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Kionix Productdetail


Tri-Axis, User Selectable ± 2g, 4g, 6g, 8g, Digital (I²C) Output, 3x3x0.9mm LGA - KXCNL-1010

The KXCNL is a dual user-programmable state machine device that provides users with unmatched flexibility and user-programmability. Designed for mobile applications, it contains two programmable interrupt pins that enable the device to run multiple applications at the same time, at the chip level, taking significant processing load off the system’s main applications processor and conserving power. The KXCNL is delivered in a 3 x 3 x 0.9 mm, 16-pin LGA package with an operating temperature range of -40°C to +85°C. The KXCNL sensor offers improved shock, reflow, and temperature performance, and the ASIC has an internal voltage regulator that allows operation from 1.7 V to 3.6 V within the specified product performance. In addition, Kionix is providing a library of pre-written state programs, while still allowing customers to write their own state programs if they choose.


  • Dual User-programmable State Machines
  • Unmatched User Flexibility and Programmability
  • Low Power
  • Low Noise

Product Specifications

Axis G Range Sensitivity Noise (µg/√Hz) Resolution Package Size Pins Package Type Interface Output Wakeup Operating Temperature (Min.)[°C] Operating Temperature (Max.)[°C] Supply Voltage [V] Current Consumption
3 2g, 4g, 6g, 8g 1024, 512, 341, 256 (12-bit) - 12-bit 3x3x0.9mm 16-pin LGA Digital (I²C) No -40 85 1.8-3.6 8-250µA


EVAL-KXCNL-1010 Cart KXCNL-1010 Evaluation Board Board Layout
Board Schematic

Developer Tools

Buy Now Description
IoT Evaluation and Development Kit Cart Kionix's IoT evaluation kit utilizes hardware platform based on Nordic Semiconductor's Bluetooth LE SoC. The compact (27/32mm x 4.2mm), highly integrated modular sensor system integrates Kionix's accelerometer (KX122-1037), combo accel-mag (KMX62-1031), and combo accel-gyro (KXG07) sensors along with ROHM's barometric pressure sensor (BM1383AGLV). Additional sensors can be evaluated using the add-on board that can fit inside the kit. This enables measurement of 3D acceleration, 3D magnetism, 3D rotation, air pressure, and temperature, making it ideal for training, prototyping, and initial set development of IoT and wearable applications.