TPS650240RHBR
ActivePOWER MANAGEMENT IC (PMIC) FOR LI-ION POWERED SYSTEMS
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TPS650240RHBR
ActivePOWER MANAGEMENT IC (PMIC) FOR LI-ION POWERED SYSTEMS
Deep-Dive with AI
Technical Specifications
Parameters and characteristics for this part
| Specification | TPS650240RHBR |
|---|---|
| Battery Chemistry [custom] | Lithium Ion/Polymer |
| Fault Protection | Over Temperature, Under Voltage |
| Function | Power Management |
| Mounting Type | Surface Mount |
| Number of Cells | 1 |
| Operating Temperature [Max] | 85 C |
| Operating Temperature [Min] | -40 ¯C |
| Package / Case | 32-VFQFN Exposed Pad |
| Supplier Device Package | 32-VQFN (5x5) |
Pricing
Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly
| Distributor | Package | Quantity | $ | |
|---|---|---|---|---|
| Digikey | N/A | 0 | $ 3.30 | |
| Tape & Reel (TR) | 3000 | $ 2.87 | ||
| Texas Instruments | LARGE T&R | 1 | $ 3.92 | |
| 100 | $ 3.20 | |||
| 250 | $ 2.52 | |||
| 1000 | $ 2.13 | |||
Description
General part information
TPS650240 Series
The TPS65024x devices are integrated power management ICs for applications powered by one Li-Ion or Li-Polymer cell, which require multiple power rails. The TPS65024x provide three highly efficient, step-down converters targeted at providing the core voltage, peripheral, I/O, and memory rails in a processor-based system. All three step-down converters enter a low power mode at light load for maximum efficiency across the widest possible range of load currents. The converters can be forced into fixed-frequency PWM mode by pulling the MODE pin high.
The TPS65024x devices are integrated power management ICs for applications powered by one Li-Ion or Li-Polymer cell, which require multiple power rails. The TPS65024x provide three highly efficient, step-down converters targeted at providing the core voltage, peripheral, I/O, and memory rails in a processor-based system. All three step-down converters enter a low power mode at light load for maximum efficiency across the widest possible range of load currents. The converters can be forced into fixed-frequency PWM mode by pulling the MODE pin high.