Parts, connectors & sensors
Texas Instruments TPS62162DSGR: PCB footprint and gate checks
Add Texas Instruments TPS62162DSGR to a PCB with real package, electrical, footprint, layout, sourcing, and MakeIRL manufacturing-gate guidance.
Practical PCB integration · KiCad 9 · Manufacturing gate
Define the exact Texas Instruments TPS62162DSGR before drawing the footprint
The Texas Instruments TPS62162DSGR is a fixed 3.3 V 1 A synchronous buck from Texas Instruments. Its package or board interface is 8-pin 2 × 2 mm WSON, and its relevant electrical envelope is 3–17 V input, fixed 3.3 V output, 1 A. It communicates or connects through synchronous buck with EN and power-save mode. Those fields belong together: substituting a familiar family name while changing package, voltage, sensing port, mount style, current class, or interface behavior can leave a PCB that passes ordinary net checks and still cannot be assembled or function safely.
TPS62162 is the fixed 3.3 V member of the TPS6216x family, removing an adjustable divider but retaining the compact high-frequency power stage.
Common uses include wide-input 3.3 V rails and battery and industrial sensor power. Start with the manufacturer drawing and recommended application, then record the exact ordering suffix alongside the KiCad symbol and footprint. This makes the library evidence reviewable when the part is re-sourced months later.
| Part | Texas Instruments TPS62162DSGR |
|---|---|
| Manufacturer | Texas Instruments |
| Function | fixed 3.3 V 1 A synchronous buck |
| Package | 8-pin 2 × 2 mm WSON |
| Electrical | 3–17 V input, fixed 3.3 V output, 1 A |
| Interface | synchronous buck with EN and power-save mode |
| Typical use 1 | wide-input 3.3 V rails |
| Typical use 2 | battery and industrial sensor power |
Footprint, placement, and support circuitry
- Use the exact IC land pattern and exposed-pad/via guidance. Place the input capacitor, high-side switch pins, diode where asynchronous, inductor, and output capacitor to minimize the hot-loop area.
- Keep the SW node compact and free of test points or broad copper that becomes an antenna. Route feedback from the quiet output after the inductor and away from SW, gate-drive, and inductor fields.
Use the fixed-output reference layout, keep the FB/output-sense connection quiet, and verify minimum input headroom near a discharged source.
- Select inductor saturation/current rating, switching frequency, compensation or feed-forward parts, input/output capacitors, and divider values from the manufacturer's equations and reference layout for the real voltage/current case.
- Check startup, enable, soft start, light-load mode, minimum on-time, duty cycle, and thermal behavior across input range. A copied module schematic is not enough when the PCB geometry controls stability and EMI.
Put the support components where their current, thermal, optical, RF, or measurement loops are actually short—not merely where ratsnest lines look tidy. Confirm pin one from the package view used in the datasheet, distinguish top view from mating face or bottom view, and check mask, paste, drill, courtyard, enclosure, and rework access independently. A correct copper pad pattern can still be a bad production footprint when the sensing opening, connector latch, exposed pad, thermal path, or cable volume is wrong.
Gate checks that matter for Texas Instruments TPS62162DSGR
MakeIRL’s release gate should not stop at “the symbol has the right number of pins.” For this part, a useful gate review combines ERC/DRC with the following package- and function-specific evidence:
- Check package pinout, exposed pad, hot-loop placement, switch-node size, inductor value and saturation, diode orientation where used, divider, compensation, and capacitor ratings.
- Check input/output polarity, feedback Kelvin route, ground partition and stitching, current capacity, thermal vias, and clearance from RF/analog circuits.
- Check exact IC suffix and switching frequency plus lifecycle; marketplace modules may not contain the IC advertised in their title.
- For Texas Instruments TPS62162DSGR, check DSG thermal pad, fixed 3.3 output code, 17 V limit, inductor, input/output caps, EN, power-save ripple, and thermal current.
Then run ERC and DRC, refill zones, and inspect the fabrication and assembly outputs. Cross-probe the exact pads named by any finding, compare the BOM MPN with the footprint and electrical limits above, and verify that a real cable, enclosure, antenna, sensor stimulus, load, or thermal path can be tested on the assembled unit. An exclusion is evidence that someone dismissed a marker; it is not evidence that the underlying condition was resolved.
Mistakes, alternates, and sourcing
The most expensive errors are usually plausible: a footprint from a sibling package, a breakout-board voltage copied to the bare IC, a headline current used without thermal analysis, or a connector family selected by pitch alone. For Texas Instruments TPS62162DSGR, review these failure modes explicitly:
- Populating an adjustable divider from a TPS62160 design onto TPS62162 can connect the fixed-sense pin incorrectly.
- Routing feedback under the inductor or beside SW, producing load-dependent ripple, jitter, or outright instability.
- Choosing an inductor by nominal current while ignoring saturation current and loss at the regulator's switching frequency.
Sourcing note. Specify TPS62162DSGR; do not allow other TPS6216x suffixes without reviewing fixed voltage, package, and current. The approved vendor list should preserve manufacturer, full suffix, package, voltage/range/accuracy grade, lifecycle, and mating or external components. An alternate is real only after its datasheet, land pattern, electrical behavior, firmware assumptions, and assembly process have all been compared—not because a distributor search places it in the same parametric row.
Check the design before fabrication
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