The digital audio amplifier driver integrates two high-voltage Class D audio driver channels with PWM modulator and protection functions. It supports half-bridge topology with floating analog inputs, programmable over-current protection, programmable dead-time generation, clipping detection, and under-voltage protection. Recommended low-side supply operation is 10 V to 15 V, high-side floating supply operation is 10 V to 14 V above the switch node, and ambient operating temperature spans -40 °C to 125 °C. The device is supplied in a compact MLPQ-48 7 mm by 7 mm package and is lead-free and RoHS compliant.
Checking distributor stock and pricing after the page loads.
Sign in to ask questions about the Infineon IRS2052M datasheet using AI. Get instant answers about specifications, features, and technical details, ideal for finding information in larger documents.
Sign In to ChatWidest selection of semiconductors and electronic components in stock and ready to ship ™
| Product Type | Digital audio amplifier driver |
| Amplifier Class | Class D |
| Channels | 2 |
| Topology | Half-bridge |
| Low-Side Supply Voltage | 10 to 15V |
| High-Side Floating Supply Voltage | VS + 10 to VS + 14V |
| Floating Input Supply Voltage | VSS + 4.5 to VSS + 15V |
| High-Side Floating Supply Offset Voltage | 200 maxV |
| Switching Frequency | 800 maxkHz |
| Operating Ambient Temperature | -40 to 125°C |
| Power Supply Rejection Ratio | 65dB |
| VCC UVLO Positive Threshold | 8.9 typV |
| Reference Output Voltage | 5.1 nominalV |
| Moisture Sensitivity Level | MSL 2 |
| Package | MLPQ-48, 7 mm x 7 mm |
| Packaging Quantity | 3000pieces |
| RoHS | Compliant |
| Lead Free | Yes |
Download the complete datasheet for Infineon IRS2052M to view detailed technical specifications.
The embedded preview will load automatically when this section scrolls into view.
These are design resources that include the Infineon IRS2052M
2-channel 300W/ch Class D audio amplifier reference design using the IRS2052M controller and IRF6775 DirectFET MOSFETs for high-efficiency audio applications.
