LT5522EUF#PBF - 

RF Mixer Downconverter IC, 1.8 V to 5.25 V, 40 MHz to 2.7 GHz, QFN-16

LT5522EUF#PBF - RF Mixer Downconverter IC, 1.8 V to 5.25 V, 40 MHz to 2.7 GHz, QFN-16

The actual product may differ from image shown

Manufacturer Part No:
Newark Part No.:
No Longer Manufactured

Product Information

MSL 1 - Unlimited
No SVHC (07-Jul-2017)
Find similar products Choose and modify the attributes above to find similar products.

Product Overview

The LT5522EUF#PBF is a 400MHz to 2.7GHz high signal level Down-converting Mixer is optimized for high linearity down-converter applications including cable and wireless infrastructure. The IC includes a high speed differential LO buffer amplifier driving a double-balanced mixer. The LO buffer is internally matched for wideband, single-ended operation with no external components. The RF input port incorporates an integrated RF transformer and is internally matched over the 1.2 to 2.3GHz frequency range with no external components. The RF input match can be shifted down to 400MHz or up to 2.7GHz, with a single shunt capacitor or inductor, respectively. The high level of integration minimizes the total solution cost, board space and system-level variation. The LT5522 delivers high performance and small size without excessive power consumption.
  • Internal on-chip RF input transformer
  • 50Ω Single-ended RF and LO ports
  • 25dBm at 900MHz, 21.5dBm at 1900MHz High input IP3
  • 280mW Typical low power consumption
  • Low LO drive level integrated LO buffer
  • High LO-RF and LO-IF isolation
  • Very few external components
  • Enable function


RF Communications, Signal Processing

No Longer Manufactured

Customer Reviews

Customer Q&A Exchange


Like to see information about this product from other customers?

 Read discussions, blogs, documents from our community members.


Select document type(s) you want to see and click “Apply Filters” button
Post a question to one of our experts or start a discussion and get responses from supplier experts and fellow engineers in our community.