MGA-85563-TR1G Avago Technologies US Inc., MGA-85563-TR1G Datasheet - Page 10
MGA-85563-TR1G
Manufacturer Part Number
MGA-85563-TR1G
Description
AMP RFIC LNA GAAS 3V SOT-363
Manufacturer
Avago Technologies US Inc.
Datasheet
1.MGA-85563-TR1G.pdf
(13 pages)
Specifications of MGA-85563-TR1G
Gain
18dB
Rf Type
Cellular, PCS, WLAN
Current - Supply
15mA ~ 20mA
Frequency
800MHz ~ 6GHz
Noise Figure
1.6dB
P1db
0.9dBm
Package / Case
SC-70-6, SC-88, SOT-363
Test Frequency
2GHz
Voltage - Supply
2.7V ~ 3.3V
Frequency Range
0.8GHz To 6GHz
Noise Figure Typ
1.9dB
Supply Current
15mA
Supply Voltage Range
3V
Rf Ic Case Style
SOT-363
No. Of Pins
6
Manufacturer's Type
Low Noise Amplifier
Number Of Channels
1
Frequency (max)
6GHz
Operating Supply Voltage (typ)
3V
Package Type
SOT-363
Mounting
Surface Mount
Pin Count
6
Noise Figure (typ)
1.6(Min)@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
516-1830-2
MGA-85563-TR1G
MGA-85563-TR1G
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MGA-85563-TR1G
Manufacturer:
AVAGO
Quantity:
52 300
Part Number:
MGA-85563-TR1G
Manufacturer:
AVAGO/安华高
Quantity:
20 000
Since the input terminal of the MGA-85563 is at ground
potential, the input DC blocking capacitor C1 need not
be used unless the amplifier is connected to a preceding
stage that has a voltage present at this point.
The value of the DC blocking and RF bypass capacitors
(C1 – C4) should be chosen to provide a small reactance
(typically <2 ohms) at the lowest operating frequency.
For this 1.9 GHz design example, 56 pF capacitors with
a reactance of 1.5 ohms are adequate. The reactance of
the RF choke (RFC) should be high (i.e., several hundred
ohms) at the lowest frequency of operation. A 22 nH in-
ductor with a reactance of 262 ohms at 1.9 GHz is suf-
ficiently high to minimize the loss from circuit loading.
The completed 1.9 GHz amplifier for this example with all
components and SMA connectors assembled is shown in
Figure 23.
Figure 23. Complete 1.9 GHz Amplifier Circuit.
Designs for Other Frequencies
The same basic design approach described above for 1.9
GHz can be applied to other frequency bands. Inductor
values for matching the input for low noise figure are
shown in Table 1.
For frequencies below 1000 MHz, the series input in-
ductor approach provides a good match but may not
completely noise match the MGA-85563. A two-element
matching circuit may be required at lower frequencies
to exactly match the input to *
the real part of *
Ω (i.e., away from the R = 1 circle on the Smith chart) as
the angle of *
cally 0.4 to 0.9 pF) added between the input pin and the
adjacent ground pad to create a shunt C-series L match-
ing network will realize an improvement in noise figure
of several tenths of a dB. A lower value for L1 may be
needed depending on the actual length of the input line
between Pin 1 and L1 as well as the value of the shunt C.
10
opt
MGA-85-A
IN
+V
decreases. A small shunt capacitor (typi-
R
opt
d
bias
has started to move away from 50
L1
MLIN
C4
85
RFC
opt
. At lower frequencies,
C3
C2
OUT
For frequencies above 3 GHz, the input is already well
matched to 50 Ω and no additional matching is normally
needed.
Table 1. Input Inductor Values for Various Operating Frequencies. (*Ad-
ditional matching required for optimum NF).
Actual component values may differ slightly from those
shown in Table 1 due to variations in circuit layout,
grounding, and component parasitics. A CAD program
such as Avago’s Touchstone® is recommended to fully
analyze and account for these circuit variables.
Frequency
(GHz)
0.8*
0.9*
1.5
1.9
2.4
5.1
5.8
(nH)
8.2
5.6
2.7
22
18
L1
0
0
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