TABLE OF CONTENTS 1.0 2.0 3.0 4.0 5.0 Product Description EkoCel, System Block Diagram 2.1 EkoCel, Hub Block Diagram 2.2 EkoCel, Microcell Block Diagram Description of EkoCel Fiber Optic Microcell System 3.1 Hub 3.2 Microcell Description of the Hub Unit Modules 4.1 Fiber Optic Transceiver 4.2 Modem 4.3 RF Detector 4.4 4-Way Splitter/Combiner 4.5 DC/DC Converter 4.6 Hub Interconnect Module 4.7 Controller Module 4.8 AC Power Supply 4.9 Telco Modem 4.10 Duplex, Base Station Interface 4.
6.0 7.0 8.0 9.0 Identification of Hub 6.1 Front Panel Layout 6.2 Rear Panel Layout 6.3 Hub Components Layout 6.4 Optical Transceiver 6.5 Wave Division Multiplexer 6.6 System Interconnect 700-1005 Interconnect Module Board Input Connectors Controls Terminal Strip Attenuators Output to Up Link Combiner RF Inputs Input to Optical Transceiver RF Out Other 700-1001 Board Identification of Microcell 7.1 Left Panel, A Single Band 7.2 Left Panel, Dual Band 7.3 Door Panel Microcell 7.
10.0 9.5 EkoCel 1.9 System Set Up Instructions 9.5.1 CDMA Down Link Set Up 9.5.2 CDMA Up Link System Set Up 9.5.3 GSM Down Link Set Up 9.5.4 GSM Up Link System Set Up 9.5.5 TDMA Down Link Set Up 9.5.6 TDMA Up Link System Set Up 9.5.7 Down Link Set Up for EKO-8 System 9.5.8 Up Link System Set Up for the System 9.6 Calibration Table – U2 9.6.1 Calibration Table – U3 9.6.2 Calibration Table - U5 Trouble Shooting and Maintenance 10.1 Trouble Shooting Guide 10.2 Understanding Maintenance Inputs/Alarms 10.
CI Wireless Inc.
EkoCel FIBER OPTIC MICROCELL SYSTEM 1.0 PRODUCT DESCRIPTION The EkoCel™ Fiber Optic Microcell System will support CDMA, PCS 1900, IS-136 or AMPS system formats. EkoCel provides system coverage enhancement by remoting the base station RF receive and transmit via a fiber optic connection to a location requiring coverage. EkoCel is designed to meet or exceed applicable base station and FCC emission standards. The EkoCel enhanced specifications provide minimal impact to the overall system performance.
channelization to prevent the amplification and re-radiation of unwanted signals. Alarm reporting is accomplished at the hub not at the remote unit, which would require a subscriber phone or telephone modem to be mounted in a harsh environment that they are not typically designed for. 2.0 EkoCel FIBER OPTIC MICROCELL SYSTEM BLOCK DIAGRAM CI Wireless Inc.
2.1 EkoCel , HUB UNIT BLOCK DIAGRAM (Single Band) 2.2 EkoCel , HUB UNIT BLOCK DIAGRAM (Dual Band) CI Wireless Inc.
2.3 EkoCel , MICROCELL UNIT BLOCK DIAGRAM (Single Band) 2.4 EkoCel , MICROCELL UNIT BLOCK DIAGRAM (Dual Band HOST) CI Wireless Inc.
2.5 EkoCel , MICROCELL UNIT BLOCK DIAGRAM (Dual Band Slave) 3.0 DESCRIPTION OF EkoCel FIBER OPTIC MICROCELL SYSTEM 3.1 Hub Unit The Hub unit provides the hardware interface to the base station and the fiber optic systems that will transport the RF signals to the Microcell Units. The Hub unit with Expandable option will support up to 4 Microcell Units by installing additional Fiber Optic Transceivers. Each of these Microcell Units will be individually alarmed and controlled.
4.0 DESCRIPTION OF THE HUB UNIT MODULES 4.1 Fiber Optic Transceiver The Fiber Optic Transceiver provides the RF signal transmission and reception via the fiber optic cable between the hub and microcell units. Alarm monitor outputs are provided to the control module to provide real time monitoring of the operational performance. The down link transmitted optical signal is 1550 nm wavelength and the up link received optical signal is 1310 nm wavelength.
4.7 Controller Module The Controller module provides the monitoring and control of the alarm and control functions of the hub and microcell units. These alarms and controls can be addressed and displayed by the function keys and display on the front of the control unit. The controller also supports either a hyper terminal connection or a optional modem.
5.0 DESCRIPTION OF THE MICROCELL UNIT MODULES 5.1 Fiber Optic Transceiver The Fiber Optic Transceiver provides the RF signal transmission and reception via the fiber optic cable between the hub and microcell units. Alarm monitor outputs are provided to the control module to provide real time monitoring of the operational performance. The down link received optical signal is 1550 nm wavelength and the up link transmitted optical signal is 1310 nm wavelength. 5.
5.4 Duplexer The duplexer couples the down link transmitted signals and the up link received signals to a common antenna output which allow band selective or full band system operation. 5.5 Lightning Arrestor The lightning arrestor is to provide maximum protection from the environment. Throughput energy ≤0.5 µJ (8/20µs at 3kA). DC blocked for maximum equipment protection. N/female connection to the RF input/output. 5.
5.9 Power Supplies for 1.9 GHz and 800 MHz The power supply for the 1.9M (2 watt) units provide 12VDC @ 12.5 amps to the internal electronics from a primary input power of 100 VAC to 240 VAC at 50 to 60 Hz. The power supply for the 800M (4-5 watt) units provide 28 VDC @ 10 amps max and 12 VDC @ 4 amps. It also contains circuitry for DC transfer from main power to standby DC power plus circuitry for distribution of DC and alarming control interconnect to other modules.
6.1 Front Panel 6.2 Back Panel Hub Base Station Receive Base Station Transmit Primary Power AC input 115VAC/60Hz (optional) Primary Power Input 24 VDC (18-36 VDC) Local Alarm Input (D5 & D6) TO Base Station Alarm Inputs (Hub Relay outputs) CI Wireless Inc.
6.3 Hub Component Layout(Front Down) 6.3 Hub Component Layout(Back Down) CI Wireless Inc.
6.4 Optical Tranceiver Fiber Optic Tranceiver Interconnect: RF Input RF Output D-sub - Transmit Splitter output, RF cable AT 1 through AT 4 of appropriate attenuator on 700-1005, RF cable J3 through J6, 10 conductor ribbon cable 6.5 Wave Division Multiplexer (Optional) CI Wireless Inc.
6.6 Hub Interconnect Module 700-1005 Board Located on the Base Plate (Hub Interconnect Module) Input Connectors J1 - Ribbon Cable Connecting to the Controller Top Board Ass’y, (nearest LCD display & Power Lead) J2 - Ribbon Cable Connecting to the Controller Bottom Board Assembly (nearest keypad) J3 - Fiber Optical Transceiver 1, RF OUT J4 - Fiber Optical Transceiver 2, RF OUT J5 - Fiber Optical Transceiver 3, RF OUT J6 - Fiber Optical Transceiver 4, RF OUT J7 - 1.
Terminal Strip TS - 485 UNUSED 12 VDC/Out U6 D5 Relay 1 NC Relay 1 COM Hub Alarm* Relay 1 NO Relay 2 NC Relay 2 COM Microcell (Remote) Alarm* Relay 2 NO 24 VDC/IN Ground *Normally energized, de-energized in alarm state. Indicated states are alarmed condition.
700-1001 Board (2 required) Located on the Control Module 700-1001 Board Assembly is the Ribbon Cable adapter interface to the controller module. Caution: if replacing the 700-1001 interface, it has 24 interconnecting pins to the terminal strip and the terminal strip actually has 25 pins on both sides.
700-1001 Interface Module CI Wireless Inc.
700-1005 Hub Mother Board CI Wireless Inc.
7.1 Left Panel Microcell (Single Band) 700-1003 Interconnect Module RF Modem FiberOptic Transmitter and Receiver Directional Coupler 7.2 Left Panel Microcell (Dual Band) 700-1003 Interconnect Module RF Modem FiberOptic Transmitter and Receiver Triplexer LPF CI Wireless Inc.
RF Modem Reference: Figure 7.1 and 7.2 INTRECONNECTION RF Output - 2 way splitter, RF cable: BNC/A to SMA/M D-sub - 10 Conductor ribbon cable to 700-1003, J3 Fiber Transmitter Reference: Figure 7.1 and 7.2 INTRECONNECTION RF Input D-sub - Triplexer Common or Directional Coupler , Output 10 Conductor ribbon cable to 700-1003, J2 Fiber Receiver Reference: Figure 7.1 and 7.
7.3 Door Panel Microcell CI Wireless Inc.
7.4a Back, Heat Sink Microcell (EKO 800M) or (EKO 1.9R) Fan Control / Alarm Module LNA Power Supply Power Amplifier CI Wireless Inc.
7.4b Back, Heat Sink Microcell (EKO-1.9) Power Supply LNA DC Interface Module Power Amplifier CI Wireless Inc.
7.5a Base Identification Microcell 7.5b Base Identification Microcell (diagram) DOOR Control AC X-Band RX Fiber Antenna X-Band TX DC IN Note: Shown as a dual band unit. Control, x-band Rx and Tx connections are covered in single band systems. CI Wireless Inc.
7.6 Triplexer 460 MHz 1850-1990 800-960 Common CI Wireless Inc.
7.7 System Interconnect 700-1001 Board (2 required) Located on Control Module 700-1001 Board Assembly is the Ribbon Cable adapter interface to the controller module. Caution: if replacing the 700-1001 interface, it has 24 interconnecting pins to the terminal strip and the terminal strip actually has 25 pins on both sides.
J1 - Fiber Receive Ribbon Cable Connection J2 - Fiber Transmitter Ribbon Cable Connection J3 - RF Modem Ribbon Cable Connection J4 - J4 on Board Assembly 700-1004 Located on Controller Door Panel Connection Jumpers Normal Operation with Fiber Transmitter Model AC221T Jumper Pins 1 to 6 10 to 5 3 to 4 700-1004 Control Interface Located on Door Input Connectors J1 - Controller Connection with 26 conductor ribbon cable from LCD display side and Power Led of controller J2 - Controller Connection with 26 condu
700-1006-x2x 28VDC Power Supply + DC Distribution Input Connectors J1 - 28VDC @ 10 Amps output, connects to Power Amplifier + LNA/Driver modules PINS 1 28 VDC 2 28 VDC 3 Ground 4 Ground J2 - AC Input, PINS 1 Line 2 Neutral 3 Chassis Ground J3 - DC Input, Battery back up.
700-1002x DC/Interface Module CI Wireless Inc.
700-1003 Interconnect Module CI Wireless Inc.
700-1004 Interface Module CI Wireless Inc.
700-1006 DC Distribution And Power Supply, 28 VDC CI Wireless Inc.
8. Software Controls 8.1.1. BASIC INTERFACE, Microcell (Remote) The interface of the EkoCel is based on a 12 key system with a 2x20 LCD screen. While a user is not engaged in any system functions the controller is in a RUN MODE. By that meaning the controller does most of its work while running outside of the user menus. The 12 key interface is designed around the functions the controller performs continually. The key lay out and functions of the keys are listed below.
8.1.2. SYSTEM SETUP on MICROCELL UNIT CONTROLLER Setting up the Microcell unit is done in one of two ways, Manual setup or Auto setup. A. Manual Setup During the initial startup of the Microcell the very first menu prompt to be encountered is the setup menu. By pressing the UP or Down key you can either select the manual or the auto setup. After choosing the correct setup method simply press the MENU key to continue with setup.
displayed, that menu screen MUST be changed (by pressing the MENU key) in order for the change to take effect remotely. The display will now read “UL Updating Please Wait..” When the update is complete the display will automatically change to reflect the Value at which it is set. Due to network latency, it may take up to 20 seconds to change the display. Setting the peak power limit is done here.
E. Date & Time Only the supervisor’s password has access to this feature. To flip between setting the time or the date, press the ITEM key. The FIELD key changes the digit to be edited and again the arrow keys change the digit. Press the MENU key to enter when finished. F. Event History Log The event history log will store the last 50 events that took place on both the microcell and hub side of the network.
8.1.4. ALARMS on MICROCELL UNIT CONTROLLER A. Viewing To view alarms currently alarming simply press the F2 key from any menu, or if not engaged in a menu press the ADD key then press F2. After viewing, press DEL to return to normal functioning. To return to menu items simply press the Menu key. To view the alarm history log, enter menus and press the menu key until the “Event History…..View log?” is displayed, then select Yes using the Up or Down arrow and enter by pressing the menu key.
8.2.1. BASIC INTERFACE of HUB UNIT CONTROLLER The interface of the EkoCel is based on a 12 key system with a 2x20 LCD screen. While a user is not engaged in any system functions the controller is in a RUN MODE. By that meaning the controller does most of its work while running outside of the user menus. The 12 key interface is designed around the functions the controller performs continually. The key lay out and functions of the keys are listed below.
8.2.2. SYSTEM SETUP ON THE HUB CONTROLLER Setting up the hub unit is done in one of two ways, Manual setup or Auto setup. A. Manual Setup During the initial startup of the Hub the very first menu prompt to be encountered is the setup menu. By pressing the UP or Down key you can either select the manual or the auto setup. After choosing the correct setup method simply press the MENU key to continue with setup.
8.2.3. USER SETTINGS on HUB CONTROLLER A. Accessing User Menus Hub - to access the user menus first the ADD key must be pressed. Due to background functions operating sometimes you may have to hold the ADD key for nearly a second. The result will be the Password Entry Screen. In order to proceed to other menus a valid password must be entered. The controllers are delivered with a set of factory passwords. The factory passwords can be altered by using the supervisor password only.
D. Maintenance Menu This set of menus contain many readings that will be useful during the calibration and or trouble shooting after problems occur. Some of these readings update in real time, but most are network related an update every 20-30 seconds. . If changes occur to the readings the user will NOT see them unless the Item key is used to scroll around back to it, then the value will be updated. If the second is true and the remote is not installed, ANY information displayed will be invalid.
G. Set New Password Only the supervisor’s password has access to this feature also. While it is possible to access this menu from the Microcell unit, the changes made will be reset through to the network standard within 20 seconds. This menu is only functional at the hub. The following are preset passwords: Supervisor - 21314, Tech 1 - 11311, Tech 2 - 11312, Tech 3 - 11313, Tech 4 - 1000 H.
8.2.4. ALARMS on HUB UNIT CONTROLLER A. Viewing To view alarms currently alarming simply press the F2 key from any menu, or if not engaged in a menu, press F2 after pressing the ADD key. After viewing, press DEL to return to normal functioning. Return to menu items by simply pressing the Menu key. To view the alarm history log, first enter menus and press the menu key until the “Event History…..View log?” Select Yes, using the Up or Down arrow and the menu key. The alarms will be displayed in log format.
8.3 RS 232 Port Communications. A. Hyper Terminal Connection To use the hyper terminal capabilities of the EkoCel™, you must have the enclosed adapter attached to the controller. If no adapter was included please contact the factory for replacement. This part # is 900-1000-072, consisting of the D-Sub/9 Pin Adapter, 6’ of cable and a RJ-12 connector.
Controls / Readings Screen: Command to show: PARM Shows below. R1 Hub Uplink Gain Downlink Power Output Peak Power (dB) (dBm) (dBm) 28.4 -1.6 34 1.9GHz R2 R3 n/a n/a n/a n/a n/a n/a R4 R5 n/a n/a n/a n/a n/a n/a 800MHz R6 R7 n/a n/a n/a n/a n/a n/a R8 n/a n/a n/a Commands To Change above: SET UL [remote #] [value] SET DL [remote #] [value] SET PK [remote #] [value] Passwords Screen Command to show: ‘PASS’ or ‘pass’ Shows below.
Event History Screen Command to show: EVNT [address#] EVNT Displays alarm history only for address#1-8 Displays All alarm history at hub unit Shows below.
Configuration Screen: Command to show: “CONF” or “conf” Shows below.
Section 9. Installation INSTALLTION OF THE EKOCEL 1.9 FIBER OPTIC MICROCELL: NOTE 1: Installation and system set up should only be performed by qualified technicians. The user is cautioned that modification or changes to this device not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. NOTE 2: Manufacture's rated output power of this equipment is for single carrier operation.
Using the 1-meter fiber optic jumpers provided connect the Hub optical unit to the WDM Hub-FO Input to WDM-1310 - FO Output to -1550 Fiber Optic link cable will connect to WDM connection marked FC/APC . DANGER: INVISIBLE LASER RADIATION AVOID DIRECT EXPOSURE TO BEAM. -Apply Power and follow set up instructions. 9.4 IMPORTANT! Before performing maintenance on any internal module, make sure power is OFF.
Remote Ba t erytB ckup a -Apply Power and follow set up instructions. IMPORTANT! Before performing maintenance on any internal module, make sure power is OFF. 9.5 EkoCel 1.9 System Set Up Instructions: Be sure to review the software section prior to proceeding with system set up this will familiarize you with the different commands and operation of the system software. CI Wireless Inc.
9.5.1 Down Link Set Up for a CDMA System, EkoCel 1.9 Down Link Set Up for a CDMA System is completed with a single RF carrier with only pilot, sync and paging channels active. Setting up the system with additional active channels could result in, incorrect RF power level setttings. Display, * Readings/Controls: Adjust base station input power to TX PWR IN. Set up adjustments should always be made with a single RF carrier. The following table gives the system set up levels for a multi carrier system.
9.5.2 Up Link System Set Up for the System Up Link System Set Up for the System: The signal gain at the remote provides for 6 dB of system gain with 0 dB RF link loss. CI Wireless suggests a up link gain level setting of 4 – 6 dB to minimize system noise figure. Changing the gain setting causes the controller to change the attenuation at the hub making UL system level adjustments (0-31 dB of adjustment)*.
9.5.3 Down Link Set Up for a GSM System, EkoCel-1.9 Down Link set up for a GSM system is completed with the primary RF carrier. All time slots are active or filled in on this channel to provide a more accurate power setting. Display, * Readings/Controls: Adjust base station input power to TX PWR IN Set up adjustments are always made with a single RF carrier. The following table gives the system set up levels for a multi carrier system.
9.5.4 Up Link System Set Up for the System Up Link system set up for the system: The gain at the remote is a fixed at maximum this prevents system level changes from effecting the system noise figure at any optical path loss up to 20 dB RF loss. Adding attenuation at the hub makes UL system level adjustments. The RF modem detects the up link modem carrier RSSI level and adjustments are made using this pilot carrier as a reference. (RSSI level is updated once every 30 seconds).
9.5.5 Down Link Set Up for a TDMA System Down Link set up for a TDMA system is completed with a single RF carrier with all time slots active. Down link peak power feature will prevent inadvertently setting the output power level too high. The unit will automatically readjust the down link gain to limit output power below the selected thresh hold. (See software section on peak power limit.) Display, * Readings/Controls: Adjust base station input power to TX PWR IN.
9.5.6 Up Link System Set Up for the System Up Link system set up for the system: The gain at the remote is a fixed at maximum this prevents system level changes from effecting the system noise figure at any optical path loss up to 20 dB RF loss. Adding attenuation at the hub makes UL system level adjustments. The RF modem detects the up link modem carrier RSSI level and adjustments are made using this pilot carrier as a reference. (RSSI level is updated once every 15-30 seconds).
9.5.7 Down Link Set Up for EKO-8 System Down Link set up for an 800MHz system may be completed with any known number of RF channels transmitting. Determine the proper output power level. Display, * Readings/Controls: Adjust base station input power to TX PWR IN. 800M Number of Total Active System RF Channels 1 2 4 or less 8 or less 16 or less 24 or less Output Power Per Channel Watts dBm 4 36 2 33 1 30 .4 26 .2 23 .
9.5.8 Up Link System Set Up for the System Up Link system set up for the system: The gain at the remote is a fixed at maximum this prevents system level changes from effecting the system noise figure at any optical path loss up to 20 dB RF loss. Adding attenuation at the hub makes UL system level adjustments. The RF modem detects the up link modem carrier RSSI level and adjustments are made using this pilot carrier as a reference. (RSSI level is updated once every 10 seconds).
10.0 Trouble Shooting For additional technical support or questions regarding the application of EkoCel™, please call 817 416-0583. 10.
700-1005 Commlink (RS 485) 485 Transmit 485 Receive TX Power Input -12 to +3 dBm before RX LED turns off. This checks squelch setting.) Modem normally shipped set to 460 MHz.
Unit Problem Optical RX Laser Alarm Laser Temp PA Temp Alarm Check Check LED on Fiber Optic RX Jumper Laser out to optical input - if failed OK Check Fiber transceiver optical power & LED Check if housing temperature is between -30° & 70°C Check current draw, High check Housing temperature RF Power Output Enclosure Temperature Alarm No Up Link 1.9 GHz Signal Intrusion Alarm No Power AC Power Alarm Battery Back Up Alarm CI Wireless Inc.
10.
Peak Power Set R2 R3 Set Peak Power level for RF output power. Limits composite output power below this level. Default R4 settings FCC licensed max levels Maintenance Menu Tx Pwr Lzr Mv UL RF Los UL Optic UL Rssi Mv DL dac Mv UL Atten Set R . Temp C *DL RF Loss *DL Optic *DL PA Detect CI Wireless Inc.
R3 R4 detected, millivolts) * Not equipped in all units prior to manufacture dates of 8-1-98 Remote Unit Alarms Optical receive Laser Alarm Laser temperature Alarm PA Temperature Alarm RF Power Output Alarm Enclosure Temperature Alarm Intrusion Alarm Primary Power Battery Back up Low TX Input Power Output Power Temperature Alarm +75°C 6 dB below RF output setting 0 to 70°C Door Input signal <15 dBm @ Laser Input Output power drop <10 dB <10 or > 160 degrees F, Cabinet Temperature Information Down Link
System Gain R1 - R4 Down Link Power Out (minus) Down Link RF Input = System Gain System Gain Alarm Alarm if System Gain drops 3 dB below setup level Auto Loop Adjust Down Link Resets Down System Gain to Setup level (Factory set to adjust one time daily at 3 A.M., # user defined to setup to 4 times/day) Auto Loop Adjust Up Link Resets Up Link System Gain to set up level (same as Down Link), (Factory set to adjust one time daily at 3 A.M.
10.3 Module Replacement Procedures Microcell (Remote) Unit Power Amplifier Replacement • Turn off and disconnect power from the Remote Unit • Remove Duplexer/AC-DC Panel 1. Disconnect AC Main Cable 2. Disconnect AC Power Supply Cable 3. Disconnect DC Interconnect Cable 4. Disconnect TX RF Input Cable from Duplexer 5. Disconnect RX Output Cable from Duplexer 6. Disconnect Antenna/Duplexer Output RX cable 7. Remove 4 screws which mounts the panel 8.
• • • • • • • Remove Fiber Optic/RF Modem Panel 1. Disconnect Fiber Optic cables and carefully place where they will not be damage 2. Disconnect RF cables from couplers, 2 each. 3. Remove 15 pin ribbon cable from J4 on 700-1003 Interconnect board assembly on panel 4. Remove 4 Panel Mounting screws 5.
3. Reinstall replacement module. Caution: please secure with mounting screw when reinstalling module on panel 4. Reinstall panel reversing procedure Replacement of Control Module or 700-1004 Board Assembly • Turn Off and Disconnect Power from the Remote Unit • Assemblies can be replaced without removing panel. • Replacing the Controller 1. Disconnect 26 conductor ribbon cables from J1 & J2 on 700-1004 board assembly 2. Remove 4 mounting screws and lift controller from panel 3.
A1.
A2.
A3.
A4.
A5. EkoCel , 8watt CDMA Fiber Optic Microcell Specifications: Model Eko-1.
A6. EkoCel , 8watt GSM Fiber Optic Microcell Specifications: Model Eko-1.
A7. EkoCel , 8watt TDMA Fiber Optic Microcell Specifications: Model Eko-1.
B. Model Number Identification 1.
C. Model Number Identification 800 Hub Example: Eko-8HEB0-0AC000 Eko-8H X X X - X X X X X X Option Designators (Include only equipped options) Combiner 0 2 4 Wave Division Multiplex Option Heater Option (N/A for Hub) Crossband Coupler Option(1.
D. Model Number Identification 1.
E. PCS FREQUENCY BANDS FREQUENCY BLOCKS Block Designator A B C D E F F. CHANNEL PLANS F1. CDMA CHANNEL PLAN Reverse Channels Forward Channels Reverse Frequency 1850 - 1865 MHz 1870 - 1885 MHz 1895 - 1910 MHz 1865 - 1870 MHz 1885 - 1890 MHz 1890 - 1895 MHz Forward Frequency 1930 - 1945 MHz 1950 - 1965 MHz 1975 - 1990 MHz 1945 - 1950 MHz 1965 - 1970 MHz 1970 - 1975 MHz CDMA Channel Number 0
CDMA PREFERRED SET CHANNEL NUMBERS - C BAND CHANNEL FORWARD (MHz) 925 1976.25 950 1977.50 975 1978.75 1000 1980.00 1025 1981.25 1050 1982.50 1075 1983.75 1100 1985.00 1125 1986.25 1150 1987.50 1175 1988.75 REVERSE (MHz) 1896.25 1897.50 1898.75 1900.00 1901.25 1902.50 1903.75 1905.00 1906.25 1907.50 1908.75 CDMA PREFERRED SET CHANNEL NUMBERS - D BAND CHANNEL FORWARD (MHz) 325 1946.25 350 1947.50 375 1948.75 REVERSE (MHz) 1866.25 1867.50 1867.
CHANNEL 512 513 514 515 516 517 518 519 520 521 522 523 524 525 526 527 528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 FORWARD (MHz) 1930.2 1930.4 1930.6 1930.8 1931.0 1931.2 1931.4 1931.6 1931.8 1932.0 1932.2 1932.4 1932.6 1932.8 1933.0 1933.2 1933.4 1933.6 1933.8 1934.0 1934.2 1934.4 1934.6 1934.8 1935.0 1935.2 1935.4 1935.6 1935.8 1936.0 1936.2 1936.4 1936.6 1936.8 1936.0 1937.2 1937.4 1937.6 1937.8 1938.0 1938.2 1938.
561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 1940.0 1940.2 1940.4 1940.6 1940.8 1941.0 1941.2 1941.4 1941.6 1941.8 1942.0 1942.2 1942.4 1942.6 1942.8 1943.0 1943.2 1943.4 1943.6 1943.8 1944.0 1944.2 1944.4 1944.6 1944.8 1860.0 1860.2 1860.4 1860.6 1860.8 1861.0 1861.2 1861.4 1861.6 1861.8 1862.0 1862.2 1862.4 1862.6 1862.8 1863.0 1863.2 1863.4 1863.6 1863.8 1864.0 1864.2 1864.4 1864.6 1864.
631 1954.0 1874.0 632 1954.2 1874.2 633 1954.4 1874.4 634 1954.6 1874.6 635 1954.8 1874.8 636 1955.0 1875.0 637 1955.2 1875.2 638 1955.4 1875.4 639 1955.6 1875.6 640 1955.8 1875.8 641 1956.0 1876.0 642 1956.2 1876.2 643 1956.4 1876.4 644 1956.6 1876.6 645 1956.8 1876.8 646 1957.0 1877.0 647 1957.2 1877.2 648 1957.4 1877.4 649 1957.6 1877.6 650 1957.8 1877.8 651 1958.0 1878.0 652 1958.2 1878.2 653 1958.4 1878.4 654 1958.6 1878.6 655 1958.8 1878.8 656 1959.0 1879.0 657 1959.2 1879.2 658 1959.4 1879.
682 683 684 685 1964.2 1964.4 1964.6 1964.8 GSM PREFERRED SET CHANNEL NUMBERS - C BAND CHANNEL FORWARD (MHz) 736 1975.0 737 1975.2 738 1975.4 739 1975.6 740 1975.8 741 1976.0 742 1976.2 743 1976.4 744 1976.6 745 1976.8 746 1977.0 747 1977.2 748 1977.4 749 1977.6 750 1977.8 751 1978.0 752 1978.2 753 1978.4 754 1978.6 755 1978.8 756 1979.0 757 1979.2 758 1979.4 759 1979.6 760 1979.8 761 1980.0 762 1980.2 763 1980.4 764 1980.6 765 1980.8 766 1981.0 767 1981.2 768 1981.4 769 1981.6 770 1981.8 771 1982.
777 778 779 780 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 1983.2 1983.4 1983.6 1983.8 1984.0 1984.2 1984.4 1984.6 1984.8 1985.0 1985.2 1985.4 1985.6 1985.8 1986.0 1986.2 1986.4 1986.6 1986.8 1987.0 1987.2 1987.4 1987.6 1987.8 1988.0 1988.2 1988.4 1988.6 1988.8 1989.0 1989.2 1989.4 1989.6 1989.8 GSM PREFERRED SET CHANNEL NUMBERS - D BAND CHANNEL FORWARD (MHz) 586 1945.0 CI Wireless Inc.
587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 1945.2 1945.4 1945.6 1945.8 1946.0 1946.2 1946.4 1946.6 1946.8 1947.0 1947.2 1947.4 1947.6 1947.8 1948.0 1948.2 1948.4 1948.6 1948.8 1949.0 1949.2 1949.4 1949.6 1949.8 GSM PREFERRED SET CHANNEL NUMBERS - E BAND CHANNEL FORWARD (MHz) 686 1965.0 687 1965.2 688 1965.4 689 1965.6 690 1965.8 691 1966.0 692 1966.2 693 1966.4 694 1966.6 695 1966.8 696 1967.0 697 1967.2 698 1967.4 699 1967.6 700 1967.8 701 1968.
706 707 708 709 710 1969.0 1969.2 1969.4 1969.6 1969.8 GSM PREFERRED SET CHANNEL NUMBERS - F BAND CHANNEL FORWARD (MHz) 711 1970.0 712 1970.2 713 1970.4 714 1970.6 715 1970.8 716 1971.0 717 1971.2 718 1971.4 719 1971.6 720 1971.8 721 1972.0 722 1972.2 723 1972.4 724 1972.6 725 1972.8 726 1973.0 727 1973.2 728 1973.4 729 1973.6 730 1973.8 731 1974.0 732 1974.2 733 1974.4 734 1974.6 735 1974.8 CI Wireless Inc. Tel: 817 416 0583 1211 Ira E Woods Ave Grapevine, TX 76051 1889.0 1889.2 1889.4 1889.6 1889.
G1. Hub Block Diagram with Interconnet Levels: G1. Remote Block Diagram with Interconnet Levels: CI Wireless Inc.
CI Wireless Inc. PRODUCT WARRANTY CI Wireless Inc. warrants that, at the time of shipment, the products furnished by CI Wireless are free from defects in material and workmanship. CI Wireless’s obligation under this warranty is limited to replacement or repair of such products within one year from the date of shipment. The defective product has to be returned by the first user to the CI Wireless factory, freight prepaid. No products will be accepted for replacement or repair without prior written approval.