MMA8452QT Freescale Semiconductor, MMA8452QT Datasheet - Page 16

MMA8452QT

Manufacturer Part Number

MMA8452QT

Description

IC ACCELEROMETER 3AXIS 16QFN

Manufacturer

Freescale Semiconductor

Series

MMAr

Datasheet

1.MMA8452QT.pdf (50 pages)

Specifications of MMA8452QT

Axis

X, Y, Z

Acceleration Range

± 2g, 4g, 8g

Sensitivity

1024 count/g, 2048 count/g, 4096 count/g

Voltage - Supply

1.95 V ~ 3.6 V

Output Type

Digital

Bandwidth

800Hz

Interface

I²C

Mounting Type

Surface Mount

Package / Case

16-VFQFN

Sensing Axis

X, Y, Z

Acceleration

2 g, 4 g, 8 g

Digital Output - Number Of Bits

8 bit, 12 bit

Supply Voltage (max)

3.6 V

Supply Voltage (min)

1.95 V

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Digital Output - Bus Interface

I2C

Shutdown

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MMA8452QT

Manufacturer:

FREESCALE

Quantity:

20 000

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5.6

and low frequencies. The high pass filter cut-off frequency can be set by the user to four different frequencies which are

dependent on the Output Data Rate (ODR). A higher cut-off frequency ensures the DC data or slower moving data will be filtered

out, allowing only the higher frequencies to pass. The embedded Transient Detection function uses the high pass filtered data

allowing the user to set the threshold and debounce counter. The Transient detection feature can be used in the same manner

as the motion detection by bypassing the high pass filter. There is an option in the configuration register to do this. This adds

more flexibility to cover various customer use cases.

due to gravity only. These functions benefit from acceleration data being filtered with a low pass filter where high frequency data is

considered noise. However, there are many functions where the accelerometer must analyze dynamic acceleration. Functions

such as tap, flick, shake and step counting are based on the analysis of the change in the acceleration. It is simpler to interpret

these functions dependent on dynamic acceleration data when the static component has been removed. The Transient Detection

function can be routed to either interrupt pin through bit 5 in CTRL_REG5 register (0x2E). Registers 0x1D – 0x20 are the

dedicated Transient Detection configuration registers. The source register contains directional data to determine the direction of

the acceleration, either positive or negative. For details on the benefits of the embedded Transient Detection function along with

specific application examples and recommended configuration settings, please refer to Freescale application note, AN4071.

5.7

setting the pulse time width and the latency time between pulses. There are programmable thresholds for all three axes. The tap

detection can be configured to run through the high pass filter and also through a low pass filter, which provides more customizing

and tunable tap detection schemes. The status register provides updates on the axes where the event was detected and the

direction of the tap. For more information on how to configure the device for tap detection please refer to Freescale application

note AN4072.

5.8

to landscape is fixed with a 45° threshold angle and a ±14° hysteresis angle. This allows the for a smooth transition from portrait

to landscape at approximately 30° and then from landscape to portrait at approximately 60°.

operates down to 29° from the flat position. All angles are accurate to ±2°.

Landscape.

MMA8452Q

The MMA8452Q has a built-in high pass filter. Acceleration data goes through the high pass filter, eliminating the offset (DC)

Many applications use the accelerometer’s static acceleration readings (i.e., tilt) which measure the change in acceleration

The MMA8452Q has embedded single/double and directional tap detection. This function has various customizing timers for

The MMA8452Q has an orientation detection algorithm with the ability to detect all 6 orientations. The transition from portrait

The angle at which the device no longer detects the orientation change is referred to as the “Z-Lockout angle”. The device

For further information on the orientation detection function refer to Freescale application note, AN4068.

Figure 8

and

Transient Detection

Tap Detection

Orientation Detection

Xout @ -1g

Yout @ 0g

Zout @ 0g

Figure 9

Pin 1

show the definitions of the trip angles going from Landscape to Portrait and then also from Portrait to

Top View

Yout @ -1g

Xout @ 0g

Zout @ 0g

Xout @ 0g

Yout @ 1g

Zout @ 0g

Figure 7. Landscape/Portrait Orientation

Earth Gravity

Xout @ 1g

Yout @ 0g

Zout @ 0g

Side View

Freescale Semiconductor

Zout @ -1g

Xout @ 0g

Yout @ 0g

Xout @ 0g

Yout @ 0g

Zout @ 1g

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MMA8452QT Freescale Semiconductor, MMA8452QT Datasheet - Page 16

MMA8452QT

Specifications of MMA8452QT

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