Manufacturer Part Number
NLAS323USG
Manufacturer
onsemi
Introduction
The NLAS323USG is a high-performance analog switch specifically designed for interfacing applications.
Product Features and Performance
Single Pole Single Throw (SPST) Normally Open switch configuration
1:1 Multiplexer/Demultiplexer Circuit
Dual switch circuits
25 Ohms maximum on-state resistance
Operating voltage range from 2V to 5.5V
Fast switching time with maximum 9ns On and 10ns Off
High -3dB bandwidth at 220MHz
Low charge injection of 3 picocoulombs
Dual channel capacitance of 10pF off-state
Ultra-low leakage current at maximum 1 nanoampere
Temperature range from -55°C to 125°C
Product Advantages
Minimal propagation delay and high-speed operation enriches high-frequency signal handling
Flexible voltage range supports use with various logic levels
Compact VFSOP-8 packaging suitable for space-constrained applications
Key Technical Parameters
On-State Resistance: 25 Ohm Max
Voltage Supply: 2V ~ 5.5V
Switch Time: 9ns On, 10ns Off
Bandwidth: 220MHz
Current Leakage: 1nA Max
Operating Temperature: -55°C ~ 125°C
Quality and Safety Features
Operates reliably in a wide temperature range (-55°C to 125°C)
Low leakage current ensures energy efficiency and high precision
Robust surface mount package for stability and durability
Compatibility
Compatible with general-purpose analog switching needs
Usable across a variety of logic level thresholds due to its flexible voltage requirements
Application Areas
Telecommunications
Data Acquisition Systems
Test Equipment
Portable Devices
Product Lifecycle
Marked as Obsolete
Availability of replacements or upgrades should be checked with onsemi
Several Key Reasons to Choose This Product
Exceptionally low on-state resistance enhances signal integrity
Wide bandwidth suitable for high-frequency applications
Robust operating temperature range ensures performance stability in extreme conditions
Ultra-fast switching capabilities ideal for time-critical applications
Minimal charge injection aids in maintaining signal purity