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Kionix |
Tri-axis Digital Accelerometer voltages over the range of input supply voltages. This results in stable operating characteristics over the range of input supply voltages and virtually undetectable ratiometric error. The I2C digital protocol is used to communicate with the chip to |
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Kionix |
Tri-axis Digital Accelerometer e operating from a 1.8 – 3.6V DC supply. Voltage regulators are used to maintain constant internal operating voltages over the range of input supply voltages. This results in stable operating characteristics over the range of input supply voltages an |
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Kionix |
Tri-axis Digital Accelerometer oltages over the range of input supply voltages. This results in stable operating characteristics over the range of input supply voltages and virtually undetectable ratiometric error. The I2C digital protocol is used to communicate with the chip to c |
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Kionix |
Tri-axis Digital Accelerometer e operating from a 1.8 – 3.6V DC supply. I2C interface is used to communicate to the chip to configure and check updates to the orientation, Directional TapTM detection and activity monitoring algorithms. 36 Thornwood Dr. – Ithaca, NY 14850 tel: 607 |
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Kionix |
Tri-axis Digital Accelerometer • Small footprint: 2 x 2 x 0.9 mm LGA 12-pin package (pin-to-pin compatible with KXTJ2) • Low current consumption: 0.9 µA in standby, 10 µA in Low Power, and 155 µA in High Resolution modes • Extended user-configurable g-ranges: ±2g, ±4g, ±8g, ±16g • |
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Kionix |
Tri-axis Analog Accelerometer a factory progr |
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Kionix |
Tri-axis Digital Accelerometer operating from a 1.8 – 3.6V DC supply. Voltage regulators are used to maintain constant internal operating voltages over the range of input supply voltages. This results in stable operating characteristics over the range of input supply voltages and |
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