ESD Tester

3.00

₹000.00 ₹000.00

To make sure that electronic systems and components are shielded from the potentially harmful effects of electrostatic discharge, electrostatic discharge (ESD) testers are essential instruments used in a variety of sectors. ESD testing is essential for electronic product research & development, quality control, and production. An overview of ESD testers, their requirements, and their significance is given in this guide.





Specification

Specification Description
Discharge Voltage Range The range of voltages that the ESD tester can generate, typically ranging from a few hundred volts to several kilovolts.
Discharge Current The maximum current that can be delivered during an ESD event, which impacts the severity of the discharge.
Discharge Network The configuration of resistors and capacitors used to shape the discharge waveform, usually defined by standards such as IEC 61000-4-2.
Waveform Specifications Details of the waveform generated during a discharge, including rise time, peak current, and decay time.
Test Modes Various modes such as contact discharge, air discharge, and indirect discharge to simulate different ESD scenarios.
Compliance Standards Standards that the ESD tester adheres to, such as IEC 61000-4-2, ANSI/ESD S20.20, and MIL-STD-883.
User Interface The type of interface provided for operating the tester, such as touchscreens, software control, or manual controls.
Data Logging and Reporting Capabilities for recording test results and generating reports for analysis and documentation.
Test Enclosure Features of the test enclosure, such as size, shielding, and accessibility for different types of components and systems.
Safety Features Safety mechanisms to protect users and devices, including interlocks, grounding systems, and emergency stop functions.
Portability The ease with which the ESD tester can be transported and used in different locations, which might include battery operation and rugged design for field use.
Calibration and Maintenance Requirements for calibrating the tester and maintaining its accuracy over time, including calibration intervals and procedures.