Manufacturer Part Number
IRS2183STRPBF
Manufacturer
infineon-technologies
Introduction
The IRS2183STRPBF is a high-voltage, high-performance half-bridge gate driver designed for IGBT and N-Channel MOSFET applications, offering efficient power management within electronic circuits.
Product Features and Performance
Designed for half-bridge circuit configurations
Independent channel operation
Capable of driving IGBT and N-Channel MOSFET gates
10V to 20V supply voltage range
Logic input thresholds: VIL 0.8V, VIH 2.5V
High peak output current: Source 1.9A, Sink 2.3A
Supports inverting and non-inverting inputs
High side voltage capability up to 600V (Bootstrap)
Fast rise and fall times: 40ns/20ns respectively
Wide operating temperature range: -40°C to 150°C
Product Advantages
Enhanced power efficiency and reliability for half-bridge circuits
High-voltage support enables versatile applications
Fast switching times improve overall performance
Robust against temperature fluctuations
Key Technical Parameters
Gate Type: IGBT, N-Channel MOSFET
Voltage Supply: 10V ~ 20V
Logic Voltage VIL, VIH: 0.8V, 2.5V
Current Peak Output: 1.9A (Source), 2.3A (Sink)
High Side Voltage Max (Bootstrap): 600 V
Rise / Fall Time (Typ): 40ns / 20ns
Operating Temperature: -40°C ~ 150°C
Quality and Safety Features
Integrated under-voltage lockout for improved safety
Over-temperature protection features
Compatibility
Compatible with a wide range of IGBT and N-Channel MOSFET devices
Application Areas
Ideal for use in motor drives, inverters, SMPS, and other power conversion and management applications
Product Lifecycle
Current product status: Active
Continuously supported, with no immediate plans for discontinuation
Several Key Reasons to Choose This Product
High-voltage capability maximizes application flexibility
Fast switching improves efficiency and reduces power loss
Robust design ensures reliability under a wide range of conditions
Infineon Technologies' reputation for quality and performance
Active product status ensures ongoing support and availability