ADC Telecommunications PSM8019D FWP-441T841MOD User Manual
ADC Telecommunications Inc FWP-441T841MOD
User Manual
FlexWave Prism™ Remote Unit RF Module Installation Guide TECP‐77‐141 ∙ Single-Slot RF Module Issue 6 ∙ April 2014 Dual-Band Dual-Slot RF Module Legacy Dual-Slot 40W RF Module HDM RF Module DOCUMENT OVERVIEW This manual provides the information you need to install TE Connectivity FlexWave Prism® RF Modules into a Prism Remote Unit (PRU). Installation instructions are provided for the following Prism Remote Unit RF Modules: • Single‐Bay RF Modules, which includes the HDM RF Modules • Dual‐Bay RF Modules – Dual‐Band RF Modules – Legacy 40W RF Modules. © 2014 TE Connectivity, Inc. All Rights Reserved. Information contained in this document is company private to TE Connectivity Ltd., and shall not be modified, used, copied, reproduced or disclosed in whole or in part without the written consent of TE. FlexWave, FlexWave Prism, InterReach Spectrum, InterReach Unison, Universal Radio Head, TE Connectivity, and TE connectivity (logo) are trademarks. All other logos, products and/or company names referred to herein might be trademarks of their respective owners. Contents herein are current as of the date of publication. TE reserves the right to change the contents without prior notice. In no event shall TE be liable for any damages resulting from loss of data, loss of use, or loss of profits, and TE further disclaims any and all liability for indirect, incidental, special, consequential or other similar damages. This disclaimer of liability applies to all products, publications and services during and after the warranty period. Table 1 lists the RF Modules that this installation guide supports. The RF Modules are compatible only with the Remote Units listed in Table 2 on page 3. Table 1. FlexWave Prism RF Modules Supported in this Installation Guide Catalog Number Description High‐Density Module (HDM); Single Bay FWP ‐ 4 4 1 T8 4 1 M O D DUAL 20W SMR800 / PCS1900 FWP ‐ 8 4 1 60 0 0 M O D 20W PCS Module, Non‐Diversity, HDM, Single Bay FWP ‐ 84MT000M OD Dual 20W 1900 PCS, RF Module, MIMO, Single‐Bay FWP ‐ 8 8 1 T0 0 0 M O D HDM PCS Band 2 & 25 40W SISO, Single‐Bay FWP ‐ A416000MOD 20W AWS Module, Non‐Diversity, HDM, Single Bay FWP ‐ A4MT000MOD HDM AWS Band 4 MIMO 20W, Single‐Bay FWP ‐ A81T000MOD HDM AWS Band 4 SISO 40W RF Module, Single‐Bay FWP ‐ B410000MOD 20W WIDEBAND Cell Module, Non‐Diversity, Classic FWP ‐ B810100MOD 40W WIDEBAND Cell Module, Non‐Diversity, Single‐Bay FWP ‐ C 4M T0 0 0 M O D DUAL 20W 850 Cell/1900 PCS, Module, Single‐Bay FWP ‐ L 4 M T 0 00 M O D 20W 700 lABC Module, MIMO HDM, Single‐Bay FWP ‐ L4MTU4MMOD Dual 20W 700 lABC/700uC, RF Module, Single‐Bay FWP ‐ U4MT000MOD 20W 700 uC Module, MIMO HDM, Single‐Bay Single SuperDART; Single Bay FWP ‐ 6 2 1 60 0 0 M O D 10W, EGSM 900, Non‐Diversity, Single SuperDART FWP ‐ 7 4 1 60 0 0 M O D 20W, GSM 1800, Non‐Diversity, Single SuperDART FWP ‐ 9 4 1 60 0 0 M O D 20W, UMTS 2100, Non‐Diversity, Single SuperDART FWP ‐ 9 4 1 6D 0 0M O D 20W 2100 UMTS Module, DIV Ready, Single SuperDART FWP ‐ F216000MOD 10W APAC EGSM (885‐915) Module, Single SuperDART FWP ‐ I210000MOD 6.5W APAC iDEN Module, Non‐Diversity, Classic (Extended 1 MHz) FWP ‐ K216000MOD 10W 900 P‐GSM Module, Non‐Diversity, Single SuperDART FWP ‐ L 4 16 0 0 0 M O D 20W 700 Lower ABC Module, Non‐Diversity, Single SuperDART FWP ‐ U416000MOD 700 LTE, UPPER C, 20W Module, SISO, Single SuperDART FWP ‐ U816100MOD 40W 700 Upper C Module, Non‐Diversity, Single SuperDART, Single‐Bay Dual SuperDART; Single Bay FWP ‐ 741S000MOD 20W, GSM 1800, Non‐Diversity, DL SuperDART FWP ‐ 841S000MOD 20W RF Module, PCS 1900 12S FWP ‐ 941S000MOD 20W, UMTS 2100, Non‐Diversity, DL SuperDART FWP ‐ A41S000MOD 20W RF Module, AWS 2100 12S Two Single SuperDARTs; Single Bay Page 2 ©2014 FWP ‐ 6 2 2 60 0 0 M O D 10W, EGSM 900, Diversity, Single SuperDART FWP ‐ 7 4 2 60 0 0 M O D 20W, GSM 1800, Diversity, Single SuperDART FWP ‐ 8 4 2 60 0 0 M O D 20W PCS Module, Diversity, Single SuperDART FWP ‐ 9 4 2 60 0 0 M O D 20W, UMTS 2100, Diversity, Single SuperDART FWP ‐ A426000MOD 20W AWS Module, Diversity, Single SuperDART FWP ‐ K226000MOD 10W 900 P‐GSM Module, Diversity, Single SuperDART TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Table 1. FlexWave Prism RF Modules Supported in this Installation Guide (Cont.) Catalog Number Description Classic DART; Single Bay FWP ‐ 4210000MOD 6.5W 800 SMR Module, Non‐Diversity, Classic FWP ‐ 8410000MOD 20W RF Module, PCS 1900 Non‐Diversity FWP ‐ A410000MOD 20W RF Module, AWS 2100 Non‐Diversity FWP ‐ B420000MOD 20W WIDEBAND Cell Module, Diversity, Classic FWP ‐ 8420000MOD 20W RF Module, PCS 1900 Diversity FWP ‐ A420000MOD 20W RF Module, AWS 2100 Diversity Classic DART; Two‐Bay FWP ‐ 8810000MOD 40W PCS Module, Non‐Diversity, Classic (Dual‐Bay) FWP ‐ A810000MOD 40W AWS Module, Non‐Diversity, Classic, Dual‐Bay Dual Classic DART; Two‐Bay FWP ‐ D 2 1 00 0 0 M O D Table 2. 6.5W 800/900 ESMR Module, Non‐Diversity, Classic Supported FlexWave Prism Remote Unit Chassis Catalog Number Description FP 1‐ XX X X XX X X XX X R U Single‐Bay Prism Remote FP 2‐ XX X X XX X X XX X R U Dual‐Bay Prism Remote FP 3‐ XX X X XX X X XX X R U Tri‐Bay Prism Remote FP 4‐ XX X X XX X X XX X R U Quad‐Bay Prism Remote Revision History This release of the FlexWave Prism Remote Unit RF Module Installation Guide, TECP‐77‐141 Issue 6, adds support for the DUAL 20W SMR800 / PCS1900 RF Module (FWP‐441T841MOD). Document Cautions and Notes Two types of messages, identified below, appear in the text: CAUTION! Cautions indicate operations or steps that could cause personal injury, induce a safety problem in a managed device, destroy or corrupt information, or interrupt or stop services. NOTE: Notes contain information about special circumstances. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 3 TE Connectivity Ltd. Abbreviations Used in this Guide CDRH Center for Diseases and Radiological Health LVDS Low‐Voltage Differential Signaling cm Centimeter MHz Megahertz DART Digital Analog RF Transport MIMO Multiple‐Input Multiple‐Output dB Decibel MOD Module dBm Decibel‐milliwatts PA Power Amplifier DCS Distributed Call Signaling PRIM Primary DD Digital Dividend PRU Prism Remote Unit DIV Diversity PWR Power DPM Digital Processing Module REV Reverse EMC Electromagnetic Compatibility RF Radio Frequency ESD Electro‐Static Discharge Rx Receive EU European Union SDART Super Digital Analog RF Transport FCC Federal Communications Commission SeRF Serialized RF FDA Food and Drug Administration SFP Small Form‐Factor Pluggable FRU Fullband Remote Unit TIM Thermal‐Interface Material FWD Forward Tx Transmit HDM High Density Module UL Underwriters' Laboratories, Inc. HMFOC Hardened Multi‐Fiber Optic Connector UMTS Universal Mobile Telecommunications System IC Industry Canada Watt LED Light‐Emitting Diode Page 4 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 OVERVIEW OF RF MODULES FOR PRISM REMOTE UNITS Figure 1 illustrates the Prism Remote Unit (PRU), which controls RF emissions, interfaces with the FlexWave Prism Host Unit. Single-Bay Dual-Bay Tri-Bay Quad-Bay Prism Remote Unit Prism Remote Unit Prism Remote Unit Prism Remote Unit Figure 1. Prism Remote Units (PRUs) The PRU has from one to four RF Module bays, depending on the PRU model. That is, the Single‐Bay PRU has one RF Module bay, and the Quad‐Bay PRU has four RF Module bays. A PRU can support up to four RF Modules. The function of the PRU RF Modules on the Forward Path is to: • convert the digitized RF transported from the Host to Analog RF • amplify the Analog RF signal • provide signal filtering. The function of the PRU RF Modules on the Reverse Path is to: • convert the Analog RF from the handset to Digital RF for transport to the Host • provide signal filtering. NOTE: The RF Modules are field replaceable, but cannot be serviced in the field. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 5 TE Connectivity Ltd. RF Module DARTs Each RF Module can support any of the following DART combinations: • one Classic DART or one Single SuperDART • two Classic DARTs (i.e., the 6.5W 800/900 ESMR Module, Non‐Diversity, Classic) • two Classic DARTs—Diversity • two Single SuperDARTs—Diversity • one Dual SuperDART • one or two sets of Tx or Rx Boards (HDM). Each RF Module will have up to two 6‐timeslot DARTs or one 12‐timeslot DART per RF Module. The DART type determines the maximum number of links, where there can be up to eight Classic DARTs or Single SuperDARTs that support 39 MHz each, or up to 4 Dual SuperDARTs that support up to 75MHz each. Prism supports the DART Module types listed below. • Classic DARTs are 6‐timeslot DARTs that support up to 35 MHz contiguous bandwidth (see Table 3 on page 6). • Single SuperDARTs are 6‐timeslot DARTs that support two non‐contiguous bands in the entire frequency range of the DART, but cannot exceed 39 MHz total RF bandwidth (see Table 4 on page 6). • Dual SuperDARTs are 12‐timeslot DARTs that support up to 60‐75 MHz (see Table 5 on page 7) NOTE: Industry Canada PCS 20 dB nominal bandwidth is less than 61.5 MHz. NOTE: Industry Canada AWS 20 dB nominal bandwidth is less than 47.2 MHz Table 3. Single‐Bay Classic DARTs DART Module Type Maximum Bandwidth (MHz) Number of Fiber Slots 800 APAC iDEN Classic 19 800 SMR Classic 18 850 Cell Classic 25 900 SMR Classic Table 4. DART Name Single‐Bay SuperDARTs (1) Used in… Maximum Bandwidth (MHz) Maximum Fiber Slots Host Units HEUs Maximum Frequency Span (MHz) 1800 GSM SGL SuperDART Yes No 75 39 1900 PCS SGL SuperDART Yes Yes 70 39 2100 AWS SGL SuperDART Yes Yes 45 39 2100 UMTS SGL SuperDART Yes No 60 39 700 IABC SGL SuperDART Yes Yes 18 700 uC SGL SuperDART Yes Yes 10 900 EGSM SGL SuperDART Yes No 35 (1) When using a Host Unit with both the SeRF II and System Board II modules, the bandwidths and fiber slots shown are only available in Host Unit DART Slots 1 and 3 for Single‐Bay SuperDARTs. Page 6 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Table 5. Dual‐Bay SuperDARTs DART Module Type Maximum Bandwidth (MHz) Number of Fiber Slots 1800 GSM DL SuperDART 75 12 1900 PCS DL SuperDART 70 12 2100 AWS DL SuperDART 45 2100 UMTS DL SuperDART 60 12 RF Module Types The PRU RF Modules are available in the following formats, and as described in the following sections: • “Single‐ and Dual‐Bay RF Modules with Classic or SuperDARTs” on page 7 • “HDM RF Modules” on page 8 • “Legacy Dual‐Bay 40W RF Modules” on page 9. Single‐ and Dual‐Bay RF Modules with Classic or SuperDARTs Figure 2 shows examples of Single‐ and Dual‐Bay RF Modules, both of which have two DARTs. Single-Bay Dual-Card RF Module Single‐Bay RF Modules have the following elements: • one or two DARTs • one Duplexer • one Linear Power Amplifier (LPA) • one Remote DART Interface (RDI) board. Dual‐Band Dual‐Bay RF Modules have the following elements: • two DARTs • two Duplexers • one Linear Power Amplifier (LPA) • one Remote DART Interface (RDI) board. Dual-Band Dual-Bay RF Module Figure 2. Single‐ and Dual‐Bay RF Modules FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 7 TE Connectivity Ltd. HDM RF Modules HDM RF Modules (Figure 3) are designed to provide the ability to deploy either a 20W Dual /Multiple Input multiple Output (MIMO) RF Module (where dual equals two bands) or a 40W Single Input Single Output (SISO) RF Module within a single‐bay of a PRU. An HDM RF Module does the following: • interfaces one Host DART‐either Classic or SuperDART • supports two non‐contiguous RF slices up to 35 MHz total bandwidth in a Dual or MIMO configuration • supports full bandwidth in a SISO configuration, up to 75 MHz • supports 20W per band/Path in a Dual/MIMO RF Module • supports up to 40W RF output power in a SISO RF Module. An HDM RF Module has the following components: • one DPM • one or two sets of TX/RX boards • one or two Duplexers • one or two Power Amplifiers (PAs). Figure 3. HDM RF Modules The components of a PRU HDM RF Module are dependent on the module type, as listed in Table 6. Table 6. RF Module Type Page 8 ©2014 TE Connectivity Ltd. Components of PRU HDM RF Modules DPM LPA Duplexer Rx Card Tx Card SISO MIMO/Dual Band Module FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Legacy Dual‐Bay 40W RF Modules The Legacy Dual‐Bay 40W RF Module (Figure 5) is designed for AWS and PCS frequencies and is supported only by Classic DARTs. The Legacy Dual‐Bay 40W RF Module comprises: • one Classic DART • one Duplexer • two Power Amplifiers (PAs) • one Remote DART Interface (RDI) board. NOTE: This manual describes how to install the PCS 1900 and AWS 2100 Non‐Diversity RF Modules. Figure 4. Legacy Dual‐Bay 40W RF Module FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 9 TE Connectivity Ltd. RF MODULE COMPONENTS Figure 5 shows typical RF Module components, using the Single‐Bay RF Module as an example. DARTs Mounting latch Mounting hook LNA (inside the Duplexer cavitiy) Power Amplifier (PA) Duplexer NOTE: The RDI is internal to the RF Module and is therefore not shown. Figure 5. Single‐Bay RF Module Components Figure 6 shows the components of an HDM RF Module. DPM Tx and Rx Cards Duplexers Power Amplifier Mounting hook Mounting latch Figure 6. HDM RF Module Components Page 10 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Duplexer and Low Noise Amplifier The RF Module provides the PRU with an internal Duplexer that is optimized to provide the desired RF band‐pass filtering and in‐band equipment isolation between FWD and REV paths. The Duplexer provides the filtering necessary to the transmit and receive paths to and from the connected antenna. The Duplexer for the Single‐ and Dual‐Bay RF Modules and the Legacy Dual‐Bay 40W RF Modules contains up to two REV path Low Noise Amplifiers (LNA for PRI and/or SEC reverse paths). The Duplexer for an HDM RF Module does not have a Low Noise Amplifier. Duplexers are not field serviceable. Linear Power Amplifiers The Linear Power Amplifier (LPA) is a high quality broadband RF amplifier used for achieving Prism product‐rated power for the PRU Tx forward path RF. The PAs are pass‐band specific, with the maximum composite Tx power levels listed in Table 7 for Single‐Card, Dual‐Card, and HDM RF Modules and Table 8 on page 11 for Legacy Dual‐Bay 40W RF Modules. The LPA is housed within the RF Module, and is not field serviceable. Table 7. LPA Maximum Composite Tx Power Levels for Single‐Card, Dual‐Card, and HDM RF Modules Bandwidth (MHz) supported across entire spectrum HDM Maximum Classic Dual Watts Single Super DART dBm DART SuperDART Dual/MIMO SISO Passband AWS 2100 43 20 39 45 39 NA 45 Cellular 850 43 20 25 25 NA 25 NA 46 40 25 25 NA 25 NA EGSM 900 40 10 35 35 35 NA NA DCS 1800 42 15.8 39 75 39 NA 75 LTE 700 Lower ABC 43 20 18 18 18 NA NA 46 40 18 18 18 NA NA 43 20 10 10 10 NA NA 46 40 10 10 10 NA NA PCS 1900 43 20 39 70 39 NA 70 PGSM 900 40 10 25 25 25 NA NA SMR 800 38 6.5 18 18 NA 18 NA SMR 900 38 6.5 NA NA UMTS 2100 42 15.8 39 60 39 NA 60 LTE 700 Upper C Table 8. LPA Maximum Composite Tx Power Levels for Legacy Dual‐Bay 40W RF Modules Passband NOTE: Maximum Bandwidth (MHz) supported across entire spectrum Watts Classic DART dBm PCS 1900 +46 40 35 AWS 2100 +46 40 35 Industry Canada 20 dB Pass Band Model Number FWP‐C4MT000MOD Cellular 850 MHz = 26.3 MHz and the PCS 1900 = 66.8 MHz. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 11 TE Connectivity Ltd. Digital Processing Module The Digital Processing Module (DPM) is found only in the HDM RF Modules. The DPM provides the primary processing and logic functions for the HDM RF Module. It also provides the primary power interface for the HDM RF Module, and conversion of the native 28 Vdc voltage to lower voltages as necessary for functionality. The DPM has a Transmit (Tx) Board and a Receive (Rx) Board: • Tx Board—provides band specific filtering for the intended Transmit path. • Rx Board—provides band specific filtering for the intended Receive path. UNDERSTANDING THE RF MODULE CABLES Before you install the RF Module cables, familiarize yourself with the rules that pertain to these cables, as defined in the following sections. Always provided at each RF Module shelf are five cables: • two High‐Speed Data Cables, which in this document are referred to as LVDS (Low‐Voltage Differential Signaling) cables • two RF Cables (TX0/RX0) and (TX1/RX1) • one Power (PWR) Cable. Power Cable Connection Maintain adequate strain relief distances from the connection points to the module. LVDS Cable Connections • LVDS cables labeled PRIM and DIV should always either be connected to a RF Module or strain relieved to adjacent cables, as this protects the cable against damage through misplacement. • Align and fully insert the LVDS cable connectors into their respective connector cages. Full insertion is identified by an audible click. • Ensure the two LVDS cables are fully seated and latched into their respective receptacles on the RF Module by lightly pulling outward on the connectors. If fully seated and locked into position, the cable connectors will not slide back out. • Maintain adequate strain‐relief distances from the connection points to the RF Module. RF Cable Connections The RF Module cables that are pre‐installed in the PRU connect to the corresponding connectors on the RF Module. The RF Module cables correlate to the antenna connectors on the bottom of the PRU chassis. Page 12 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 RF Cable Rules When installing a Diversity, MIMO or Dual‐Band RF Module, both RF cables labeled MOD N TX0/RX0 and MOD N TX1/RX1 shall be connected to the N‐Style connections of the RF Module” • NOTE: Older labeling schemes used “PRI” and “DIV”. To match old labeling schemes to current labeling: • • TX0/RX0 = PRI TX1/RX1 = DIV • When installing a Non‐Diversity or SISO RF Module, or an SMR 800/900 Dual‐Band Dual‐Bay RF Module: – The MOD N TX0/RX0 cable shall be connected to the single available N‐Style RF Connection of the RF Module. – The MOD N TX1/RX1 cable shall be constrained to the existing cables using a tie wrap or similarly accepted fastener so it cannot be pinched or prevent the PRU door from closing. Do not cut or attempt to otherwise remove this RF Cable. • RF cables are hand‐formable; however, cables must adhere to a minimum bend radius of 1‐inch from the outlet of the integrated cable guide to the respective N‐Style RF connection on the RF Module. RF Module Cables for Single‐Card, Dual‐Card, and HDM RF Modules The RF cable and connector labels also correspond to the RF Module bays in the PRU chassis, where MOD A is the bottom bay and MOD D is the top bay. In the installation steps, the RF cables and connectors are referred to as MOD N TX0/RX0 and as MOD N TX1/RX1 where N equals A, B, C, or D. The cables and connectors have corresponding labels as shown in Table 9 for Single‐Card, Dual‐Card, and HDM RF Modules. Table 9. RF Antenna Labels for Single‐Card, Dual‐Card, and HDM RF Modules (From Top of PRU Chassis Down) RF Module Cable, RF Module Connector, and Remote Antenna Connector Label Bay D Mod D TX0/RX0 Mod D TX1/RX1 Bay C Mod C TX0/RX0 Mod C TX1/RX1 Bay B Mod B TX0/RX0 Mod B TX1/RX1 Bay A Mod A TX0/RX0 Mod A TX1/RX1 Function Transmit RF power and primary/Path 1 receive to/from the antenna for RF Module D Diversity receive/Path 2 for RF power from the antenna for RF Module D Transmit RF power and primary/Path 1 receive to/from the antenna for RF Module C Diversity receive/Path 2 for RF power from the antenna for RF Module C Transmit RF power and primary/Path 1receive to/from the antenna for RF Module B Diversity receive/Path 2 for RF power from the antenna for RF Module B Transmit RF power and primary/Path 1 receive to/from the antenna for RF Module A Diversity receive/Path 2 for RF power from the antenna for RF Module A FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Dual‐Band Dual‐Bay Remote Unit RF Single‐Bay Module Bay Designations Remote Unit RF Module Dual‐Bay Tri‐Bay Quad‐Bay Bay Designations MOD D N/A N/A MOD C MOD C N/A MOD C MOD A MOD A MOD B MOD A MOD A ©2014 Page 13 TE Connectivity Ltd. RF Module Cables for Dual‐Bay Installations For Dual‐Bay installations, the RF cables and connectors are labeled as MOD N TX0/RX0 and MOD N TX1/RX1, where N refers to the top bay of the double‐bay installation. For example, for a Dual‐Bay installation in a Quad‐Bay chassis, the RF cables and connectors are labeled as MOD C TX0/RX0 and MOD C TX1/RX1. The cables and connectors have corresponding labels as shown in Table 10 on page 14 for Legacy Dual‐Bay 40W RF Modules. Table 10. RF Antenna Labels for Legacy Dual‐Bay 40W RF Modules (From Top of PRU Chassis Down) Bay D Bay C Bay B Bay A RF Module Cable, RF Module Connector, and Remote Antenna Connector Label Function Mod D TX0/RX0 Transmit RF power and primary/Path 1 receive to/from the antenna for RF Module D Mod D TX1/RX1 Diversity receive/Path 2 for RF power from the antenna for RF Module D Mod C TX0/RX0 Transmit RF power and primary/Path 1 receive to/from the antenna for RF Module C Mod C TX1/RX1 Diversity receive/Path 2 for RF power from the antenna for RF Module C Mod B TX0/RX0 Transmit RF power and primary/Path 1receive to/from the antenna for RF Module B Mod B TX1/RX1 Diversity receive/Path 2 for RF power from the antenna for RF Module B Mod A TX0/RX0 Transmit RF power and primary/Path 1 receive to/from the antenna for RF Module A Mod A TX1/RX1 Diversity receive/Path 2 for RF power from the antenna for RF Module A 40W Dual‐Bay Remote Unit RF Module Bay Designations Dual‐Bay Tri‐Bay Tri‐Bay Quad‐Bay N/A N/A N/A MOD D MOD C N/A MOD C MOD C MOD C MOD C MOD B MOD B MOD B MOD B MOD A MOD B MOD A Note:For Dual Module installations the center module shelf needs to be removed; see “Dual-Bay Modules Only—Remove the Module Bay Shelf” on page 21. Note:Install the Legacy Dual-Bay 40W RF Module in the lower-most bay in the chassis. If, however, if two Legacy Dual-Bay 40W RF Modules are present, install the 2100 Module in the lower-most Bay and the 1900 Module in the upper-most Bay. Page 14 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 RF Group Assignments for PRUs A PRU comprises from one to four RF Module bays. Figure 7 illustrates the numbering of RF Module bays and DARTs. Quad-Bay Remote Unit with Single-Card RF Modules DART 7 Bay D DART 8 DART 5 Bay C DART 6 DART 3 Bay B DART 4 DART 1 Bay A DART 2 SeRF Module Figure 7. RF Modules Bays in a PRU FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 15 TE Connectivity Ltd. Table 11 lists how the FlexWave Prism EMS references the RF group assignments and corresponding components of each RF Module. Table 11. Remote Unit RF Group Assignments (from Top/Down) LNA Number Physical RF Bay DART Number Power Detector Number for Dual PDs Power Detector Number for Single PD Diversity LPA Number for Dual LPAs Primar LPA Number for Single LPA NOTE: For software releases prior to 7.3, the LPAs were labeled as 1, 2, 3, and 4. NOTE: In a dual LPA system, the Configure Remote Forward Gain page shows two values for the LPA status, one for each LPA. Changing the LPA Mode or resetting the LPA applies to both LPAs at the same time. CAUTION! Should your system experience an LPA problem, refer to Table 11 to ensure that you apply new settings or troubleshoot the correct RF Module. CAUTION! If you use a customized SNMP polling for system status, you must change your LPA indexing scheme. Page 16 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 The Legacy Dual‐Bay 40W RF Module occupies two bays in a PRU. Figure 8 shows the main components in a PRU enclosure, with a Legacy 40W RF Module occupying Bays A and B. The controlling DART will always be in the upper bay (B or D), and the second LPA is always in the lower bay (A or C). Fans Bay D (empty for future use) Bay C (empty for future use) Legacy Dual-Bay 40W RF Module in Bay B (upper slot) and Bay A (lower slot) with the controlling DART in Bay B SeRF Module and Power supplies Four DC power switches AC or DC power switch Connectivity panel with Status LED Figure 8. Legacy Dual‐Bay 40W RF Module in a Quad‐Bay PRU NOTE: If a Legacy Dual‐Bay 40W RF Module AWS 2100 and a Legacy Dual‐Bay 40W RF Module PCS 1900 are both installed in a Quad‐Bay PRU, it is recommended that the PCS 1900 be installed in upper‐most bay, and the AWS 2100 be installed in the lower‐most bay. NOTE: To accommodate two‐bay modules, you need to remove a module bay shelf as described in “Dual‐Bay Modules Only—Remove the Module Bay Shelf” on page 21. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 17 TE Connectivity Ltd. INSTALL THE RF MODULE(S) The following sections guide you through the installation of an RF Module into a PRU chassis. The process to install the four different types of RF Modules is basically the same; however, differences are noted and should be followed. NOTE: In the following steps, the RF cables and connectors are referred to as MOD N TX0/RX0 and as MOD N TX1/RX1 where N equals A, B, C, or D. NOTE: When installing RF Modules, populate the RF Modules from highest frequency band to lowest within the PRU. Likewise for power output, populate from the bottom bay to the top; higher output to lower output. That is, for a deployment with 2100 40W, 1900 40W, 850 20W and 700 20W MIMO, install the RF Modules as follows: • • • • 2100 40W RF Module in Bay A 1900 40W RF Module in Bay B 850 20W RF Module in Bay C 700 20W MIMO RF Module in Bay D. Safety Precautions CAUTION! This is restricted access equipment and only qualified service personnel should service and operate this equipment using appropriate tools. CAUTION! Wet conditions increase the potential for receiving an electrical shock when installing or using electrically‐powered equipment. To prevent electrical shock, never install or use electrical equipment in a wet location or during a lightning storm. CAUTION! Always allow sufficient fiber length to permit routing of patch cords and pigtails without severe bends. Fiber optic patch cords or pigtails may be permanently damaged if bent or curved to a radius of less than 2 inches (5.1 cm). CAUTION! Exterior surfaces of the Prism Remote Unit may be hot. Use caution during servicing. CAUTION! Service personnel must confirm that the perimeter gasket and door‐to‐door gaskets are in place when closing the Prism doors after servicing. CAUTION! This equipment uses a Class 1 Laser according to FDA/CDRH rules. Laser radiation can seriously damage the retina of the eye. Do not look into the ends of any optical fiber. Do not look directly into the optical transceiver of any digital unit or exposure to laser radiation may result. An optical power meter should be used to verify active fibers. A protective cap or hood MUST be immediately placed over any radiating transceiver or optical fiber connector to avoid the potential of dangerous amounts of radiation exposure. This practice also prevents dirt particles from entering the adapter or connector. CAUTION! This system is an RF Transmitter and continuously emits RF energy. Maintain 3 foot (91.4 cm) minimum clearance from the antenna while the system is operating. Wherever possible, shut down the RAN before servicing the antenna. Page 18 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Guard against Damage from Electro‐Static Discharge CAUTION! Electro‐Static Discharge (ESD) can damage electronic components. To prevent ESD damage, always wear an ESD wrist strap when working with the PRU or when handling any of its components—including the RF Modules. Connect the ground wire on the ESD wrist strap to an earth ground source before touching the PRU or any of its components. Wear the wrist strap the entire time that you work with the PRU and its components. CAUTION! Place Prism RF Modules in anti‐static packing material when transporting or storing them. Unpack and Inspect the RF Module Inspect the exterior of the shipping container(s) for evidence of rough handling that may have damaged the components in the container. Unpack each container while carefully checking the contents for damage and verify with the packing slip. If damage is found or parts are missing, file a claim with the commercial carrier and notify TE Customer Service (see “Contacting TE Connectivity” on page 47). Save the damaged cartons for inspection by the carrier. Save all shipping containers for use if the equipment requires shipment at a future date. CAUTION! Handle the RF Module with care during installation. Be especially careful to not damage the thermal‐interface material (TIM), which is attached to the LPA. If the TIM is damaged, the LPA can overheat. Before installing the RF Module, check to see if the heatsink material is gouged or cracked. If the TIM is damaged, do not install the RF Module and contact TE Connectivity for assistance (see “Contacting TE Connectivity” on page 47 for contact information). CAUTION! If the thermal‐interface material is damaged, the installation and use of the RF Module may void the warranty of the RF Module. Remove Release Liners from the RF Module NOTE: Release Liners are present on front and back of new modules. Open the PRU enclosure. Remove release liners, if present, from the thermal pads on the RF Module prior to installing the module into the PRU chassis. CAUTION! The thermal pads are very sensitive to mishandling—do not nick, scratch, or ding them. For Single‐ and Dual‐Bay RF Modules, the thermal pads are located as listed below and as shown in Figure 9 on page 20, which shows a Legacy Dual‐Bay 40W RF Module. • one large pad on the back surface of each Linear Power Amplifier (LPA) • up to two on the front surface (DARTs) • one on the left side for the (RDI) • one on the vector modulator board • one on the RF power combiner. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 19 TE Connectivity Ltd. One thermal pad for RF Power Combiner One thermal pad for Vector Modulator One thermal pad for each DART One thermal pad for each DART One thermal pad for the RDI One large thermal pad on each PA (bottom of the LPA) Figure 9. Thermal Pads on a Legacy Dual‐Bay 40W RF Module For HDM RF Modules, the thermal pads are located as listed below and as shown in Figure 10. • one pad for each Rx and Tx board • one large pad over the DPM • one for each Power Amplifier (PA), which is on the bottom of the HDM RF Module. DPM Thermal Pad Rx B Thermal Pad Rx A Thermal Pad Tx A Thermal Pad 2.9796 in Tx B Thermal Pad NOTE: Tx and Rx cards are paired: Tx A ony pairs with Rx A and Tx B only pairs with Rx B. Figure 10. Thermal Pads on an HDM RF Module Page 20 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Dual‐Bay Modules Only—Remove the Module Bay Shelf FOR DUAL‐BAY RF MODULES ONLY. If you are installing a Dual‐Bay RF Module, you must remove a module bay shelf from the PRU chassis to accommodate the module’s size. (For further information, see Table 9 on page 13.) Remove the shelf as appropriate for the RF Module: • For a Legacy Dual‐Bay 40W RF Module, when installing in the A and B Bays, remove the Module B Bay Shelf. • For a Dual‐Bay RF Module, when installing in the C and D Bays, remove Module D Bay Shelf. To remove a Module Bay Shelf: a Use a 9/64” Allen™ wrench to remove the three screws that attach the module shelf to the PRU chassis, as shown in the following graphic. b Discard or store the module shelf and fasteners. Remove Module D Shelf for Dual-Band Dual-Slot RF Modules Use 9/64” Allen Wrench to remove the three module-shelf screws Remove Module B Shelf for Dual-Slot 40W RF Modules FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 21 TE Connectivity Ltd. Install the RF Module into the Prism Remote Chassis Hold the RF Module so that the DART card(s) face away from the PRU and the Mounting Hook is toward the Receiving flange on the PRU chassis. Always install RF Modules from the bottom up. Do not skip a bay, as this provides more efficient heat dissipation. NOTE: Holding the RF Module at a 45° angle in respect to the rear heatsink, rest the bottom surface of the module on the RF Module shelf, as shown in one of the following graphics, and as applicable to the RF Module. • Single‐Bay RF Module: Figure 11 on page 22 • HDM RF Module: Figure 12 on page 23 • Dual‐Bay RF Module: Figure 13 on Page 24 • Legacy Dual‐Bay 40W RF Module: Figure 14 on Page 25. Heat Sink Bay D Bay C Single-Slot RF Module Bay B Bay A SeRF Module Figure 11. Installing a Single‐Bay RF Module Page 22 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Bay D Bay C HDM RF Module Bay B Bay A SeRF Module Figure 12. Installing an HDM RF Module FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 23 TE Connectivity Ltd. Installing a Dual-Band Dual-Slot RF Module Figure 13. Installing a Dual‐Bay RF Module Page 24 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Figure 14. Installing a Legacy Dual‐Bay 40W RF Module FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 25 TE Connectivity Ltd. 3 Align the Mounting Hook on the module with the receiving flange on the PRU heat sink, and then slide the RF Module in toward the flange until it can go no further. RF Module Mounting hook Mounting Bracket at back of the PRU Chassis Receiving flange (View is looking down into the PRU chassis from the top.) Push the left edge of the RF Module back and into the PRU chassis until it can go no further, as shown in the following graphics: • For Single‐Bay RF Modules, see Figure 15 on page 27. • For HDM RF Modules, see Figure 16 on page 28. • For Dual‐Bay RF Modules, see Figure 17 on page 29, which uses the Legacy Dual‐Bay 40W RF Module as an example. CAUTION! Make sure the RF Module is seated correctly in the Module shelf. Incorrect alignment of the RF Module can cause the RF Module to fail due to overheating. • • • The front edge of the RF Module should be parallel with the shelf above it. The Mounting Hook on the RF Module should be fully engaged with the Receiving flange on the PRU chassis. If you later cannot shut the PRU door, verify that the RF Module is installed correctly. Page 26 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Single-Slot RF Module Push the RF Module back into the chassis until it can go no further. Figure 15. Seating a Single‐Bay RF Module FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 27 TE Connectivity Ltd. Push the HDM RF Module back into the chassis until it can go no further. HDM RF Module Figure 16. Seating an HDM RF Module Page 28 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Push the RF Module back into the chassis until it can go no further. Figure 17. Seating a Dual‐Bay RF Module Secure RF Module Latches To secure the module latches on the left side of the RF Module, do one of the following, as appropriate for the RF Module being installed: • “Connect Latches on Single‐Bay and HDM RF Modules” on page 29 • “Connect Latches on Dual‐Bay RF Modules” on page 31. Connect Latches on Single‐Bay and HDM RF Modules For Single‐Bay and HDM RF Modules, secure two latches, as shown in Figure 18. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 29 TE Connectivity Ltd. Two latches on Single-Slot RF Modules Two latches on HDM RF Modules Figure 18. Latches on Single‐Bay and HDM RF Modules Page 30 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Connect Latches on Dual‐Bay RF Modules For Dual‐Bay RF Modules, secure four latches, as shown in Figure 19. Four latches in a Dual-Band Dual-Slot RF Module Figure 19. Dual‐Bay RF Module Latches FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 31 TE Connectivity Ltd. Latches on Legacy Dual‐Bay 40W RF Modules For Legacy Dual‐Bay 40W RF Modules, secure four latches, as shown in Figure 20. Four latches in a Legacy Dual-Slot 40W RF Module Figure 20. Legacy Dual‐Bay 40W RF Module Latches Verify that the RF Module Mounting Hook is Engaged Verify that the RF Module Mounting Hook is engaged correctly by pulling the module away from the heat sink. The RF Module should not move. If the RF Module moves during this check, repeat all the steps starting at “Install the RF Module into the Prism Remote Chassis” on page 22 through this step. Connect the RF Module Cables The steps to connect the RF Module cables have been separated into two different procedures; follow the steps that correspond to the RF Module being installed. • “Connecting Cables in a Single‐Bay RF Module Installation” on page 33 • “Connecting Cables in a Dual‐Bay RF Module Installation” on page 35. Page 32 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Connecting Cables in a Single‐Bay RF Module Installation Position the cables so that they are under the right edge of the RF Module, pointing up. Follow the rules listed in “Understanding the RF Module Cables” on page 12. Connect the RF Module cables, in the following order: a Connect the MOD N TX0/RX0 cable to the RF Module. i Insert the N‐Style Plug of the MOD N TX0/RX0 cable into the TX0/RX0 N‐Style Jack of the RF Module. ii Turn the coupling nut of the plug clockwise to thread onto the jack and finger‐tighten. iii Torque coupling nut to 8 ±1 in‐lbs to ensure full connection. NOTE: Insufficient torque applied to RF Module connections can result in elevated insertion/return loss and higher than normal VSWR reported by the system. NOTE: Connect the MOD N TX1/RX1 cable to the RF Module. i If a TX1/RX1 RF Module connection is available, insert the N‐Style Plug of the MOD N TX1/RX1 cable into the TX1/RX1 N‐Style Jack of the RF Module. If RF Module connection is not available, constrain the MOD N TX1/RX1 cable to accompanying cables using a tie wrap so it cannot be pinched or prevent the PRU door from closing. ii Turn the coupling nut of the plug clockwise to thread onto the jack and finger‐tighten. iii Torque coupling nut to 8 ±1 in‐lbs to ensure full connection. Insufficient torque applied to RF Module connections can result in elevated insertion/return loss and higher than normal VSWR reported by the system. NOTE: Connect the LVDS Cables to the RF Module. i Connect the MOD N DIV LVDS Cable to the DIV receptacle of the RF Module by inserting and sliding in until fully seated. Always connect the Diversity LVDS Cable with the RF Module. ii NOTE: Full insertion can be recognized by an audible click as the LVDS Cable Connector locks into the RF Module Receptacle. This can be verified by lightly pulling back on the LVDS connector while making sure not to depress the release trigger. When fully inserted, the cable should not be able to be removed from the receptacle. NOTE: Connect the MOD N PRIM LVDS Cable to the PRIM connector, following the same steps as above. Connect the Power Cable Connector to the PWR receptacle of the RF Module by inserting and sliding in until fully seated. Full insertion can be recognized by an audible click as the Power Cable Connector locks into the RF Module Receptacle. This can be verified by lightly pulling back on the Power Cable Connector while making sure not to depress the release triggers on the ends of the connector. When fully inserted, the cable should not be able to be removed from the receptacle. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 33 TE Connectivity Ltd. Refer to the graphic that corresponds to the RF Module being installed into a single bay of the PRU: • Single‐Bay RF Module: Figure 21 on Page 34 • HDM RF Module: Figure 22 on page 35 Cable connections for a Single-Slot RF Module Bay D PWR PRIM DIV Bay C TX0/RX0 RX1 Bay B Bay A SeRF Module Note routing of high-speed cables Note bend radii ≥ 1-inch Edge of Connector Interface Panel Figure 21. Cable Connections for Single‐Bay RF Modules CAUTION! Ensure that all cable bends are below the top edge of the Connector Interface Panel as indicated by the dashed line in the preceding figure. Failure to correctly position the cables could inhibit closing the PRU door, which can result in damage to the cables. Page 34 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Cable Connections for an HDM RF Module DATA 0 (PRIM) Cable Connection Notes • Always connect the Power cable. • Always connect the two LVDS cables: PRIM and DIV. • SISO requires one RF cable (TX1/RX1). • MIMO and Dual-Band require two RF cables (TX1/RX1 and TX0/RX0). DATA 1 (DIV) POWER TX1/RX1 TX0/RX0 Figure 22. Cable Connections for HDM RF Modules Connecting Cables in a Dual‐Bay RF Module Installation Position the cables so that they are under the right edge of the RF Module, pointing up. Follow the rules listed in “Understanding the RF Module Cables” on page 12. Follow the rules listed below that pertain only to Dual‐Bay RF Modules. • The upper RF Module shelf will either not be present (factory installed module) or will be removed prior to installation (field installed module). • The MOD N TX0/RX0 cable for the lower RF Module bay will need to be connected to the MOD N TX0/RX0 N‐Style RF connection of the Dual‐Bay RF Module. • Constrain the MOD N TX1/RX1 cable to the existing cables using a tie wrap such so it cannot be pinched or prevent the PRU door from closing. Do not cut or attempt to otherwise remove this RF cable. • The RF cables and two LVDS cables of the lower RF Module bay are not used when installing a Dual‐Bay RF Module. • Table 12 lists how to correctly connect HDM RF Modules to the Antenna ports on the bottom of the PRU. Table 12. HDM Antenna Port Mapping TX0/RX0 TX1/RX HDM DUAL 20W 850/1900 RF MODULE 1900 850 FWP ‐ L4M TU4MMOD HDM DUAL 20W, 700ABC/700UC, RF MODULE 700 lABC 700 uC FWP ‐ L 4M T00 0 M O D HDM MIMO 20W 700 LOWER ABC RF MODULE Path 1 Path 2 FWP ‐ U4MT000MOD HDM MIMO 20W 700 UPPER C MODULE Path 1 Path 2 FWP ‐ A4MT000MOD HDM MIMO 20W 2100 AWS RF MODULE Path 1 Path 2 FWP ‐ 8 4 M T 00 0 M O D HDM MIMO 20W 1900 PCS RF MODULE Path 1 Path 2 RF Module Catalog # FWP ‐ C4M T 0 0 0 M O D Description FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 35 TE Connectivity Ltd. 4 Working from the bottom connector up, connect the RF Module cables, as follows: a Connect the MOD N TX1/RX1 cable to the RF Module. i Constrain the MOD N TX1/RX1 cable of the lower RF Module bay to accompanying cables using a tie wrap so it cannot be pinched or prevent the PRU door from closing. ii Connect the MOD N TX1/RX1 cable to the TX1/RX1 or N/C, N‐Style Jack of the upper RF Module bay. iii Turn the coupling nut of the plug clockwise to thread onto the jack and finger‐tighten. iv Torque coupling nut to 8 ±1 in‐lbs to ensure full connection. NOTE: Insufficient torque applied to RF Module connections can result in elevated insertion/return loss and higher than normal VSWR reported by the system. NOTE: Insufficient torque applied to RF Module connections can result in elevated insertion/return loss and higher than normal VSWR reported by the system. NOTE: Connect the LVDS Cables to the RF Module. i If available, connect the MOD N DIV LVDS Cable to the DIV receptacle of the lower RF Module by inserting and sliding in until fully seated. If DIV receptacle is not available, constrain the MOD N DIV LVDS Cable to accompanying cables using a tie wrap so it cannot be pinched or prevent the PRU door from closing. ii Connect the MOD N DIV LVDS Cable to the DIV receptacle of the upper RF Module by inserting and sliding in until fully seated. If DIV receptacle is not available, constrain the MOD N DIV LVDS Cable to accompanying cables using a tie wrap so it cannot be pinched or prevent the PRU door from closing. iii If available, connect the MOD N PRIM LVDS Cable to the PRIM receptacle of the upper RF Module by inserting and sliding in until fully seated. If DIV receptacle is not available, constrain the N PRIM LVDS Cable to accompanying cables using a tie wrap so it cannot be pinched or prevent the PRU door from closing. Full insertion can be recognized by an audible click as the LVDS Cable Connector locks into the RF Module Receptacle. This can be verified by lightly pulling back on the LVDS connector while making sure not to depress the release trigger. When fully inserted, the cable should not be able to be removed from the receptacle. NOTE: Connect the MOD N TX0/RX0 cable to the RF Module. i Insert the N‐Style Plug of the MOD N TX0/RX0 cable into the TX0/RX0 N‐Style Jack of the lower RF Module bay. If RF Module connection is not available, constrain the MOD N TX0/RX0 cable to accompanying cables using a tie wrap so it cannot be pinched or prevent the PRU door from closing. ii Turn the coupling nut of the plug clockwise to thread onto the jack and finger‐tighten. iii Torque coupling nut to 8 ±1 in‐lbs to ensure full connection. Connect the Power cable to the RF Module. i Connect the Power Cable Connector to the PWR receptacle of the lower RF Module by inserting and sliding in until fully seated. ii Connect the Power Cable Connector to the PWR receptacle of the upper RF Module by inserting and sliding in until fully seated. If PWR receptacle is not available, constrain the Power Cable to accompanying cables using a tie wrap so it cannot be pinched or prevent the PRU door from closing. Full insertion can be recognized by an audible click as the Power Cable Connector locks into the RF Module Receptacle. This can be verified by lightly pulling back on the Power Cable Connector while making sure not to depress the release triggers on the ends of the connector. When fully inserted, the cable should not be able to be removed from the receptacle. Page 36 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Refer to the graphic that corresponds to the RF Module being installed in a Dual‐Bay: • Dual‐Bay RF Module: Figure 23 on Page 37 • Legacy Dual‐Bay 40W RF Module: Figure 24 on Page 38. Cable Connections for a Dual-Slot RF Module Tie wrap Two N-Type RF connectors Factory-installed RX1 cable N-Type RF connector Figure 23. Cable Connections for Dual‐Band Dual‐Bay RF Modules FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 37 TE Connectivity Ltd. Keep cable bends behind the edge of the Connector Interface Panel Tie wrap around factory-installed RX1 cable Figure 24. Cable Connections for Legacy Dual‐Bay 40W RF Modules CAUTION! Ensure that all cable bends are below the top edge of the Connector Interface Panel as indicated by the dashed line in the preceding figure. Failure to correctly position the cables could inhibit closing the PRU door, which can result in damage to the cables. Page 38 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 Power on the RF Module Follow the rules listed below to toggle the Power switch that corresponds to the RF Module to its ON position. • For Dual‐Band Dual‐Bay RF Modules, use the Power switch for the lower module. For example, to power up a Dual‐Bay RF Module in combined bays C+D in a Quad‐Bay chassis, turn ON DC Power switch for Mod C; leave the DC Power switch for Mod D OFF. • A Legacy Dual‐Bay 40W RF Module uses the Power Supplies in both bays. If the Legacy Dual‐Bay 40W RF Module is installed in bays C+D, turn ON the Power switch for Mod C and Mod D. Bay D Bay C Bay B Bay A SeRF Module AC/DC Power switch for Remote chassis DC Power switch for Bay D DC Power switch for Bay C DC Power switch for Bay B DC Power switch for Bay A Repeat all the steps in “Install the RF Module(s)” on page 18 to install other RF Modules. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 39 TE Connectivity Ltd. STANDARDS CERTIFICATION FCC This equipment complies with the applicable sections of Title 47 CFR Part 15 (Host Unit), Part 22 (800 MHz Cellular), Part 24 (1900 MHz ‐ PCS), Part 90 (800/900 ‐ SMR), and Part 27 (2100 MHz ‐ AWS) & (700 MHz ‐LTE). IC This equipment complies with the applicable sections of RSS‐131‐ Zone Enhancers for the Land Mobile Service. The term “IC:” before the radio certification number only signifies that Industry Canada Technical Specifications were met. The Manufacturer's rated output power of this equipment is for single carrier operation. For situations when multiple carrier signals are present, the rating would have to be reduced by 3.5 dB, especially where the output signal is re‐radiated and can cause interference to adjacent band users. This power reduction is to be by means of input power or gain reduction and not by an attenuator at the output of the device. Note: To comply with Maximum Permissible Exposure (MPE) requirements, the maximum composite output from the antenna cannot exceed 1000 Watts ERP (LTE, Cellular and SMR), the antenna cannot exceed 1640 Watts EIRP (PCS and AWS), and the antenna must be permanently installed in a fixed location that provides at least 6 meters (20 feet) of separation from all persons. UL/CUL This will be installed in a restricted access location. This equipment complies with Type 4, per UL and CUL 50, Standard for Enclosures for Electrical Equipment. This equipment provides the degree of protection specified by IP66 as defined in IEC Publication 529. FDA/CDRH This equipment uses a Class 1 LASER according to FDA/CDRH Rules. This product conforms to all applicable standards of 21 CFR Part 1040. Caution: Modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. EU Harmonized Standards Meets essential requirements of R&TTE 1999/5/EC. • Article 3.1a—The protection of the health and the safety of the user and any other person, including the objectives with respect to safety requirements contained in Directive 2006/95/EC, but with no voltage limit applying. • Article 3.1b—The protection requirements with respect to electromagnetic compatibility contained in Directive 2004/108/EC. • Article 3.2—In addition, radio equipment shall be so constructed that it effectively uses the spectrum allocated to terrestrial/space radio communication and orbital resources so as to avoid harmful interference. EMC Standards EN 55022 and EN55024 (CE marked) Safety Standards This equipment complies with IEC 60950‐1, 2ND Edition + Amendment 1 (CE marked) and with UL 60950‐1, 2ND Edition + Amendment 1 (File number E174166) (USA and Canada) Page 40 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ACCESSING USER DOCUMENTATION ON THE TE CUSTOMER PORTAL You can access additional user documentation on the TE Customer Portal, as described below. Click on the following URL link: https://www.te.com/portal/wireless/ (Alternatively, enter the preceding URL into your web browser, and then press ENTER on your keyboard.) Access to the Customer Portal requires a user account and password. On the Sign In page, do one of the following: • If you have an account, in the Already Registered? Sign In Now panel, enter your Email and Password, and then click Sign In. • If you don’t have an account, under Create an Account, click Register Now and follow the prompts. On the Wireless Customer Portal home page in the Knowledge Center panel, click the Manuals and Data Sheets link. On the Manuals and Data Sheets page, do the following: a In the Document Repository panel, scroll to the section for the product line of the document that you want to access. b Click on the title of the manual that you wish to open. c (Optional) Save the PDF to your computer. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014 ©2014 Page 41 TE Connectivity Ltd. CONTACTING TE CONNECTIVITY Telephone Numbers Sales Asia Pacific +65‐6294‐9948 France 0800 914032 Germany 0180 2232923 Italy 0800 782374 Spain 900 983291 United Kingdom 0800 960236 USA or Canada 1‐800‐366‐3891 Extension Connectivity Extension Wireless Extension 73000 73475 73476 Technical Support USA or Canada 1‐800‐530‐9960 Elsewhere +1‐952‐917‐0761 Online Access Customer Portal https://www.te.com/portal/wireless/ Technical Support for Wireless Products http://www.te.com/WirelessSupport www.te.com/wireless Page 42 ©2014 TE Connectivity Ltd. FlexWave Prism Remote Unit RF Module Installation Guide TECP‐77‐141 Issue 6 • 300001744178 Rev F • April 2014
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