Product Detail

MASW-009101
SPDT Default On High Isolation CATV Switch
The MASW-009101 is a single pole double throw (SPDT) switch in a lead-free 3 mm 16-lead PQFN package. It meets FCC 15.115 specification of 80 dB isolation between RF1 and RF2 at 216 MHz during powered and un-powered states. The default on un-powered state provides a low insertion loss path from RFC to RF1 while maintaining high isolation between RF2 and RFC/RF1. This device is ideally suited for applications where low control voltage, high isolation, small size and low cost are required. Typical applications are to replace mechanical relays in CATV and satellite systems. This part can be used in all 75? systems operating up to 3 GHz. The MASW-009101 is fabricated using a GaAs pHEMT process. The process features full passivation for performance and reliability.
Features
  • 75 O Terminations RF1 / RF2
  • RoHS* Compliant
  • 260°C Reflow Compatible
  • Halogen-Free “Green” Mold Compound
  • Lead-Free 3 mm 16-Lead PQFN Package
  • Low Insertion Loss: 1.4 dB @ 2200 MHz
  • High Isolation: 90 dB @ 216 MHz
  • Positive Voltage Control
Applications
  • Wired Broadband
Specifications
  • Insertion Loss : 1 dB
  • Min Frequency: 5 MHz
  • IIP3: 39 dBm
  • Isolation: 65 dB
  • Max Frequency: 3,000 MHz
Package
  • 3mm PQFN-16LD
Package Category
  • Plastic Surface Mount
Marking
  • F6
Lead Finish
  • 100% matte tin plate followed by a post-plating annealing of 1 hr at 150 C
Part Number Package MACOM Richardson RFPD DigiKey Mouser Richardson Electronics
MASW-009101-000000
Switch, SPDT, DC-3.0GHz, 3mmPQFN-16LD
3MM PQFN-16LD Inquire
MASW-009101-001SMB
Sample Board, DC-3.0GHz, 3mmPQFN-16LD
3MM PQFN-16LD Inquire Buy Buy
MASW-009101-TR1000
Switch, SPDT, DC-3.0GHz, 3mmPQFN-16LD
3MM PQFN-16LD Inquire Buy
MASW-009101-TR3000
Switch, SPDT, DC-3.0GHz, 3mmPQFN-16LD
3MM PQFN-16LD Inquire

Favorite Parts

Log in to MyMACOM to save your favorite parts.

Recently Viewed

  • No Recent Parts found!

Technical Resources

Resources

Recent Searches

X

By continuing to use this site you consent to the use of cookies in accordance with our Cookie Policy