MMDS09254H: 700-1000 MHz Advanced Doherty Alignment Module - ADAM

Advanced Doherty Alignment Module
特性
  • Frequency: 700-1000 MHz
  • Maximum RF Input Power: 25 dBm (CW)
  • Low Loss Power Splitter
  • 0.5 dB Step Programmable Attenuators with 7.5 dB Maximum Range
  • 7° per Bit Phase Shifters with 49° Maximum Range
  • Power up into a Selectable State
  • Single 5 Volt Supply
  • Supply Current: 12 mA
  • 50 Ohm Operation (no external matching required)
  • TTL/CMOS/SPI Interface (1.8 V, 3.3 V Logic)
  • Cost-effective 32-pin, 6 mm QFN Surface Mount Plastic Package
  • RoHS compliant
  • In Tape and Reel. T1 Suffix = 1000 Units, 16 mm Tape Width, 7-inch Reel.
Application Notes (1)
Name/DescriptionModified Date
AN1955, Thermal Measurement Methodology of RF Power Amplifiers - Application Notes (REV 1) PDF (112.4 kB) AN195529 Apr 2014
Brochures (1)
Name/DescriptionModified Date
Jump Start Your Small Cell Equipment Design - Brochure (REV 2) PDF (705.1 kB) BRSMALLCELLS09 Oct 2014
Package Information (1)
Name/DescriptionModified Date
98ASA00395D, QFN Punch, 6.0x6.0x0.85, Pitch 0.5, 32 Pins (REV A) PDF (60.0 kB) 98ASA00395D04 Feb 2016
Printed Circuit Boards
Lab and Test Software
Ordering Information
ProductStatusStatusFrequency Min (Min) (MHz)Frequency Max (Max) (MHz)
MMDS09254HT1Active7001000
Package Information
Package DescriptionOutline VersionPackingProduct StatusPart NumberChemical ContentRoHS / Pb FreeChina RoHS LookupMSLPPT (°C)
QFN 32EP 6SQ*.85PO0.5098ASA00395DMPQ - 1000 REELPOQ - 1000 BOXActiveMMDS09254HT1MMDS09254HT1.pdf3260
Writing the RS08 MCU Program in C HC08AS-AZ
AN1955, Thermal Measurement Methodology of RF Power Amplifiers - Application Notes MMT20303H
Jump Start Your Small Cell Equipment Design - Brochure vortiqa_l1sw_sc
ADAM QFN 6x6 PCB DXF file MMDS25254H
External driver used to control amplitude and phase in ADAM devices. MMDS25254H
External driver used to control amplitude and phase in ADAM devices. Includes MCR. MMDS25254H
98ASA00395D, QFN Punch, 6.0x6.0x0.85, Pitch 0.5, 32 Pins MMDS25254H
MMDS09254HT1.pdf MMDS09254H