FCC Part 24 Transmitter Certification Test Report FCC ID: DNY0B2EKLIT1900 FCC Rule Part: CFR 47 Part 24 Subpart E ACS Report Number: 05-0460-24H Manufacturer: EMS Wireless Equipment Type: PCS Fiber-optic RF Distribution Remote Unit Model: EkoLite II 1900 Installation and Operators Guide 5015 B.U.
Operator’s Manual EkoLite II Fiber Optic Distributed Antenna System 2850 Colonnades Court Norcross, GA 30071 U. S. A. Tel: +1 770.582.
EMS Wireless EkoLite II Operator’s Manual Disclaimer Every attempt has been made to make this material complete, accurate, and up-to-date. 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. Copyright Information © EMS Wireless, a division of EMS Technologies, Inc.
EMS Wireless EkoLite II 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. FCC Class B: “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.
EMS Wireless EkoLite II Operator’s Manual Safety Considerations When installing or using this product, observe all safety precautions during handling and operation. Failure to comply with the following general safety precautions and with specific precautions described elsewhere in this manual violates the safety standards of the design, manufacture, and intended use of this product. EMS Wireless assumes no liability for the customer's failure to comply with these precautions.
EMS Wireless EkoLite II Operator’s Manual Electrostatic Sensitivity ESD = ELECTROSTATIC DISCHARGE SENSITIVE DEVICE Observe electrostatic precautionary procedures. Semiconductor laser transmitters and receivers provide highly reliable performance when operated in conformity with their intended design. However, a semiconductor laser may be damaged by an electrostatic charge inadvertently imposed by careless handling.
EMS Wireless EkoLite II Operator’s Manual When returning a product for service, include the following information: owner, model number, serial number, return authorization number (obtained in advance from EMS Wireless Inc.'s Customer Service Dept.), service required and/or a description of the problem encountered. Warranty and Repair Policy The EMS Wireless Quality Plan includes product test and inspection operations to verify the quality and reliability of our products.
EMS Wireless EkoLite II Operator’s Manual In the event that it is necessary to return any product against the above warranty, the following procedure shall be followed: Return authorization shall be received from the EMS Wireless Customer Support Department prior to returning any device. Advise the EMS Wireless Customer Support Department of the model, serial number, and the discrepancy. The device shall then be forwarded to EMS Wireless, transportation prepaid.
EMS Wireless EkoLite II Operator’s Manual DAMAGE INCLUDING, BUT NOT LIMITED TO, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF OR IN CONNECTION WITH FURNISHING OF GOODS, PARTS AND SERVICE HEREUNDER, OR THE PERFORMANCE, USE OF, OR INABILITY TO USE THE GOODS, PARTS AND SERVICE.
EMS Wireless EkoLite II Operator’s Manual service technician is warned, however, to take precautions which include not looking directly into the fiber connector or the fiber which is connected to the fiber connector before it is connected to the fiber optic receiver. The light emitted from the fiber optic connector or any fiber connected to the connector is invisible and may be harmful to the human eye.
EMS Wireless EkoLite II Operator’s Manual TABLE OF CONTENTS 1.0 2.0 3.0 4.0 Introduction 1.1 System Overview 1.2 Functional Overview 1.2.1 Hub 1.2.2 Fiber 1.2.3 Remote Unit 1.2.4 Optional Components 1.2.4.1 AC Power Supply 1.2.4.2 DC Power Supply 1.2.4.3 RF Combiner Installation Guide 2.1 Shipment Contents 2.2 Available Options 2.3 Site Selection 2.3.1 Hubs 2.3.2 Remotes 2.4 Pre-Installation 2.5 Power Supply Installation 2.6 Single Hub Installation 2.7 Multiple Hub Installation 2.
EMS Wireless EkoLite II Operator’s Manual 4.8 5.0 Alarm Output Specifications 4.8.1 Internal Alarms 4.8.2 External Alarms 4.8.2.1 Master Hub External Alarm Relays, J26 4.8.2.2 Master Hub External Alarm Relays, J27 Troubleshooting Guide 5.1 Remote Alarms 5.2 Hub Alarms 5.2.
EMS Wireless EkoLite II Operator’s Manual LIST OF FIGURES Figure 1: Typical EkoLite II Application Figure 2: EkoLite II Functional Diagram Figure 3: EkoLite II Remote Unit Block Diagram Figure 4: EkoLite II Remote Pictorial Figure 5: AC Power Supply Rear Panel Figure 6: DC Power Supply Rear Panel Figure 7: RF Combiner Rear Panel Figure 8: Application of Alarm Relay Contacts Figure 9: J27 Application, Single Hub Using Internal Supply Voltage Figure 10: J27 Application, OR Configured Hubs using External Sup
EMS Wireless EkoLite II Operator’s Manual LIST OF TABLES Table 1: Power per Carrier Table Table 2: Link Performance Specifications Table 3: User Requirement Specifications Table 4: EkoLite II Hub Specifications Table 5: EkoLite II AC Power Supply Specifications Table 6: EkoLite II DC Power Supply Specifications Table 7: RF Combiner Specifications Table 8: EkoLite II Remote Specifications Table 9: Hub Alarm Conditions Table 10: J26 Connector Table 11: J27 Connector Table 12: Remote Alarm Conditions Table 1
EMS Wireless EkoLite II Operator’s Manual 1.0 Introduction The system overview describes the need for distributed RF antenna systems in general terms and the concept of a fiber optic repeater system. The functional overview describes the EkoLite II system as it is broken down into its major components. 1.1 System Overview The EkoLite II System is designed to distribute Cellular and PCS radio signals within a building or campus of buildings where coverage/capacity would be otherwise impeded.
EMS Wireless EkoLite II Operator’s Manual EkoLite II system would be a multi-floor building such as the one depicted in Figure 1. In buildings of this type it is common to find equipment rooms for Heating, Ventilation and Air-Conditioning (HVAC) and other utilities such as data networking and telephony equipment. There are numerous advantages to centrally located utilities and services and cellular equipment is no exception.
EMS Wireless EkoLite II Operator’s Manual 1.2 Functional Overview There are four main components comprising the EkoLite II System: The Hub, the Remote, the Fiber, and the Antenna. Figure 2 is a functional diagram of the EkoLite II system. 1.2.1 Hub The Hub interfaces directly to the service provider’s BTS and is typically located in the equipment or utility room in most installations.
EMS Wireless EkoLite II Operator’s Manual Each EkoLite II Hub can support up to eight Remotes. If more than eight Remotes are required, up to 3 additional Hubs can be added allowing for a total of 32 Remotes. 1.2.2 Fiber EMS recommends single mode 9/125 µm optical fiber for use in the EkoLite II system. It is also recommended that a high quality SC/APC connector be used to minimize reflections at the mating ends of the fiber. SC/APC connectors are standard on both the Remote and the Hub.
EMS Wireless EkoLite II Operator’s Manual Figure 4. EkoLite II Remote The standard EkoLite Remote has a self-contained antenna. Optionally, an SMA(f) connector may be specified so an external antenna may be used. In this case, the internal antenna is not installed at the factory. Also, internal 1:2 or 1:4 power splitters may be specified and factory installed inside the remote unit so multiple antennas can be used. The outputs from these splitters are SMA(f) connectors on the back of the remote unit. 1.
EMS Wireless EkoLite II Operator’s Manual Figure 4. AC Power Supply Rear Panel. 1.2.4.2 DC Power Supply In many telecommunications applications equipment is powered by 48 Volt DC power. If the user desires, or is required to use 48 volts, EMS offers a DC supply for deployment with the EkoLite II system, as shown in Figure 6.
EMS Wireless EkoLite II Operator’s Manual Figure 6. DC Power Supply Rear Panel. 1.2.4.3 RF Combiner The user desiring to accommodate more than one carrier in an EkoLite II system will require a combiner such as the one depicted in Figure 7.
EMS Wireless EkoLite II Operator’s Manual Figure 7. RF Combiner Rear Panel. The RF Combiner is installed at the Hub and accommodates two BTS inputs. 2.0 Installation Guide The following guidelines provide a step by step installation procedure which should be followed closely to insure a successful deployment. 2.
EMS Wireless EkoLite II Operator’s Manual 2.3 Pre-installation Prior to installation, a carefully planned system layout should be documented. At a minimum, this document should include the location of the Hub, the location of the Remotes, the Antenna locations, the fiber locations and lengths, and the location of the power supplies for both Hubs and Remotes. The Hub is located at the Building Base Station or BTS. The Hub interfaces with the user's PCS System.
EMS Wireless EkoLite II (c) (d) Operator’s Manual RF Spectrum analyzer Signal generator 2.4 Power Supply Installation If purchased, install the power supply and connect power to the Hub. An on-off switch is located in the rear of the chassis and should remain in the off position until the installation is completed. Before connecting the Hub or Remotes to the power supply, apply AC power to the supply and verify the 48 V output with a Volt meter. 2.
EMS Wireless EkoLite II Operator’s Manual 2.6 Multiple Hub Installation For installations requiring more than one Hub, there will be one Hub designated as the Master and the other Hubs will be slaved to the Master. Up to three additional Hubs can be slaved to a single Master Hub. The BTS will only interface to the Master Hub. An optional Master Alarm Controller may be purchased to allow alarms to be reported to an offsite monitoring station.
EMS Wireless EkoLite II Operator’s Manual • For external antenna use, connect the Antenna to the remote using 50 Ω cable with an SMA-type connector. • Remove the cover on the Remote fiber connector. Using a dust free air source, clean the fiber connector. • Remove the plastic cover on the fiber and clean the connector tip. • Connect the fiber(s) to the remote. • Connect the DC power cable to the remote.
EMS Wireless EkoLite II Operator’s Manual properly. If any of the LEDs are flashing, there is an alarm condition and you should refer to section 5.0 to troubleshoot the problem. 2. Note that, any unused ports on the Hub will indicate an alarm condition until the user commands the Hub to ignore those ports. Please refer to the System Initialization section for further details. Each Remote has one alarm LED. When power is first applied to the Remote, its LED will be amber for a period of 10 seconds.
EMS Wireless EkoLite II Operator’s Manual 2> The last entry “2>” is the prompt indicating the user’s level of privilege. The prompt may be composed of several “reminders”; where a single capital letter indicates a system change. These reminders are as follows: <1> <2> “A” “C” “F” Login privilege level of “guest” Login privilege level of “user” An alarm is active Calibration tables are invalid; the default calibration tables are in use. Settings do not agree with the stored values in flash memory.
EMS Wireless EkoLite II Operator’s Manual catastrophic events as the fiber to the Remote being cut. For a Hub that does not use all eight channels, the unused channels will report an alarm by default. These are false alarms and it will be necessary for the user to disable these unused channels to clear the alarms. The command to disable the unused channels is: 2>set fiber = disabled Where n corresponds to the desired channel.
EMS Wireless EkoLite II Operator’s Manual 3.0 Maintenance The EkoLite II system is designed to be virtually maintenance free for the user. CAUTION Do Not look directly at the end of an optical connector which emits laser light! The system normally operates without operator intervention. If any unit fails, the line replaceable unit (Remote unit or Hub) should be replaced and the system restored. A failed Remote unit can be removed and replaced with a spare while the rest of the system is operating.
EMS Wireless EkoLite II Operator’s Manual 4. The optical connectors for the Hubs and the Remote units are internal, and cannot be cleaned in the field. After the system is installed there should be no need for periodic cleaning of the fiber connectors. 4.0 Specifications The specifications are divided into several sections including: • • • • • • • • 4.
EMS Wireless EkoLite II Operator’s Manual PARAMETER Intermodulation Output Carrier to Noise: 30kHz BW 200kHz BW Pout=+9dBm Sensitivity for 200kHz BW for BTS S/N of 9dB Sensitivity for 1.25MHz BW for Eb/No of 7dB and 14.4kHz data rate SFDR in 200kHz BW Propagation Delay Impedance Input/Output VSWR Hub RF Connector Remote RF Connector Optical Connector Optical Fiber Wavelength DOWNLINK UPLINK ≥64 dB ≥56 dB ----- --- -98 dBm --- -111dBm 53 dB <0.5 µs (RF) + 5 µs/km,typ (fiber) 50 Ω <1.
EMS Wireless EkoLite II Operator’s Manual PARAMETER (factory configured) USER REQUIREMENT 50-60 Hz Backup Power Supply (Optional) +12 VDC ± 0.5 V, 8.5 A max load Ripple < 170 mV pp Remote DC Power 20 - 48 VDC V at 0.4 A Ripple: <170 mV, freq >300 Hz <300 mV, freq <300 Hz Rack Chassis: 3U high, 19" (7.5 cm) wide, 12.84" (32.6 cm) deep 1U (1.75" [4.
EMS Wireless EkoLite II Operator’s Manual PARAMETER USER REQUIREMENT <300 mV, freq <300 Hz Chassis: 3U high, 19" (7.5 cm) wide, 12.84” (32.6 cm) deep 1U (1.75" [4.4 cm]) air space above and below each chassis Rack Temperature Performance to Full Spec Operating Storage Relative Humidity Operating Short Term 5oC to 40oC 0oC to 50oC -20oC to 65oC 20 to 55% 10 to 80% (not exceeding 0.024 lbs water/dry air) Table 4. EkoLite II Hub Specifications 4.
EMS Wireless EkoLite II Operator’s Manual PARAMETER SPECIFICATION water/dry air) Table 5. EkoLite II AC Power Supply Specifications. 4.5 DC Power Supply Specifications Table 6 shows a list of specifications for the DC-DC power supply. The supply requires a 24VDC battery input common to wireless service provider base transceiver stations.
EMS Wireless EkoLite II Operator’s Manual PARAMETER BTS TX Input Power, max BTS TX Input Power No Damage Combined TX Output Power Insertion loss per BTS TX Isolation - BTS Tx to BTS Tx Isolation - Tx to Rx, Min Insertion loss - BTS Rx (single band) Insertion loss - BTS Rx (dual band) Dimensions Weight (approximate) Temperature Range Performance to Full Spec Operating Storage Relative Humidity Operating Short Term SPECIFICATIONS +30dBm +40dBm +20dBm 13dB 45dB 50dB < 6dB < 10dB 19"L X 12.81"W X 3.47"D (48.
EMS Wireless EkoLite II Operator’s Manual PARAMETER External DC Power Supply Requirement Dimensions Weight (approximate) Max Uplink RF Input Power Downlink RF Output Power SPECIFICATIONS 20 - 48 V ± 1 V at 0.4 A (Max Ripple: <170 mV pp 6.78” x 6.78” x 4.35” (17.2 cm x 17.2 cm x 11.0 cm) 2 lbs (0.
EMS Wireless EkoLite II Operator’s Manual Table 9. Hub Alarm Conditions. The user may also log into the Hub and, using the Alarm command, diagnose the alarm conditions. 4.8.2 External Alarms Frequently the user may desire to interface alarms in the EkoLite II system with a BTS or other systems. For this purpose, user configurable alarm outputs are accessed using J26 and J27 found on the rear panel of the EkoLite II Hub. 4.8.2.
EMS Wireless EkoLite II Operator’s Manual J26 NO C Alarm 1 NC NO C NC Pin 1: ALARM-1-NO 2 Amp Max Load Current Pin 2: ALARM-1-C Audible Buzzer (Alarm Indicator) Pin 3: ALARM-1-NC Pin 4: ALARM-2-NO Red Light (Alarm Indicator) Pin 5: ALARM-2-C Pin 6: ALARM-2-NC Green Light (No Alarm Indicator) Typical application circuits Alarm 2 General Circuit Topology Figure 8: Application of Alarm Relay Contacts 4.8.2.
EMS Wireless EkoLite II Operator’s Manual +5VDC ** - Use R to limit current to 20mA J27 R Pin 1: V-ALARM Pin 2: ALARM-OC Pin 3: GND Pin 4: Not Connected Alarm N/C Pin 5: EXT-ALARM-1-IN uCont Pin 6: ALARM-2-NC General Circuit Topology Typical Application Circuit Figure 9. J27 Application, Single Hub using internal supply voltage. The Hubs may also be configured in an OR configuration as seen in Figure 10. External alarm circuitry must be current limited to 20mA.
EMS Wireless EkoLite II Operator’s Manual 5.0 Troubleshooting Guide The chief indicator of a failure is the Status LED located on each of the Remotes and the Hub. The user can ascertain the nature of the failure by either logging into the Hub and invoking the Alarm command or by using Tables 12 and 13 below. Under normal operating conditions, these LEDs will be solid green. If an alarm condition occurs, the LEDs will indicate the nature of the failure and assist the user in deciding on a coarse of action.
EMS Wireless EkoLite II Operator’s Manual 5.2.1 Internal Alarms The Internal Hub Alarms are described in Table 13.
EMS Wireless EkoLite II Operator’s Manual APPENDIX A Terminal Communications The EkoLite II can be configured and monitored via direct serial RS-232 connection. The following paragraphs describe in detail how to connect to the Hub. Direct Terminal Connection The EkoLite II Hub can be controlled via standard RS232 Communications port located on the front of the Hub chassis. A laptop computer is recommended for system setup and verification.
EMS Wireless EkoLite II Operator’s Manual A dialog box will ask you to name the session. Use any name you choose. For this example, the name EkoLite II was used. Select the icon showing the two telephones as shown in Figure A-1. 3. Figure A-1. Connection Description in HyperTerminal 4. For a direct connection to the repeater, choose “Direct to Com X” in the drop down box in Figure A-2.
EMS Wireless EkoLite II Operator’s Manual Figure A-2. HyperTerminal Screen for Direct Connection. 5. After clicking OK, you will need to choose “Port Settings.
EMS Wireless EkoLite II Operator’s Manual Figure A-3. Port Settings for Direct Connection and Remote Connection The port settings will be the same for direct connection and remote connection, except for the flow control. For a direct connection to the repeater, make sure flow control is set to “None.
EMS Wireless EkoLite II Operator’s Manual 46
Installation Guide EkoLite II Fiber Optic Distributed Antenna System 2850 Colonnades Court Norcross, GA 30071 U. S. A. Tel: +1 770.582.0555 Fax +1 770.729.
1.0 Unpacking: Carefully remove the EkoLite II hub(s), remote(s), and all supplied accessories from the box. The following items should be included as a minimum with each EkoLite II shipment. • • • • • • Hub(s) Remotes(s) User manual (this document) Software Command Reference Manual AC Power supply (optional) Other accessories, such as fiber optic cable, coaxial jumper cables, server (remote) antennas, etc., as determined by the particular system design. 2.
3.0 Installation Procedure 3.1 Hubs The Hub(s) should be located as close as possible to the donor BTS. Observe all environmental specifications for the hub to avoid damage from moisture, heat, cold, etc. 3.2 Remotes Ensure that each remote location is correct according to the system design drawings. Observe all environmental specifications for the remote to avoid damage from moisture, heat, cold, etc. 3.3 Pre-installation Prior to installation, a carefully planned system layout should be documented.
3.4 Power Supply Installation If purchased, install the power supply and connect power to the Hub. An on-off switch is located in the rear of the chassis and should remain in the off position until the installation is completed. Before connecting the Hub or Remotes to the power supply, apply AC power to the supply and verify the output voltage with a voltmeter. 3.5 Single Hub Installation To install the Hub, locate it as close as possible to the Service Provider’s BTS.
3.6 Multiple Hub Installation For installations requiring more than one Hub, there will be one Hub designated as the Master and the other Hubs will be slaved to the Master. Up to three additional Hubs can be slaved to a single Master Hub. The BTS will only interface to the Master Hub. An optional Master Alarm Controller may be purchased to allow alarms to be reported to an offsite monitoring station. If purchased, the Master Alarm Controller will be factory installed.
Follow these steps to install each remote unit. • For external antenna use, connect the Antenna to the remote using 50 Ω cable with an SMA-type connector. • Remove the cover on the Remote fiber connector. Using a dust free air source, clean the fiber connector. • Remove the plastic cover on the fiber and clean the connector tip. • Connect the fiber(s) to the remote. • Connect the DC power cable to the remote.
LEDs are flashing, there is an alarm condition and you should refer to the Operator’s Manual to troubleshoot the problem. Note that any unused ports on the Hub will indicate an alarm condition until the user commands the Hub to ignore those ports. Please refer to the Operator’s Manual for further details. Each Remote has one alarm LED. When power is first applied to the Remote, its LED will be amber for a period of 10 seconds.
Access granted to user 2> The last entry “2>” is the prompt indicating the user’s level of privilege. The prompt may be composed of several “reminders”, where a single capital letter indicates a system change. These reminders are as follows: <1>: <2>: “A”: “C”: “F”: Login privilege level of “guest” Login privilege level of “user” An alarm is active Calibration tables are invalid; the default calibration tables are in use. Settings do not agree with the stored values in flash memory.
3.12 Remote Alarm Disabling From the factory, the Hub is programmed to alarm any time a Remote is disconnected from the Hub. This safety feature is designed to indicate such catastrophic events as the fiber to the Remote being cut. For a Hub that does not use all eight channels, the unused channels will report an alarm by default. These are false alarms and it will be necessary for the user to disable these unused channels to clear the alarms.
2> get remote n where n is the number of the specific remote offset requested. These commands allow for most basic set-ups to be configured properly. The Operator’s Manual and the companion Software Command Reference Manual contain much more detail for manual configurations.