A latest technical webinar by ESD India broke down two misunderstood ionizer efficiency parameters decay time and offset voltage explaining why each are central to stopping hidden ESD failures throughout electronics, semiconductor and cleanroom environments.
In a producing panorama the place even just a few volts of electrostatic discharge can silently undermine product reliability, Electrostatic Discharge (ESD) India (subsidiary of WEAMG Digital Options) India hosted a targeted technical webinar to deal with a generally ignored problem on manufacturing flooring: the widespread misinterpretation of decay time and offset voltage (ion stability) in ionizers. Led by Mrinal Kanti Mandal, technical lead at ESD India, the session aimed to simplify the science behind these essential parameters. He explains “how they straight affect product high quality, particularly as many corporations comply with ESD protocols but nonetheless face unexplained part harm, latent failures or inconsistent audit outcomes.”
The webinar emphasised that sluggish decay and poor ion stability stay main hidden root causes of ESD failures. It additionally highlighted why this dialogue was urgently wanted, individuals incessantly depend on ANSI/ESD requirements with out understanding that broad pointers reminiscent of ±35 V stability or 10-second decay should still be unsafe for immediately’s ultra-miniaturized electronics. Mandal clarified that requirements provide route, however customers should outline their very own limits by contemplating part CDM sensitivity, course of velocity and line design.
The speak explored key points: decay time figuring out how rapidly an ionizer neutralizes ±1000 V prices; offset voltage indicating ion stability and the way poor stability can introduce contemporary prices; the impression of incorrect ionizer placement; and the position of routine upkeep, emitter cleansing and CPM checks in stopping efficiency drift. The core takeaway was clear user-defined limits matter greater than generic requirements, and each decay time and stability should work in tandem to make sure ESD security. The session urged producers to undertake common measurements, calibration and higher documentation, whereas selecting ionizers with secure long-distance efficiency and self-cleaning options. In the end, the webinar strengthened that ionizers should not “set up and overlook” units and {that a} deeper understanding of decay and stability, mixed with disciplined verification, is crucial for reinforcing yield and long-term reliability.
The complete in-depth report full with case research, measurement charts and step-by-step implementation steerage might be printed quickly. Keep tuned.
