MGA-53543-TR1G Avago Technologies US Inc., MGA-53543-TR1G Datasheet - Page 2

IC AMP RFIC 1.9GHZ SOT-343

MGA-53543-TR1G

Manufacturer Part Number
MGA-53543-TR1G
Description
IC AMP RFIC 1.9GHZ SOT-343
Manufacturer
Avago Technologies US Inc.
Datasheet

Specifications of MGA-53543-TR1G

Gain
14dB ~ 17dB
Rf Type
Cellular, PCS
Current - Supply
40mA ~ 70mA
Frequency
0Hz ~ 2.4GHz
Noise Figure
1.5dB ~ 1.9dB
P1db
18.6dBm
Package / Case
SC-70-4, SC-82-4, SOT-323-4, SOT-343
Test Frequency
1.9GHz
Voltage - Supply
5V ~ 5.5V
Frequency Range
50MHz To 6GHz
Noise Figure Typ
1.5dB
Power Dissipation Pd
400mW
Supply Current
54mA
Supply Voltage Range
5V
Manufacturer's Type
Linear Amplifier
Number Of Channels
1
Frequency (max)
6GHz
Operating Supply Voltage (max)
5.5V
Package Type
SOT-343
Mounting
Surface Mount
Pin Count
3 +Tab
Noise Figure (typ)
1.9@2400MHzdB
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
516-1826-2
MGA-53543-TR1G

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Part Number:
MGA-53543-TR1G
Manufacturer:
AVAGO
Quantity:
15 600
Part Number:
MGA-53543-TR1G
Manufacturer:
AVAGO
Quantity:
11 800
Part Number:
MGA-53543-TR1G
Manufacturer:
AVAGO/安华高
Quantity:
20 000
MGA-53543 Absolute Maximum Ratings
Electrical Specifications
T
P1dB
Notes:
1. Measurements obtained from a test circuit described in Figure 1. Input and output tuners tuned for maximum OIP3 while keeping VSWR bet-
. I) Output power level and frequency of two fundamental tones at 1.9 GHz: F1 = 5.49 dBm, F = 5.49 dBm, F1 = 1.905 GHz, and F = 1.915 GHz.
3. Standard deviation data are based on at least 500 pieces sample size taken from 8 wafer lots. Future wafers allocated to this product may have
RF
Input
Figure 1. Block Diagram of 1.9 GHz Test Fixture.

Symbol
V
V
P
P
T
T
Symbol
I
NF
Gain
OIP3
PAE
RL
RL
ISOL
d
c
STG
in
d
d
in
j
II) Output power level and frequency of two fundamental tones at 900 MHz: F1 = -0.38 dBm, F = -0.38 dBm, F1 = 905 MHz, and F = 915 MHz.
= +5°C, Z
ter than :1. Data corrected for board losses.
nominal values anywhere between the upper and lower spec limits.
out
in
[1]
[1]
[1]
[1]
[1]
[1]
[1,]
[1]
Parameter
Maximum Input Voltage
Supply Voltage
Power Dissipation
CW RF Input Power
Junction Temperature
Storage Temperature
Input Gamma &
Transmission Line
Γ
(0.7 dBm Loss)
o
Source
= 50 Ω, V
Parameter and Test Condition
Current Drawn
Noise Figure
Gain
Output Third Order Intercept Point
Output Power at 1 dB Gain Compression .4 GHz
Power Added Effciency at P1dB
Input Return Loss
Output Return Loss
Isolation |s
= 0.38 ∠ 156°
d
= 5V, unless noted
1
|

[]
[1]
Units
V
V
mW
dBm
°C
°C
Output Gamma &
Transmission Line with
Bias Tee
Γ
(0.85 dBm Loss)
Load
= 0.05 ∠ 45°
Frequency
N/A
.4 GHz
1.9 GHz
0.9 GHz
.4 GHz
1.9 GHz
0.9 GHz
.4 GHz
1.9 GHz
0.9 GHz
1.9 GHz
0.9 GHz
1.9 GHz
0.9 GHz
.4 GHz
1.9 GHz
0.9 GHz
.4 GHz
1.9 GHz
0.9 GHz
1.9 GHz
0.9 GHz
Absolute Maximum
0.8
5.5
400
13
150
-65 to 150
RF
Output
V
d
Units
mA
dB
dB
dBm
dBm
%
%
dB
dB
dB
(Vd=5.0V) qjc = 130
Notes:
1. Operation of this device in excess of any of
. Source lead temperature is 5°C. Derate
3. Thermal resistance measured using 150°C
Thermal Resistance
Min.
40
14
36
these limits may cause permanent dam-
age.
7.7mW/°C for T
Liquid Crystal Measurement Technique.
Typ.
54
1.9
1.5
1.3
15.1
15.4
17.4
38.7
39.1
39.7
18.3
18.6
19.3
9.7
8.3
-1.7
-13.
-11.1
-5.1
-14.3
-14.4
-3.4
-.3
L
> 98°C
°
[3]
C/W
Max.
70
1.9
17.0
σ
.7
0.06
0.5
1.89
[3]

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