MMA2202D Freescale Semiconductor, MMA2202D Datasheet - Page 4

MMA2202D

Manufacturer Part Number

MMA2202D

Description

SENS ACCEL X-AXIS +-50G 16-SOIC

Manufacturer

Freescale Semiconductor

Series

MMAr

Datasheets

1.MMA2202D.pdf (8 pages)

2.MMA2202D.pdf (10 pages)

Specifications of MMA2202D

Axis

X or Y

Acceleration Range

±56.3g

Sensitivity

40mV/g

Voltage - Supply

4.75 V ~ 5.25 V

Output Type

Analog

Bandwidth

400Hz

Mounting Type

Surface Mount

Package / Case

16-SOIC (0.300", 7.50mm Width)

Family Name

MMA2202

Package Type

SOIC

Operating Supply Voltage (min)

4.75V

Operating Supply Voltage (typ)

Operating Supply Voltage (max)

5.25V

Operating Temperature (min)

-40C

Operating Temperature (max)

125C

Operating Temperature Classification

Automotive

Product Height (mm)

3.3mm

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Interface

Lead Free Status / Rohs Status

Not Compliant

Other names

MMA2202DTR
MMA2202DTR

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MMA2202D

Manufacturer:

ZILOG

Quantity:

21 600

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PRINCIPLE OF OPERATION

integrated-circuit accelerometer.

sensing cell (g-cell) and a CMOS signal conditioning ASIC

contained in a single integrated circuit package. The sensing

element is sealed hermetically at the wafer level using a bulk

micromachined “cap'' wafer.

semiconductor 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 beans. The movable beams can be deflected from their

rest position by subjecting the system to an acceleration

(Figure 2).

distance from them to the fixed beams on one side will increase

by the same amount that the distance to the fixed beams on the

other side decreases. The change in distance is a measure of

acceleration.

(Figure 2). As the center plate moves with acceleration, the

distance between the beams change and each capacitor's

value will change, (C = NAε/D). Where A is the area of the

facing side of the beam, ε is the dielectric constant, and D is the

distance between the beams, and N is the number of beams.

measure the g-cell capacitors and extract the acceleration data

from the difference between the two capacitors. The ASIC also

signal conditions and filters (switched capacitor) the signal,

providing a high level output voltage that is ratiometric and

proportional to acceleration.

SPECIAL FEATURES

Filtering

switched capacitor filter. A Bessel implementation is used

because it provides a maximally flat delay response (linear

phase) thus preserving pulse shape integrity. Because the filter

is realized using switched capacitor techniques, there is no

requirement for external passive components (resistors and

capacitors) to set the cut-off frequency.

MMA2202D

The Motorola accelerometer is a surface-micromachined

The device consists of a surface micromachined capacitive

The g-cell is a mechanical structure formed from

When the beams attached to the center mass move, the

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

The CMOS ASIC uses switched capacitor techniques to

The Motorola accelerometers contain an onboard 4-pole

Figure 2. Simplified Transducer Physical Model

Acceleration

Freescale Semiconductor, Inc.

For More Information On This Product,

Go to: www.freescale.com

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 applied across the self-test plate

and the moveable plate. The resulting electrostatic force

(Fe =

resultant deflection is measured by the accelerometer's control

ASIC and a proportional output voltage results. This procedure

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

sections of the accelerometer are functioning.

Ratiometricity

and sensitivity will scale linearly with applied supply voltage.

That is, as you increase supply voltage the sensitivity and offset

increase linearly; as supply voltage decreases, 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 cancellation of

supply induced errors in the analog to digital conversion

process.

Status

a fault latch. The Status pin is an output from the fault latch,

OR'd with self-test, and is set high whenever one (or more) of

the following events occur:

•

input pin, unless one (or more) of the fault conditions continues

to exist.

The sensor provides a self-test feature that allows the

Ratiometricity simply means that the output offset voltage

Motorola accelerometers include fault detection circuitry and

The fault latch can be reset by a falling edge on the self-test

Supply voltage falls below the Low Voltage Detect (LVD)

voltage threshold

Clock oscillator falls below the clock monitor

minimum frequency

Parity of the EPROM bits becomes odd in

number.

) causes the center plate to deflect. The

Motorola Sensor Device Data

MMA2202D Freescale Semiconductor, MMA2202D Datasheet - Page 4

MMA2202D

Specifications of MMA2202D

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