DG9424DQ-T1-E3 Overview
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 1:1. Operational temperature extended around -40°C~85°C TA. 16 terminations have been made so far. Due to its 1 channels, the electrical component produces high-quality output. Multiplexers built on a SPST - NO switching circuit are built. Try searching for the analog switch ic with DG9424 if you are looking for variants. As far as internal resistance is concerned, it has 1.8Ohm. To find out what the functions of 16 pins are, please refer to their datasheets. Users shouldn't supply more than 12V voltage to the switch device. An effective Dual, Single supply digital multiplexer. It is recommended that the electrical component receives a voltage of 2.7V. This digital switch can be operated with a current of 5μA. Put voltage above 1μA on the multiplexer to cause damage. Despite this switch's dual supply capability, its voltage should not exceed 6V. When using dual power supplies, you should attach at least 3V. A DPDT analog IC is integrated into the board. The 4 inputs need to be operated in order to work. Check out the electrical component's additional features, such as the following: ALSO OPERATES WITH 2.7V TO 12V SINGLE SUPPLY. There is 1.7Ohm resistance between Drain and Source for this electronic part.
DG9424DQ-T1-E3 Features
1 Channels
Switch Circuit: SPST - NO
5μA Supply Current
Additional Features: ALSO OPERATES WITH 2.7V TO 12V SINGLE SUPPLY
Drain-to-Source resistance: 1.7Ohm
DG9424DQ-T1-E3 Applications
There are a lot of Vishay Siliconix
DG9424DQ-T1-E3 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)
- New designs requiring multiplexer functions