NLAS5223C: Ultra-Low 0.35 Ω Dual SPDT Analog Switch

Description: The NLAS5223C is an advanced CMOS analog switch fa...
  • The NLAS5223C is an advanced CMOS analog switch fabricated in Sub−micron silicon gate CMOS technology. The device is a dual Independent Single Pole Double Throw (SPDT) switch featuring Ultra−Low RON of 0.35 , at VCC = 4.3 V. The part also features guaranteed Break Before Make (BBM) switching, assuring the switches never short the driver.
  • Features
  • Ultra−Low RON, 0.35  (typ) at VCC = 4.3 V - Higher Quality Sound
  • Single Supply Operation from 1.65−4.5 V - Works in most platforms without having to create a new power rail
  • High Off−Channel Isolation - Reduces distortion due to crosstalk
  • Low Standby Current, 50 nA - Supports longer battery life
  • RON Flatness of 0.15  - Low distortion
  • 1.4 x 1.8 x 0.55 mm UQFN10 Pb−Free - Supports small form factor products
  • Applications
  • Cell Phone Audio Block
  • Speaker and Earphone Switching
  • Ring−Tone Chip/Amplifier Switching
  • Modems
  • End Products
  • Smartphones
  • Technical Documentation & Design Resources
    Availability and Samples
    NLAS5223CLMUTAG
  • Status: Active
  • Compliance: Pb-free Halide free 
  • Description: Ultra-Low 0.35 Ω Dual SPDT Analog Switch, Ultra-Low 0.35 ohm Dual SPDT Analog Switch
  • Package Type: UQFN-10
  • Package Case Outline: 488AT
  • MSL: 1
  • Container Type: REEL
  • Container Qty: 3000
  • NLAS5223CMUTAG
  • Status: Active
  • Compliance: Pb-free Halide free 
  • Description: Ultra-Low 0.35 Ω Dual SPDT Analog Switch, Ultra-Low 0.35 ohm Dual SPDT Analog Switch
  • Package Type: UQFN-10
  • Package Case Outline: 488AT
  • MSL: 1
  • Container Type: REEL
  • Container Qty: 3000
  • Inventory

  • Market Leadtime (weeks):2 to 4
  • Arrow:0
  • Digikey:>1K
  • ON Semiconductor:108,000
  • Specifications
  • Channels:
  • Number of Switches:
  • Configuration: SPDT 
  • Icc Max (µA):
  • ron Max (Ω): 0.35 
  • VCC Min (V): 1.65 
  • VCC Max (V): 4.5 
  • Package Type: UQFN-10 
  • ON Semiconductor Full Web Site