Manufacturer Part Number
ILQ620-X009T
Manufacturer
Vishay Semiconductor - Opto Division
Introduction
High-performance four-channel optoisolator with transistor output
Product Features and Performance
50% minimum current transfer ratio at 5mA
Wide operating temperature range of -55°C to 100°C
High current transfer ratio up to 600% at 5mA
AC and DC input type
16-pin SMD package with gull wing leads
4 independent channels
20μs typical rise time, 2μs typical fall time
70V maximum output voltage
400mV maximum collector-emitter saturation voltage
60mA maximum forward current
50mA maximum output current per channel
5300Vrms isolation voltage
15V typical forward voltage
Product Advantages
High isolation voltage for safety
High current transfer ratio for reliable signal transmission
Wide operating temperature range for versatile applications
Small 16-pin SMD package for compact design
Key Technical Parameters
Current Transfer Ratio (Min): 50% @ 5mA
Current Transfer Ratio (Max): 600% @ 5mA
Operating Temperature: -55°C to 100°C
Input Type: AC, DC
Number of Channels: 4
Rise / Fall Time (Typ): 20μs, 2μs
Voltage Output (Max): 70V
Vce Saturation (Max): 400mV
Output Type: Transistor
Current DC Forward (If) (Max): 60mA
Current Output / Channel: 50mA
Voltage Isolation: 5300Vrms
Voltage Forward (Vf) (Typ): 1.15V
Turn On / Turn Off Time (Typ): 3μs, 2.3μs
Quality and Safety Features
RoHS3 compliant
High isolation voltage for safety
Compatibility
Surface mount design for easy integration into various electronic systems
Application Areas
Industrial control systems
Instrumentation
Medical equipment
Telecommunications equipment
Household appliances
Product Lifecycle
This product is an active and widely available part. No discontinuation or replacement information is available.
Several Key Reasons to Choose This Product
High isolation voltage for safety-critical applications
High current transfer ratio for reliable signal transmission
Wide operating temperature range for versatile use
Small SMD package for compact design
Multiple independent channels for efficient signal isolation