Kionix, Inc. KXTF9 Series KXTF9-4100

Description
These high-performance silicon micromachined linear accelerometers and inclinometers consist of a sensor element and an ASIC packaged in a 3x3x0.9mm Land Grid Array (LGA). The sensor element is fabricated from single-crystal silicon with proprietary Deep Reactive Ion Etching (DRIE) processes, and is protected from the environment by a hermetically-sealed silicon cap at the wafer level. The KXTF9™s Directional Tap/Double-Tap„¢ detection feature recognizes singletap and double-tap input and reports the acceleration axis and direction from which each tap originated, enabling up to 12, user-defined, function commands. Its active/inactive algorithm reports changes in a device™s motion state, either moving (active) or not moving (inactive), and the orientation detection feature reports changes in landscape, portrait, face-up, and face-down conditions. A highly-manufacturabl e product with consistent product performance across use conditions, the KXTF9 operates across a supply voltage of 1.8V to 3.6V DC. The sensor element functions on the principle of differential capacitance. Acceleration causes displacement of a silicon structure resulting in a change in capacitance. The sense element design utilizes common mode cancellation to decrease errors from process variation and environmental stress. An ASIC, using a standard CMOS manufacturing process, detects and transforms capacitance changes into an analog voltage, which is proportional to acceleration. Analog signals are further processed into digital signals and within embedded digital algorithms. The device communicates to the system via (I2C) bus interface.
Request a Quote Datasheet
Description
These high-performance silicon micromachined linear accelerometers and inclinometers consist of a sensor element and an ASIC packaged in a 3x3x0.9mm Land Grid Array (LGA). The sensor element is fabricated from single-crystal silicon with proprietary Deep Reactive Ion Etching (DRIE) processes, and is protected from the environment by a hermetically-sealed silicon cap at the wafer level. The KXTF9™s Directional Tap/Double-Tap„¢ detection feature recognizes singletap and double-tap input and reports the acceleration axis and direction from which each tap originated, enabling up to 12, user-defined, function commands. Its active/inactive algorithm reports changes in a device™s motion state, either moving (active) or not moving (inactive), and the orientation detection feature reports changes in landscape, portrait, face-up, and face-down conditions. A highly-manufacturabl e product with consistent product performance across use conditions, the KXTF9 operates across a supply voltage of 1.8V to 3.6V DC. The sensor element functions on the principle of differential capacitance. Acceleration causes displacement of a silicon structure resulting in a change in capacitance. The sense element design utilizes common mode cancellation to decrease errors from process variation and environmental stress. An ASIC, using a standard CMOS manufacturing process, detects and transforms capacitance changes into an analog voltage, which is proportional to acceleration. Analog signals are further processed into digital signals and within embedded digital algorithms. The device communicates to the system via (I2C) bus interface.
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Suppliers

Company
Product
Description
Supplier Links
KXTF9 Series - KXTF9-4100 - Kionix, Inc.
Ithaca, NY, USA
KXTF9 Series
KXTF9-4100
KXTF9 Series KXTF9-4100
These high-performance silicon micromachined linear accelerometers and inclinometers consist of a sensor element and an ASIC packaged in a 3x3x0.9mm Land Grid Array (LGA). The sensor element is fabricated from single-crystal silicon with proprietary Deep Reactive Ion Etching (DRIE) processes, and is protected from the environment by a hermetically-sealed silicon cap at the wafer level. The KXTF9™s Directional Tap/Double-Tap„¢ detection feature recognizes singletap and double-tap input and reports the acceleration axis and direction from which each tap originated, enabling up to 12, user-defined, function commands. Its active/inactive algorithm reports changes in a device™s motion state, either moving (active) or not moving (inactive), and the orientation detection feature reports changes in landscape, portrait, face-up, and face-down conditions. A highly-manufacturabl e product with consistent product performance across use conditions, the KXTF9 operates across a supply voltage of 1.8V to 3.6V DC. The sensor element functions on the principle of differential capacitance. Acceleration causes displacement of a silicon structure resulting in a change in capacitance. The sense element design utilizes common mode cancellation to decrease errors from process variation and environmental stress. An ASIC, using a standard CMOS manufacturing process, detects and transforms capacitance changes into an analog voltage, which is proportional to acceleration. Analog signals are further processed into digital signals and within embedded digital algorithms. The device communicates to the system via (I2C) bus interface.

These high-performance silicon micromachined linear accelerometers and inclinometers consist of a sensor element and an ASIC packaged in a 3x3x0.9mm Land Grid Array (LGA). The sensor element is fabricated from single-crystal silicon with proprietary Deep Reactive Ion Etching (DRIE) processes, and is protected from the environment by a hermetically-sealed silicon cap at the wafer level. The KXTF9™s Directional Tap/Double-Tap„¢ detection feature recognizes singletap and double-tap input and reports the acceleration axis and direction from which each tap originated, enabling up to 12, user-defined, function commands. Its active/inactive algorithm reports changes in a device™s motion state, either moving (active) or not moving (inactive), and the orientation detection feature reports changes in landscape, portrait, face-up, and face-down conditions. A highly-manufacturable product with consistent product performance across use conditions, the KXTF9 operates across a supply voltage of 1.8V to 3.6V DC. The sensor element functions on the principle of differential capacitance. Acceleration causes displacement of a silicon structure resulting in a change in capacitance. The sense element design utilizes common mode cancellation to decrease errors from process variation and environmental stress. An ASIC, using a standard CMOS manufacturing process, detects and transforms capacitance changes into an analog voltage, which is proportional to acceleration. Analog signals are further processed into digital signals and within embedded digital algorithms. The device communicates to the system via (I2C) bus interface.

Supplier's Site
Tri-Axis, User Selectable 2g, 4g, 8g, Digital (I2C) Output, 3x3x0.9mm LGA - KXTF9-4100 - ROHM Semiconductor USA, LLC
Santa Clara, CA, USA
Tri-Axis, User Selectable 2g, 4g, 8g, Digital (I2C) Output, 3x3x0.9mm LGA
KXTF9-4100
Tri-Axis, User Selectable 2g, 4g, 8g, Digital (I2C) Output, 3x3x0.9mm LGA KXTF9-4100
The KXTF9 is a very popular high-performance, low-power, tri-axis digital I2C accelerometer with integrated orientation, Directional tap/double-tap, activity monitoring and motion-detection algorithms. The KXTF9 offers user-selectable ranges of ±2g, ±4g or ±8g as well as 8-bit and 12-bit resolution. The KXTF9 is delivered in a 3 x 3 x 0.9 mm, 10-pin, LGA package with an operating temperature range of -40°C to +85°C. The KXTF9 operates from a 1.8 V to 3.6 V DC supply (factory-programmabl e). Not Recommended for New Designs.

The KXTF9 is a very popular high-performance, low-power, tri-axis digital I2C accelerometer with integrated orientation, Directional tap/double-tap, activity monitoring and motion-detection algorithms. The KXTF9 offers user-selectable ranges of ±2g, ±4g or ±8g as well as 8-bit and 12-bit resolution. The KXTF9 is delivered in a 3 x 3 x 0.9 mm, 10-pin, LGA package with an operating temperature range of -40°C to +85°C. The KXTF9 operates from a 1.8 V to 3.6 V DC supply (factory-programmable).
Not Recommended for New Designs.

Supplier's Site
Accelerometers - 1191-1001-2-ND - DigiKey
Thief River Falls, MN, United States
Accelerometers
1191-1001-2-ND
Accelerometers 1191-1001-2-ND
Accelerometer X, Y, Z Axis ±2g, 4g, 8g 12.5Hz ~ 400Hz 10-LGA (3x3)

Accelerometer X, Y, Z Axis ±2g, 4g, 8g 12.5Hz ~ 400Hz 10-LGA (3x3)

Buy Now Datasheet
Laguna Hills, CA, United States
Motion Sensors - Motion Sensors - Accelerometers - KXTF9-4100
72173-KXTF9-4100
Motion Sensors - Motion Sensors - Accelerometers - KXTF9-4100 72173-KXTF9-4100
Manufacturer: Kionix Inc. Win Source Part Number: 72173-KXTF9-4100 Alternative Parts (Cross-Reference): MMA8652FCR1; KXUD9-4100; KXUD9-1026; Is this a common-used part?: Yes Popularity: High Fake Threat In the Open Market: 71 pct. Supply and Demand Status: Balance

Manufacturer: Kionix Inc.
Win Source Part Number: 72173-KXTF9-4100
Alternative Parts (Cross-Reference): MMA8652FCR1; KXUD9-4100; KXUD9-1026;
Is this a common-used part?: Yes
Popularity: High
Fake Threat In the Open Market: 71 pct.
Supply and Demand Status: Balance

Buy Now
ACCELEROMETER 2-8G I2C 10LGA - 422-KXTF9-4100 - Utmel Electronic Limited
Hong Kong, China
ACCELEROMETER 2-8G I2C 10LGA
422-KXTF9-4100
ACCELEROMETER 2-8G I2C 10LGA 422-KXTF9-4100
ACCELEROMETER 2-8G I2C 10LGA

ACCELEROMETER 2-8G I2C 10LGA

Supplier's Site

Technical Specifications

  Kionix, Inc. ROHM Semiconductor USA, LLC DigiKey Win Source Electronics Utmel Electronic Limited
Product Category Accelerometers Accelerometers Accelerometers Accelerometers Accelerometers
Product Number KXTF9-4100 KXTF9-4100 1191-1001-2-ND 72173-KXTF9-4100 422-KXTF9-4100
Product Name KXTF9 Series Tri-Axis, User Selectable 2g, 4g, 8g, Digital (I2C) Output, 3x3x0.9mm LGA Accelerometers Motion Sensors - Motion Sensors - Accelerometers - KXTF9-4100 ACCELEROMETER 2-8G I2C 10LGA
Measurement Axes Single; Biaxial; Triaxial Triaxial Triaxial
Sensor Technology MEMS
Device Category Sensor / Transducer Sensor / Transducer
Sensor Outputs Acceleration; Temperature Acceleration
Sensor Mounting Surface Mount IC SMD Surface Mount
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