DG304BDJ-E3 Overview

The electrical component comes in 14-DIP (0.300, 7.62mm) packaging, which makes it convenient to ship overseas. To ensure high reliability, a new packaging method Tube is used. In Through Hole, you'll find this switch device. In the multiplexer and demultiplexer, 1:1 represents the number of circuits. Operating temperature around -40°C~85°C TA extended. In total, 14 terminations have occurred. A electrical component with 1 channels is capable of high-quality output. When the electronic component is given a voltage of 15V, it should be turned on and run. As part of the design of the 14 series, this electronic part has been incorporated into the system. On the other hand, analog switches can be constructed using SPST - NO switching circuits. Look for analog switch ic variants by searching with DG304. A 50Ohm internal resistance characterizes this multiplexer. The datasheets for the 14 pins explain the functions. The analog multiplexer shown here is a typical Multiplexer or Switches. An abnormal situation would be for the switch device to be supplied with a voltage greater than 36V. A analog switch ic that has a cost-effective Dual, Single supply type. It is recommended to use 13V as the lowest voltage for the electrical part. The analogue multiplexer could operate on 1nA current. A voltage higher than 100μA may cause damage to the switch multiplexer. For this switch, a dual supply voltage is feasible, but it must not exceed 22VFor dual power supplies, a voltage of at least 7V should be attached. It is possible to use SEPARATE OUTPUT outputs on this digital multiplexer. This electrical part is compatible with 15V operating voltages. Among the inputs that can be operated are the 2 inputs.

DG304BDJ-E3 Features

1 Channels
Switch Circuit: SPST - NO
1nA Supply Current

DG304BDJ-E3 Applications

There are a lot of Vishay Siliconix
DG304BDJ-E3 Analog Switches & Multiplexers ICs applications.

• Audio and video switching
• 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)