Welcome to the ultimate guide to ESDCAN02-2BWY, the groundbreaking ESD Suppressor Diode from STMicroelectronics. In this comprehensive article, we'll delve into the intricacies of the ESDCAN02-2BWY, uncovering its definition, key features, specifications, applications, and a closer look at its manufacturer.
ESDCAN02-2BWY is a Transient Voltage Suppressor (TVS) diode, primarily engineered to safeguard sensitive electronic circuits from electrostatic discharge (ESD) events. This particular model is designed to operate bidirectionally, meaning it can handle ESD events from both positive and negative voltage spikes.
Let's delve into the standout features that make ESDCAN02-2BWY a game-changer:
· With two elements per chip, ESDCAN02-2BWY ensures robust bi-directional protection.
· Operating within a voltage range of 26.5V to 31.7V, it effectively suppresses transient voltage spikes.
· With a maximum leakage current of just 0.01uA, it minimizes power consumption and ensures efficient operation.
· Rated for automotive applications, ESDCAN02-2BWY meets stringent quality and reliability standards, making it suitable for use in automotive electronics.
· Packaged in a space-saving SOT-323 format, it offers convenience in mounting and integration onto PCBs.
Now, let's delve into the technical specifications that make the ESDCAN02-2BWY a standout choice for electronic projects:
Type | Parameter |
Type | TVS |
Configuration | Dual |
Direction Type | Bi-Directional |
Number of Elements per Chip | 2 |
Maximum Working Voltage (V) | 26.5 |
Minimum Breakdown Voltage (V) | 28.5 |
Maximum Breakdown Voltage (V) | 31.7 |
Maximum Clamping Voltage (V) | 44 |
Maximum Peak Pulse Current (A) | 3.7 |
Maximum Leakage Current (uA) | 0.01 |
Test Current (mA) | 1 |
Peak Pulse Power Dissipation (W) | 170 |
Capacitance Value (pF) | 3.5 |
Minimum Operating Temperature (°C) | -55 |
Maximum Operating Temperature (°C) | 175 |
Supplier Temperature Grade | Automotive |
Packaging | Tape and Reel |
Mounting | Surface Mount |
Package Height | 1(Max) |
Package Width | 1.25 |
Package Length | 2 |
PCB changed | 3 |
Standard Package Name | SOT |
Supplier Package | SOT-323 |
Pin Count | 3 |
The versatility of the ESDCAN02-2BWY makes it suitable for various electronic applications, including but not limited to:
· Automotive Electronics: From engine control units to infotainment systems, ESDCAN02-2BWY safeguards critical automotive electronics from ESD-induced failures.
· Consumer Electronics: In devices ranging from smartphones to laptops, ESDCAN02-2BWY plays a pivotal role in ensuring robust protection against ESD events, enhancing device reliability.
· Industrial Automation: In industrial environments prone to electrostatic discharges, ESDCAN02-2BWY provides essential protection for sensitive equipment, minimizing downtime and maintenance costs.
STMicroelectronics, often abbreviated as ST, is a global semiconductor manufacturer with a long-standing reputation for producing innovative and high-quality electronic components. With headquarters in Geneva, Switzerland, and a strong international presence, STMicroelectronics is a leading player in the semiconductor industry. They specialize in designing and manufacturing a wide range of semiconductor devices, including microcontrollers, sensors, power management solutions, and more. STMicroelectronics is trusted by industries worldwide, including automotive, consumer electronics, industrial, and telecommunications, for their cutting-edge technology and commitment to advancing the field of electronics.
In the fast-paced world of electronics, safeguarding sensitive components against ESD events is non-negotiable. With its robust features, specifications, and versatile applications, ESDCAN02-2BWY emerges as a stalwart defender against the perils of electrostatic discharge. Trustworthy, reliable, and meticulously engineered, ESDCAN02-2BWY stands as a testament to the ingenuity of modern semiconductor technology, empowering engineers to push the boundaries of innovation while ensuring uncompromising protection for electronic systems.