TPSM65660
65V, 6A high-power density buck module with mitigated interference and noise technology
TPSM65660
- Wide input voltage range: 3.5V to 65V
- 1% accurate, fixed 3.3V or 5V, or adjustable VOUT from 0.8V to 24V
- Easy-to-use high power density design
- 7.2mm × 7.7mm × 3.8mm Enhanced HotRod™ QFN package with an exposed 3.3µH inductor
- Integrated VCC, BST, and high-frequency bypass capacitors reduce design size
- Easy design and layout with minimal BOM
- Internal compensation, OCP, and TSD
- RθJA = 18°C/W (TPSM65660EVM)
- High-efficiency power conversion
- > 92% peak efficiency, 24VIN to 5VOUT, 400kHz
- VIN sleep quiescent current as low as 1.8µA
- Mitigated interference and noise technology - architecture 2 (MINT 2)
- Facilitates CISPR 11 or 32 Class B compliance
- Enhanced HotRod QFN package with symmetrical pinout, internal bypass capacitors, and low loop inductance
- Spread Spectrum (DRSS) and switching slew-rate control reduce peak emissions
- Switching frequency from 300kHz to 2.2MHz
- AUTO or FPWM or SYNC operation
- Low minimum on time: 36ns (typical)
The TPSM656x0 is a synchronous, buck DC/DC power module offered from a family of modules with mitigated interference and noise technology using architecture 2 features (MINT 2) that combines a controller, power MOSFETs, and a power inductor in a 31-pin enhanced HotRod QFN package for easy implementation of high-efficiency, high power density, low electromagnetic interference (EMI) designs. The modules operate over a wide input voltage range of 3.5V to 65V simplifying input surge protection design.
Phase stackable with synchronized interleaving, the peak current-mode control architecture of the TPSM656x0 supports accurate current sharing with paralleled phases for higher output currents. Auto mode enables frequency foldback during light-load operation, giving high light-load efficiency, which extends run-time in battery-powered systems.
A high-side switch minimum on-time of 36ns facilitates large step-down ratios, enabling the direct conversion from 24V or 48V inputs to low-voltage rails for reduced system cost and complexity. The package has several NC pins between critical power pins, improving the Failure Modes and Effects Analysis (FMEA) results.
The TPSM656x0 includes several features to simplify compliance with CISPR 11 and CISPR 32 emissions requirements. First, a symmetrical pinout provides excellent input capacitor placement and, together with integrated high-frequency input capacitors, enables an ultra-low effective value for the power-loop parasitic inductance, which reduces switching losses and improves EMI performance at high input voltage and high switching frequency. A pin-selectable switch-node slew-rate control feature further reduces emissions at high frequencies. To lower input capacitor ripple current and EMI filter size, interleaved operation using a SYNCOUT signal with 180° phase shift works well for cascaded, multichannel or multiphase designs. Resistor-adjustable switching frequency as high as 2.2MHz can be synchronized to an external clock source to eliminate beat frequencies in noise-sensitive applications. Finally, the TPSM656x0 has dual-random spread spectrum (DRSS), which is a unique EMI-reduction feature that combines low-frequency triangular and high-frequency random modulations to mitigate disturbances across lower and higher frequency bands, respectively.
Additional features of the TPSM656x0 include 150°C maximum junction temperature operation, open-drain power-good (PG) indicator for fault reporting and output voltage monitoring, precision enable input for input UVLO protection, monotonic start-up into prebiased loads, dual-input VCC bias subregulator powered from VIN or BIAS, hiccup-mode overload protection, and thermal shutdown protection with automatic recovery.
The TPSM656x0 comes in a 4.2mm × 7.7mm, thermally enhanced, 31-pin eQFN package with additional pin clearance for increased reliability. Leveraging a flip-chip routable leadframe (FCRLF) packaging technique, the TPSM656x0 with useable current, lifetime reliability, and cost advantages targets applications requiring high power density. The wide input voltage range, low quiescent current consumption, high-temperature operation, cycle-by-cycle current limit, low EMI signature, and small design size provide an excellent point-of-load regulator design for applications requiring enhanced robustness and durability.
Technical documentation
| Top documentation | Type | Title | Format options | Date |
|---|---|---|---|---|
| * | Data sheet | TPSM656x0 65V, 6A/4A, Synchronous Buck DC/DC Power Module Family With Mitigated Interference and Noise Technology (MINT 2) datasheet | PDF | HTML | 17 Jun 2026 |
| EVM User's guide | TPSM65660 Evaluation Module | PDF | HTML | 12 Jun 2026 |
Design & development
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TPSM65660EVM — TPSM65660 evaluation module
The TPSM65660EVM evaluation module (EVM) helps designers evaluate the operation and performance of the TPSM65660 IC of wide input voltage buck modules.
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