18 GHz to 44 GHz, GaAs, pHEMT, MMIC, 1/2 W Power Amplifier
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24 /10 — ADPA7006CHIP. Data Sheet. E A. +85°C. +25°C. –55°C. FREQUENCY (GHz). …
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ADPA7006CHIP. Data Sheet. E A. +85°C. +25°C. –55°C. FREQUENCY (GHz). 1110. 1050. (% E A. 990. ), P. 930. POUT. GAIN. I DD. ), G m. PAE. 700mA. 870. 800mA. 900mA
ADPA7006CHIPData Sheet2424222220201818)16)16(%(%T14T14SASAP12P12TT10E A10E APA8+85°CPA85V+25°C4V6–55°C64422001820222426283032343638404244 -028 1820222426283032343638404244 -031 FREQUENCY (GHz) 186 FREQUENCY (GHz) 186 20 20 Figure 28. Power Added Efficiency (PAE) vs. Frequency for Various Temperatures, Figure 31. PAE vs. Frequency for Various Supply Voltages (VDD), IDQ =800 mA, VDD = 5 V, IDQ = 800 mA, PAE Measured at PSAT PAE Measured at PSAT 243011102220)25105018(% E A)1620990), P(%BT14)SA(dAP12IN15930TAPOUT(mGAIN10I DDE A), G mPAEPA8700mABId10DD870800mA(6900mAT OU4P58102007501820222426283032343638404244 -029 –12–10–8–6–4–202468 -032 FREQUENCY (GHz) 186 186 20 INPUT POWER (dBm) 20 Figure 29. PAE vs. Frequency for Various Supply Current (IDQ), VDD = 5 V, Figure 32. POUT, Gain, PAE, and IDD vs. Input Power, 22 GHz, VDD = 5 V, PAE Measured at PSAT IDD = 800 mA 351282351200POUTPOUTGAINGAIN30PAE120930PAE1140)I)DDIDD(%(%EEA251136A251080), P), PBB))(d201063A(d201020AININA(mA(m), G15990I DD), G15960I DDmmBBdd((10900T10917TOUOUPP5844584007710780–12 –10–8–6–4–20246810 -030 –10–8–6–4–2024681012 -033 INPUT POWER (dBm) 186 INPUT POWER (dBm) 186 20 20 Figure 30. Output Power (POUT), Gain, PAE, and IDD vs. Input Power, Figure 33. POUT, Gain, PAE, and IDD vs. Input Power, 30 GHz, VDD = 5 V, 26 GHz, VDD = 5 V, IDD = 800 mA IDD = 800 mA Rev. 0 | Page 10 of 24 Document Outline FEATURES APPLICATIONS FUNCTIONAL BLOCK DIAGRAM GENERAL DESCRIPTION TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS 18 GHz TO 20 GHz FREQUENCY RANGE 20 GHz TO 28 GHz FREQUENCY RANGE 28 GHz TO 36 GHz FREQUENCY RANGE 36 GHz TO 44 GHz FREQUENCY RANGE ABSOLUTE MAXIMUM RATINGS ESD CAUTION PIN CONFIGURATION AND FUNCTION DESCRIPTIONS INTERFACE SCHEMATICS TYPICAL PERFORMANCE CHARACTERISTIC CONSTANT DRAIN CURRENT (IDD) OPERATION THEORY OF OPERATION APPLICATIONS INFORMATION MOUNTING AND BONDING TECHNIQUES FOR MILLIMETERWAVE GaAs MMICS Handling Precautions Mounting Wire Bonding BIASING THE ADPA7006CHIP WITH THE HMC980LP4E APPLICATION CIRCUIT SETUP LIMITING VGATE FOR THE ADPA7006CHIP VGGx AMR (ABSOLUTE MAXIMUM RATING) REQUIREMENT HMC980LP4E BIAS SEQUENCE Power-Up Sequence Power-Down Sequence CONSTANT DRAIN CURRENT BIASING vs. CONSTANT GATE VOLTAGE BIASING TYPICAL APPLICATION CIRCUIT ASSEMBLY DIAGRAMS OUTLINE DIMENSIONS ORDERING GUIDE