ALLIANCE-TR DAS High power Remote Optic Unit Installation and Operation Manual Confidential & Proprietary 1/57 Alliance-TR
REVISION HISTORY Version Issue Date Section Initials Details of Revision Changes V 1.0 Dec. 29 2013 Original V 1.1 March 04 2014 2ND Edition V 1.2 March 11 2014 3RD Edition V 1.3 April 09 2014 4TH Edition V 1.4 May 28 2014 5TH Edition V1.5 May 16 2016 6TH Edition Add 1800_B V1.6 May 26 2016 7th Edition Add Certification Spec. V1.7 May 31, 2017 8th Edition Add AWS13 V1.8 Dec 31, 2017 9th Edition Add 1900P_40W, AWS13_40W V1.
The contents of this document, including graphics and screenshots, are current as of the date of publication. SOLiD reserves the right to change the contents without prior notice. In no event shall SOLiD be liable for any damages resulting from loss of data, loss of use or loss of profits. SOLiD further disclaims any and all liability for indirect, incidental, special, consequential or other similar damages.
Contents 1. Safety & Certification Notice .............................................................................................................. 7 2. System Overview ................................................................................................................................ 10 3. System Configuration and Functions ............................................................................................... 13 HROU (High power Remote Optic Unit) ............................
List of Illustrations Figure 2.1 – HROU System Topology .......................................................................................... 11 Figure 4.1 – High power Remote Optic Unit (HROU) .................................................................. 14 Figure 4.2 – HMRU Block Diagram.............................................................................................. 15 Figure 4.3 – HARU Block Diagram ..................................................................................
Figure 6.3 – HRDU Setting Window ............................................................................................ 45 Version 1.7 –December 2017 © 2017 SOLiD. All Rights Reserved. Confidential & Proprietary. www.solid.
Safety & Certification Notice Only qualified personnel should handle and install the DAS equipment. Any person involved in installation or service of the DAS should understand and follow these safety guideline: 1. Obey all general and regional installation and safety regulations relating to work on high voltage installations, as well as regulations covering correct use of tools and personal protective equipment. 2.
13. Some units may become hot during operation. Be careful not to touch the heat-sink of these units due to high temperature. - Certification FCC: This equipment complies with the applicable sections of Title 47 CFR Parts 15, 22, 24 and 90. UL/CUL: This equipment complies with UL and CUL 1950-1 Standard for safety for information technology equipment, including electrical business equipment. FDA/CDRH: This equipment uses a Class 1 LASER according to FDA/CDRH Rules.
Notice: Ensure only authorized service personnel can gain access to the system and understand all precautions related to handling or installing the equipment. SOLiD recommends using a lock and key or other means of security to control access to the syste. Notice: Some units may become hot during operation. Be careful not to touch the Heat-sink part due to high temperature. A. A readily accessible disconnect device shall be incorporated external to the equipment. Warning: This is a class A product.
System Overview 2.1 Purpose Alliance TR (Total Hybrid Optical Repeater) DAS or Alliance-TR is a coverage system for outdoor services delivering high quality voice and data services at any site seamlessly. As a distributed antenna system, it provides analog and digital phone systems that are served in multiple bands.
Add additional operators without the need for additional architecture Multi-band and Multi-operator Signals from multiple operators transmitted simultaneously Support for multiple operators in a band Low OPEX / CAPEX Compact design Upgradable design Easy installation and maintenance 2.2 System Overview Alliance-TR supports two types of High power Remote Unit (HROU): HMRU (High power Main Unit) HARU (High power Add on Unit) The HMRU can support one HARU.
It is available in both single and multi-band configurations supporting various bands such as 700MHz, 800MHz, 850MHz, 900MHz, 1800MHz, 1900MHz, 2100MHz, 2300MHz, 2500MHz and 2600MHz. It has been specificllay tested under various air interfaces such as iDEN, GSM, CDMA2000, EV-DO, WCDMA, and LTE.
System Configuration and Functions 3.
1.1.1 HROU (High power Remote Optic Unit) The HROU supports two types of remote units: High power Main Remote Unit (HMRU) and High power Add-on Remote Unit (HARU). The biggest difference between HMRU and HARU is whether R-Optic module exists or not in the enclosure. HMRU receives TX optical signals from the ODU. In the R-Optic module, these optical signals are converted to RF signals, divided into specific signal types, and then sent to the band-specific HRDU.
1.1.2 HROU Specifications Specifications Item HMRU Size (mm) HARU 320 x 1165 x 260 Remark Including Bracket Weight 39Kg 37kg Power Consumption 50W 40W Common Part Only 1.1.3 HROU Block Diagram 1.1.3.1 HMRU Block Diagram Figure 4.
1.1.3.2 HARU Block Diagram Figure 4.
1.1.4 HROU Components Figure 4.
1.1.5 List of HROU Components No.
1) High Remote Drive Unit (HRDU) When receiving TX signals from each band through R-Optic module, the HRDU filters signals and amplifies them with the high power ampifier. The unit also filters RX signals received from the cavity filter, and amplifies them to send the signals to the R-Optic module. The unit also offers the attenuator to adjust gain. The HRDU is consist of UDCU, DTU, PAU and cavity duplexer as shown below and all modules are merged with one package. Figure 4.
15 THOR-HRDU-L800_B Single band 791~821 MHz 832~862 MHz 16 THOR-HRDU-L700A Single band 758~803 MHz 703~748 MHz 17 THOR-HRDU-L2300T Single band 2300~2400 MHz 2300~2400 MHz 18 THOR-HRDU-L2300T_B Single band 2300~2400 MHz 2300~2400 MHz 19 THOR-HRDU-1900P_40W Single band 1930~1995 MHz 1850~1915 MHz 20 THOR-HRDU-AWS13_40W Single band 2110~2180 MHz 1710~1780 MHz 21 THOR-HRDU-L2600T-40W Single band 2575~2615 MHz 2575~2615 MHz 22 THOR-HRDU-L2600F-40W Single band 2620~2690 MHz
4 THORHRDU_A_GSM1800 233 x 160 x 111 233 x 155 x 4.4 160 4.4 160 5 THOR-HRDU-1800_B 6 THOR-HRDU_A_U2100 233 x 155 x 98 3.5 125 7 THOR-HRDU-U2100_B 233 x 155 x 98 3.5 145 8 THOR-HRDU-LTE2600 4.5 125 9 THOR-HRDU-LTE2600_B 4.7 125 10 THOR-HRDU-1900P 4.5 150 11 THOR-HRDU-AWS13 3.
12 THOR-HRDU-AWS13_B 13 THOR-HRDU-L800 14 THOR-HRDU-L800_B 15 THOR-HRDU-L700A 16 THOR-HRDU-L2300T 17 THOR-HRDU-L2300T_B 18 THOR-HRDU-1900P_40W 19 THOR-HRDUAWS13_40W Confidential & Proprietary 233 x 155 x 98 3.5 140 4.8 135 5.4 140 5.2 140 233 X 155 X 95 4.3 140 233 X 155 X 95 4.3 140 4.5 180 3.
20 21 22 23 THOR-HRDUL2600T_40W THOR-HRDUL2600F_40W THORHRDU_A_L2300_100TDD THORHRDU_A_L2500_100TDD 24 THOR-HRDU_A_L800 25 THOR-HRDU_A_850C 26 THOR-HRDU_A_L800_B 27 THOR-HRDU_A_1800_B Confidential & Proprietary 233x 155 x 98 4.5 190 233x 155 x 148 4.5 230 233x 155 x 98 4.3 135 233x 155 x 98 4.3 135 4.3 135 4.5 135 3.
28 THOR-HRDU_A_1900P_B 29 THOR-HRDU_A_U2100_B 30 THORHRDU_A_L2600F_B_40W Confidential & Proprietary 233 x 155 x 111 233 x 155 x 111 233x 155 x 148 24/57 4 140 4.3 140 4.
2) Remote Power Supply Unit (RPSU) The RPSU is available with AC or DC power options. AC input power should be 110/220VAC. For DC input power should be -48VDC. The output power for AC and DC is +29V. Figure 4.
3) Remote Optic Moduel (R-Optic) Remote Optic Module (R-Optic) converts optical signals into RF signals and RF back to optical. It also has an internal attenuator (ATT) to compensate optical cable losses. The R-Optic has the two paths, one for HMRU and other one for HARU. Figure 4.7 – R-Optic Module 4) Remote Central Processor Unit (RCPU) The Remote Central Processor Unit (RCPU) can monitor and control each module of HROU.
HROU Bottom Panel 1) Functions Figure 4.
System Installation 4.
This chapter describes how to install each unit and optical cabling, power cabling, and RF interface. In this section, the power consumption of each unit, much simpler power cabling budget, the quantity of components of modules, and expansion method can be found. 4.1. HROU Installation 1.1.6 Tools Tools needed for installation can be found in the table below No Tools Q’ty Specifications Remark 1 1 +, 3Ø Length is more than 20mm.
1.1.7 Install HROU Enclosure The HROU is designed to withstand water and dirt. This unit uses a unibody enclosure and satisfies waterproof and quake-proof standards equivalent to NEMA 4 (IP66). The same method is used for installing both HMRU and HARU. The HROU enclosure can be mounted on a wall, ceiling or pole, and the mounting brackets are included in the package. Figure 5.
Figure 5.
Wall Mount the HROU The HROU ships with the installation bracket. It does not need to remove the bracket to install the enclosure. 1. Install two of M12 mounting bolts roughly half way into the wall to align with the top mounting bracket. Gude the top bracket over the bolts and secure tightly. 2. Install the remaining two M12 mounting bolts at the bottom of the enclosure and secure tightly. Figure 5.
HROU components HROU has the following components: No.
IEC 61076-23 I/O Cable 1 101(8pin_F) ST_1.5m MIL-5015 (18-10_F) 4 Power Cable 1 ST to Circular (eco mate 3+PE_M) ST_1.
The following figure shows the connection between HMRU and HARU. The cables for connecting HARU and HMRU are provided, and the recommended cable length is 1.5m each. Figure 5.
1.1.9 HROU Power Cabling The HROU is available with AC110V or AC220V for input power. The power connector should be fitted with appropriate slots, and can only be installed one way. For your information, the table shows the voltage pin-out of the power port. Power Port MS Connector numbering Name Description A AC_H AC Hot B AC_N AC Neutral C N.C Not Connected D F.G Frame Ground A : AC_H B : AC_N C : N.C D : F.
1.1.10 Connect Ground (GND) Terminal The HROU has one ground terminal port located at the bottom of the unit fixed with an M6 screw. A compression terminal ships with the unit and comes already attached. SOLiD recommends using AWG #6 copper grounding wire. Figure 5.5 – Ground Terminal The specification of compression terminal is as follows: Figure 5.
The required part number is JOCT 16-6 supporting AWG #6. When installing ground terminal, refer to the figure below. Figure 5.7 – Ground Terminal Installation The procedures are; 1. Loosen two M6 screws and then remove the compression terminal from the enclosure. 2. Insert AWG #6 grounding wire into the terminal and then crimp the terminal around it. 3. Re-connect the terminal to the enclosure. 4. Cut the ground wire to the proper length and connect to the communication GND of the building.
1.1.11 Installing HRDU The HROU supports up to four HRDU modules. The HRDUs can be installed in any slot. optical Figure 5.
Guide brackets on the bottom of each HRDU slot simplify installation. The screws for securing HRDU on the heat-sink are already included with the unit and, thus simplifying the installation. Figure 5.10 – Guide Rail Insert the HRDU into the corresponding slot in the direction of the heat sink, and tighten 4 screws to secure the unit using M3 screw driver.
Figure 5.11 – HRDU Installed Install blank cards in any unused slots as shown below. It can be inserted or be removed easily by tightening or loosening the captive screw in unused slots. Figure 5.
HROU Operation Confidential & Proprietary 42/57 Alliance-TR
5.1. HROU The figure below shows the level of the system link of Alliance-TR DAS (BIU-ODU-HROU). This section describes HROU-related devices. When receiving downlink signals from each band through the R-Optic module, the HRDU filters the signals and amplifies them with the high power amplifier. Figure 6.1 – Level Diagram 1) LED Indicator Turn on power to the HROU and then check the LED indicators at the front of each HROU.
2) HRDU Setting The HROU accepts up to four HRDUs and it was explained in the chatper 4 as well. Through GUI, a user can control and monitoring status of HRDU modules. When you click a HRDU as shown below, the band information will be displayed. Figure 6.2 – Detailed Information on HRDU If a band ID is displayed, follow the steps below. 1) Turn TX AMP on. 2) Check if the level of TX OUT POWER is appropriate. 3) Check the alarms. If an alarm occurs, contact SOLiD for more information.
Figure 6.3 – HRDU Setting Window Use various upper and lower limits. The following table shows recommended limit settings: Item Recommended Limit Remark TX OUT HIGH ALM Max. Composite Power +1dB Alarm TX OUTPUT LOW ALM 20dBm Alarm TX OUTPUT ALC Max. Composite Power Auto Level Control RX ALC -45dBm TX OUTPUT HIGH ALM: If the current value is higher than a setting value, alarm will be issued. TX OUTPUT LOW ALM: If the current value is lower than a setting value, alarm will be issued.
Specifications Confidential & Proprietary 46/57 Alliance-TR
6.1. General Specifications General Data Nominal Impedance 50 ohm VSWR 1.
Environmental Data Environmental Condition & IP Rating Satisfy IP66 standards -25° ~ +55°C Operating Temperature (°C) (** -25° ~ +50°C when two 20W HRDUs and two 40W HRDUs are installed) Operating Humidity 6.2. 5~ 90% non-condensing Electrical Specifications Downlink (Tx) Service Part Name Band Freq. (MHz) Bandwid Output th Power (MHz) (dBm) UMTS 900 Freq.
TR_HRDU_L2600F_40W LTE FDD 2600 2620-2690 70 45 2500-2570 70 LTE TDD 2300 2300-2400 100 43 2300-2400 100 LTE TDD 2500 2496-2690 194 43 2496-2690 194 TR_HRDU_A_L800 LTE 800 791~821 30 43 832~862 30 TR_HRDU_A_850C 850 CEL 869~894 25 43 824~849 25 TR_HRDU_A_L800_B LTE 800 791~821 30 43 832~862 30 TR_HRDU_A_1800_B LTE 1800 1805~1880 75 43 1710-1785 75 1930-1995 65 43 1850-1915 65 2110~2170 60 43 1920~1980 60 2620-2690 70 45 2500-2570 70 TR_HRDU_A_L2300 _100T
Product Type THOR-HRDU TR_HRDU_1800_B Model Name TR_HRDU_U2100_B TR_HRDU_L2600T_40W HEALTH & SAFETY Safety EN 60950-1:2006/A2:2013 Health EN 50385:2017 EMC EMC EN 301 489-1 V2.2.0 EN 301 489-50 V.2.2.0 SPECTRUM TR_HRDU_1800_B TR_HRDU_U2100_B EN 301 908-1 V11.1.1 EN 301 908-15 V11.1.2 EN 301 908-1 V11.1.1 EN 301 908-15 V11.1.2 EN 301 908-1 V11.1.1 TR_HRDU_900 EN 301 908-15 V11.1.2 EN 303 609 V12.5.1 TR_HRDU_A_U2100 EN 301 908-1 V11.1.1 EN 301 908-15 V11.1.2 EN 301 908-1 V11.1.
TR_HRDU_L2600F_40 EN 301 908-1 V11.1.1 EN 301 908-15 V11.1.2 EN 301 908-1 V11.1.1 TR_HRDU_A_L2300_100TDD EN 301 908-14 V11.1.2 EN 301 908-15 V11.1.2 EN 301 908-1 V11.1.1 TR_HRDU_A_L2500_100TDD EN 301 908-14 V11.1.2 EN 301 908-15 V11.1.2 EN 301 908-1 V11.1.1 TR_HRDU_A_L800 EN 301 908-14 V11.1.2 EN 301 908-15 V11.1.2 EN 301 908-1 V11.1.1 TR_HRDU_A_850C EN 301 908-14 V11.1.2 EN 301 908-15 V11.1.2 EN 301 908-1 V11.1.1 TR_HRDU_A_L800_B EN 301 908-14 V11.1.2 EN 301 908-15 V11.1.2 EN 301 908-1 V11.1.
6.5.
HARU High power Add-On Remote Unit LD Laser Diode LROU Low power Remote Optic Unit MCDU Main Combiner Divider Unit MCPU Main Central Processing Unit MDBU Main Drive BTS Unit MPSU Main Power Supply Unit MROU Medium power Remote Optic Unit MRU Main Remote Unit ODU Optical Distribution Unit OEU Optical Expansion Unit PD Photo Diode PSU Power Supply Unit R-Optic Remote Optic Module ROU Remote Optical Unit RDU Remote Drive Unit RPSU Remote Power Supply Unit E-Optic Expansion Op
FCC Statements FCC Part 15.105 This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.
EU Declaration of Conformity Confidential & Proprietary 55/57 Alliance-TR
Confidential & Proprietary 56/57 Alliance-TR
Contact to Authorised Representative SOLiD Technologies, Inc.
