Packaging information
Package | Pins uSiP (SIL) | 10 |
Operating temperature range (°C) -40 to 125 |
Package qty | Carrier 3,000 | LARGE T&R |
Features for the TPSM265R1
- Wide input voltage range of 3 V to 65 V
- Output voltage options:
- Adjustable 1.223 V to 15 V
- Fixed 3.3 V or 5 V
- 100-mA output current
- 10.5-µA quiescent current
- ±1% internal voltage reference
- PFM mode of operation
- –40°C to 125°C ambient temperature range
- Active slew rate control for low EMI
- Meets CISPR11 (EN55011) EMI standards
- Monotonic start-up into prebiased output
- Power-good flag
- Precision enable and input UVLO with hysteresis
- Thermal shutdown protection with hysteresis
- 2.8-mm x 3.7-mm x 1.9-mm package
- Create a custom regulator design with the TPSM265R1 using WEBENCH Power Designer
Description for the TPSM265R1
The TPSM265R1 is a compact, easy-to-use module that operates over a wide input voltage range up to a maximum continuous input voltage of 65 V. The module fully integrates a controller, MOSFETs, and an output inductor. The module is designed to quickly and easily implement a power design in a small PCB footprint. There are two fixed output voltage options, 3.3 V and 5 V, and an adjustable output voltage option that can be adjusted from 1.223 V to 15 V. Each option has a load current rating of 100 mA. The TPSM265R1 operates in Pulse Frequency Modulation (PFM) mode, providing optimal efficiency at light loads. The control scheme does not require loop compensation, providing excellent line and load transient.
Although designed for small size and simplicity, the TPSM265R1 offers many features. Precision enable, adjustable UVLO, and hysteresis allow for specific power-up and power-down requirements. Selectable/adjustable start-up timing options include minimum delay (no soft start), internally fixed (900 µs), and externally programmable soft start via an external capacitor. An open-drain PGOOD indicator can be used for sequencing and output voltage monitoring. The very small 2.8-mm × 3.7-mm × 1.9-mm package is a good fit for space-constrained applications.