Power Amplifier Chip Size: 2000 2000 (78.5 78.5 mils) Chip Size T
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AMMC 6420
Power Amplifier
Chip Size: 2000 2000 (78.5 78.5 mils) Chip Size Tolerance: (±0.4 mils) Chip Thickness: mils) Dimensions: mils)
Description
AMMC-6420 MMIC broadband power amplifier systems discrete hybrid. MMIC externally matched single element narrow band using theVg optimize linear saturated power amplification. temperature compensated theactiveareas.
Features
Widefrequencyrange:6-18GHz Highgain:20dB Power:@17GHz,P-2dB=30.5dBm Highlylinear:OIP3=38dBm IntegratedRFpowerdetector 5.5Volt,-0.6Volt,800mAoperation
Applications
MicrowaveRadiosystems SatelliteVSATandDBSsystems LMDS&Pt-PtmmWLongHaul 802.16&802.20WiMaxBWA WLLandMMDSloops Commercialgrademilitary driven AMMC-5618 (6-20 GHz) MMIC increasingludingoverallgain.
AMMC-6420 Absolute Maximum Ratings[1] Symbol Tstg Tmax Parameters/Conditions PositiveDrainVoltage GateSupplyVoltage DrainCurrent CWInputPower OperatingChannelTemp. StorageCaseTemp. MaximumAssemblyTemp (60secmax)
Units
Min.
Max. 1500 +150
+150 +300
Note: Note:These devices sensitive.The following precautions strongly recommended. Ensure that
AMMC-6420 Specifications/Physical Properties Symbol Parameters Test Conditions DrainSupplyCurrent (Vd=5.5V,VgsetforIdTypical) GateSupplyOperatingVoltage (Id(Q)=800(mA)) ThermalResistance[2] (Backsidetemperature,Tb=25°C) Units Min. Typ. Max. 1000
qch-b
°C/W
-0.8
-0.6
-0.4
Notes:
AMMC-6420 Specifications (TA= 25°C, Vd=5.5, Id(Q)=800 Zo=50 Symbol Gain P-1dB P-3dB OIP3 Parameters Test Conditions Small-signalGain[4] OutputPowerat1dB GainCompression OutputPowerat3dB GainCompression ThirdOrderIntercept Point;Df=100MHz; Pin=-20dBm InputReturnLoss[4] OutputReturnLoss[4] Min.ReverseIsolation Units Minimum 16.5 Typical Maximum Sigma 0.45 0.27 0.23 0.75
RLin RLout Isolation
0.23 0.25 1.10
Notes:
Gain
P-1dB
P-1dB
AMMC-6420 Typical Performances 25°C, =5.5 Zout
S21[dB]
S21[dB] S12[dB]
[dBm],
S11[dB] S22[dB]
Return Loss [dB]
[dB]
Frequency [GHz]
Frequency [GHz]
Frequency [GHz]
Figure Typical Gain Reverse Isolation
Figure Typical Return Loss (Input Output)
Figure Typical Output Power (@P-2)
Noise Figure [dB]
Po[dBm], and, PAE[%]
Pout(dBm) PAE[%] Id(total)
[dBm]
Frequency [GHz]
Frequency [GHz]
[dBm]
Figure Typical Noise Figure
Figure Typical Output Order Intercept
Figure Typical Output Power, PAE, Total Drain Current versus Input Power 18GHz
S21_20 S21_-40 S21_85
S11[dB]
S22[dB]
S21[dB]
S11_20 S11_-40 S11_85
S22_20 S22_-40 S22_85
Frequency [GHz]
Frequency[GHz]
Frequency[GHz]
Figure Typical over temperature
Figure Typical over temperature
Figure Typical Gain over temperature
[mA]
[dBm]
P-2_85deg
P-2_20deg P-2_-40deg
Frequency [GHz]
Figure Typical over temperature
Typical Scattering Parameters [1], 25°C, =5.5 Zout
Freq -0.85 -1.28 -2.06 -2.91 -3.20 -2.91 -2.73 -2.46 -2.22 -2.28 -2.76 -3.89 -6.19 -8.87 -5.93 -3.97 -3.82 -5.51 0.91 0.86 0.79 0.72 0.69 0.72 0.73 0.75 0.77 0.77 0.73 0.64 0.49 0.36 0.51 0.63 0.64 0.53 Phase -69.53 -16.32 0.15 1.18 0.06 0.91 6.73 15.22 14.27 10.89 8.36 7.21 7.08 8.02 9.91 11.57 11.03 9.35 8.05 7.29 4.77 1.44 0.18 0.01 0.02 0.01 0.00 0.00 Phase 175.58 49.05 -63.29 159.65 57.13 -63.61 -51.70 -46.75 -57.72 -57.72 -57.72 -54.90 Phase -0.74 -2.93 -0.59 -1.18 -4.56 -12.67 -6.90 -7.10 -5.99 -5.33 -5.56 -6.70 -9.09 -11.27 -9.02 -7.32 -7.66 -9.92 -6.05 -3.22 -2.57 -2.14 -1.79 -1.49 -1.22 -1.08 0.92 0.71 0.93 0.87 0.59 0.23 0.45 0.44 0.50 0.54 0.53 0.46 0.35 0.27 0.35 0.43 0.41 0.32 0.50 0.69 0.74 0.78 0.81 0.84 0.87 0.88 Phase -61.37 -110.65 -134.98 -171.79 151.19 -160.02 -173.75 -179.00 175.99 163.53 149.41 135.78 126.82 138.43 143.80 126.32 102.27 88.21 80.79 31.22 -14.04 -48.95 -76.03 -97.03 -113.22 -126.30
2.60E-03 -95.53 4.60E-03 -125.88 1.30E-03 -130.77 1.30E-03 64.56 1.30E-03 110.37 1.80E-03 56.43 1.30E-03 -35.93 1.40E-03 -78.75 1.40E-03 -109.63 1.80E-03 -136.34 2.10E-03 153.71 2.20E-03 151.00 3.10E-03 104.36 4.20E-03 48.68 3.80E-03 -7.09 4.70E-03 -83.32 4.00E-03 -127.39 3.00E-03 150.09 2.50E-03 140.32 4.90E-03 102.64 3.60E-03 59.47 1.80E-03 2.36 1.90E-03 -23.94 1.50E-03 38.32 5.00E-04 46.67 1.00E-03 158.26
-114.70 1.47 -141.33 -25.02 -156.19 -0.83 -162.66 16.56 -170.79 23.65 -178.53 23.09 172.56 162.29 148.18 131.48 107.67 66.21 -17.97 20.74 18.44 17.16 17.00 18.09 19.92 21.27
-160.60 -57.72 128.10 74.59 31.07 -9.66 -52.96 -57.08 -57.08 -54.90 -53.56 -53.15
-104.92 -50.17 -169.21 -47.54 119.60 52.62 -15.59 -95.95 158.78 47.46 -35.35 20.47 1.97 -16.33 -33.78 -41.36 -48.40 -46.56 -47.96 -50.46 -52.04 -46.20 -48.87 -54.90 -54.43 -56.48 -66.02 -60.00
-100.42 20.85 -145.89 19.42 -177.46 18.11 151.43 103.81 -63.36 17.25 13.56 3.19
-12.43 0.24 -8.88 -2.37 -0.99 -0.65 -0.54 -0.46 -0.40 0.36 0.76 0.89 0.93 0.94 0.95 0.95
-118.45 -14.91 -145.51 -37.99 -161.21 -35.39 -171.73 -44.58 -179.38 -46.20 174.06 -56.48
Note:
Biasing Operation efficiency, performance, reliability isVd=5.5 optional output power detector network also provided.The differential voltage between Det-Ref isgivenby:
Vdet Vofs
Assembly Techniques it.This accomplished mounting gold plate adjacent circuit same height. amount free residue that jeopardize electrical mechanicalattachment.
whereVref isthevoltageatthe port,Vdet isavoltage atthe port,andVofs isthezero-input-poweroffset Signal-Groundconfiguration. Vofs minimize performance degradation undesirable measuring ).This method gives error Vofs gold wire gold mesh recommended Vofs frequencyband. 150+/-2C. This MMIC also static sensitive precautions shouldbetaken.
Notes:
Figure AMMC-6420 Schematic
RFin RFout
Figure AMMC-6420 Bonding locations
0.5nH
RFOutput
RFInput
AMMC-6420
0.5nH
Notes: =>1µF capacitors biasing lines shown required. connections recommended both sides devices operating above condition.
Figure AMMC-6420 Assembly diagram
0.45 0.35 0.25 0.15 0.05
Det_R Det_O
Pout[dBm]
0.01
Figure AMMC-6420 Typical Detector Voltage Output Power, Freq=12GHz
Det_R Det_O
Ordering Information: AMMC-6420-W10=10devicespertray AMMC-6420-W50=50devicespertray
product information complete list distributors, please site: www.avagotech.com Avago, Avago Technologies, logo trademarks Avago Technologies, Pte. United States other countries. Data subject change. Copyright 2006 Avago Technologies Pte. rights reserved. 5989-3938EN April 2006
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