Agilent ABA-51563
3.5 GHz Broadband Silicon
RFIC Amplifier
Data Sheet
Features
• Operating frequency: DC ~ 3.5 GHz
• 21.5 dB gain
• VSWR < 2.0 throughout operating
frequency
• 1.8 dBm output P1dB
• 3.7 dB noise figure
Description
Surface Mount Package
SOT-363/SC70
Agilent’s ABA-51563 is an
economical, easy-to-use, inter-
nally 50-ohm matched silicon
monolithic broadband amplifier
that offers excellent gain and flat
broadband response from DC to
3.5 GHz. Packaged in an ultra-
miniature industry-standard
SOT-363 package, it requires half
the board space of a SOT-143
package.
• Unconditionally stable
• Single 5V supply (Id = 18 mA)
• Lead-free option available
Applications
• Amplifier for cellular, cordless,
special mobile radio, PCS, ISM,
wireless LAN, DBS, TVRO, and TV
tuner applications
Pin Connections and
Package Marking
Output
& Vcc
At 2 GHz, the ABA-51563 offers a
small-signal gain of 21.5 dB,
output P1dB of 1.8 dBm and
11.4 dBm output third order
intercept point. It is suitable for
use as buffer amplifiers for
GND 1
GND 2
Input
GND 3
Vcc
Attention:
Observe precautions for
handling electrostatic
sensitive devices.
wideband applications. They are
designed for low cost gain blocks
in cellular applications, DBS
tuners, LNB and other wireless
communications systems.
ESD Machine Model (Class A)
Note:
Top View. Package marking provides orientation
and identification. “x” is character to identify
date code.
ESD Human Body Model (Class 1A)
Refer to Agilent Application Note A004R:
Electrostatic Discharge Damage and Control.
Simplified Schematic
ABA-51563 is fabricated using
Agilent’s HP25 silicon bipolar
process, which employs a double-
diffused single polysilicon
RF
Output
& Vcc
Vcc
process with self-aligned submi-
cron emitter geometry. The
process is capable of simulta-
neous high fT and high NPN
breakdown (25 GHz fT at 6V
BVCEO). The process utilizes
industry standard device oxide
isolation technologies and
RF
Input
Ground 2
Ground 3
Ground 1
submicron aluminum multilayer
interconnect to achieve superior
performance, high uniformity,
and proven reliability.