MMA7260Q Freescale Semiconductor, MMA7260Q Datasheet - Page 4

MMA7260Q

Manufacturer Part Number

MMA7260Q

Description

SENSOR ACCEL 3-AXIS +/-1.5 16QFN

Manufacturer

Freescale Semiconductor

Datasheet

1.KIT3109MMA7260QE.pdf (12 pages)

Specifications of MMA7260Q

Axis

X, Y, Z

Acceleration Range

±1.5g, 2g, 4g, 6g (Config)

Sensitivity

800mV/g, 600mV/g, 300mV/g, 200mV/g

Voltage - Supply

2.2 V ~ 3.6 V

Output Type

Analog

Bandwidth

350Hz - X, 150Hz - Z

Mounting Type

Surface Mount

Package / Case

16-QFN

Sensing Axis

X, Y, Z

Acceleration

1.5 g, 2 g, 4 g, 6 g

Maximum Operating Temperature

+ 105 C

Minimum Operating Temperature

- 40 C

For Use With

RD3152MMA7260Q - BOARD REF 3-AXIS ACCELEROMETERRD3112MMA7260QE - BOARD DEMO STAR FOR MMA7260QT

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Interface

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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integrated-circuit accelerometer.

capacitive sensing cells (g-cell) and a signal conditioning

ASIC contained in a single integrated circuit package. The

sensing elements are 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 beams. The movable beams can be deflected

from their rest position by subjecting the system to an

acceleration

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

distance between the beams changes and each capacitor's

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

beam, ε is the dielectric constant, and D is the distance

between the beams.

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.

MMA7260QT

The Freescale accelerometer is a surface-micromachined

The device consists of two surface micromachined

The g-cell is a mechanical structure formed from

As the beams attached to the central mass move, the

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

The ASIC uses switched capacitor techniques to measure

Figure 3. Simplified Transducer Physical Model

3). As the center beam moves with acceleration, the

(Figure

Acceleration

3).

PRINCIPLE OF OPERATION

g-Select

sensitivities present in the device. Depending on the logic

input placed on pins 1 and 2, the device internal gain will be

changed allowing it to function with a 1.5g, 2g, 4g, or 6g

sensitivity

applications requiring different sensitivities for optimum

performance. The sensitivity can be changed at anytime

during the operation of the product. The g-Select1 and

g-Select2 pins can be left unconnected for applications

requiring only a 1.5g sensitivity as the device has an internal

pull-down to keep it at that sensitivity (800mV/g).

Sleep Mode

ideal for battery operated products. When Sleep Mode is

active, the device outputs are turned off, providing significant

reduction of operating current. A low input signal on pin 12

(Sleep Mode) will place the device in this mode and reduce

the current to 3 μA typ. For lower power consumption, it is

recommended to set g-Select1 and g-Select2 to 1.5g mode.

By placing a high input signal on pin 12, the device will

resume to normal mode of operation.

Filtering

switched capacitor filters. 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.

Ratiometricity

sensitivity will scale linearly with applied supply voltage. That

is, as supply voltage is increased, 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. Offset ratiometric

error can be typically >20% at V

ratiometric error can be typically >3% at V

factory for additional information.

Table 3. g-Select Pin Descriptions

The g-Select feature allows for the selection among 4

The 3 axis accelerometer provides a Sleep Mode that is

The 3 axis accelerometer contains onboard single-pole

Ratiometricity simply means the output offset voltage and

g-Select2

(Table

3). This feature is ideal when a product has

g-Select1

SPECIAL FEATURES

g-Range

Freescale Semiconductor

1.5g

= 2.2 V. Sensitivity

= 2.2 V. Consult

Sensitivity

800 mV/g

600 mV/g

300 mV/g

200 mV/g

Sensors

MMA7260Q Freescale Semiconductor, MMA7260Q Datasheet - Page 4

MMA7260Q

Specifications of MMA7260Q

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