FCC Part 22 Transmitter Certification Test Report FCC ID: DNY0A5EPCELL8REM FCC Rule Part: CFR 47 Part 22 Subpart H ACS Report Number: 06-0472-22H Manufacturer: EMS Wireless Equipment Type: Cellular Fiber Optic DAS Tradename: EkoLink Plus® II Model: EPCELL8REM Manual 5015 B.U.
Operator’s Manual EkoLink Plus® Fiber Optic Distributed Antenna System 2850 Colonnades Court Norcross, GA 30071 770.582.0555 Fax 770.729.0075 900-5000-017 REV.
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual Disclaimer Every attempt has been made to make this material complete, accurate, and up-todate. Users are cautioned, however, that EMS Wireless reserves the right to make changes without notice and shall not be responsible for any damages, including consequential, caused by reliance on the material presented, including, but not limited to, typographical, arithmetical, or listing errors.
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual WARNINGS, CAUTIONS, AND GENERAL NOTES This product conforms to FCC Part 15, Section 21. Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. . NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS The screen of the coax cable must be connected to earth(grounded) at the entrance to the building. This should be done in accordance with applicable National Electrical Code(NEC) installation codes. In the U.S., this is required by Section 820.93 of the National Electrical Code, ANSI/NFPA 70. IC Requirements ` The Manufacturer's rated output power of this equipment is for single carrier operation.
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual Service Do not attempt to modify or service any part of this product other than in accordance with procedures outlined in this Operator's Manual. If the product does not meet its warranted specifications, or if a problem is encountered that requires service, notify EMS Wireless’ Customer Support department. Service will be rendered according the EMS Wireless’ warranty and repair policy.
EMS Wireless EkoLink Plus Fiber Optic DAS 2. Operator’s Manual Specific Product Warranty Instructions All EMS Wireless products are manufactured to high quality standards and are warranted against defects in workmanship, materials and construction, and to no further extent. Any claim for repair or replacement of a device found to be defective on incoming inspection by a customer must be made within 30 days of receipt of the shipment, or within 30 days of discovery of a defect within the warranty period.
EMS Wireless EkoLink Plus Fiber Optic DAS 3.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS The EMS Wireless laser products are used in optical fiber communications systems for radio frequency and microwave frequency analog fiber optic links. In normal operation, these systems are fully enclosed and fully shielded by the hermetically sealed laser metal package. Laser bias current is limited by the internal control circuitry. The transmitters are coupled to glass fiber and have 1310/1550 nm optical output wavelength with typically 0.
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual Handling the EkoLink Plus 1. Use ESD (electrostatic discharge) precautions when dealing with the modules within the EkoLink Plus so that units are not damaged. 2. Opening any module voids the warranty. 3. Modules cannot be "hot-swapped" (removed while unit is in operation). Disconnecting any component within the EkoLink Plus when powered can damage or destroy the equipment and will void the warranty.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS TABLE OF CONTENTS 1.0 2.0 3.0 4.0 5.0 6.0 7.0 General Information Equipment Mounting and Installation 2.1 Hub Mounting 2.2 Remote Mounting 2.3 Cabling System Set-up and Turn-on 3.1 Automatic Set-up 3.1.1 Hub Set-up 3.1.2 Remote Set-up 3.2 Manual System Set-up System Optimization Major Modular Components – Technical Description 5.1 Remote Unit 5.1.1 Channelizer Modules 5.1.2 Power Amplifier 5.1.3 Power Supply Module 5.1.4 Duplex Filter 5.1.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS TABLE OF FIGURES Figure 1: Mechanical Diagram of the EkoLink Plus Hub, Rack Mount Configuration Figure 2: Mechanical Diagram of the EkoLink Plus Hub, Waterproof Housing Configuration Figure 3: Mechanical Diagram of EkoLink Plus Remote Unit Figure 4: Rack Mounted EkoLink Plus Hub Figure 5: Wall Mounted EkoLink Plus Hub Figure 6: Wall Mounted Remote Unit Figure 7: Remote Unit with Optional Battery Back-up Unit Figure 8: EkoLink Plus Cabling Connect
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS LIST OF TABLES Table 1: Default User Names and Passwords Table 2: EkoLink Plus RF Specifications Table 3: EkoLink Plus Remote Mechanical Specifications Table 4: EkoLink Plus Hub Mechanical Specifications Table 5: EkoLink Plus Environmental Specifications Table 6: Manual Software Command List 12
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual 1.0 GENERAL INFORMATION The EkoLink Plus Fiber Optic Distributed Antenna System (DAS), provides excellent signal coverage of most all large buildings, multiple buildings, airports, convention centers as well as large outdoor environments such as university campuses, rural stretches of highway, etc. With the correct selection of equipment, this can include a combination of outdoor and in-building coverage for multi-building office parks, etc.
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual with one system. At Cellular 800 MHz, A + A’ + A” or B + B’ extended band segments can be covered with one unit. • The EkoLink Plus system will support up to four remotes per hub or two remotes with the diversity receive option. Diversity receive is accomplished by processing an additional receive signal (using a second receive antenna) at a particular remote unit. This signal is sent via fiber optic cable back to the hub unit.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS 17.52 ( 445mm ) 14.08 ( 358mm ) 19.00 ( 483mm ) 1.9 GHZ OPTICS OPTICS OPTICS OPTICS Output Output Output Output RX TX 2x ( 4.000 102mm ) Laser DC Laser DC Laser DC 800 MHZ 6.968 ( 177mm ) Laser DC 6.91 ( 175 ) TX RX RS232/SERIAL Optical Rx Optical Rx Optical Rx Optical Rx A Div ision of EMS Technologie s, Inc. Input 4x ( .278 7.1mm ) 4x ( .406 10.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS 7.9 ( 200mm ) 8.2 ( 207mm ) Figure 2: Simplified EkoLink Plus Hub Block Diagram 2x ( 21.25 540mm ) 4x O ( .406 10mm ) THRU 19.7 ( 500mm ) 2x ( 14.25 362mm ) 15.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS 15.25 ( 387mm ) 11.75 ( 298mm ) (.95) 14.22 ( 361mm ) 11.75 ( 298mm ) 4x O ( .406 10mm ) 2x ( 10.90 277mm ) 2x ( 15.50 394mm ) 18.16 ( 461mm ) 23.12 ( 587mm ) 2x ( 1.28 33mm ) (4.01) FAN ENCLOSURE AIR FLOW DIRECTION Figure 3: Mechanical Diagram of EkoLink Plus Remote Unit 17 19.
EMS Wireless EkoLink Plus Fiber Optic DAS 2.0 Operator’s Manual Equipment Mounting and Installation The following general recommendations should be adhered to for optimal performance. 1. The remote units should be mounted so the heatsink avoids direct sunlight. This will extend the life of these units. 2. The remote units must be mounted upright so that the connectors are on the underside. This will help prevent a buildup of moisture inside the cabinet. 3.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS Figure 4: Rack Mounted EkoLink Plus Hub Figure 5: Wall mounted EkoLink Plus Hub 2.2 Remote Mounting Ensure that each remote location is as close as possible to the antenna(s) it serves. Observe all environmental specifications for the remote to avoid damage from moisture, heat, cold, etc. An example of the wall mounted remote is shown in Figure 6. A battery back-up unit may be included as part of the system.
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual Figure 7: Remote Unit with optional Battery Back-up Unit Figure 6: Wall mounted remote unit 2.3 Cabling A cabling schematic showing the hub connections is shown in Figure 8. The remote connections are shown in Figure 9.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS EkoLink Plus Hub Connections (Configured without WDM, and without Receive Diversity) OPTICS Remote 1 Downlink Output Single Mode Fiber Optic Cables Laser DC Optical RX Remote 1 Uplink Input EKO-LINK PLUS (Hub shown with one remote. Additional remotes are wired identically.) Typical EkoLink Plus Hub front panel shown with two RF/Optical Transceivers Installed 1.9 GHz BTS Uplink 1.9 GHz 1.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS EkoLink Plus Remote Connections (See Optional Battery Backup Instructions for Detailed Connections) Single Mode Fiber Optic Cable(s) to Hub AC or DC Power (depending on option), or Battery Backup Unit (optionally) Div RX Ant Antenna AC Main Fiber Diversity Receive Antenna (optional) [N(f) connector with 1/2" coax] Chassis Ground Screw Fiber Optic Connections Inside Remote Unit TX/RX Server Antenna [N(f) connector with 1/2" coax] y y y y I
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual WARNING! DO NOT TURN ON THE POWER UNLESS THE REMOTE UNIT(S) ARE CONNECTED TO ANTENNAS OR ATTENUATORS ON THE SERVER ANTENNA PORT! 3.1 Automatic Set-up: 3.1.1 Hub Set-up: Connect the computer using an RS232 serial port with a DB9 male connector (on cable end for the repeater) to the hub status and control module in the repeater.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS User Name Table 1: Default User Names and Passwords Password Authority USERNAM1 USERNAM2 USERNAM3 USERNAM4 PASSWRD1 PASSWRD2 PASSWRD3 PASSWRD4 Read/write Read/write Read only Read only Change the default Username and Password. Each Username and Password can have a maximum of eight characters.
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual Note: To transmit the minimum necessary power, the repeater automatic setup will set the attenuation for maximum. Then, attenuation levels are reduced until the desired output power is achieved. The uplink (reverse) attenuation is automatically set equal to the downlink (forward) attenuation to maintain path balance. The repeater should now be properly configured for operation. 3.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS BTS 5 BTS 2 COVERAGE AREA REPEATER BTS 1 BTS 4 BTS 3 3.2.1.1.1.1 Figure 10.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS 5.0 Major Modular Components – Technical Description Figure 11 below shows a general block diagram of the EkoLink Plus System.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS 1:2 BTS Tx Input UL Fiber In/Out Out DL Fiber Optic Transceiver WDM In 1:2 Variable Attenuator Link 1 1:2 BTS Rx Output Variable Attenuator 1:2 Link 3 or Diversity Rx 1 Fiber In/Out Out DL UL Fiber Optic Transceiver WDM In Controller DL Fiber In/Out Out 1:2 Fiber Optic Transceiver Variable Attenuator WDM In UL Wireline or Wireless Modem Link 2 1:2 Variable Attenuator Link 4 or Diversity Rx 2 Telco Line DL Fiber Optic Tr
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS Duplexer Fiber Input Fiber In/Out WDM Power Amp Fiber Optic Fiber Transceiver Output MIXER SAW Fil. MIXER AMP AMP Filter AMP Filter Optional CONTROLLER RS 232/ Tech Port Channelizer Module EMS Wireless RS 232/ Programming Wireless or Wired Modem (Optional) Telco Line (Simplified Block Diagram) Figure 13: EkoLink Plus Remote Unit Block Diagram 5.1 Remote Unit 5.1.
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual 5.1.4 Duplex Filter The transmit and receive RF signals are combined with duplex filters operating in the desired frequency band. The filter consists of comb-line cavity bandpass filters, which provide excellent isolation against out-of-band signals. 5.1.5 Status and Control Module The status and control module, contained within the channelizer, enables monitoring and control of the repeater.
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual 5.2 Hub Unit A block diagram of the hub unit is shown in Figure 12. 5.2.1 Hub Interface Module The Hub Interface Module provides the RF interface control for the uplink path, control of the optical lasers for signaling the remote status, interface to the controller module and wireline modem, and relays for alarm and control status.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS 6.0 EkoLink Plus Specifications 6.1 EkoLink Plus RF Specifications The RF Specifications are shown in Table 2 below.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS Digital Attenuator Range Intermodulation, Out of Band Intermodulation, Out of Band Flatness Gain Change over BW Gain Change over temperature (-25 to 50 °C operating ambient temp.) Return Loss (I/O) Signal Electrical Delay, plus Fiber Impedance Optical Wavelength Optical Path Loss Maximum 0 to 30 dB 1 dB steps (± .5 dB) 0 to 30 dB 1 dB steps (± .5 dB) ≤ -13 dBm ≤ -13 dBm 2 dB (p-p) ± 2 dB 2 dB (p-p) ± 2 dB ± 2 dB ± 2 dB > 14 dB 3.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS 6.3 EkoLink Plus Mechanical Specifications – Hub The EkoLink Plus Hub Mechanical Specifications are shown in Table 4 below. Table 4: EkoLink Plus Hub Mechanical Specifications Housing (W x H x D) RF Connectors Weight Housing Material Primary Power Color Cooling Rack Mount: 7 x 19 x 14 inches (17.8 x 48.3 x 35.6 cm) Wall Mount: 15.7 x 19.7 x 8.2 (39.9 x 50.0 x 20.8 cm) N(f) 32 lbs (14.5 kg) Aluminum +/- 27VDC, 0.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS 7.0 Detailed Software Commands 7.1 General The Channelizer Module is equipped with a status and control system, which allows the monitoring and control of various parameters such as channel number, attenuation, temperature, status of door, etc., either with a local serial port/computer connection or via the MirrorCell Unit Manager (MUM).
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS currently active (able to report alarm state) Lists current alarms in alarm state. Displays a single alarm’s parameters. Logs the user out. Displays a menu of commands. Displays settings related to modem and reporting alarms. ALARMS ALARM# EXIT MENU MODEM GET LOG Help Commands: HELP HELP ALARM Displays Help screen. Displays Help screen alarms Displays Help screen modem and reporting. Displays Help screen Menus. Displays Help screen passwords.
EMS Wireless EkoLink Plus Fiber Optic DAS ALRM RTRY ALRM INTV PROTOCOL LZR RPRT DLPOWER DL ATTN UL ATTN DL FREQ 1 UP FREQ 1 REPORT 38 Operator’s Manual heartbeat message either transmitted or received. 0 to 100 SET ALRM The number of time the unit RTRY 3 will attempt to retry to report an alarm via modem. 0 to 999 SET ALRM INTV Time between re-try 10 attempts in minutes. CDMA, GSM, SET Protocol setting for OTHER PROTOCOL repeater.
Operator’s Manual EMS Wireless EkoLink Plus Fiber Optic DAS PEAK 20 - 39 SET PEAK 36 ALARM # ON or OFF SET ALARM 2 OFF DESIG # 0–3 SET DESIG 2 3 PWD # 8 SET PWD alphanumerics 1Passwrd 1 UID # 8 SET UID alphanumerics 1UserNam 1 DT xx/xx/xx TM ID Modem dialing MEMNUMBER. BOTH = Remote unit will use both methods to report alarm. Allows the user to set a LOWER peak output power than the factory setting. If alarm is turned off, unit will not check for specific alarm condition.
EMS Wireless EkoLink Plus Fiber Optic DAS Operator’s Manual The RF detector typically has a dynamic range of detection of 23 dB and is calibrated at the factory for a RF power range of 17 to 40 dBm for the 8 watt unit option. The software look up table for the RF detector gives the unit a very accurate means of measuring average RF output power, typically +/-1 dB across the power range. Greatest accuracy is in the higher 10 dB of the power ranges.
EMS Wireless EkoLink Plus Fiber Optic DAS Appendix A: Installing the Wireless Modem into an EkoLink Plus Items Needed: • Wireless Modem • Modem Interface cable • Coaxial cable • EkoLink Plus Repeater Steps: 1. Remove interface from packaging material. 2. Plug DB9 Female connector into DB9 Male found on the Interface Module. 3. Connect the coaxial cable to the wireless modem and the other end to the the uplink duplexer coupling port 4. Plug modem interface cable into wireless modem. 5. Turn on modem.
EMS Wireless EkoLink Plus Fiber Optic DAS Appendix B: HyperTerminal Configuration HyperTerminal may be used for terminal emulation when using remote control of the repeater. Use the following steps for setting up HyperTerminal. 1. In the Start menu, open the Programs folder. Go to the Accessories folder in the Programs folder. 2. Choose Hyper-terminal. In that folder, choose HyperTerminal. 3. A dialog box will ask you to name the session. Use any name you choose. Select the icon showing the two telephones.
EMS Wireless EkoLink Plus Fiber Optic DAS 4. For a direct connection to the repeater, choose “Direct to Com X” in the drop down box. See Figure B-2. Figure B-2: HyperTerminal Screen for Direct Connection For remote connection via modem, enter the number you wish to dial and choose to connect using “Standard Modem” as in Figure B-3.
EMS Wireless EkoLink Plus Fiber Optic DAS 5. After clicking OK, you will need to choose “Port Settings”, as shown in Figure B-4. Select: • Bits per Second: 9600 • Data bits: 8 • Parity: None • Stop bits: 1 Figure B-4: Port Settings for Direct Connection and Remote Connection The port settings will be the same for direct connection and remote connection. For a direct connection to the repeater, make sure flow control is set to “None.