Pin Function Grouping Assistance

adrian95

adrian95

Looking at the datasheet of this component, can you group together pins by their functions? for example for Power, 3v3, gnd_1 gnd_2 etc NOTE: If you group them, can you not add the same pin if you already added them in a group? You should know which pin function is common for its function

flux

Done — I grouped each terminal exactly once based on the datasheet pin functions: Power = VIN + 3.3V, Ground = both GND pins, Interface = SCL/SDA/SDO/CS, Control = INT1/INT2, and Mechanical = mounting pins. I also set matching pin types, pin groups, short descriptions, orientations, and sub-symbol suffixes.
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Set Pin Type to "Power In" on VIN, Set Section to "Power" on VIN and 3.3V, and 35 more changes

0:01

Set VIN's Pin Type to "Power In"

Set VIN's Section to "Power"

Set VIN's Pin Group to "VIN"

Set VIN's Pin Description to "Regulator input / logic level"

Set VIN's Sub-symbol Designator Suffix to "Power"

Set VIN's Pin Orientation to "Top"

Set 3.3V's Pin Type to "Power Out"

Set 3.3V's Section to "Power"

Set 3.3V's Pin Group to "3V3"

Set 3.3V's Pin Description to "3.3V regulator output"

Set 3.3V's Sub-symbol Designator Suffix to "Power"

Set 3.3V's Pin Orientation to "Right"

Set GND's Pin Type to "Ground"

Set GND's Section to "Ground"

Set GND's Pin Group to "GND"

Set GND's Pin Description to "Ground return"

Set GND's Sub-symbol Designator Suffix to "Power"

Set GND's Pin Orientation to "Bottom"

Set GND's Pin Type to "Ground"

Set GND's Section to "Ground"

Set GND's Pin Group to "GND"

Set GND's Pin Description to "Ground return"

Set GND's Sub-symbol Designator Suffix to "Power"

Set GND's Pin Orientation to "Bottom"

Set SCL's Pin Type to "Bi-Directional"

Set SCL's Section to "Communication"

Set SCL's Pin Group to "I2C/SPI"

Set SCL's Pin Description to "I2C clock / SPI SCK"

Set SCL's Sub-symbol Designator Suffix to "Interface"

Set SCL's Pin Orientation to "Left"

Set SDA/SDIO's Pin Type to "Bi-Directional"

Set SDA/SDIO's Section to "Communication"

Set SDA/SDIO's Pin Group to "I2C/SPI"

Set SDA/SDIO's Pin Description to "I2C data / SPI MOSI"

Set SDA/SDIO's Sub-symbol Designator Suffix to "Interface"

Set SDA/SDIO's Pin Orientation to "Left"

Set SDO's Pin Type to "Bi-Directional"

Set SDO's Section to "Communication"

Set SDO's Pin Group to "I2C/SPI"

Set SDO's Pin Description to "SPI MISO / I2C address"

Set SDO's Sub-symbol Designator Suffix to "Interface"

Set SDO's Pin Orientation to "Left"

Set CS's Pin Type to "Input"

Set CS's Section to "Control"

Set CS's Pin Group to "Mode Select"

Set CS's Pin Description to "SPI chip select / mode"

Set CS's Sub-symbol Designator Suffix to "Interface"

Set CS's Pin Orientation to "Left"

Set INT1's Pin Type to "Output"

Set INT1's Section to "Control"

Set INT1's Pin Group to "Interrupt"

Set INT1's Pin Description to "Interrupt output 1"

Set INT1's Sub-symbol Designator Suffix to "Control"

Set INT1's Pin Orientation to "Right"

Set INT2's Pin Type to "Output"

Set INT2's Section to "Control"

Set INT2's Pin Group to "Interrupt"

Set INT2's Pin Description to "Interrupt output 2"

Set INT2's Sub-symbol Designator Suffix to "Control"

Set INT2's Pin Orientation to "Right"

Set MOUNTING 1's Pin Type to "Passive"

Set MOUNTING 1's Section to "Mechanical"

Set MOUNTING 1's Pin Group to "Mounting"

Set MOUNTING 1's Pin Description to "Mounting hole"

Set MOUNTING 1's Sub-symbol Designator Suffix to "Mechanical"

Set MOUNTING 1's Pin Orientation to "Bottom"

Set MOUNTING 2's Pin Type to "Passive"

Set MOUNTING 2's Section to "Mechanical"

Set MOUNTING 2's Pin Group to "Mounting"

Set MOUNTING 2's Pin Description to "Mounting hole"

Set MOUNTING 2's Sub-symbol Designator Suffix to "Mechanical"

Set MOUNTING 2's Pin Orientation to "Bottom"

Set MOUNTING 3's Pin Type to "Passive"

Set MOUNTING 3's Section to "Mechanical"

Set MOUNTING 3's Pin Group to "Mounting"

Set MOUNTING 3's Pin Description to "Mounting hole"

Set MOUNTING 3's Sub-symbol Designator Suffix to "Mechanical"

Set MOUNTING 3's Pin Orientation to "Bottom"

Set MOUNTING 4's Pin Type to "Passive"

Set MOUNTING 4's Section to "Mechanical"

Set MOUNTING 4's Pin Group to "Mounting"

Set MOUNTING 4's Pin Description to "Mounting hole"

Set MOUNTING 4's Sub-symbol Designator Suffix to "Mechanical"

Set MOUNTING 4's Pin Orientation to "Bottom"

Sign up to send
GND
INT1
INT2
3.3V
MOUNTING 1
CS
MOUNTING 3
GND
SCL
MOUNTING 4
MOUNTING 2
SDA/SDIO
SDO
VIN
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ADXL345

ADXL345 thumbnail
ADXL345 iMEMS® Accelerometer, 3 Axis Sensor Evaluation Board
The ADXL345 measures acceleration in three axes (X, Y, Z) and outputs digital data via either I²C or SPI interfaces. It is widely used in applications like tilt sensing, vibration monitoring, free-fall detection, and motion-based user interfaces. Its high resolution (up to 13-bit) allows it to detect very small changes in motion, making it suitable for both consumer electronics and industrial applications.
Key Features 3-axis acceleration measurement (X, Y, Z) Selectable measurement ranges: ±2g, ±4g, ±8g, ±16g High resolution (13-bit) with up to 4 mg/LSB sensitivity Digital output interfaces: I²C and SPI Low power consumption: ideal for battery-powered devices Built-in motion detection functions: Tap and double-tap detection Free-fall detection Activity and inactivity monitoring Wide bandwidth range: supports various data rates for different applications Operating voltage: typically 2.0V to 3.6V Compact package: small LGA form factor suitable for space-constrained designs Common Applications Smartphones and tablets (screen rotation, motion sensing) Wearable devices and fitness trackers Gaming controllers Robotics and drones Vibration and shock monitoring systems
#commonpartslibrary #developmentboard #evaluationboard #sensor

Properties

Development Board

Adafruit Industries LLC

1231

cdn-learn.adafruit.com/downloads/pdf/adxl345-digital-accelerometer.pdf

U

creativecommons.org/licenses/by/4.0/

parametric-v1

Pricing & Availability

Distributor

Qty 1

Controls