MGA-87563-TR1G Avago Technologies US Inc., MGA-87563-TR1G Datasheet - Page 6
MGA-87563-TR1G
Manufacturer Part Number
MGA-87563-TR1G
Description
IC AMP MMIC GAAS LNA 3/5V SOT363
Manufacturer
Avago Technologies US Inc.
Datasheet
1.MGA-87563-TR1G.pdf
(9 pages)
Specifications of MGA-87563-TR1G
Gain
11dB ~14dB
Rf Type
Cellular, GPS, ISM, PCS
Current - Supply
4.5mA
Frequency
500MHz ~ 4GHz
Noise Figure
1.6dB
P1db
-2dBm
Package / Case
SC-70-6, SC-88, SOT-363
Test Frequency
2GHz
Voltage - Supply
3V, 5V
Frequency Range
0.5GHz To 4GHz
Noise Figure Typ
1.6dB
Supply Current
4.5mA
Supply Voltage Range
5V
Rf Ic Case Style
SOT-363
No. Of Pins
6
Number Of Channels
1
Frequency (max)
4GHz
Operating Supply Voltage (typ)
3/5V
Package Type
SOT-363
Mounting
Surface Mount
Pin Count
6
Noise Figure (typ)
2@4000MHzdB
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
516-1588-2
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MGA-87563-TR1G
Manufacturer:
AVAGO
Quantity:
18 000
Part Number:
MGA-87563-TR1G
Manufacturer:
AGILENT
Quantity:
20 000
Output Matching
The output of the MGA-87563 is matched internally to 50
Ω above 1.8 GHz. The use of a conjugate matching circuit,
such as a simple series inductor, can increase the gain
considerably at lower frequencies. Matching the output
will not affect the noise figure.
Stability
If the MGA-87563 is cascaded with highly reactive stages
(such as filters) some precautions may be needed to en-
sure stability. The low frequency stability (under 1.5 GHz)
of the MGA-87563 can be enhanced by adding a series
R-L network in shunt with the output, as shown in Figure
12. The inductor can be either a chip component or a
high impedance transmission line as shown in the figure.
Compo nent values are selected such that the output of the
MGA-87563 will be resistively loaded at low frequen cies
while allowing high frequency signals to pass the stability
load with minimal loss.
Figure 12. Output Circuitry for Low Frequency Stability.
Typical values for the resistor are in the 25 to 50Ω range.
A suggested starting place for the inductor is a 0.35 to
0.40-inch long microstripline with a width of 0.020 inches,
using 0.031-inch thick FR-4 (H
substrate.
For applications near 1.5 GHz, gain (and output power)
may be traded off for increased stability.
Some precautions regarding the V
MGA-87563 are also recommended to ensure stability
within the operating frequency range of the device. It is
important that the connection to the power supply be
properly bypassed to realize full amplifier performance.
Refer to the Biasing section above for more information.
6
MGA
87563
25-50 Ω
HIGH IMPEDANCE
TRANSMISSION
OR INDUCTOR
DC BLOCKING
CAPACITOR
OUTPUT
RF
r
= 4.8) circuit board as the
dd
connection of the
SOT-363 PCB Layout
A PCB pad layout for the minia ture SOT-363 (SC-70) pack-
age is shown in Figure 13 (dimensions are in inches). This
layout pro vides ample allowance for package place ment by
automated assem bly equipment without adding para sitics
that could impair the high frequency RF performance of
the MGA-87563. The layout is shown with a nominal SOT-
363 package footprint superimposed on the PCB pads.
Figure 13. Recommended PCB Pad Layout for Avago’s SC70 6L/SOT-363
Products.
RF Layout
The RF layout in Figure 14 is suggested as a starting point
for designs using the MGA-87563 amplifier. Adequate
grounding is needed to obtain maximum per formance
and to obviate potential instability. All three ground pins
of the MMIC should be connected to RF ground by using
plated through holes (vias) near the package terminals.
Figure 14. RF Layout.
RF OUTPUT
50 Ω
'LPHQVLRQV LQ ,QFKHV
87
V
RF INPUT
DD
50 Ω
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