VL53L1X PCB Design Guide

flux

I’ll create a tiny rectangular breakout PCB for your VL53L1X. Here’s the plan:
  1. Add VL53L1X, wire SDA/SCL with pull-ups, VDD/GND with close decoupling; optionally expose INT/XSHUT.
  2. Add a compact connector or pads for I2C + power; name nets clearly.
  3. Place tightly, resize to a minimal rectangular board, auto-route.
  4. Run ERC/DRC and refine.
Click Start to run this. Let me know if you’d like any changes.
sovethan

sovethan

Start

flux

I’ll build your smallest practical rectangular VL53L1X breakout. Steps:
  1. Add VL53L1X, required passives, and expose VDD/GND/SDA/SCL (+ optional XSHUT/INT) on tiny pads.
  2. Place tightly per datasheet, resize to a compact rectangle, set narrow manufacturable rules.
  3. Auto-route, add ground pour, run ERC/DRC, finalize silks.
Click Start on the plan bar to execute. Let me know if you want a connector instead of pads.
Use pads only
Add a tiny connector
Check required passives
Current board size
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Documents

    Documents are markdown text files which describe project goals, capture details, or even simulation outputs.

    Assets

    kicad_mod

    ST_VL53L1x-FS.kicad_mod

    ST_VL53L1x-FS
    VL53L1CXV0FY1

    VL53L1CXV0FY1

    defaultDefault
    step

    ST_VL53L1x-3D.step

    ST_VL53L1x-3D3D Model
    VL53L1-removebg-preview (2).png

    VL53L1-removebg-preview (2).png

    VL53L1-removebg-preview (2)Thumbnail
    kicad_mod

    ST_VL53L1x-Footprint_V5.kicad_mod

    ST_VL53L1x-Footprint_V5Footprint

    VL53L1CXV0FY/1

    VL53L1CXV0FY/1 thumbnail
    Distance Optical Sensor 157.480" (4m) I²C Output #commonpartslibrary #sensor #distancesensor #integratedcircuit

    Properties

    Integrated Circuit

    STMicroelectronics

    VL53L1CXV0FY/1

    st.com/resource/en/datasheet/vl53l1x.pdf

    U

    creativecommons.org/licenses/by/4.0/

    Pricing & Availability

    Distributor

    Qty 1

    Controls