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| Display |
Title/Parts |
Key Advantages |
| QV PDF |
2.2MHz, 3A Buck or Boost Converters with an Integrated High-Side Switch MAX15036, MAX15037

| 2.2MHz, High Switching Frequency, DC-DC Converters Deliver Up to 3A |
| QV PDF |
MAX5089 Evaluation Kit MAX5089EVKIT

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| QV PDF |
2A, 76V, High-Efficiency MAXPower Step-Down DC-DC Converters MAX5090, MAX5090A, MAX5090B, MAX5090C

| Designed to Withstand Harsh Automotive Environments |
| QV PDF |
Evaluation Kit for the MAX8544 MAX8544EVKIT

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| QV PDF |
Step-Down Controllers with Prebias Startup, Lossless Sensing, Synchronization, and OVP MAX8543, MAX8544

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| QV PDF |
Dual-Phase, +0.6V to +3.3V Output Parallelable, Average-Current-Mode Controllers MAX5065, MAX5067

| Dual-Phase, +0.6V to +3.3V Output, Parallelable, Average-Current-Mode Controllers |
| QV PDF |
Dual-Phase, Parallelable, Average-Current-Mode Controllers MAX5038A, MAX5041A

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| QV PDF |
2.2MHz, 2A Buck Converters with an Integrated High-Side Switch MAX5088, MAX5089

| Up to 2.2MHz Switching Frequency Prevents Harmonics from Interfering in the ADSL2+ and Automotive AM Radio Frequency Bands |
| QV PDF |
1A, 76V, High-Efficiency MAXPower Step-Down DC-DC Converter MAX5035

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| QV PDF |
High-Speed Step-Down Controller for Notebook Computers MAX1714, MAX1714A, MAX1714B

| Low-Cost, Ultra-Fast, 1%-Accurate Controllers Power Next-Generation Notebook CPU Core and I/O |
| QV PDF |
High-Speed, Digitally Adjusted Step-Down Controllers for Notebook CPUs MAX1710, MAX1711, MAX1712

| Digitally Adjustable Step-Down Controller Powers 12A Mobile Processors with Only Four Output Capacitors |
| QV PDF |
Miniature, Low-Voltage, Precision Step-Down Controller MAX1637

| Low-Voltage, Precision Step-Down Controller for Portable CPU Power |
| QV PDF |
Low-Voltage, Precision Step-Down Controller for Portable CPU Power MAX1636

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| QV PDF |
Multi Output, Low-Noise Power Supply Controllers for Notebook Computers MAX1630, MAX1631, MAX1632, MAX1633, MAX1634, MAX1635

| Notebook Power Controllers Offer the Highest Performance and the Smallest Size through the Highest Level of Integration |