Manufacturer Part Number
SI8602AD-B-IS
Manufacturer
Skyworks Solutions, Inc.
Introduction
The SI8602AD-B-IS is a high-performance digital isolator from Skyworks Solutions, Inc. It offers reliable and efficient signal transmission across high-voltage isolation barriers.
Product Features and Performance
2-channel digital isolator
Capacitive coupling technology
Wide operating temperature range: -40°C to 125°C
High common-mode transient immunity: 35kV/s
Bidirectional and unidirectional channel types
Operates on a supply voltage of 3V to 5.5V
Product Advantages
Compact 16-SOIC package
Surface mount design
Robust isolation voltage of 5000Vrms
Reliable signal transmission
Efficient power consumption
Key Technical Parameters
Package: 16-SOIC (0.295", 7.50mm Width)
Number of Channels: 2
Packaging: Tube
Mounting Type: Surface Mount
Voltage Isolation: 5000Vrms
Technology: Capacitive Coupling
Common Mode Transient Immunity (Min): 35kV/s
Isolated Power: No
Voltage Supply: 3V ~ 5.5V
Channel Type: Bidirectional, Unidirectional
Quality and Safety Features
Robust isolation voltage of 5000Vrms
Wide operating temperature range
High common-mode transient immunity
Compatibility
The SI8602AD-B-IS is suitable for a wide range of applications that require reliable and efficient signal transmission across high-voltage isolation barriers.
Application Areas
Industrial automation and control systems
Power supplies and converters
Motor drives
Measurement and instrumentation equipment
Medical devices
Telecommunication systems
Product Lifecycle
The SI8602AD-B-IS is an active product, and Skyworks Solutions, Inc. continues to provide support and availability for this model.
Several Key Reasons to Choose This Product
Reliable and efficient signal transmission across high-voltage isolation barriers
Compact and surface-mount design for easy integration
Wide operating temperature range and high common-mode transient immunity for robust performance
Bidirectional and unidirectional channel types to meet diverse application needs
Efficient power consumption and low isolation power requirements