MMA3202D Freescale Semiconductor, MMA3202D Datasheet - Page 4

MMA3202D

Manufacturer Part Number

MMA3202D

Description

SENSOR ACCEL XY +/-100G 20SOIC

Manufacturer

Freescale Semiconductor

Series

MMA3200r

Datasheets

1.MMA3202D.pdf (8 pages)

2.MMA3202D.pdf (10 pages)

Specifications of MMA3202D

Axis

X, Y

Acceleration Range

±112.5g, 56.3g

Sensitivity

20mV/g, 40mV/g

Voltage - Supply

4.75 V ~ 5.25 V

Output Type

Analog

Bandwidth

400Hz

Mounting Type

Surface Mount

Package / Case

20-SOIC (0.300", 7.50mm Width)

Sensing Axis

X, Y

Acceleration

100 g, 50 g

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Interface

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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MMA3202D

chined integrated-circuit accelerometer.

pacitive sensing cell (g-cell) and a CMOS signal condi-

tioning ASIC contained in a single integrated circuit

package. The sensing element is sealed hermetically at

the wafer level using a bulk micromachined “cap'' wafer.

conductor materials (polysilicon) using semiconductor

processes (masking and etching). It can be modeled as

a set of beams attached to a movable central mass that

move between fixed beams. The movable beams can be

deflected from their rest position by subjecting the sys-

tem to an acceleration (Figure 2).

distance from them to the fixed beams on one side will in-

crease by the same amount that the distance to the fixed

beams on the other side decreases. The change in dis-

tance is a measure of acceleration.

(Figure 2). As the central mass moves with acceleration,

the distance between the beams change and each ca-

pacitor's value will change, (C = NA /D). Where A is the

area of the facing side of the beam, is the dielectric con-

stant, D is the distance between the beams, and N is the

number of beams. The X-Y device contains two struc-

tures at right angles to each other.

to measure the g-cell capacitors and extract the acceler-

ation data from the difference between the two capaci-

tors. The ASIC also signal conditions and filters

(switched capacitor) the signal, providing a high level out-

put voltage that is ratiometric and proportional to acceler-

ation.

The Motorola accelerometer is a surface-microma-

The device consists of a surface micromachined ca-

The g-cell is a mechanical structure formed from semi-

As the beams attached to the central mass move, the

The g-cell plates form two back-to-back capacitors

The CMOS ASIC uses switched capacitor techniques

Figure 1. Simplified Transducer Physical Model

PRINCIPLE OF OPERATION

Acceleration

Surface Mount Micromachined Accelerometer

Freescale Semiconductor, Inc.

For More Information On This Product,

Go to: www.freescale.com

Filtering

pole switched capacitor filter. A Bessel implementation is

used because it provides a maximally flat delay response

(linear phase) thus preserving pulse shape integrity. Be-

cause the filter is realized using switched capacitor tech-

niques, there is no requirement for external passive

components (resistors and capacitors) to set the cut-off

frequency.

Self-Test

verification of the mechanical and electrical integrity of

the accelerometer at any time before or after installation.

This feature is critical in applications such as automotive

airbag systems where system integrity must be ensured

over the life of the vehicle. A fourth “plate'' is used in the

g-cell as a self-test plate. When the user applies a logic

high input to the self-test pin, a calibrated potential is ap-

plied across the self-test plate and the moveable plate.

The resulting electrostatic force (Fe =

the center plate to deflect. The resultant deflection is

measured by the accelerometer's control ASIC and a

proportional output voltage results. This procedure as-

sures that both the mechanical (g-cell) and electronic

sections of the accelerometer are functioning.

Ratiometricity

age and sensitivity will scale linearly with applied supply

voltage. That is, as you increase supply voltage the sen-

sitivity and offset increase linearly; as supply voltage de-

creases, offset and sensitivity decrease linearly. This is

a key feature when interfacing to a microcontroller or an

A/D converter because it provides system level cancella-

tion of supply induced errors in the analog to digital con-

version process.

Status

cuitry and a fault latch. The Status pin is an output from

the fault latch, OR'd with self-test, and is set high when-

ever one (or more) of the following events occur:

•

The Motorola accelerometers contain an onboard 4-

The sensor provides a self-test feature that allows the

Ratiometricity simply means that the output offset volt-

Motorola accelerometers include fault detection cir-

Supply voltage falls below the Low Voltage Detect

(LVD) voltage threshold

SPECIAL FEATURES

MOTOROLA

) causes

MMA3202D Freescale Semiconductor, MMA3202D Datasheet - Page 4

MMA3202D

Specifications of MMA3202D

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