MGA-82563-BLKG Avago Technologies US Inc., MGA-82563-BLKG Datasheet - Page 5
MGA-82563-BLKG
Manufacturer Part Number
MGA-82563-BLKG
Description
IC AMP MMIC GAAS 3V SOT-363
Manufacturer
Avago Technologies US Inc.
Type
General Purpose Amplifierr
Specifications of MGA-82563-BLKG
P1db
17.3dBm
Noise Figure
2.2dB
Package / Case
SC-70-6, SC-88, SOT-363
Current - Supply
63mA ~ 101mA
Frequency
100MHz ~ 6GHz
Gain
13.5dB
Rf Type
ISM, PCS, PHS, SATCOM, WLL
Test Frequency
2GHz
Voltage - Supply
2.7V ~ 3.3V
Mounting Style
SMD/SMT
Technology
MMIC Amplifier
Number Of Channels
1
Operating Frequency
6000 MHz
Operating Supply Voltage
3 V
Supply Current
101 mA @ 3 V
Amplifier Type
MMIC
Current, Supply
84 mA
Impedance, Thermal
180 °C/W
Package Type
SOT-363 (SC70)
Temperature, Operating, Range
+165 °C (Channel)
Voltage, Input
-1 to +0.5 V
Voltage, Supply
3 V
Manufacturer's Type
MMIC Amplifier
Frequency (max)
6GHz
Operating Supply Voltage (typ)
3V
Mounting
Surface Mount
Pin Count
6
Noise Figure (typ)
2.7@6000MHzdB
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
516-1955
MGA-82563-BLKG
MGA-82563-BLKG
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MGA-82563-BLKG
Manufacturer:
NSC
Quantity:
6 451
Part Number:
MGA-82563-BLKG
Manufacturer:
AVAGO/安华高
Quantity:
20 000
MGA-82563 Applications Information
Introduction
This medium power GaAs MMIC amplifier was developed
for commercial wireless applications from 100 MHz to 6
GHz. The MGA-82563 runs on only 3 volts and typically
requires only 84 mA to deliver over 17 dBm of output
power at 1 dB gain compression.
The 17.3 dBm output power (P
82563 extremely useful for pre-driver and driver stages
in transmit cascades or for final output stages in lower
power systems. For transmitter gain stage applications
that require even higher output power, the MGA-82563
can provide 100 mW (20 dBm) of saturated output pow-
er with a power added efficiency approaching 50%. The
low cost of the MGA-82563 makes it feasible to power
combine two (or more) devices for even higher output
power amplifiers.
The MGA-82563 offers an excellent combination of high
linearity (+31 dBm output IP
(2.2 dB) for applications requiring a very high dynamic
range.
The MGA-82563 uses resistive feedback to simultane-
ously achieve flat gain over a wide bandwidth and to
match the input and output impedances to 50Ω. The
MGA-82563 is also unconditionally stable (K>1) over its
entire frequency range, making it both very easy to use
and yielding consistent performance in the manufacture
of high volume wireless products.
An innovative internal bias circuit regulates the device’s
internal current to enable the MGA-82563 to operate
over a wide temperature range with a single, positive
power supply of 3 volts. The MGA-82563 will operate
with reduced power and gain with a bias supply as low
as 1.5 volts.
Test Circuit
The circuit shown in Figure 10 is used for 100% RF testing
of Gain and Noise Figure. The test circuit is merely a 50Ω in-
put/output PC board with a RFC at the output to apply DC
bias to the device under test. Tests in this circuit are used to
guarantee the NF
of Electrical Specifications.
Figure 10. Test Circuit.
INPUT
5
RF
test
and G
test
22 nH
RFC
100 pF
100 pF
parameters shown in the table
3
) and very low noise figure
OUTPUT
V
1 dB
d
RF
) makes the MGA-
Phase Reference Planes
The positions of the reference planes used to specify the
S-Parameters and Noise Parameters for this device are
shown in Figure 11. As seen in the illustration, the refer-
ence planes are located at the point where the package
leads contact the test circuit.
Figure 11. Phase Reference Planes.
Specifications and Statistical Parameters
Several categories of parameters appear within this data
sheet. Parameters may be described with values that are
either “minimum or maximum, ” “typical, ” or “standard de-
viations. ”
The values for parameters are based on comprehensive
product characterization data, in which automated mea-
surements are made on of a minimum of 500 parts taken
from 3 non-consecutive process lots of semiconductor
wafers. The data derived from product characterization
tends to be normally distributed, e.g., fits the standard
“bell curve. ”
Parameters considered to be the most important to
system performance are bounded by minimum or maxi-
mum values. For the MGA-82563, these parameters are:
Gain (G
Each of these guaranteed parameters is 100% tested.
Values for most of the parameters in the table of Electri-
cal Specifications that are described by typical data are
the mathematical mean (P), of the normal distribution
taken from the characterization data. For parameters
where measurements or mathematical averaging may
not be practical, such as the Noise and S-parameter ta-
bles or performance curves, the data represents a nomi-
nal part taken from the “center” of the characterization
distribution. Typical values are intended to be used as a
basis for electrical design.
To assist designers in optimizing not only the immediate
circuit using the MGA-82563, but to also optimize and
evaluate trade-offs that affect a complete wireless sys-
tem, the standard deviation (V) is provided for many of
the Electrical Specifications parameters (at 25°) in addi-
tion to the mean. The standard deviation is a measure of
the variability about the mean. It will be recalled that a
normal distribution is completely described by the mean
and standard deviation.
test
TEST CIRCUIT
REFERENCE
), Noise Figure (NF
PLANES
test
), and Device Current (I
d
).
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