SMDR-NH124(Remote Unit) User Manual Document Reference:
Version:
V1.0 Document Status:
Release 1 Issue Date:
Author:
Department:
July. 16, 2014 Young Ju YOU R&D Division Team 3 Authorizing Manager:
Young shin Yeo Confidential & Proprietary 1/28 REVISION HISTORY Version Issue Date No. of Pages Initials Details of Revision Changes V 1.0 July. 16, 2014 Original Technical Support SOLiD serial numbers must be available to authorize technical support and/or to establish a return authorization for defective units. The serial numbers are located on the back of the unit, as well as on the box in which they were delivered. Additional support information may be obtained by accessing the SOLiD Tehcnology, Inc. website at www.st.co.kr or send email at sjkim@st.co.kr This manual is produced by Global Business Division Business Team 1. Printed in Korea. Confidential & Proprietary 2/28 Contents Section1 Safety & Certification Notice ................................................................. 5 Section2 System Overview .................................................................................... 8 2.1 Purpose ......................................................................................................... 9 2.2 SMDR-NH124 .............................................................................................. 10 Section3 Functional Description ......................................................................... 11 3.1 General (Remote Optic Unit) ...................................................................... 12 3.2 Component of SMDR-NH124 Remote Unit ................................................ 13 3.3 Dimension ................................................................................................... 15 Section4 System Installation ............................................................................... 16 4.1 ROU Installation ......................................................................................... 16 4.1.1 ROU Enclosure installation ................................................................. 16 4.1.2 ROU Power Cabling ............................................................................. 20 4.1.3 Optical Cabling ..................................................................................... 21 4.1.4 GND Terminal Connection ................................................................... 22 4.1.5 Coaxial cable and Antenna Connection .............................................. 23 4.1.6 Insertion of RDU ................................................................................... 23 4.1.7 RDU Specifications Per band .............................................................. 24 Confidential & Proprietary 3/28 Contents of Figure Figure 3.1 Remote Unit Block Diagram ...................................................... 12 Figure 3.2 Inside of Remote Unit ............................................................... 13 Figure 3.3 ROU Outer Look ....................................................................... 15 Figure 4.1 How to install ROU .................................................................... 17 Figure 4.2 Dimension used to install ROU on the WALL ............................ 17 Confidential & Proprietary 4/28 Section1 Safety & Certification Notice Confidential & Proprietary 5/28 Only qualified personnel should handle the DAS equipment. Any person involved in installation or service of the DAS should understand and follow these safety guidelines.
- 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.
- The power supply unit in repeaters contains dangerous voltage level, which can cause electric shock. Switch the mains off prior to any work in such a repeater. Any local regulations are to be followed when servicing repeaters.
- When working with units outdoors, make sure to securely fasten the door or cover in an open position to prevent the door from slamming shut in windy conditions..
- Use this unit only for the purpose specified by the manufacturer. Do not carry out any modifications or fit any spare parts which are not sold or recommended by the manufacturer. This could cause fires, electric shock or other injuries.
- Any DAS system or Fiber BDA will generate radio (RF) signals and continuously emit RF energy. Avoid prolonged exposure to the antennas. SOLiD recommends maintaining a 3-foot minimum clearance from the antenna while the system is operating.
- Do not operate this unit on or close to flammable materials, as the unit may reach high temperatures due to power dissipation.
- Do not use any solvents, chemicals, or cleaning solutions containing alcohol, ammonia, or abrasives on the DAS equipment. Alcohol may be used to clean fiber optic cabling ends and connectors.
- To prevent electrical shock, switch the main power supply off prior to working with the DAS System or Fiber BDA. Never install or use electrical equipment in a wet location or during a lightning storm.
- Do not look into the ends of any optical fiber or directly into the optical transceiver of any digital unit. Use an optical spectrum analyzer to verify active fibers. Place a protective cap over any radiating transceiver or optical fiber connector to avoid the potential of radiation exposure.
- Allow sufficient fiber length to permit routing without severe bends.
- For pluggable equipment, make sure to install the socket outlet near the equipment so that it is easily accessible.
- A readily accessible disconnect device shall be incorporated external to the equipment. Confidential & Proprietary 6/28
- This power of this system shall be supplied through wiring installed in a normal building. If powered directly from the mains distribution system, it shall be used additional protection, such as overvoltage protection device
- Only 50 ohm rated antennas, cables and passive equipment shall be used with this remote. Any equipment attached to this device not meeting this standard may cause degradation and unwanted signals in the bi-directional system. All components connected to this device must operate in the frequency range of this device.
- Only 50 ohm rated antennas, cables and passive components operating from 150 - 3 GHz shall be used with this device.
- The head end unit must always be connected to the Base Station using a direct cabled connection. This system has not been approved for use with a wireless connection via server antenna to the base station.
- Signal booster warning label message should include
- Certification FCC: This equipment complies with the applicable sections of Title 47 CFR Parts 15,22,24,27 and 90(Class B) 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.This product conforms to all applicable standards of 21 CFR Chapter 1, Subchaper J, Part 1040 Confidential & Proprietary 7/28 Section2 System Overview 2.1 Purpose 2.2 SMDR-NH124 Confidential & Proprietary 8/28 2.1 Purpose SMDR-NH124 is a coverage system for in-building services delivering voice and data in high quality and for seamlessly. As a distributed antenna system, it provides analog and digital phone systems that are served in multiple bands through one antenna. The system covers general public institutions and private facilities. Shopping malls Hotels Campus areas Airports Clinics Subways Multi-use stadiums, convention centers, etc. The system helps improve in-building radio environments in poor condition and make better poor RSSI and Ec/Io. By providing communication services at every corner of buildings, the system enables users to make a call at any site of buildings. The system uses both analog (AMPS) and digital (TDMA, CDMA and WCDMA) methods. The SMDR-NH124 system supports communication standards and public interface protocols in worldwide use. Frequencies: VHF,UHF, 700MHz, 800MHz,850MHz 900MHz,1900MHz,2100MHz, etc. Voice protocols: AMPS,TDMA, CDMA,GSM,IDEN, etc. Data protocols: EDGE,GPRS,WCDMA,CDMA2000,Paging, etc. SMDR-NH124 is in modular structure per frequency. To provide desired frequency in a building, all you need to do is to insert a corresponding frequency module into each unit. As it delivers multiple signals with one optical cable, the system, in one-body type, does not require additional facilities whenever new frequency is added. The system is featured with the following:
Flexibiltiy & Scalabiltiy Support fiber-optic ports up to 39 Clustering multiple-buildings (campus) as one coverage Modular structures Modular frequency upgrade Plug-in type module Multi-Band, Multi Operator Confidential & Proprietary 9/28 Signals with a plurality of service provider transmit simultaneously Support multi-operator in a band Low OPEX / CAPEX Compact design Upgradable design Easy installation and maintenance Web Based SNMP or GSM Modem or UDP support (Optional) 2.2 SMDR-NH124 ROU receives TX optical signals from ODU or OEU and converts them into RF signals. The converted RF signals are amplified through High Power Amp in a corresponding RDU, combined with Multiplexer module and then radiated to the antenna port. When receiving RX signals through the antenna port, this unit filters out-of-band signals in a corresponding RDU and sends the results to Remote Optic Module to make electronic-optical conversion of them. After converted, the signals are sent to a upper device of ODU or OEU. ROU can be equipped with up to three RDUs (Remote Drive Unit) and the module is composed of maximal Dual Band. Confidential & Proprietary 10/28 Section3 Functional Description 3.1 General (Remote Optic Unit) 3.2 Compoent of SMDR-NH124 Remote Unit 3.3 Dimension Confidential & Proprietary 11/28 3.1 General (Remote Optic Unit) The following figure shows the block diagram of SMDR-NH124 Remote Unit. Figure 3.1 Remote Unit Block Diagram There are many components;
R-Optic : Remote Optical Unit RCPU : Remote Central Processor Unit RPSU(AC) : Remote AC Power Supply Unit(When using the AC input power) RPSU(DC) : Remote DC Power Supply Unit(When using the DC input power) RDU1-3 : Remote Drive Unit MULTIPLEXER : Combine Unit SIU : System Interface Unit Confidential & Proprietary 12/28 3.2 Component of SMDR-NH124 Remote Unit The following figure shows internal configuration of Remoe Unit with fully RF equipped. Figure 3.2 Inside of Remote Unit Remote Unit receives TX optical signals from Head-End and converts them into RF signals. The converted RF signals are amplified through High Power Amp in a corresponding RDU, combined with Multiplexer module and then radiated to the antenna port. When receiving RX signals through the antenna port, this unit filters out-of-band signals in a corresponding RDU and sends the results to Remote Optic Module to make electronic-optical conversion of them. After converted, the signals are sent to a upper device of ODU. ROU can be equipped with up to three RDUs (Remote Drive Unit) The following table describes components on Remote Unit No. Unit Description Remark Remote Drive Unit Filter and high amplify TX signals;
1 RDU+BPF Filter and amplify RX signals;
Remove other signals through BPF BPF is exclude from VHF+UHF module Confidential & Proprietary 13/28 2 RPSU Remote Power Supply Unit Input power: DC -48V, Output power: 27V,9V, 6V For 120V input of AC/DC;
For -48V input of DC/DC Remote Optic Make RF conversion of TX optical signals;
3 R-OPTIC Convert RX RF signals into optical signals;
4 RCPU Compensates optical loss Communicates with BIU/OEU though the FSK modem Remote Central Processor Unit Controls signal of each unit Monitors BIU/ODU/OEU status through FSK modem communication Multiplexer 5 Multiplexer Combine TX signals from 3 RDUs;
Distribute RX signals to 3 RDUs;
6 Enclosure Enable you to use a single antenna port Enclosure to satisfy NEMA4;
Enable Wall/Rack Mount;
Check if the system is normal, through the front panel LED 7 SIU System Interface Unit Distribute power and signals of each module Confidential & Proprietary 14/28 3.3 Dimension Figure 3.3 ROU Outer Look ROU is designed in a cabinet, and provides the following functions and features. Item Size(mm) Weight Power consumption Operating Temperature Spec. Remark 482.6(19) x 258 x560, Including Bracket 35.45 Kg 265 W
-10 to +50C Full Load Ambient Temperature Confidential & Proprietary 15/28 Section4 System Installation 4.1 ROU Installation 4.1.1 ROU Enclosure installation ROU is designed to be water- and dirt-proof. The unit has the structure of One-Body enclosure. It satisfies water-proof and quake-proof standards equivalent of NEMA4. ROU can be mounted into either of a 19 Standard Rack or on a Wall. Basically, ROU has both of a Wall Mount Bracket and a Rack Mount Bracket. Depending on the use of the Rack Mount Bracket, the bracket can be removed. The following shows dimension of the fixing point for the Wall Mount Bracket. Confidential & Proprietary 16/28 Figure 4.1 How to install ROU Figure 4.2 Dimension used to install ROU on the WALL Confidential & Proprietary 17/28 ROU Wall Mount Installation Turn M12 Fixing Screws by half on the wall and fully fix the screw with a Wall Mount Bracket on it. For convenience, the Wall Mount Bracket has fixing holes to let you easily mount an enclosure. Turn the M5 Wrench Bolt by half at each side of the Heatsink of the enclosure. Put the enclosure with the M5 Wrench Bolt fixed on the fixing groove and fix the M5 Wrench Bolts into the remaining fixing holes. In this case, you will use 12 M5 Wrench Bolts in total except bolts used for the fixing groove. Confidential & Proprietary 18/28 ROU Rack Mount Installation Like other units, ROU is designed to be inserted into a rack. The unit occupies around 13U of space except cable connection. ROU component ROU has the following components:
No. Unit Description Remark Enclosure Including Rack & Wall cradle RCPU
-
R_OPTIC With SC/ACP adaptor Common Part RPSU Alternative DC-48V or AC 120V Multi-Plexer
-
Power Cable
- MS Connector with 3 hole to AC 120 plug(AC)
- MS Connector with 2 lug termination(DC) 1EA 1EA 1EA 1EA 1EA Optional Part RDU+BPF 800PS,800PS+900I+Paging,850C,850C+700PS, Up to 3EA to 1900P+ AWS-1 RDU, VHF+UHF(NO BPF), be inserted Confidential & Proprietary 19/28 850C+700LTEC, 700LTEF+850C 700LTEF SISO RDU, 700LTEF SISO RDU Basically, the common part of ROU should have an enclosure and it is equipped with RCPU to inquire and control state of each module, R_OPTIC to make both of electronic-optical and optical-electronic conversions, RPSU to supply power for ROU and a Multi-Plexer to help share multiple TX/RX signals through one antenna. It should have Power Cable for external rectifier or to supply required power. In addition, RDU can be inserted and removed to provide service for desired band (Optional). 4.1.2 ROU Power Cabling ROU supports both of DC-48V and AC120V of input power. As RPSU for DC-48 and RPSU for AC120V are separated from each other, you need to select one of them in case of purchase order. RPSU for DC -48V and RSPU for AC 120V have the same configuration and capacity while each of the units uses different input voltage from each other. The following figure shows configuration of RPSUs for DC -48V and AC 120V. Confidential & Proprietary 20/28 MC Connector numbering A B C Lug Naming RPSU Terminal naming AC DC AC_H AC_N
-48V GND GND DC NC AC AC-H AC-N FG Remark DC
-48V IN_GND FG Check if the connection is the same as one seen in the table above and make sure to turn the power ON. 4.1.3 Optical Cabling ROU makes optical-electronic conversion of TX signals from upper ODU and OEU and makes electronic- optical conversion of RX signals. ROU has one optical module in it. As WDM is installed in the R_OPTIC module, two pieces of wavelength (TX:1310nm, RX:1550nm) can be sent/received with one optical core at the same time. ROU has SC/APC of optical adaptor type. For optical adaptor, SC/APC type can be used. To prevent the optical access part from being marred with dirt, it should be covered with a cap during move. When devices are connected through optical cables, you need to clear them using alcohocol to remove dirt. Confidential & Proprietary 21/28 Optical cables should be inserted into Optic Port outside of ROU. Using an optical slack devices in ROU, you need to coil around one or two roll of cables to be connected with the optical adaptor of ROPTIC. At this time, curvature of the optical cable should be at least 10 to prevent insertion loss from being increased. Through GUI, check if PD value of ROPTIC is in a tolerable range (+4~-1dBm). 4.1.4 GND Terminal Connection ROU has one GND terminal port where is on bottom side, like below GND LUG
- Take off the GND terminal port from enclosure and connect to ground cable, then fix it the position of enclosure again
- The opposite end of the ground cable should connect to the communication GND of building Confidential & Proprietary 22/28 4.1.5 Coaxial cable and Antenna Connection
- The coaxial cables which are connected to antenna distribued network connect to antenna port of ROU. Before connection, check the VSWR value of coaxial cable whether it is within specification using SITEMASTER .
- At this time, check if the Return loss have above 15Db or VSWR have below 1.5
- The part of antenna connection fasten to port not to be loosed and not to be injected the dusty and insects
- The antenna connected to ROU is only serviced in inbuilding 4.1.6 Insertion of RDU ROU has slots to enable up to three RDU modules to be inserted into the unit. You can insert a RDU into any slot. It is not possible to provide services with a RDU module alone; you need to connect the module with Cavity BPF in any case. The table below shows types of RDU and CAVITY BPF:
No Unit naming Cavity BPF RF CABLE Multiplexer Interface TX RX 1 2 3 4 5 6 7 8 9 RDU 800PS 800PS BPF RDU 850C 850C BPF TX CABLE 1EA RX CABLE 1EA BPF OUT RDM RX IN TX CABLE 1EA BPF TX RX CABLE 1EA OUT BPF RX IN RDU 1900P+AWS-1 1900P DUP TX/RX CABLE 1EA RDM AWS+1900P RDU 800PS+900I+PA TX CABLE 1EA RDM TX 800PS+900I+PA BPF RX CABLE 1EA OUT RDU 850C+700PS TX CABLE 1EA RDM TX 850C+700PS BPF RX CABLE 1EA OUT RDU 850C+700PS TX CABLE 1EA RDM TX 850C+700PS(D) BPF RX CABLE 1EA OUT RDM RX IN RDM RX IN RDM RX IN RDU VHF+UHF RDU E-VHF+UHF
-
-
TX CABLE 1EA RX CABLE 1EA TX CABLE 1EA RX CABLE 1EA
-
-
-
-
RDU 850C+700LTEC TX CABLE 1EA RDM TX 850C+700LTEC BPF RX CABLE 1EA OUT RDM RX IN Confidential & Proprietary 23/28 10 11 12 13 RDU 700LTEF+850C TX CABLE 1EA RDM TX 700LTEF+850C BPF RX CABLE 1EA OUT RDU 700LTEF SISO TX CABLE 1EA RDM TX 700LTEF SISO BPF RX CABLE 1EA OUT RDU 700LTEF SISO TX CABLE 2EA RDM TX 700LTEF MIMO BPF RX CABLE 1EA OUT RDM RX IN RDM RX IN RDM RX IN 1900P(MIMO)+
AWS-1(MIMO) 1900P DUP TX/RX CABLE 1EA RDM AWS+1900P 4.1.7 RDU Specifications Per band Standard Unit naming Description Frequency range TX(MHz) RX(MHz) 700P Public safety 758 to 775 793 to 805 700PS(D) Public safety 763 to 775 788 to 805 800P 850C 900I 900 PA 1900P AWS-1 VHF UHF Public safety 851 to 869 806 to 824 Cellular SMR Paging PCS AWS-1 869 to 894 824 to 849 929 to 940 896 to 902 929 to 930 896 to 902 1930 to 1995 1850 to 1915 2110 to 2155 1710 to 1755 Public safety 136 to 174 136 to 174 Public safety(Band1) Public safety(Band2) 396 to 450 396 to 450 450 to 512 450 to 512 380 to 434 380 to 434 434 to 496 434 to 496 iDEN iDEN Cellular Iden Paging PCS AWS-1
-
-
LTE 700LTE Long Term Evolution 728 to 757 699 to 716 777 to 787 Confidential & Proprietary 24/28 700MHz Long Term Evolution Parameters Typical Remarks TX RX 29MHz 28MHz
+23dBm
+0dBm Total Bandwidth Output power System Gain Bandwidth Output power System Gain 43dB 50dB input and output impedances 50 ohm 50 ohm 700MHz Long Term Evolution (MIMO) Parameters Typical TX RX 29MHz 28MHz input and output impedances 50 ohm 50 ohm
+25dBm
+0dBm Total 45dB 50dB 700MHz Public safety Parameters Bandwidth Output power System Gain Typical TX RX 12MHz 12MHz
+23dBm
+0dBm Total 43dB 50dB input and output impedances 50 ohm 50 ohm 700MHz Public safety (D Block) Parameters Bandwidth Output power System Gain Typical TX RX 17MHz 17MHz
+23dBm
+0dBm Total 43dB 50dB input and output impedances 50 ohm 50 ohm Confidential & Proprietary 25/28 Remarks Remarks Remarks 800MHz Public safety Bandwidth Output power System Gain 850MHz Cellular Parameters Bandwidth Output power System Gain 900MHz iDEN & Paging Parameters Bandwidth Output power System Gain Parameters Typical Remarks TX RX 18MHz 18MHz
+23dBm
+0dBm Total input and output impedances 50 ohm 50 ohm 43dB 50dB Typical TX RX 25MHz 25MHz
+23dBm
+0dBm Total 43dB 50dB Typical TX RX 12MHz 6MHz
+23dBm
+0dBm Total 43dB 50dB Remarks Remarks Remarks input and output impedances 50 ohm 50 ohm 1900MHz PCS Parameters Typical TX RX 65MHz 65MHz Bandwidth Output power System Gain
+26dBm
+0dBm Total 46dB 50dB Confidential & Proprietary 26/28 input and output impedances 50 ohm 50 ohm input and output impedances 50 ohm 50 ohm 1900MHz PCS(MIMO) Parameters Typical Remarks TX RX 65MHz 65MHz
+30dBm
+0dBm Total Bandwidth Output power System Gain input and output impedances 50 ohm 50 ohm 50dB 50dB 1700MHz&2100MHz AWS-1 Parameters Bandwidth Output power System Gain Typical TX RX 45MHz 45MHz
+26dBm
+0dBm Total 46dB 50dB input and output impedances 50 ohm 50 ohm 1700MHz&2100MHz AWS-1(MIMO) Parameters Typical TX RX 45MHz 45MHz Bandwidth Output power System Gain
+30dBm
+0dBm Total 50dB 50dB input and output impedances 50 ohm 50 ohm 150MHz VHF Public safety Remarks Remarks Parameters Typical Remarks TX RX Bandwidth 38MHz 38MHz 136~174MHz Confidential & Proprietary 27/28 Output power System Gain
+24dBm
-4dBm Total 39dB 50dB input and output impedances 50 ohm 50 ohm 450MHz UHF Public safety Parameters Typical Remarks TX RX 396~450MHz(54MHz) Bandwidth(Band1) 116MHz 116MHz 450~512MHz(62MHz) Band selection 380~434MHz(54MHz) Bandwidth(Band2) 116MHz 116MHz 434~496MHz(62MHz) Output power System Gain
+24dBm
-4dBm Total Band selection 39dB 50dB input and output impedances 50 ohm 50 ohm
"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."
Confidential & Proprietary 28/28 RSS-GEN, Sec. 7.1.2 (transmitters) Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication. Conformment la rglementation dIndustrie Canada, le prsent metteur radio peut fonctionner avec une antenne dun type et dun gain maximal (ou infrieur) approuv pour lmetteur par Industrie Canada. Dans le but de rduire les risques de brouillage radiolectrique lintention des autres utilisateurs, il faut choisir le type dantenne et son gain de sorte que la puissance isotrope rayonne quivalente (p.i.r.e.) ne dpassepas lintensit ncessaire ltablissement dune communication satisfaisante. RSS-GEN, Sec. 7.1.2 (detachable antennas) This radio transmitter (identify the device by certification number, or model number if Category II) has been approved by Industry Canada to operate with the antenna types listed below with the maximum permissible gain and required antenna impedance for each antenna type indicated. Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device. Le prsent metteur radio (identifier le dispositif par son numro de certification ou son numro de modle sil fait partie du matriel de catgorie I) a t approuv par Industrie Canada pour fonctionner avec les types dantenne numrs ci-dessous et ayant un gain admissible maximal et limpdance requise pour chaque type dantenne. Les types dantenne non inclus dans cette liste, ou dont le gain est suprieur au gain maximal indiqu, sont strictement interdits pour lexploitation de lmetteur.