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Noise Amplifier. AMMC-6231 Datasheet

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Noise Amplifier. AMMC-6231 Datasheet
















AMMC-6231 Amplifier. Datasheet pdf. Equivalent













Part

AMMC-6231

Description

16-32 GHz Low Noise Amplifier



Feature


www.DataSheet4U.com Agilent AMMC-6231 1 6–32 GHz Low Noise Amplifier Data She et Features • Wide frequency range: 1 6 - 32 GHz • High gain: 22 dB • Low 50 Ω Noise Figure: 2.6 dB Chip Size: 1900 x 800 mm (74.8 x 31.5 mils) Chip Size Tolerance: ± 10mm (± 0.4 mils) C hip Thickness: 100 ± 10mm (4 ± 0.4 mi ls) RF Pad Dimensions: 110 x 90 mm (4.3 3 x 3.54 mils) DC Pad Dimensions.
Manufacture

Hewlett-Packard

Datasheet
Download AMMC-6231 Datasheet


Hewlett-Packard AMMC-6231

AMMC-6231; : 100 x 100 mm (3.94 x 3.94 mils) • 5 0 Ω Input and Output Match • Flat G ain Response • Single 3V Supply Bias Applications • Microwave Radio system s Description Agilent’s AMMC-6231 is a high gain, low-noise amplifier that operates from 16 GHz to 32 GHz. This LN A provides a wide-band solution for sys tem design since it covers several band s, thus, reduces part inventor.


Hewlett-Packard AMMC-6231

y. The device has input / output match t o 50 Ohm, is unconditionally stable and can be used as either primary or sub-s equential low noise gain stage. By elim inating the complex tuning and assembly processes typically required by hybrid (discrete-FET) amplifiers, the AMMC-62 31 is a cost-effective alternative in t he 16 - 32 GHz communications receivers . The backside of .


Hewlett-Packard AMMC-6231

the chip is both RF and DC ground. This helps simplify the assembly process and reduces assembly related performance v ariations and costs. It is fabricated i n a PHEMTDataSheet4U.com process to pro vide exceptional noise and gain perform ance. • Satellite VSAT, DBS Up/Down Link • LMDS & Pt-Pt mmW Long Haul • Broadband Wireless Access (including 8 02.16 and 802.20 WiMax) .





Part

AMMC-6231

Description

16-32 GHz Low Noise Amplifier



Feature


www.DataSheet4U.com Agilent AMMC-6231 1 6–32 GHz Low Noise Amplifier Data She et Features • Wide frequency range: 1 6 - 32 GHz • High gain: 22 dB • Low 50 Ω Noise Figure: 2.6 dB Chip Size: 1900 x 800 mm (74.8 x 31.5 mils) Chip Size Tolerance: ± 10mm (± 0.4 mils) C hip Thickness: 100 ± 10mm (4 ± 0.4 mi ls) RF Pad Dimensions: 110 x 90 mm (4.3 3 x 3.54 mils) DC Pad Dimensions.
Manufacture

Hewlett-Packard

Datasheet
Download AMMC-6231 Datasheet




 AMMC-6231
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Agilent AMMC-6231
16–32 GHz Low Noise Amplifier
Data Sheet
Features
Wide frequency range: 16 - 32 GHz
High gain: 22 dB
Low 50 Noise Figure: 2.6 dB
Chip Size: 1900 x 800 mm (74.8 x 31.5 mils)
Chip Size Tolerance: ± 10mm (± 0.4 mils)
Chip Thickness: 100 ± 10mm (4 ± 0.4 mils)
50 Input and Output Match
Flat Gain Response
RF Pad Dimensions: 110 x 90 mm (4.33 x 3.54 mils)
DC Pad Dimensions: 100 x 100 mm (3.94 x 3.94 mils)
Single 3V Supply Bias
Applications
Description
Agilent’s AMMC-6231 is a high
gain, low-noise amplifier that
operates from 16 GHz to 32
GHz. This LNA provides a
wide-band solution for system
design since it covers several
bands, thus, reduces part
inventory. The device has
input / output match to 50
Ohm, is unconditionally stable
and can be used as either
primary or sub-sequential low
noise gain stage. By
eliminating the complex tuning
and assembly processes
typically required by hybrid
(discrete-FET) amplifiers, the
AMMC-6231 is a cost-effective
alternative in the 16 - 32 GHz
communications receivers. The
backside of the chip is both
RF and DC ground. This helps
simplify the assembly process
and reduces assembly related
performance variations and
costs. It is fabricated in a
PHEMTDpartoacSehsesett4oUp.rcoovmide
exceptional noise and gain
performance.
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
AMMC-6231 Absolute Maximum Ratings[1]
Symbol Parameters/Conditions
Units Min. Max.
Vd Positive Drain Voltage
V7
Vg Gate Supply Voltage
V NA
Id Drain Current
mA 100
Pin CW Input Power
dBm 15
Tch Operating Channel Temp.
°C +150
Tstg Storage Case Temp.
°C -65 +150
Tmax Maximum Assembly Temp (60 sec max) °C
+300
Note:
1. Operation in excess of any one of these conditions may result in permanent damage to this device.
DataShee
DataSheet4U.com
Note: These devices are ESD sensitive. The following precautions are strongly recommended. Ensure that an ESD approved
carrier is used when dice are transported from one destination to another. Personal grounding is to be worn at all times when
handling these devices. For more details, refer to Agilent Application Note A004R: Electrostatic Discharge Damage and Control.
ESD Machine Model (Class A)
ESD Human Body Model (Class 0)




 AMMC-6231
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AMMC-6231 DC Specifications/Physical Properties [1]
Symbol Parameters and Test Conditions
Units Min. Typ. Max.
Id Drain Supply Current (under any RF power drive and temperature) (Vd=3.0 V) mA
θch-b Thermal Resistance[2] (Backside temperature, Tb = 25°C)
°C/W
60 80
25
Notes:
1. Ambient operational temperature TA=25°C unless otherwise noted.
2. Channel-to-backside Thermal Resistance (qch-b) = 26°C/W at Tchannel (Tc) = 34°C as measured using infrared microscopy. Thermal Resistance at
backside temperature (Tb) = 25°C calculated from measured data.
et4U.com
AMMC-6231 RF Specifications [3, 4, 5]
TA= 25°C, Vd=3.0 V, Id(Q)=60 mA, Zin=Zo=50
Symbol Parameters and Test Conditions
Units Minimum Typical
Maximum
Sigma
Gain Small-signal Gain[6]
dB 20
22
0.4
NF Noise Figure into 50
dB 18-28 GHz = 2.5 18-28 GHz = 2.8 0.1
28-32 GHz = 2.7 28-32 GHz = 2.9
P-1dB Output Power at 1dB Gain Compression dBm
OIP3 Third Order Intercept Point; f=100MHz; dBm
Pin=-35dBm
+8.5
+19
RLin Input Return Loss[6]
dB -9 -8 0.3
RLout Output Return Loss[6]
dB -16 -12 0.5
3. Small/Large -signal data measured in wafer form TA = 25°C.DataSheet4U.com
4. 100% on-wafer RF test is done at frequency =18, 26, and 31 GHz.
5. Specifications are derived from measurements in a 50 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.
6. As derived from measured s-parameters
DataShee
USL LSL
USL
2.5 2.6 2.7 2.8 2.9
21 21.2 21.4 21.6 21.8 22 22.2 22.4
-10
-9
-8
Noise Figure at 31 GHz
Noise Figure at 26 GHz
S11 at 31GHz
Typical distribution of Small Signal Gain, Noise Figure, and Return Loss. Based on 1500 part sampled over several
production lots.
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2




 AMMC-6231
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et4U.com
AMMC-6231 Typical Performances
(TA = 25°C, Vd1 = Vd2 =3.0 V, Itotal = 60 mA, Zin = Zout = 50 unless otherwise stated)
NOTE: These measurements are in a 50 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 0
0
20
-20
15
-40
10
-60
5
-5
-10
-15
-20
0
14 18 22 26 30
Frequency (GHz)
Figure 1. Typical Gain
0
-5
-10
-15
-20
-25
-30
14
18 22 26 30
Frequency (GHz)
Figure 4. Typical Output Return Loss
-80
34 14
18 22 26 30
Frequency (GHz)
34
-25
14
18 22 26 30
Frequency (GHz)
34
Figure 2. Typical Isolation
Figure 3 Typical Input Return Loss
3 21
18
OP-1dB
2.5 15 OIP3
2
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1.5
12
9
6
3
0
34 1
16 20 24 28 32
16 20 24 28 32
Frequency (GHz)
Frequency (GHz)
Figure 5. Typical Noise Figure into a 50
load.
Figure 6. Typical Output P-1dB and 3rd Order
Intercept Pt.
30 0
0
25C 25C
25 -40C -40C
-20
+85C
-5
+85C
20
15 -40
-10
10
25C -60
-15
5 -40C
0
16
+85C
20 24 28
Frequency (GHz)
32
-80
16
20 24 28
Frequency (GHz)
-20
32 16
20 24 28
Frequency (GHz)
32
Figure 7. Gain Over Temperature
DataSheet4U.com
3
Figure 8. Isolation Over Temperature
Figure 9. Typical Input Return Loss Over
Temperature
DataShee




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