NL3S2223: High-Speed USB 2.0 DPDT Switch

Description: The NL3S2223 is a DPDT switch optimized for high−s...
  • The NL3S2223 is a DPDT switch optimized for high−speed USB 2.0 applications within portable systems. It features ultra−low on capacitance, CON = 7.5 pF (typ), and a bandwidth above 950MHz. It is optimized for applications that use a single USB interface connector to route multiple signal types. The CON and RON of both channels are suitably low to allow the NL3S2223 to pass any speed USB data or audio signals going to a moderately resistive terminal such as an external headset.
  • Features
  • Optimized Flow−Through Pinout - Easier for Board Layout and Noise Reduction
  • RON: 5.0 Ω Typ @ VCC = 4.2 V - Reduces Signal Distortion
  • CON: 5.5 pF Typ @ VCC = 3.3 V - Improved Device Bandwidth
  • VCC Range: 1.65 V to 4.5 V - Wide Operation Range
  • Typical Bandwidth: 950 MHz - Plenty of Overhead for USB 2.0 Eye
  • OVT on Common Signal Pins D+/D− up to 5.25 V - Protects Device Against Long-Term Failure
  • 1.4 mm x 1.8 mm x 0.50 mm UQFN10 - Minimized Board Space Requirement
  • 8 kV HBM ESD Protection on All Pins - Protection Against ESD Event
  • These Devices are Pb−Free, Halogen Free/BFR Free and are RoHS Compliant - Environmentally Conscience
  • Applications
  • High Speed USB 2.0 Data
  • Mobile Phones
  • Portable Devices
  • Digital Cameras
  • End Products
  • Smartphones
  • Digital Cameras
  • Tablets
  • Power Bank
  • Drones
  • Wearables
  • Technical Documentation & Design Resources
    Availability and Samples
    NL3S2223MUTBG
  • Status: Active
  • Compliance: Pb-free Halide free 
  • Description: High-Speed USB 2.0 DPDT Switch, High-Speed USB 2.0 (480 Mbps) DPDT Switches
  • Package Type: UQFN-10
  • Package Case Outline: 488AT
  • MSL: 1
  • Container Type: REEL
  • Container Qty: 3000
  • Specifications
  • Channels:
  • Number of Switches:
  • Configuration: DPDT 
  • Icc Max (µA): 0.1 
  • ron Max (Ω): 7.6 
  • VCC Min (V): 1.65 
  • VCC Max (V): 4.5 
  • Package Type: UQFN-10 
  • ON Semiconductor Full Web Site