1.3 Stencil Types & Thickness
Laser-cut,The
step,stencil nano-coatings—anddefines how solder paste enters the thicknessassembly rulesprocess, thatmaking fit your component mix.
Stencil choice isit one of the earliest—and most permanent—decisionscritical youenablers makeof inprint SMTquality. printing,Its material, thickness, and itsurface lockstreatments inset yourthe baseline for paste transfer efficiency beforeacross theevery firstcomponent boardfootprint, hitsfrom theultrafine line.BGAs Theto rightbulky matchthermal ofpads. A well-chosen stencil balances these competing needs through foil type, thickness,step-downs or step-ups, and optional stepnano-coatings, orensuring nanoclean treatments has to serve the smallest apertures on the board without starving larger pads, while surviving production cleaning cyclesreleases and printerconsistent setup quirks. Laser-cut stainless works for most builds, electroformed nickel shines on fine-pitch or low-area ratios, step stencils balance mixed needs, and nano-coatings help paste release stay cleandeposits over long runs. ThicknessLocking isthis setdecision byearly yourstabilizes tightestdownstream pitch,printing, then adapted with local step-ups/downs for thermal pads or paste-in-hole. Get the foil right now,inspection, and apertureyield design, printer setup, and SPI control become far easier to tune in the following steps.
1.3.1 What kind of stencil do you actually need?
Pair type + aperture design (next section) + printer setup/cleaning (7.5) to make printing boring—in the best way.
1.3.2 How thick? (choose by the hardest part on the board)
Start with the tightest pitch / smallest aperture you must print well; everything else adapts (with steps or shapes). Use these as starting points, then prove with SPI.
If one foil can’t satisfy everything, step stencil beats compromising on the base. We’ll prove it at SPI and iterate apertures in 7.4, then lock cleaning/pressure in 7.5, and control it with SPC in 7.6.
1.3.3 Step-stencil rules (so the squeegee doesn’t launch the paste)
- Keep steps away from tiny apertures. Aim for ≥ 3–5 mm of flat land between a step edge and fine-pitch features.
- Ramp with the stroke. Align long step edges so the squeegee climbs/descends along, not across, the ramp.
- Mind the delta. Step depths of 25–75 µm are common; bigger jumps need longer ramps to avoid scooping.
- Mark it. Put the step map on the drawing and in the stencil spec inside your Golden Pack so setup & cleaning teams don’t guess.
1.3.4 Nano-coating: when it earns its keep
Choose it when you’ve got tight area ratios or long runs with minimal cleaning. Expect: cleaner release (better SPI transfer efficiency), fewer bridging/tail issues at fine pitch, and longer stable open time. Pair with gentler wet/vac cycles in 7.5 so you don’t scrub the coating off early.
1.3.5 Frame choices & logistics (boring, but they bite)
- Framed (mesh-mounted): rigid, consistent tension; great for mainline.
- Frameless foils (tension systems): cheaper to ship/store; nice for quick turns and variants—just mind tension settings and gasket health.
- Label it like a part. Put foil ID, thickness, step map rev on the frame and in the stencil cabinet log. It’s part of your controlled tooling set (shows up in 7.5 cleaning WIs and 7.6 SPC).
1.3.6 Ties to the next pages (what you’ll tune there)
- Apertures: area/aspect ratios, window-pane, home-plate, chimney—your transfer efficiency levers live in 7.4.
- Printer setup: squeegee angle/pressure/speed and understencil cleaning cycles in 7.5 keep the same foil stable across shifts.
- SPI closed loop: 7.6 sets volume/height/area limits and auto-adjusts print to hold your window.
1.3.7 Release checklist (stick this in the stencil drawer)
- Foil type chosen (laser SS / electroformed Ni) and nano decision made.
- Base thickness matches the tightest pitch on the board.
- Step map (if used) shows depths, ramps, and keepouts—aligned with squeegee stroke.
- Aperture rules documented (pointer to 7.4); printer setup/cleaning notes linked (7.5).
- SPI targets and closed-loop enabled (7.6).