MAX14836GTG+T - Maxim Integrated Digital Isolator

The MAX14836GTG+T from Maxim Integrated is a state-of-the-art digital isolator designed to provide signal isolation in a wide range of industrial and commercial applications. This component is part of the robust MAX14836 series, which is known for its high reliability and performance in challenging environments.

Featuring Maxim Integrated's proprietary process technology, the MAX14836GTG+T offers galvanic isolation of up to 3.75kV for 60 seconds. This isolation helps to protect sensitive electronic equipment from high voltage transients, and reduces noise and ground loop errors in digital communication systems.

The device operates across a wide temperature range from -40°C to +125°C, making it suitable for use in harsh industrial settings. It supports data rates up to 1Mbps, ensuring efficient communication in applications such as fieldbus communications for factory automation, isolated SPI interfaces, and general-purpose multichannel isolation.

The MAX14836GTG+T comes in a compact, 16-pin TSSOP package with a lead-free finish, which makes it an environmentally friendly choice that meets RoHS standards. The package is optimized for minimal footprint and low power consumption, with a typical quiescent current of only 5.7mA per channel at V_DD = 5V.

One of the key features of this digital isolator is its integrated power transfer capability. It has an integrated DC-DC converter that allows for single-side power supply, simplifying board layout and reducing external component count. This feature, combined with its high noise immunity and low radiated emissions, makes the MAX14836GTG+T an excellent choice for designing reliable and compact isolated interfaces.

In summary, the MAX14836GTG+T from Maxim Integrated is a robust digital isolator that offers high-voltage isolation, low power consumption, and integrated power transfer. Its small form factor, high data rate support, and wide operating temperature range make it a versatile solution for isolating digital signals in a variety of applications.