Shipping overseas is convenient due to the electrical component's packing in 16-TSSOP (0.173, 4.40mm Width). This packaging method provides high reliability because it uses advanced packaging techniques. Multiplexers like this are mounted in the Surface Mount position. Multiplexers and demultiplexers have a number of circuits 2:1. Operational temperature extended around -40°C~85°C TA. 16 terminations have been made so far. Due to its 4 channels, the electrical component produces high-quality output. When a voltage supply of 2.5V is used, the electronic component should be turned on and run. A key feature of the 16 series is the inclusion of this electronic part as part of its design. Multiplexers built on a SPDT switching circuit are built. Try searching for the analog switch ic with TS3A5018 if you are looking for variants. As far as internal resistance is concerned, it has 10Ohm. To find out what the functions of 16 pins are, please refer to their datasheets. In this analog multiplexer, the value is Multiplexer or Switches. Users shouldn't supply more than 3.6V voltage to the switch device. An effective Single supply digital multiplexer. It is recommended that the electrical component receives a voltage of 2.3V. This digital switch can be operated with a current of 2.5μA. This analogue multiplexer requires a voltage of 1.65V~3.6V when it drains from a single voltage supply. Put voltage above 7μA on the multiplexer to cause damage. Operating voltages range from 3V. 300MHz-bandwidths can be used to transfer data between multiplexers. An output of 8 is provided by the digital multiplexer.
TS3A5018PWR Features
4 Channels Switch Circuit: SPDT 2.5μA Supply Current Bandwidth: 300MHz
TS3A5018PWR Applications
There are a lot of Texas Instruments TS3A5018PWR Analog Switches & Multiplexers ICs applications.
Automatic test equipment
Precision data acquisition
Battery-powered systems
Sample-and-hold systems
Communication systems
Data Acquisition Systems
Relay Replacement
Battery Powered Systems
Existing multiplexer applications (both fault-protected and nonfault-protected)