KXTE9-1050 Kionix, KXTE9-1050 Datasheet
KXTE9-1050
Manufacturer Part Number
KXTE9-1050
Description
Board Mount Accelerometers 16counts/g; 2.8V Digital I2C
Manufacturer
Kionix
Datasheet
1.KXTE9-2050.pdf
(2 pages)
Specifications of KXTE9-1050
Sensing Axis
X, Y, Z
Acceleration
2 g
Sensitivity
16 mV/g
Output Type
Digital
Supply Voltage (max)
3.6 V
Supply Voltage (min)
1.8 V
Supply Current
30 uA
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Digital Output - Bus Interface
I2C
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
KXTE9-1050
Manufacturer:
KIONIX
Quantity:
11 200
Part Number:
KXTE9-1050
Manufacturer:
KIONIX
Quantity:
20 000
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 KXTE9’s advanced, orientation-detection feature reports changes in
landscape, portrait, face-up, and face-down conditions. This sophisticated,
embedded algorithm eliminates the need for continuous data collection and
complex calculations by a microprocessor. With a few adjustable parame-
ters, the screen-rotation algorithm can be optimized for an intuitive user
experience. In addition to orientation detection, the KXTE9 features an ac-
tivity-monitoring function. This function reports changes in a device’s mo-
tion state, either moving (active) or not moving (inactive).
manufacturable product with consistent product performance across use
conditions, the KXTE9 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.
detects and transforms changes in capacitance into an analog output volt-
age, which is proportional to acceleration. The sense element design utilizes
common mode cancellation to decrease errors from process variation and
environmental stress. The voltage is digitized by an on-board A/D converter
and is accessed via an inter-interated circuit (I
36 Thornwood Dr. - Ithaca, NY 14850 USA tel: 607-257-1080 - fax: 607-257-1146 - www.kionix.com - info@kionix.com
FEATURES
Ultra-Small Package - 3x3x0.9mm LGA
Activity-monitoring Algorithm (Active/Inactive)
Device Orientation Detection Algorithm
Digital I
Very Low Power Consumption (30µA full operation)
Lead-free Solderability
Excellent Temperature Performance
High Shock Survivability
User-selectable Output Data Rate
Factory Programmable Offset and Sensitivity
Self-test Function
PROPRIETARY TECHNOLOGY
“Kionix” is a registered trademark of Kionix, Inc. Products described herein are protected by patents issued or pending. Information provided
in this document is believed to be accurate and reliable but is not guaranteed. Kionix does not assume responsibility for its use or distribution.
No license is granted by implication or otherwise under any patent or other rights of Kionix. Kionix reserves the right to change product
specifications or discontinue this product at any time without prior notice.
2
C Communication Interface
An ASIC, using a standard CMOS manufacturing process,
2
C).
Accelerometers and Inclinometers
A highly-
Mobile Phones and Mobile Internet Devices
Game Controllers and Computer Peripherals
Sports Diagnostic Equipment
MARKETS
Static and Dynamic Acceleration
Activity Monitoring
APPLICATIONS
Screen Rotation
Gesture Recognition
User Interface
Power Management
Activity Monitoring
Inclination and Tilt Sensing
User Interface
Power Management
Activity Monitoring
KXTE9 Series
© Kionix 2010 All Rights Reserved
July 27, 2010 Rev. 2.3
Page 1 of 2
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KXTE9-1050 Summary of contents
Page 1
... KXTE9 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 ...
Page 2
... C Communication Rate Power Supply Current Consumption PARAMETERS UNITS Operating Temperature Storage Temperature Mechanical Shock ESD ORDERING GUIDE Axis(es) of Range Product Sensitivity (g) KXTE9-1026 XYZ 2 KXTE9-1050 XYZ 2 KXTE9-2050 XYZ 2 KXTE9-4100 XYZ 2 PERFORMANCE SPECIFICATIONS KXTE9-2050 g ±2.0 counts/g 16 typical %/°C ±0.01 (X, Y) ±0.03 (Z) typical counts 32 typical mg/° ...