Packaging information
Package | Pins VSON (DRC) | 10 |
Operating temperature range (°C) -40 to 125 |
Package qty | Carrier 3,000 | LARGE T&R |
Features for the TPS62406-Q1
- Qualified for automotive applications
- AEC-Q100 qualified with the following results:
- Device temperature grade 1: –40°C to 125°C operating junction temperature range
- Device HBM ESD classification level 2
- Device CDM ESD classification level C4B
- High efficiency—up to 95%
- VIN range from 2.5 V to 6 V
- 2.25-MHz fixed-frequency operation
- Output current TPS62406-Q1 1000 mA/400 mA
- Output current TPS62407-Q1 400 mA/600 mA
- Output current TPS62422-Q1 1000 mA/600 mA
- Output current TPS62423-Q1 800 mA/800 mA
- Output current TPS62424-Q1 800 mA/800 mA
- Fixed output voltages
- EasyScale™ optional one-pin serial interface
- Power save mode at light load currents
- 180° out-of-phase operation
- Output-voltage accuracy in PWM mode ±1%
- Typical 32-µA quiescent current for both converters
- 100% duty cycle for lowest dropout
Description for the TPS62406-Q1
The TPS624xx-Q1 family of devices are synchronous dual step-down DC-DC converters for Automotive applications such as Advanced Driver Assistance Systems (ADAS). They provide two independent output voltage rails powered by a standard 3.3-V or 5-V voltage rail, with fixed output voltages optimized for powering the CMOS imager or serializer-deserializer in ADAS camera modules.
The EasyScale™ serial interface allows output-voltages modification during operation. The fixed-output-voltage versions TPS624xx-Q1 support one-pin-controlled simple dynamic voltage scaling for low-power processors.
The TPS624xx-Q1 family of devices operates at 2.25-MHz fixed switching frequency and enters the power-save mode operation at light load currents to maintain high efficiency over the entire load-current range. For low-noise applications, one can force the devices into fixed-frequency PWM mode by pulling the MODE/DATA pin high. The shutdown mode reduces the current consumption to 1.2-µA, typical. The devices allow the use of small inductors and capacitors to achieve a small solution size.