Anti-sulfur modules are those designed to prevent sulfur buildup from resulting in abnormal operations. Such modules may be used in environments featuring extremes of temperature, humidity, or pollution in which sulfur is present in high concentration such as near the end of exhaust pipes or in mines.
Sulfurization Process and Effect
What is sulfurization, and what does it do to sensitive electronic parts? Sulfurization, here referring to metallic sulfurization, is the chemical process when sulfur reacts with air or water, produces hydrogen sulfide. When this is absorbed by metallic surfaces, a chemical reaction begins, creating a sulfide.
Where hydrogen sulfide diffuses between a memory module’s barrier and resistor, this begins a chemical reaction that transforms what had been a conductive silver chloride electrode into silver sulfide, a non-conductor, preventing the resistor from functioning properly or even creating an open circuit. The sulfurization process of a resistor is described below:
To prevent sulfurization, resistors should be made sulfur-resistant. There are several methods for creating anti-sulfur resistors. Different manufacturers utilize different patented processes, but there are generally two approaches.
The first is to use a different material for the electrode, for example gold or alloys. This approach comes with an effective result; however, it may result in an increased production cost given the high cost of inputs; another drawback is that different metals have different levels of electrical resistance.
The other anti-sulfur approach is to cover and therefore isolate the electrode, thus preventing hydrogen sulfide from coming into contact with the silver. This anti-sulfur method is more commonly used.
Atmospheric sulfur is on the rise due to increasing levels of pollution, and the applications for anti-sulfur components are increasing. Transcend's anti-sulfur DRAM modules all meet level G2 of ISA Standard S71.04-2013 and ASTM B809-95 standard, suitable for the Industrial Revolution 4.0, the Internet of Things, and the Internet of Vehicles, where the use of anti-sulfur technology is highly required.