With an input operating voltage range from 3 V to 36 V and rated output current up to 8 A, the TLVM13610 synchronous buck power modules provides flexibility, scalability, and optimized solution size for a wide range of applications. With integrated power MOSFETs, buck inductor and PWM controller, these modules enable DC/DC solutions with high density, low EMI, and ease of design.
| DC/DC MODULE | RATED IOUT | PACKAGE | DIMENSIONS | FEATURES | EMI MITIGATION |
|---|---|---|---|---|---|
| TLVM13610 | 8A | B3-QFN (22) | 6.5 × 7.5 (mm) | RT adjustable FSW | Slew-rate control, integrated input, VCC and BOOT capacitors |
The TLVM13610EVM uses the TLVM13610 easy-to-use synchronous buck module IC with an output voltage range of 1 V to 9 V and an output current up to 8 A. The default output voltage of the EVM is set to 5 V can be adjusted to 3.3 V through a jumper setting.
The solution supports adjustable input voltage UVLO for application-specific power-up and power-down requirements, PGOOD indicator for sequencing and output voltage monitoring, and is set to AUTO mode for high efficiency at light-load applications.
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The TLVM13610EVM features the TLVM13610 synchronous buck power module configured for operation with typical 3-V to 36-V input bus applications. This wide-VIN range DC/DC solution offers outsized voltage rating and operating margin to withstand supply-rail voltage transients.
The output voltage can be set to either 3.3 V or 5 V and switching frequency can each be set to one of five popular values (400 kHz, 700 kHz, 1 MHz, 1.4 MHz, and 2.2 MHz) by using configuration jumpers. Additionally, a resistor placeholder footprint is on the backside of the EVM to allow adjustment of the switching frequency outside of the five jumper settings.
The EVM provides the full 8-A output current rating of the device. The selected input and output capacitors accommodate the entire range of input voltage and the selectable output voltages on the EVM and are available from multiple component vendors. Input and output voltage sense terminals and a test point header facilitate measurement of the following: