Dekolink Wireless FBDAPCSDF50W Users Manual
Dekolink WIRELESS Ltd.
16 Bazel St. Qiryat-Arieh Petah-Tikva, Israel, 49510
Tel- 972-3-9180-180 Fax-972-3- 190-9180
e-mail: marketing@dekolink.com
web www.dekolink.com
INSTALLATION AND
OPERATION INSTRUCTIONS
FOR
FiberLink
BI-DIRECTIONAL AMPLIFIER
MW-FBDA-PCS-xxx-50W
Dekolink Wireless Proprietary and Confidential Information. Copying, Distribution, and Disclosu
Rev1 12/03 Page 1 of 17
prohibited without Express Authorization from Dekolink Wireless Company.
This document is protected by all applicable copyright laws.
re are
Dekolink WIRELESS Ltd.
16 Bazel St. Qiryat-Arieh Petah-Tikva, Israel, 49510
Tel- 972-3-9180-180 Fax-972-3- 190-9180
e-mail: marketing@dekolink.com
web www.dekolink.com
TABLE OF CONTENTS
Para No.
1. OVERVIEW 3
2. COMPONENT DESCRIPTION 5
2.1 DUPLEXER 5
2.2 UPLINK AMPLIFIER 5
2.3 50 WATT DOWNLINK POWER AMPLIFIER 5
2.4 FIBEROPTIC TO RF TRANSCEIVER 5
2.5 MONITOR UNIT 7
2.6 POWER CONNECTION UNIT 10
2.7 POWER SUPPLY 10
3 SPECIFICATIONS 11
3.1 RF SECTION SPECIFICATIONS 11
3.2 FBDA ALARM SPECIFICATIONS 12
3.3 MECHANICAL SPECIFICATIONS 12
3.4 ENVIRONMENTAL CONDITIONS 12
4 RF EXPOSURE WARNING 13
Paragraph
Page No.
DEKOLINK WIRELESS LIMITED WARRANTY 17
LIST OF FIGURES
Fig No.
1 FBDA RF BLOCK DIAGRAM
2 RFIBER FRONT PANEL
3 RFIBER REAR PANEL
4 MONITOR OUTLINE
5 FIBERLINK ALARM BLOCK DIAGRAM 9
6 FBDA SYSTEM BLOCK DIAGRAM 14
7 MECHANICAL LAYOUT 15
8 MECHANICAL OUTLINE 16
Rev1 12/03 Page 2 of 17
Fig. Name
Page No.
4
6
6
8
Dekolink WIRELESS Ltd.
16 Bazel St. Qiryat-Arieh Petah-Tikva, Israel, 49510
Tel- 972-3-9180-180 Fax-972-3- 190-9180
e-mail: marketing@dekolink.com
web www.dekolink.com
1. OVERVIEW:
The FBDA is an interface unit between optical signals carrying RF information, and RF
antennas covering a defined user area. The system consists of uplink path and
downlink path.
The uplink path receives RF signals from the Mobile antenna amplifies them and the
Rfiber+ converts them to optical signals. These optical signals are sent to the BTS.
The downlink path receives optical signals from the BTS to the Rfiber+, converts them
to RF signals and amplifies these signals using a high power amplifier. The Mobile
antenna transmits these RF signals.
A duplexing filter separates the frequencies of uplink path from the downlink path
enabling the use of the same antenna for receiving and transmitting. The FBDA
provides about 45 dB RF GAIN in both directions.
Both optical signals for Uplink and Downlink are carried on two fibers or a single fiber
using WDM.
The Rfiber+ RF output power must be aligned to 0 dBm for proper operation.
The downlink path uses a 50 Watt power amplifier with AGC control. The AGC control
is located on the power connection unit.
Downlink gain can be adjusted using a step attenuator for required output power.
The uplink uses a low power AGC amplifier to drive the uplink F/O transmitter. The
AGC is set to 0 dBm, which is the optimum power permitted by the F/O transmitter.
Uplink gain can be adjusted by 16 dB continuous trim potentiometer on the uplink
amplifier.
Rev1 12/03 Page 3 of 17
Dekolink WIRELESS Ltd.
16 Bazel St. Qiryat-Arieh Petah-Tikva, Israel, 49510
Tel- 972-3-9180-180 Fax-972-3- 190-9180
e-mail: marketing@dekolink.com
web www.dekolink.com
TO BTS
Fig. 1 : FBDA RF BLOCK DIAGRAM
Down link Power
Optical
Fiber
Downlink
Optical
Uplink
Fiber
Fiberoptic
Receiver
Fiberoptic
Transmitter
Step
Attenuator
UP LINK
AMP
Amplifier
TX
Duplexer
RX
AGC
Rev1 12/03 Page 4 of 17
Variable
Attenuator
Dekolink WIRELESS Ltd.
16 Bazel St. Qiryat-Arieh Petah-Tikva, Israel, 49510
Tel- 972-3-9180-180 Fax-972-3- 190-9180
e-mail: marketing@dekolink.com
web www.dekolink.com
2. COMPONENTS DESCRIPTION:
2.1 DUPLEXER
The duplexer serves to frequency separate uplink signals from downlink signals. The
duplexer has sharp out of band attenuation for better isolation between the receiving
and transmitting paths and for better rejection of interfering signal in the air.
2.2 UPLINK PRE-AMPLIFIER
The uplink pre-amplifier is a low noise, 45dB gain unit. The amplifier contains AGC
control circuitry. When a high power signal is received the automatic level control
detects it and reduces the gain so that the output power of the amplifier is constant.
The AGC function limits the signal at the Fiberoptic transmitter input when high power
signals are received while keeping high gain when low power signals are received.
The LED on the amplifier illuminates when the power output of the amplifier exceeds
the AGC power set limit (when the AGC is either ON or OFF).
The Switch on the RF amplifier enables the AGC function. If the AGC is disabled then
the amplifier gives maximum gain for any input.
The AGC level is factory set to 0 dBm and AGC is set to ON, to prevent high power
damage at the Rfiber+ input.
2.3 50 WATT DOWNLINK POWER AMPLIFIER
This is the downlink power amplifier. It can drive 40 dBm composite power to the
mobile antenna. A thermostat attached to this amplifier turns on TEMP alarm when the
temperature exceeds 80° C. This amplifier has AGC circuitry that can be turned on to
limit transmitted power. The AGC switch is located on the power connection unit.
2.4 Fiberoptic to RF transceiver
The RFiber+TM product is a transceiver that includes a transmitter and receiver unit.
The transmitter converts the RF signals into light wave signals, which are then sent
over fiberoptic cables. The receiver converts light wave signals back to RF
The model in use is a wide band product in the 0.08-2 GHz frequency range.
Rev1 12/03 Page 5 of 17
Dekolink WIRELESS Ltd.
16 Bazel St. Qiryat-Arieh Petah-Tikva, Israel, 49510
Tel- 972-3-9180-180 Fax-972-3- 190-9180
e-mail: marketing@dekolink.com
web www.dekolink.com
The RFiber+TM main features are:
1. Protocol transparency; i.e. any standard can be faithfully transmitted.
2. An optional serial port (RS232) is installed into each unit. This port allows
data communication over the same fiberoptic cable.
3. Max. input RF power for normal operation – 0dBm.
4. Manual Gain Control is standard in receiver to compensate for optical loss
across the fiber.
TM
The following drawings show sample front and rear panels of the RFiber+
unit
Fig. 2 : - RFiber+TM Front Panel
Fig. 3 : - RFiber+TM Rear Panel
On the Front Panel of the RFiber+
TM
unit (Fig 2.) are three LEDs. The LEDs should be
on when the unit is in use. The following table describes the LEDs.
Rev1 12/03 Page 6 of 17
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