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Noise Amplifer. AMMP-6220 Datasheet

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Noise Amplifer. AMMP-6220 Datasheet






AMMP-6220 Amplifer. Datasheet pdf. Equivalent




AMMP-6220 Amplifer. Datasheet pdf. Equivalent





Part

AMMP-6220

Description

6-20 GHz Low Noise Amplifer

Manufacture

AVAGO TECHNOLOGIES

Datasheet
Download AMMP-6220 Datasheet


AVAGO TECHNOLOGIES AMMP-6220

AMMP-6220; AMMP-6220 6-20 GHz Low Noise Amplifier www.DataSheet4U.com Data Sheet Descr iption Avago’s AMMP-6220 is a high ga in, low-noise amplifier that operates f rom 6 GHz to 20 GHz. The LNA is designe d to be a easy-to-use component for any surface mount PCB application. The bro ad and unconditionally stable performan ce makes this LNA ideal for primary, su b-sequential or driv.


AVAGO TECHNOLOGIES AMMP-6220

er low noise gain stages. Intended appli cations include microwave radios, 802.1 6, automotive radar, VSAT, and satellit e receivers. Since one part can cover s everal bands, the AMMP-6220 can reduce part inventory and increase volume purc hase options. The LNA has integrated 50 W I/O match, DC blocking, self-bias an d choke to eliminate complex tuning and assembly processe.


AVAGO TECHNOLOGIES AMMP-6220

s typically required by hybrid (discrete FET) amplifiers. The package is full SM T compatible with backside grounding an d I/O to simplify assembly. Features 5x5 mm surface mount package • Broad Band performance 6-20 GHz • Lo w 2.5 dB typical noise figure • High 22 dB typical gain • 50 W input and output match • Single 3 V (55 mA) s upply bias Applications • Mi.



Part

AMMP-6220

Description

6-20 GHz Low Noise Amplifer

Manufacture

AVAGO TECHNOLOGIES

Datasheet
Download AMMP-6220 Datasheet




 AMMP-6220
AMMP-6220
6-20 GHz Low Noise Amplifier
Data Sheet
www.DataSheet4U.com
Description
Avago’s AMMP-6220 is a high gain, low-noise ampli-
fier that operates from 6 GHz to 20 GHz. The LNA is
designed to be a easy-to-use component for any surface
mount PCB application. The broad and uncondition-
ally stable performance makes this LNA ideal for pri-
mary, sub-sequential or driver low noise gain stages.
Intended applications include microwave radios,
802.16, automotive radar, VSAT, and satellite receivers.
Since one part can cover several bands, the AMMP-6220
can reduce part inventory and increase volume purchase
options.The LNA has integrated 50 W I/O match, DC block-
ing, self-bias and choke to eliminate complex tuning and
assembly processes typically required by hybrid (discrete-
FET) amplifiers. The package is full SMT compatible with
backside grounding and I/O to simplify assembly.
Functional Diagram
1
8
100 pF
7
23
100 pF
4
65
PIN FUNCTION
1
2 Vd
3
4 RFout
5
6
7
8 RFin
PACKAGE
BASE
GND
Features
5x5 mm surface mount package
Broad Band performance 6-20 GHz
Low 2.5 dB typical noise figure
High 22 dB typical gain
50 W input and output match
Single 3 V (55 mA) supply bias
Applications
Microwave radio systems
Satellite VSAT, DBS up/down link
LMDS & Pt-Pt mmW Long Haul
Broadband Wireless Access (including 802.16 and
802.20 WiMax)
WLL and MMDS loops
Commercial grade military
Attention: Observe precautions for handling electrostatic sensitive devices.
ESD Machine Model (Class 1A)
ESD Human Body Model (Class 0)
Refer to Avago Application Note A004R: Electrostatic Discharge Damage and Control.





 AMMP-6220
AMMP-6220 Absolute Maximum Ratings [1]
Symbol Parameters/Conditions
Units Min.
Max.
Vd Positive Drain Voltage V
7
Id Drain Current
Pin CW Input Power
mA
dBm
100
15
Tch Operating Channel Temp. °C
+150
Tstg Storage Case Temp.
°C -65 +150
Tmax
Maximum Assembly Temp. °C
(60 sec max.)
+300
Note:
1. Operation in excess of any one of these conditions may result in permanent damage to this
device.
AMMP-6220 DC Specifications/Physical Properties [1]
Symbol Parameters and Test Conditions
Units Min. Typ. Max.
Id Drain Supply Current (under any mA 55 70
RF power drive and temperature)
(Vd = 3.0 V)
qch-b Thermal Resistance[2]
(Backside temperature, Tb = 25°C) °C/W
27
Notes:
1. Ambient operational temperature TA = 25°C unless otherwise noted.
2. Channel-to-backside Thermal Resistance (Tchannel (Tc) = 34°C) as measured using infrared mi-
croscopy. Thermal Resistance at backside temperature (Tb) = 25°C calculated from measured
data.
www.DataSheet4U.com
AMMP-6220 RF Specifications [3, 4, 6]
TA= 25°C, Vd = 3.0 V, Id(Q) = 55 mA, Zo = 50 W
Symbol Parameters and Test Conditions
Units
Typical
Sigma
Gain
Small-signal Gain[5]
dB 22 0.5
NF Noise Figure into 50 W[5]
dB 2.5 0.2
P-1dB
OIP3
Output Power at 1dB Gain Compression
Third Order Intercept Point;
∆f = 100 MHz; Pin = -20 dBm
dBm
dBm
+10
+20
0.8
1.1
RLin
Input Return Loss
dB -12 0.3
RLout Output Return Loss
dB -16 0.7
Isol Reverse Isolation
dB -45 0.5
Notes:
3. Small/Large -signal data measured in a fully de-embedded test fixture form TA = 25°C.
4. Pre-assembly into package performance verified 100% on-wafer per AMMC-6220 published specifications.
5. This final package part performance is verified by a functional test correlated to actual performance at one or more frequencies.
6. Specifications are derived from measurements in a 50 W test environment. Aspects of the amplifier performance may be improved over a more
narrow bandwidth by application of additional conjugate, linearity, or low noise (Gopt) matching.






 AMMP-6220
www.DataSheet4U.com
AMMP-6220 Typical Performances (TA = 25°C, Vd =3 V, ID = 55 mA, Zin = Zout = 50 W unless otherwise stated)
Note: These measurements are in 50 W test environment. Aspects of the amplifier performance may be improved over a narrower bandwidth by
application of additional conjugate, linearity or low noise (Gopt) matching.
25
20
15
10
5
0
4 6 8 10 12 14 16 18 20 22
FREQUENCY (GHz)
Figure 1. Gain.
0
-10
-20
-30
-40
-50
-60
4 6 8 10 12 14 16 18 20 22
FREQUENCY (GHz)
Figure 2. Isolation.
0
-5
-10
-15
-20 4 6 8 10 12 14 16 18 20 22
FREQUENCY (GHz)
Figure 3. Input return loss.
0
-5
-10
-15
-20
-25
-30
4 6 8 10 12 14 16 18 20 22
FREQUENCY (GHz)
Figure 4. Output return loss.
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
6 8 10 12 14 16 18 20
FREQUENCY (GHz)
Figure 5. Noise figure.
25
20
15
10
5 P-1dB
OIP3
0
6 8 10 12 14 16 18 20
FREQUENCY (GHz)
Figure 6. Typical power, OP-1dB and OIP3.
30
25
20
15
10 +25°C
-40°C
5 +85°C
0
4 6 8 10 12 14 16 18 20 22
FREQUENCY (GHz)
Figure 7. Gain over temperature.
0
-10 +25°C
-40°C
-20 +85°C
-30
-40
-50
-60
4 6 8 10 12 14 16 18 20 22
FREQUENCY (GHz)
Figure 8. Isolation over temperature.
0
+25°C
-5 -40°C
+85°C
-10
-15
-20 4 6 8 10 12 14 16 18 20 22
FREQUENCY (GHz)
Figure 9. Input return loss over temperature.




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