KXCNL Accelerometer 3x3x0.9mm Accelerometer with Dual State Machines FEATURES Small Package - 3x3x0.9mm, 16-pin LGA User-selectable g Range and Output Data Rate 8-bit and 12-bit Resolution Low Power Consumption at 50 µA operating User-configurable wake-up function Digital I2C Lead-free Solderability Excellent Temperature Performance High Shock Survivability Factory Programmable Offset and Sensitivity Self-test Function PRODUCT OVERVIEW The KXCNL is a dual user-programmable state machine device that provides users with unmatched flexibility and userprogrammability. 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 3x3x0.9mm, 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. APPLICATIONS Freefall Detection Active/Inactive Monitoring Device Orientation Tap/Double-Tap recognition Gesture Recognition Pedometer/Activity Monitoring Motion-controlled User interface FOR Smartphones and Mobile Devices Laptops Gaming and Virtual Reality Health and Fitness KXCNL Accelerometer 3x3x0.9mm Accelerometer with Dual State Machines The performance parameters below are programmed and tested at 2.5 volts and T = 25°C. The device can accept supply voltages from 1.7V to 3.6V. Due to internal voltage regulators, there should be minimal change with supply voltage variations. PERFORMANCE SPECIFICATIONS PARAMETERS Range Sensitivity1 KXCNL-1010 CONDITION g ±2.0, ±4.0, ±6.0, ±8.0 User-selectable full-scale output range 1024 SC_1=0, SC_0=0 (± 2g) 512 SC_1=0, SC_0=1 (± 4g) 341 SC_1=1, SC_0=0 (± 6g) 256 SC_1=1, SC_0=1 (± 8g) mg/°C 0.2 -40°C to +85°C %/°C ±0.01 -40°C to +85°C Hz 3500 (xy) 1800 (z) typical -3dB Hz 3.125 min; 100 typical; 1600 max Hz ODR/2 % of FS 0.5 typical % 2.0 typical mg -40 min; 40 max MHz 3.4 max V 2.5 typical 1.7V - 3.6V 250 max Active-mode ODR7 50 max Active-mode ODR0 8 max Standby 2 max Off-mode Leakage counts/g 0g Offset vs. Temp Sensitivity vs. Temp Mechanical Resonance 2 Output Data Rate (ODR) 3 4 Bandwidth (-3dB) Non-Linearity Cross-axis Sensitivity Noise UNITS 5 2 I C Communication Rate Power Supply Current Consumption6 % of full scale output µA ENVIRONMENTAL SPECIFICATIONS UNITS KXCNL-1010 CONDITION Operating Temperature PARAMETERS °C -40 to 85 Powered Storage Temperature °C -55 to 150 Un-powered Mechanical Shock g 5,000, 0.5 ms 10,000, 0.2 ms Powered or un-powered, halversine ESD V 2,000 Human body model NOTES 1 Resolution and acceleration ranges are user selectable via I2C. Resonance as defined by the dampened mechanical sensor. User selectable through I2C. 4 User selectable; dependent on ODR. 5 Measured in ±2g range and including variation over operating temperature range at ODR5 (100Hz). 6 Current varies with Output Data Rate (ODR). 2 3