Bird Technologies Group 25999 Manual De Usuario
Bird Technologies
Manual 7-9598-2.1
(Rough Draft)
10/17/16
Page 8
included as part of the overall system installation.
Because of its modular design the completed
booster system can be housed in a variety of cabi-
net designs. The most common cabinet enclosure
used for the system is a clam shell type using con-
vectional cooling. This cabinet style is used in illus-
trations throughout this manual as an example.
The module is powered by a DC power supply
assembly. A front view of the booster with the door
open is shown in Figure 1. Specifications for the
signal booster are listed in Table 1.
Because of its modular design the completed
booster system can be housed in a variety of cabi-
net designs. The most common cabinet enclosure
used for the system is a clam shell type using con-
vectional cooling. This cabinet style is used in illus-
trations throughout this manual as an example.
The module is powered by a DC power supply
assembly. A front view of the booster with the door
open is shown in Figure 1. Specifications for the
signal booster are listed in Table 1.
Class B SB Module
The Class B SB module contains and shields both
the uplink and downlink signal amplification paths.
The maximum gain for each path is 80 dB and a
maximum output power of 2 Watts is typical. Out-
put power is limited by an Output Level Control
the uplink and downlink signal amplification paths.
The maximum gain for each path is 80 dB and a
maximum output power of 2 Watts is typical. Out-
put power is limited by an Output Level Control
(OLC) so as not to exceed the 5 Watt ERP FCC
specification or not to exceed the user output
power limit setting. The customer can configure the
module via an Ethernet connection and a software
user interface (GUI). The GUI can be used to alter
the gain of either or both signal paths, monitor sys-
tem performance metrics, vary network and SNMP
notification settings.
specification or not to exceed the user output
power limit setting. The customer can configure the
module via an Ethernet connection and a software
user interface (GUI). The GUI can be used to alter
the gain of either or both signal paths, monitor sys-
tem performance metrics, vary network and SNMP
notification settings.
UNPACKING
It is important to report any visible damage to the
carrier immediately. It is the customer's responsibil-
ity to file damage claims with the carrier within a
short period of time after delivery (1 to 5 days).
Care should be taken when removing the unit from
the packing box to avoid damage to external heat-
sink fins.
carrier immediately. It is the customer's responsibil-
ity to file damage claims with the carrier within a
short period of time after delivery (1 to 5 days).
Care should be taken when removing the unit from
the packing box to avoid damage to external heat-
sink fins.
Parameter
Specification
Frequency Range
UHF
700 MHz
800 MHz
800 MHz
Dual Band
450 - 470 and 470 - 512 MHz
7
64 - 805 MHZ (US) or 764 - 806 MHz (Canada)
806 - 861 MHz (US) or 806 - 869 MHz (Canada)
758 - 861 Mhz (US) or 764 - 869 MHz (Canada)
Gain Range
30 dB - 80 dB
Gain Adjustment
0.5 dB steps
Output Power
Max Set-point Range
Adjustment
OLC Active Range
Output Power Limit Accuracy
21 - 33 dBm
0.5 dB steps
0 - 30 dB
+/- 1 dB
3rd Order Output Intercept Point
+55 dBm min, with no attenuation (out of PA)
AC Input Power
100 - 240 VAC; 50 - 60 Hz
DC Backup Voltage
+20 to +27 VDC (+24 VDC nominal)
Operating Temperature Range
-30°C to +50°C
Sample Port (inside unit)
30 dB
Alarm
Form-C Contacts
Tri-Color LED (located on front door)
SNMP V3.0
SMTP (email notification)
Input - Output Connectors
N (F)
RF Sample Connector
BNC (F) (internal only)
Table 1: Specifications.