Manufacturer Part Number
IRS21814STRPBF
Manufacturer
infineon-technologies
Introduction
The IRS21814STRPBF is a high-performance, half-bridge gate driver specifically designed for IGBT and N-Channel MOSFET power devices. It is packaged in a 14-SOIC format, available on a tape and reel.
Product Features and Performance
Driven Configuration: Half-Bridge
Channel Type: Independent
Number of Drivers: 2
Gate Type Supported: IGBT, N-Channel MOSFET
Non-Inverting Input Type
High Side Voltage Max (Bootstrap): 600 V
Rise Time (Typ): 40ns
Fall Time (Typ): 20ns
Voltage Supply: 10V to 20V
Logic Voltage VIL, VIH: 0.8V, 2.5V
Current Peak Output (Source, Sink): 1.9A, 2.3A
Product Advantages
Specifically optimized for efficiency and reliable operation in half-bridge motor driver applications.
High current capability and fast switching times improve overall system performance.
High operating temperature range ensures stability under varying environmental conditions.
Key Technical Parameters
Voltage Supply Range: 10V ~ 20V
Logic Voltage VIL, VIH: 0.8V, 2.5V
Current Peak Output (Source, Sink): 1.9A, 2.3A
Bootstrap Maximum Voltage: 600 V
Operating Temperature Range: -40°C ~ 150°C
Quality and Safety Features
Built-in under-voltage lockout for lower voltage safety
Overtemperature shutdown provides thermal protection
Robust design suitable for rigorous industrial applications
Compatibility
Compatible with a wide range of IGBT and N-Channel MOSFETs
Suitable for multiple gate drive configurations
Application Areas
Motor Drive & Control
Power Supplies
Converters
Renewable Energy Systems
Inverters
Product Lifecycle
Status: Active
No immediate discontinuation is announced
Continual support and updates available
Several Key Reasons to Choose This Product
High Voltage (600 V) handling capacity suitable for high power applications
Enhanced robustness with temperature and electrical protection features
Flexible supply voltage range (10V to 20V) accommodating different power setups
Quick response times (40ns rise and 20ns fall) boosting device efficiency
Dual independent drivers cater to complex control strategies in applications