G Way Solutions UHF3680R Booster User Manual Manual

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Installation and
Operating Manual
BDA-UHF-36/36-80-R
UHF Band Bi-Directional Amplifier
Table of Contents
SAFETY OPERATION INSTRUCTIONS ................................................................................. 3
OVERVIEW ................................................................................................................................ 4
FCC NOTE .................................................................................................................................. 4
IC NOTE ...................................................................................................................................... 4
MANUFACTURER’S NOTE ..................................................................................................... 4
RF EXPOSURE WARNING....................................................................................................... 4
ELECTRICAL SPECIFICATIONS ............................................................................................ 6
MECHANICAL SPECIFICATIONS .......................................................................................... 6
ENVIRONMENTAL CONDITIONS ......................................................................................... 6
MECHANICAL OUTLINE......................................................................................................... 8
CONNECTIONS ......................................................................................................................... 9
AVAILABLE, OPTIONAL FEATURES ................................................................................. 10
ALARM CONDITIONS ............................................................................................................ 11
VARIABLE GAIN ADJUSTMENT AND LED INDICATORS ............................................. 12
INSTALLATION ...................................................................................................................... 13
OPERATION ............................................................................................................................. 14
DIAGNOSTICS GUIDE ........................................................................................................... 15
ANTENNA SEPERATION ....................................................................................................... 15
APPENDIX 1 ............................................................................................................................. 16
APPENDIX 2 ............................................................................................................................. 18
2|Page
SAFETY OPERATION INSTRUCTIONS
BEFORE USE
Review this manual and insure that all conditions are compatible with
the amplifier's specifications. Safe operation may be impaired if this
equipment is not used as intended.
GENERAL DESCRIPTION
This symbol is marked in the manual and denotes important safety
operation instructions. Please read carefully before continuing.
This equipment is suitable for a wide variety of scientific, industrial,
laboratory and communication applications where high levels of
electromagnetic Radio Frequency (RF) energy are required.
Therefore, the output of the amplifier must be terminated to an
appropriate load, such as a high power attenuator, dummy load, a
communication or radiation antenna. User must insure that radiated
energy do not violate regulatory levels of electromagnetic interference.
PROTECTIVE GROUND
This symbol is marked on the equipment and denotes protective ground
terminal.
This amplifier includes protective ground terminal. The equipment
shouldn't be used if this protection is impaired. The supplied power cord
must be used along with an uninterrupted external power source.
HAZARDOUS LINE AND RF VOLTAGES
This symbol is marked on the equipment where dangerous voltages
present. Use extreme caution.
Both RF input and output connectors should be terminated prior to
application of the external AC source. Otherwise, contact with
RF output center pin can be dangerous. Place the amplifier in
OFF position prior to connecting and disconnecting RF output load.
are
the
the
the
ELECTROSTATIC DISCHARGE (ESD)
This symbol is marked on the equipment where ESD sensitive devices
are present. Do not handle without the proper protection.
MAINTENANCE
Maintenance, repair and calibration must be performed by qualified
personnel only. Contact with the internal amplifier components maybe
dangerous even when the equipment is in the OFF position.
CAUTION
This denotes a condition that may cause damage to the Amplifier if
procedure is not correctly performed. Do not proceed until the
indicated conditions are met.
FORCED AIR COOLING
Do not block the inlet and outlet of the internal cooling blowers.
Otherwise damage may result to the amplifier.
3|Page
OVERVIEW
The BDA assembly enhances the coverage area of radio communications in buildings and RF
shielded environments.
The BDA has dual RF paths (Down-Link / Up-Link) to improve coverage in two distinct
frequency bands.
The unit features low noise figure and wide dynamic range. It is based on a dual duplexed
path configuration with sharp out of band attenuation allowing improved isolation between the
receiving and transmitting paths.
BDA-UHF-36/36-80-R provides up to 36 dBm composite power and has up to 80 dB gain.
FCC NOTE
This is a Class B device. The product has been tested and found to comply with the Booster
requirements per FCC Part 90.
IC NOTE
The product has been tested and found to comply with the Industry Canada (IC) RF Exposure
Requirements, pursuant to IC RSS-131.
MANUFACTURER’S NOTE
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.
RF EXPOSURE WARNING
The ERP limit, as defined by the FCC is +37 dBm. In order to comply with the FCC RF
exposure requirements, the BDA-UHF-36/36-80-R and corresponding antenna installation
must comply with the following
The Omni directional antenna (or leaky cable) must be installed so as to provide a minimum
separation distance of at least 38 cm (~15 inches) between the indoor antenna connected to
the RF booster and the human user’s body within the area. (This assumes an antenna with
gain of 0 dBi, VSWR ≤ 2:1, Zo= 50 ohms and a cable attenuation less then 1dB).
Should user choose to utilize a higher gain donor antenna (greater than 0 dBi) with the
system, attenuation of the BDA’s gain will be required to meet FCC ERP limit of +37 dBm
4|Page
Refer to Figure 1 for the
following discussion.
BLOCK DIAGRAM DESCRIPTION
The downlink path of BDA
receives RF signals from
the base station, amplifies
the signal and transmits the
signal, without changing
the frequency, into a
Distributed Antenna
System at the direction of
the mobiles. The signal
travels over a DAS medium
that then dissipates the
signal to the Mobile
subscribers. The uplink
path receives RF signals at
the Mobile side from the
DAS system, then amplifies
it, and transmits the
amplified signal (without
changing the frequency) to
the base station.
This BDA supports Uplink
and Downlink, UHF occupy
distinct dedicated frequency
bands.
The bandwidth of uplink or
downlink pass band factory
tunable to 1-3 MHz. The
minimum pass band
separation is 1 MHz.
The diplexer isolates the
paths and route each signal
to the proper amplifying
channel.
An Automatic Level Control
(ALC) allows for output
power limiting. A variable
step attenuator gives 0 – 30
dB of attenuation in 2 dB
steps. The use of these
controls is covered in the
“OPERATION” section, later
in this document.
Figure 1: Block Diagram
1. Diplexer – Separates/Combines UL and DL pass bands, provides needed
isolation and selectivity to support system gain.
2. Downlink Low noise amplifier and driver. Exhibits low noise figure,up to
45dB gain and high linearity.
3. Downlink Filter – High selectivity filter gives additional rejection for
increased isolation.
4. Downlink Power Amplifier with an ALC circuit ,offers up to 42dB gain and
high linearity.
5. Diplexer – Separates/Combines UL and DL pass bands, provides needed
isolation and selectivity to support system gain.
6. Uplink Low noise amplifier and driver. Exhibits low noise figure and 45dB
gain high linearity.
7. Uplink Filter – High selectivity filter gives additional rejection for increased
isolation.
8. Module that detects oscillations in the system due to insufficient Donor and
Mobile Antenna.
9. Uplink Power Amplifier with an ALC circuit ,offers up to 42dB gain and high
linearity.
5|Page
ELECTRICAL SPECIFICATIONS
Frequency Range
Bandwidth
Minimum pass band separation
Pass band Gain @ Min. attenuation
380-512 MHz
1-3 MHz
1 MHz
Up to 80±2 dB
Variable Step Attenuator Range 2-dB
steps
0-30 dB
Maximum Input Signal Level
Input/Output Impedance
VSWR (Input/Output)
-30 dBm
50 Ohms
<1.5: 1
110VAC/1.6Amps
220VAC/0.8Amps
50 to 60 Hz
Power Supply
Composite Output
Power
Gain Flatness [dB]
Noise Figure [dB]
Output Power ALC Set
[dBm]
3rd Order Intercept Point
[dBm]
27 dBm
± 2.0
7.0 (Max.)
6.5 (Typ.)
31 dBm
± 2.0
6.0 (Max.)
5.5 (Typ.)
UL: +27 ±1
DL: +27 ±1
UL: +48
(Typ.)
DL: +48
(Typ.)
UL: +31 ±1
DL: +31 ±1
UL: +51
(Typ.)
DL: +51
(Typ.)
33 dBm
± 1.5
6.0 (Max.)
5.5 (Typ.)
36 dBm
± 2.0
8.0 (Max.)
7.5 (Typ.)
UL: +33 ±1 UL: +36 ±1
DL: +33 ±1 DL: +36 ±1
UL: +54
UL: +54
(Typ.)
(Typ.)
DL: +54
DL: +54
(Typ.)
(Typ.)
MECHANICAL SPECIFICATIONS
Size
19 x 7 x 15 inch –
May vary per unit, see spec for more accurate information
RF
Connectors
Weight
N-Type Female
37.8 Lb. (17 kg) approx.
ENVIRONMENTAL CONDITIONS
The unit is designed for indoor applications:
Operating temperature: - 20°C to +55°C
Storage temperature: - 40°C to +85°C
6|Page
Optional Battery Back-Up Configuration
15 Amp Fuse
12 Volt
12 Volt
Lead-Acid
Lead-Acid
Battery
Battery
15 Amp
+ Battery of
BDA
Figure 2: Optional Battery Back-Up Configuration
Output Composite
Power
Typical DC
Current
Draw
@24VDC
[A]
36 dBm
3.55
33 dBm
2.47
31 dBm
2.35
27 dBm
2.1
Battery
Back-Up Time
[Hours]
Recommend
Battery Rated
Capacity
(20 Hour Rate)
[Amp Hours]
12
24
12
24
12
24
12
24
17.75
35.5
53.25
106.5
12.35
24.7
37.05
74.1
11.75
23.5
35.25
70.5
10.5
21
31.5
63
Note: We do not guarantee specifications under Battery Back-Up power.
7|Page
MECHANICAL OUTLINE
Figure 3: Mechanical Outline
8|Page
CONNECTIONS
The RF connections are made via two “N-type” female connectors. The RF connector labeled
“BASE” must be connected to the antenna pointing towards the base station. The RF
connection labeled “MOBILE” must be connected to the antenna / passive DAS facing the
area to be covered by the BDA.
The RF connections must be made through cables with characteristic impedance of 50 ohms.
The BDA AC power is accepted through a standard 3-wire male plug (IEC-320) with phase,
neutral and ground leads. The AC power is wired to a high efficiency DC switching power supply
which is CE and UL approved. The power supply runs the amplifiers and the LED indicators. The
metal enclosure of the BDA is connected to ground.
Additional monitoring connectors are available as described in the “Features” section.
Figure 4: Back Panel Connections
9|Page
AVAILABLE, OPTIONAL FEATURES
The following options are available, (please review the specification provided with the
unit, to verify the features included in your BDA )
• Visual Alarms
All G-Wave systems include local visual alarms as a
standard. Local visual alarms are LED lights located on the
unit that indicate various failures. For a list of corresponding
alarms, please see Variable Gain Adjustment and LED
Indicators.
• DC Input Power Option (S1)
The BDA is equipped with both AC and DC voltage inputs for
power operation. This gives the flexibility of powering the BDA
with either an AC or DC source. If both sources are
connected, the BDA will automatically select the stronger
voltage source for power. (See See page 7 for Current Draw
calculations)
• Local Alarming via dry contact 9-Pin Connector (RM9)
A 9-Pin dry contact will be provided to hard wire into a building’s
alarm system. Dry contact will provide alarms for ALC and
amplifier failure.
• Local Alarming via dry contact 26-Pin Connector (026)
A 26-Pin dry contact will be provided to hard wire into a
building’s alarm system. Dry contact will provide alarms for
ALC, amplifier failure, donor antenna failure and DC backup
failure. (See details in appendix 1)
•
Oscillation Detector and Shutdown - ODSC / ODSCRM9
To minimize interference with other RF systems, this unit
includes an Oscillation detection module that continuously
monitors the BDA operation, in a case of Oscillation detection
inside the BDA, the detector will shut down all the amplifiers to
avoid RF interference with other systems in the area, when the
Oscillation condition passes or is resolved, the ODSC
operation will turn on all the amplifiers, returning to regular
operation. The ODSCRM9 module will allow Oscillation detect
/ display & shutdown of all amplifiers with local alarming via
dry contact connector. A red LED located on the front panel
(See figure 4) illuminates when oscillation is detected.
10 | P a g e
AVAILABLE, OPTIONAL FEATURES (Cont.)
•
DC28
Powered DC Only @ + 28 VDC
• LGHT
Lightning Protection on UL/DL Ports
• RED Red Enclosure to signify equipment is for public safety. Please verify your local requirements.
• ACSP
AC Surge Protection and DC Line Conditioning (Required if powered by generator)
ALARM CONDITIONS
The alarm monitors the current of both the uplink and downlink amplifiers. An alarm condition
will occur if either the uplink or downlink amplifiers are over or under its current tolerance.
Additionally, each failure/alarm/indicator from the available features may be monitored via
an audible alarm dry contact connector, 3 contacts per each alarm .The following diagram
shows a Non Alarm condition. If an alarm occurs the trigger will switch the position of the
relay, a short will be between COM and N.C.
(Relay Shown in Non-Alarm Condition)
11 | P a g e
VARIABLE GAIN ADJUSTMENT AND LED INDICATORS
•
•
•
•
•
•
•
•
•
•
•
AC Power LED - Illuminates when the AC voltage is supplied, the unit is ON, and the
AC/DC power supply is operating.
DL ALC LED - Illuminates when DL composite power reaches the ALC set
DL Alarm - Illuminates when the DL amplifier fails.
UL ALC LED - Illuminates when UL composite power reaches the ALC set.
UL Alarm - Illuminates when the UL amplifier fails.
External DC LED (optional) - Illuminates when the BDA is operating from a DC source.
Oscillation detection LED (optional) - Illuminates when oscillation is detected.
Donor antenna alarm LED (optional) - Illuminates when Donor Antenna is disconnected.
Mobile antenna alarm LED (optional) - Illuminates when the mobile port is disconnected.
DL Manual Gain Attenuator- Is a switch used for DL gain attenuation
UL Manual Gain Attenuator- Is a switch used for UL gain attenuation
Figure 5:
Front Panel LED Indication
Figure 6:
Front Panel Manual Gain
Attenuation Access
12 | P a g e
INSTALLATION
DO NOT APPLY A.C. POWER TO THE UNIT UNTIL CABLES ARE
CONNECTED TO BOTH PORTS OF THE BDA AND THE ANTENNAS.
1. Place the BDA in the cabinet. Using appropriate screws and anchors, attach the BDA to the
wall at the four mounting holes on the side flanges. (Special version not shown in this
manual).
2. Ensure that the isolation between the base station antenna and the mobile antenna
should be at least 12 dB higher than the BDA gain (Use the higher of the Uplink and
Downlink gains reported on the BDA test data sheet).
Isolation less than this value can cause gain ripple across the band. Isolation equal to
or less than the BDA gain will give rise to oscillations which will saturate the amplifiers
and possibly cause damage to the BDA.
3. Connect the cable from the donor antenna to the BDA connector labeled “BASE” and the
cable from the service antennas to the BDA connector labeled “MOBILE”.
4. See main Panel of the BDA and verify that both of the Uplink and Downlink attenuation is
set to 30 dB via dial Attenuator.
5. Connect the AC power cord to the BDA and then to the power source. Verify that the
“Power ON” lamp is illuminated.
Installation of the BDA is now complete. To adjust the gain controls to suit the specific signal
environment, refer to the next section of the manual.
Note: For repeat installations of existing equipment, make sure the attenuation is
positioned to its maximum setting (30 dB). After verification attenuation, follow the
above steps starting with step 1.
13 | P a g e
OPERATION
Refer to Figure 4, 5 and 6 for adjustment access location, connectors and labels.
Variable Step Attenuator
BDA gain that indicated in the spec can be reduced by up to 30 dB in 2 dB steps using the
variable step attenuator. Gain adjustment is made with rotary switches located on the front
panel of the BDA enclosure. Arrows on the shafts of these switches point to the value of
attenuation selected. BDA gain can be determined by subtracting the attenuation value from
the gain reported on the BDA Test Data Sheet for that side of the unit. The attenuators are
labeled for Uplink and Downlink.
ALC (Automatic Level Control)
To minimize intermodulation products, each amplifier in the BDA contains an ALC feedback
loop. The ALC circuit senses the output power and limits it to the factory preset level, as
indicated in the specification.
ALC function is located in each power amplifier. A red LED indicator located on the Front main
panel (see figure 5) illuminates when output power meets or exceeds the ALC preset point.
To establish proper operating gain on the Uplink and Downlink sides, start with the Downlink.
Observe the red LED indicator on the Downlink amplifier. Units are shipping with maximum
attenuation. Decrease attenuation one step at a time until the red LED is lit. Then, using the
Downlink step attenuator, increase the attenuation until the red LED goes off. Repeat the
process for the Uplink, and then repeat the process for the second band. This setup should be
done under RF signal transmit for either path the level indicator is accurate to +/- 0.4 dB of the
ALC set point.
Verify the downlink in-building signal strength and the uplink signal strength at donor antenna
meets requirements. Reduce the gain if needed.
Note: Operation of BDA-UHF-36/36-80-R at maximum gain with greater
than -30 dBm average power incidents on the MOBILE or BASE ports could
cause damage to the BDA.
14 | P a g e
DIAGNOSTICS GUIDE
The BDA provides long term, care-free operation and requires no periodic maintenance.
There are no user-serviceable components inside the BDA.
This section covers possible problems that may be related to the installation or operating
environment.
Gain Reduction
Possible causes: Defective RF cables and RF connections to antennas, damaged antenna or
Leaky cable.
Occasional Drop-out of some Channels
Possible causes: One channel with very strong power dominates the RF output of the
amplifier.
Excessive Intermodulation or Spurious
Possible causes: Amplifier oscillation caused by insufficient isolation between two antennas.
See antenna separation paragraph below.
ANTENNA SEPERATION
BDA oscillation is caused by low isolation (antenna separation) between donor antenna and
service antennas. The recommended isolation between those antennas is 15db above the
system gain. The amount of isolation that can be achieved between antennas depends on
several factors, such as the physical vertical and horizontal separation (distance between the
antennas), polarization, radiation pattern of the antennas, the medium between the ntennas,
antenna gain etc.
Antenna isolation can most accurately be determined through on-site measurements An
antenna isolation measurement configuration is illustrated in Figure 7, where two spatially
separated antennas (service antenna #1 and donor antenna #2) are connected to a signal
generator and signal analyzer.
A signal at centre frequency is generated by the signal generator sent to the input of antenna
1; the output of the signal at antenna 2 is measured and recorded by the signal analyzer.
With calibrated connection cables, by taking into account the cable loss, the difference of
signal power level at the output of antenna 2 and that at the antenna 1 input is taken as
antenna isolation.
(See Appendix 2 for analytical calculation)
Figure 7
15 | P a g e
APPENDIX 1
26-Pin Connector
Mobile Antenna Failure contacts
are not standard in the O26 pinout and must be requested at
time of order to be included.
Conditions for Donor Alarm (26-pin)
This functionality applies only for a Donor antenna with a
DC short. Alarm monitors the connection of the BDA to
the donor antenna. An alarm condition will occur if there
is a disconnect at the donor antenna. Uplink and
Downlink amplifiers will shut down. Donor Alarm, Current
DL, and Current UL will indicate.
Test for DC short between male pin and
outer shell of antenna connectors
Figure 8a
If the donor antenna does not short please connect
G-Way’s special Donor Short Simulator.
Please note, if you intend to use other components (i.e.
Lightning Protector) between the base port and donor antenna
make sure they have an open short.
N Type Female/Female
Donor Short Simulator
N Type Male/Female
Donor Short Simulator
Figure 8b
Conditions for DC Backup Alarm
The alarm monitors the AC power. If the AC power
fails and DC is connected, the DC Alarm LED will
indicate DC power.
Conditions for Mobile Alarm *OPTIONAL
The alarm monitors mobile antenna conditions to the
VSWR. In poor conditions, Mobile Alarm and Current UL
will indicate.
16 | P a g e
O26 Alarm Block Diagram
17 | P a g e
APPENDIX 2
The horizontal Ih and vertical Iv space antenna isolation for a scenario as in Figure 7 can be
computed analytically, using the following equations:
dh ∙ f
Ih [db] = 22 + 20log �
� − GTx − GRx
3 ∙ 108
*Under assumptions of far field condition)
dv ∙ f
Iv [db] = 28 + 40log �
� − GTx − GRx
3 ∙ 108
α
Islant [db] = (Iv − Ih ) ∙
+ Ih
90°
Antenna Separation variable definitions:
Ih [dB]
dh [m]
dv [m]
f [Hz]
GTx [dBi]
isolation between horizontally separated transmitter and receiver antennas
the horizontal distance from the centre of interferer antenna to that of the
interfered with receiver antenna
the vertical distance from the interferer antenna to the interfered with receiver
antenna, (measured from radiation centre-to-radiation centre)
the wavelength of the interfered with system frequency band
gain of the transmitter antenna
GRx [dBi] gain of the receiver antenna
Iv [dB]
α[°]
Isolation between vertically separated transmitter and receiver antennas.
dv
arctan( )
dh
18 | P a g e

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