Texas Instruments
TPS71501MDCKREP
TPS71501MDCKREP
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TPS71501MDCKREP Texas Instruments - Yeehing Electronics
Enhanced product, 50-mA, 24-V, 3.2-uA supply current, low-dropout linear regular
Pricing (USD)
| Quantity | Unit Price |
| 1 — 99 | 2.4 |
| 100 — 249 | 2.103 |
| 250 — 999 | 1.474 |
| 1,000 + | 0.69 |
The above prices are for reference only.
Specifications
| Manufacturer | Texas Instruments |
| Product Category | LDO Voltage Regulators |
| RoHS | Y |
| Mounting Style | SMD/SMT |
| Package / Case | SC70-5 |
| Output Voltage | 1.2 V to 15 V |
| Output Current | 50 mA |
| Number of Outputs | 1 Output |
| Polarity | Positive |
| Input Voltage MAX | 24 V |
| Input Voltage MIN | 2.5 V |
| Output Type | Adjustable |
| Minimum Operating Temperature | - 55 C |
| Maximum Operating Temperature | + 125 C |
| Dropout Voltage | 415 mV |
| Series | TPS71501-EP |
| Packaging | Reel |
| Height | 0.9 mm |
| Length | 2 mm |
| Operating Temperature Range | - 55 C to + 125 C |
| Width | 1.25 mm |
| Brand | Texas Instruments |
| Dropout Voltage - Max | 750 mV at 50 mA |
| Voltage Regulation Accuracy | 6.25 % |
| Ib - Input Bias Current | 3.2 uA |
| Line Regulation | 20 mV |
| Load Regulation | 22 mV |
| Operating Supply Current | 3 uA |
| Pd - Power Dissipation | 0.32 W |
| Product Type | LDO Voltage Regulators |
| Reference Voltage | 1.205 V |
| Factory Pack Quantity | 3000 |
| Subcategory | PMIC - Power Management ICs |
| Part # Aliases | V62/08619-01XE |
| Unit Weight | 0.000705 oz |
For more information, please refer to datasheet
Documents
| TPS71501MDCKREP Datasheet |
More Information
The TPS71501 low-dropout (LDO) voltage regulators offer the benefits of high input voltage, low dropout voltage, low-power operation, and miniaturized packaging. The device, which operates over an input range of 2.5 V to 24 V, is stable with any capacitor (≥0.47 µF). The low dropout voltage and low quiescent current allow operation at extremely low power levels. Therefore, the devices are ideal for powering battery-management ICs. Specifically, because the devices are enabled as soon as the applied voltage reaches the minimum input voltage, the output is quickly available to power continuously operating battery-charging ICs.
