TPS562201 12V → 3.3V Buck Molecule

A 24 × 16 mm 4-pin power brick based on TI's TPS562201 synchronous buck converter. Takes 12 V in on the left-edge contacts, delivers 3.3 V at up to 500 mA on the right-edge contacts. Silicon is rated for 3 A so 500 mA sits at ~6× thermal headroom — the board runs cool under spec.

Shipping as an adom-tsci example, fully interactive in the Hydrogen webview (3D / PCB / Schematic / Parts tabs, Inspect + Measure tools, deterministic Walkthrough Demo).

Why this board exists

Most power-sourcing flows in Adom need a clean 3.3 V rail. Rather than re-inventing that on every new project, this is the reference molecule: drop it into a workcell layout, connect VIN and GND, pull 3.3 V off the output pins. Also serves as the canonical "simple DC-DC" example for anyone learning the tscircuit / adom-tsci stack.

The components

Ref	Value	Footprint	Role
U1	TPS562201	SOT-23-6	Synchronous buck. Internal MOSFETs, internal compensation, 580 kHz switching, 4.5–17 V input.
C1	10 µF / 25 V	0805	Input cap — absorbs VIN ripple when the high-side MOSFET switches on.
L1	2.2 µH shielded / 3 A	0805	Energy-transfer inductor. Ripple ≈ 30 % of Iout_max at 580 kHz — sweet spot between core size and filter burden.
C3	22 µF / 10 V	0805	Output cap — smooths the switching waveform, handles load steps.
C2	100 nF / 25 V	0402	Bootstrap cap — drives the high-side gate.
R1	45.3 kΩ (E96)	0402	Feedback-divider top.
R2	10 kΩ	0402	Feedback-divider bottom. `Vout = 0.596 × (1 + R1/R2) = 3.296 V` → exactly 3.3 V to one decimal.
R3	100 kΩ	0402	EN pull-up — rail is always-on. Replace with a GPIO trace if the host should gate the rail.

External pins (24 × 16 mm brick):

Left edge: VIN (12 V) and GND
Right edge: VCC (3.3 V) and GND

Two GND pins so the return path through a workcell jig is low-impedance on both sides.

Test points (probing workcell):

TP_VIN / TP_VCC — steady DC verification
TP_GND — reference
TP_SW — scope probe point. Carries the switching waveform (12 V → 0 V rectangles at 580 kHz). Fastest way to confirm the converter is running / stuck / oscillating.

Mouser BOM

Fort Worth drone delivery, Mouser-preferred per Adom sourcing defaults.

Ref	MPN	Mouser P/N	Stock	Unit @ 1
U1	TPS562201DDCR	595-TPS562201DDCR	27,479	$0.39
L1	Coilcraft XFL3012-222ME (2.2 µH / 3 A)	994-XFL3012-222ME	5k+	~$0.90
C1	10 µF 25 V X5R 0805 (jelly-bean)	any	10k+	~$0.30
C3	22 µF 10 V X5R 0805 (jelly-bean)	any	10k+	~$0.25
C2	100 nF 25 V X7R 0402	any	—	<$0.05
R1	45.3 kΩ 1 % 0402 (E96)	any	—	<$0.05
R2	10 kΩ 1 % 0402	any	—	<$0.05
R3	100 kΩ 1 % 0402	any	—	<$0.05

Rough BOM cost: ~$2.00 in singles, ~$1.25 at 100×. All parts Mouser-stocked, Fort Worth drone-deliverable in 40 min.

Running it locally

# clone adom-tsci (or install from the wiki) and launch the example
git clone https://github.com/adom-inc/adom-tsci
cd adom-tsci/examples/TPS562201-12V-to-3V3-Molecule
bun install
adom-tsci start . --port 8889
# A Hydrogen webview tab opens showing 3D / PCB / Schematic / Parts.

Or directly against the installed adom-tsci:

adom-tsci start ~/project/adom-tsci/examples/TPS562201-12V-to-3V3-Molecule --port 8889

Design review notes

Vref is 0.596 V, not 0.8 V like some TI bucks. If you swap R1/R2 to retune, use this ratio: Rtop/Rbot = (Vout / 0.596) − 1.
EN pulled high via 100 kΩ — rail is always-on. If you need GPIO-gated startup, break R3 and route EN to a host pin. Add a 100 nF cap from EN to GND if the control signal is noisy.
Bootstrap cap on SW ↔ VBST is required, not optional. The high-side MOSFET gate driver is charge-pumped from this cap. Don't omit.
The two GND pins aren't just aesthetic — they pair with VIN and VCC on opposite edges so a jig fixture can route both sides' return current independently. Keeps ground loops out of whatever signal chain is sharing the workcell.

Changelog

v1.0.0 (2026-04) — initial ship: 3.3 V @ 500 mA, 45.3 k / 10 k divider (exact 3.30 V), 4-pin brick, 4 testpoints, bottom-silk ID card. Provenance-stamped walkthrough.

Source

adom-inc/adom-tsci · examples/TPS562201-12V-to-3V3-Molecule