Manufacturer Part Number
FODM3053R2
Manufacturer
onsemi
Introduction
The FODM3053R2 is an optoisolator with a triac or SCR output, designed for switching and control applications.
Product Features and Performance
Operates over a wide temperature range of -40°C to 100°C
Features a 1-channel output
Supports a maximum DC forward current of 60 mA
Provides an isolation voltage of 3750 Vrms
Typical forward voltage of 1.2 V
Static dV/dt of 1 kV/s or more
Maximum off-state voltage of 600 V
Typical holding current of 300 A
Maximum LED trigger current of 5 mA
Maximum on-state current of 70 mA (RMS)
Product Advantages
Wide operating temperature range
High isolation voltage for safety
Robust triac/SCR output for switching and control
Low forward voltage for efficient operation
High dV/dt and voltage ratings for demanding applications
Key Technical Parameters
Operating temperature range: -40°C to 100°C
Isolation voltage: 3750 Vrms
Forward voltage: 1.2 V (typical)
Static dV/dt: 1 kV/s (minimum)
Off-state voltage: 600 V (maximum)
Holding current: 300 A (typical)
LED trigger current: 5 mA (maximum)
On-state current: 70 mA (RMS, maximum)
Quality and Safety Features
Approved by BSI, CSA, and UL for quality and safety standards
Robust construction for reliable operation
Compatibility
Surface mount (4-SMD) package for easy integration into electronic designs
Application Areas
Switching and control applications
Industrial automation
Power supplies
Motor drives
Lighting systems
Product Lifecycle
The FODM3053R2 is an active product and is not nearing discontinuation.
Replacement or upgrade options may be available from onsemi.
Key Reasons to Choose This Product
Wide operating temperature range for use in diverse environments
High isolation voltage for safety in demanding applications
Robust triac/SCR output for reliable switching and control
Low forward voltage for efficient operation
High dV/dt and voltage ratings for use in challenging circuits
Approvals from leading safety and quality organizations
Surface mount package for easy integration into electronic designs