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Part Number A220
Manufacturers Hitachi Semiconductor
Logo Hitachi Semiconductor
Description GaAs MMIC Down Converter for Micro Wave Application
Datasheet A220 DatasheetA220 Datasheet (PDF)

HA22032T GaAs MMIC Down Converter for Micro Wave Application ADE-207-259 (Z) 1st. Edition May 1998 Features • • • • • • Suitable for down converter of Micro Wave Application(1.5 GHz) Low voltage and low current operation (3V, 9 mA typ.) Low noise (2 dB typ. @1.5 Ghz) High power gain (26 dB typ. @1.5 GHz) Built–in matching circuits (50 Ω ) Small surface mount package (TSSOP-8) Outline TTP-8D This document may, wholly or partially, be subject to change without notice. This Device si sensitive .

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Document
HA22032T GaAs MMIC Down Converter for Micro Wave Application ADE-207-259 (Z) 1st. Edition May 1998 Features • • • • • • Suitable for down converter of Micro Wave Application(1.5 GHz) Low voltage and low current operation (3V, 9 mA typ.) Low noise (2 dB typ. @1.5 Ghz) High power gain (26 dB typ. @1.5 GHz) Built–in matching circuits (50 Ω ) Small surface mount package (TSSOP-8) Outline TTP-8D This document may, wholly or partially, be subject to change without notice. This Device si sensitive to Electro Static Discharge. An Adequate handling procedure is requested. HA22032 Pin Arrangement HA32 Mark type 8A1 Weekly code(variable) Monthly code(variable) Yearly code(variable) 8 7 6 5 HA32 8A1 1 2 3 4 Top View Pin No. 1 2 3 4 5 6 7 8 Pin name Vddlo Vddln GND RF in Cs IF out GND Lo in Function Power supply (Lo) Power supply (LNA) Ground RF input Bypath capacitor (>100 pF) IF output Ground Local input HA22032 Block Diagram Vdd 1 2 3 4 1.5pF 6.8nH 8 7 2.7nH 1.5pF Lo in * RF in 5pF 6 5 390nH 220nH IF out * *:1000+15pF * Vdd HA22032 Absolute Maximum Ratings (Ta = 25°C) Item Supply voltage Maximum current Power dissipation Channel temperature Storage temperature Operation temperature Maximum input power Symbol Vdd Idd Pd Tch Tstg Topr Pin max Ratings 5 15 100 150 –55 to +125 –20 to +70 +18 Unit V mA mW °C °C °C dBm Electrical Characteristics (Ta = 25°C, Vdd = 3V) Item Quiescent current Power gain Symbol Idd PG Min 5 23 Typ 9 26 Max 12 29 Unit mA dB Test Conditions No signal f = 1489 Mhz, fLo = 1619 Mhz, Plo = –15 dBm, IF = 130 Mhz, Pin = –30dBm f = 1489 Mhz, fLo = 1619 Mhz, Plo = –15 dBm, IF = 130 MHz Noise figure NF — 2 3 dB Typical Performance (Ta = 25°C, Vdd = 3V) Item VSWR (input) 3rd order inter-cept point Symbol Typ VSWR in IP3o 2 +4 Unit — Test Conditions f = 1.489 GHz dBm f = 1.489 GHz, fud =1.490 Ghz, Pin = –30 dBm, fLo = 1.619 Ghz, Plo = –15 dBm HA22032 Main Characteristics Conversion gain,Noise figure vs.Frequency Vdd = 3V Pin = –30dBm IF = 130MHz PLo = –15dBm Ta = +25°C CG 29 3 3rd order inter-cept point IP3o (dBm) 8 3rd order inter-cept point(out) vs. Frequency Vdd = 3V Pin = –30dBm IF = 130MHz PLo = –15dBm Ta = +25°C 2 signals input Conversion gain CG (dB) 28 27 26 25 24 Noise figure NF (dB) 6 2.5 4 2 NF 2 23 1400 1450 1500 1550 1.5 1600 0 1400 1450 1500 1550 1600 Frequency f (MHz) Frequency f (MHz) VSWR vs. Frequency 2.5 Vdd = 3V Ta = +25°C RF 2 29 28 27 26 25 24 23 6 5 Conversion gain CG (dB) CG IP3o 4 3 2 Vdd = 3V f = 1489MHz fLo = 1619MHz 1 PLo = –15dBm Ta = +25°C 2 signals input 0 -35 -30 -35 -20 1.5 Lo 1 1475 1480 1485 1490 1495 1500 1505 -55 -55 -45 -40 Frequency(RF) RF (MHz) 1605 1610 1615 1620 1625 1630 1635 Frequency f (MHz) 3rd order inter-cept point IP3o (dBm) Conversion gain,3rd order inter-cept point vs. Input power VSWR HA22032 Conversion gain,Noise figure vs. Supply voltage f = 1489 MHz Pin = –30 dBm IF = 130 MHz PLo = –15 dBm Ta = +25°C 29 3 3rd order inter-cept point IP3o (dBm) 8 3rd order inter-cept point vs. Supply voltage f = 1489 MHz Pin = –30 dBm IF = 130 MHz PLo = –15dBm Ta = +25°C 2 signals input Conversion gain CG (dB) Noise figure NF (dB) 28 27 26 25 CG 2.5 6 4 2 NF 2 24 23 2 2.5 3 3.5 4 4.5 5 1.5 0 2 2.5 3 3.5 4 4.5 5 Supply voltage Vdd (V) Supply voltage Vdd (V) VSWR vs. Supply voltage 2.5 Quiescent current vs. Supply voltage 12 Quiescent current Idd (mA) RF = 1489 MHz Lo = 1619 MHz Ta = +25°C RF Ta = +25°C 11 10 9 8 7 6 5 2 VSWR 1.5 Lo 1 2 2.5 3 3.5 4 4.5 5 2 2.5 3 3.5 4 4.5 5 Supply voltage Vdd (V) Supply voltage Vdd (V) HA22032 Conversion gain,Noise figure vs. Ambient temperature CG Vdd = 3 V f = 1489 MHz Pin = –30 dBm IF = 130 MHz PLo = –15 dBm 29 3 3rd order inter-cept point IP3o (dBm) 8 3rd order inter-cept point vs. Ambient temperature Vdd = 3 V f = 1489 MHz Pin = –30 dBm IF = 130 MHz PLo = –15 dBm 2 signals input Conversion gain CG (dB) Noise figure NF (dB) 28 27 26 25 24 23 -25 0 6 2.5 4 NF 2 2 1.5 25 50 75 0 -25 0 25 50 75 Ambient Temperture Ta (°C) Ambient Temperature Ta (°C) VSWR vs. Ambient temperature 2.5 Quiescent vs. Ambient temperature 12 Vdd = 3V Quiescent current Idd (mA) Vdd = 3V RF = 1489 MHz Lo = 1619 MHz RF 11 10 9 8 7 6 5 2 VSWR 1.5 Lo 1 -25 0 25 50 75 -25 0 25 50 75 Ambient temperature Ta (°C) Ambient temperature Ta (°C) HA22032 Conversion gain,Noise figure vs. Local power Vdd = 3V f = 1489 MHz Pin = –30 dBm IF = 130 MHz Ta = +25°C CG 29 3 10 3rd order inter-cept point vs. Local power Vdd = 3 V f = 1489 MHz Pin = –30 dBm IF = 130 MHz Ta = +25°C 2 signals input 27 26 25 24 23 -50 -25 -20 -15 2.5 Noise figure NF (dB) 28 3rd inter-cept point IP3o (dBm) Conversion gain CG (dB) 5 2 NF 1.5 -10 -5 0 -5 -50 -25 -20 -15 -10 -5 Local power PLo (dBm) Local power PLo (dBm) HA22032 Package Dimentions Unit: mm 3.00 3.30 Max 8 5 4.40 1 0.22 +0.08 –0.07 0.20 ± 0.06 4 0.65 1.0 0.13 M 6.40 ± 0.20 0.805 Ma.


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