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KIT3376MMA7361L Datasheet, PDF (1/11 Pages) Freescale Semiconductor, Inc – ±1.5g, ±6g Three Axis Low-g Micromachined Accelerometer
Freescale Semiconductor
Technical Data
±1.5g, ±6g Three Axis Low-g
Micromachined Accelerometer
The MMA7361L is a low power, low profile capacitive micromachined
accelerometer featuring signal conditioning, a 1-pole low pass filter,
temperature compensation, self test, 0g-Detect which detects linear freefall,
and g-Select which allows for the selection between 2 sensitivities. Zero-g
offset and sensitivity are factory set and require no external devices. The
MMA7361L includes a Sleep Mode that makes it ideal for handheld battery
powered electronics.
Features
• 3mm x 5mm x 1.0mm LGA-14 Package
• Low Current Consumption: 400 μA
• Sleep Mode: 3 μA
• Low Voltage Operation: 2.2 V – 3.6 V
• High Sensitivity (800 mV/g @ 1.5g)
• Selectable Sensitivity (±1.5g, ±6g)
• Fast Turn On Time (0.5 ms Enable Response Time)
• Self Test for Freefall Detect Diagnosis
• 0g-Detect for Freefall Protection
• Signal Conditioning with Low Pass Filter
• Robust Design, High Shocks Survivability
• RoHS Compliant
• Environmentally Preferred Product
• Low Cost
Typical Applications
• 3D Gaming: Tilt and Motion Sensing, Event Recorder
• HDD MP3 Player: Freefall Detection
• Laptop PC: Freefall Detection, Anti-Theft
• Cell Phone: Image Stability, Text Scroll, Motion Dialing, E-Compass
• Pedometer: Motion Sensing
• PDA: Text Scroll
• Navigation and Dead Reckoning: E-Compass Tilt Compensation
• Robotics: Motion Sensing
Part Number
MMA7361LT
MMA7361LR1
MMA7361LR2
ORDERING INFORMATION
Temperature
Range
Package
Drawing
Package
Shipping
–40 to +85°C
1977-01
LGA-14
Tray
–40 to +85°C
1977-01
LGA-14 7” Tape & Reel
–40 to +85°C
1977-01
LGA-14 13” Tape & Reel
Document Number: MMA7361L
Rev 0, 04/2008
MMA7361L
MMA7361L: XYZ AXIS
ACCELEROMETER
±1.5g, ±6g
Bottom View
14 LEAD
LGA
CASE 1977-01
Top View
N/C
N/C
XOUT
YOUT
ZOUT
VSS
VDD
Self Test
N/C
N/C
g-Select
0g-Detect
N/C
Sleep
Figure 1. Pin Connections
© Freescale Semiconductor, Inc., 2008. All rights reserved.