 504 10 0 Voice Group Add: 17: 505 10 0 BSIB is present: 0[0] BSIB should key: 0[0] ** NOT USED **: 0[0] BSIB VSWR Alarm Levels: 0.000 1.200 0.000 0.000 0.000 1.200 BSIB power Alarm Levels: 0.000 0.000 0.000 0.000 0.000 0.000 RX I/F Eq Tap:...

  • Page 89: Appendix G

    {chnid:1 nports:2 free_fwd:2 free_rev:2} TVARB: current calls: private_public_group_boundary: 2000 emergency_priority_boundary: default PRIVATE_VG priority: default PRIVATE_VG hang time: 0 sec. default PUBLIC_VG priority: default PUBLIC_VG hang time: 0 sec. maximum_grant_time: 0 sec. ************************************************************* Test Cables: Taken from M/A-COM, Inc. Drawing No. GTP-0296, Rev. A.
  • Page 90 MM102225V1, Rev. B Cable 1 Cisco black RJ45 to RJ45 Modular Cisco Terminal Adapter RJ45 to 9-Pin D Shell (F) Cables 2 & 3 Qty 2 BNC to N for in rack distribution losses. Qty1 N-N (F/F) barrel for in rack distribution losses HPA output power Cables 2 &...

  • Page 91: Appendix H

    16. Tighten setscrew on coarse plunger and reinstall protective sleeve. 17. Position fine tune plunger to maximize spectrum amplitude on display. 18. Tighten fine tune plunger lock nut. 19. Reconnect all cables. 20. Finished. Taken from M/A-COM, Inc. Drawing No. GTP-0301, Rev. - .
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  • Page 93: Appendix J

    MM102225V1, Rev. B APPENDIX J INSTALLER PROFILE DATA SHEET (One sheet per Installer if multiple Installers used) INSTALLER PROFILE Installer’s Company Name: __________________________________________ Installer’s Telephone Number: __________________________________________ Installer’s Name (s): __________________________________________ __________________________________________ Technician’s Name (s): __________________________________________ __________________________________________ Date of Testing Complete: __________________________________________ Test Equipment Used, Model, Serial Number...
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  • Page 95: Appendix K

    MM102225V1, Rev. B APPENDIX K ANTENNA SYSTEM INSTALLATION CHECKLIST (One sheet per antenna per site) ______________ SITE ______________ ANTENNA ______________ INSPECTED BY ______________ DATE CHECKLIST: Is this antenna for Transmit, Receive or GPS? OMNI What is the make and model of antenna? DIRECTIONA What is the type of antenna? ______________...
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  • Page 97: Appendix L

    MM102225V1, Rev. B APPENDIX L RECORDED DATA SHEET (A separate data sheet is required for each channel) Channel # ______________ Passive Antenna Sites RMS audio voltage coming from the radio receiver ("Un-quieted” audio output level) ______________________________ Signal generator level at the 20dB quieting level with the antenna not attached __________________________________ 20dB quieting level with the antenna attached ____________________ Analog Receive Tests...
  • Page 98 INSTALLATION CHECKLIST Network Connectivity Ping the MIS1 and MIS2 servers located in the ROC. Success__________________ Failure ____________________ MM102225V1 R1A...
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  • Page 100 M/A-COM Wireless Systems 221 Jefferson Ridge Parkway Lynchburg, Virginia 24501 (Outside USA, 434-385-2400) Toll Free 800-528-7711 www.macom-wireless.com Printed in U.S.A.

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