mxr7150v memsic, mxr7150v Datasheet - Page 4

mxr7150v

Manufacturer Part Number

mxr7150v

Description

Low Cost ?7 G Dual-axis Accelerometer With Ratiometric Outputs

Manufacturer

memsic

Datasheet

1.MXR7150V.pdf (6 pages)

Current page: 4 of 6
Download datasheet (279Kb)

THEORY OF OPERATION

The

measurement system on a monolithic CMOS IC.

The

(thermal gradient). The „proof mass‟ of MEMSIC‟s sensor

is a gas.

A single heat source, centered in the silicon chip is

suspended across a cavity. Equally spaced

aluminum/polysilicon thermopiles (groups of

thermocouples) are located equidistantly on all four sides of

the heat source (dual axis). Under zero acceleration, a

temperature gradient is symmetrical about the heat source,

so that the temperature is the same at all four thermopiles,

causing them to output the same voltage.

Acceleration in any direction will disturb the temperature

profile, due to free convection heat transfer, causing it to be

asymmetrical. The temperature, and hence voltage output

of the four thermopiles will then be different. The

differential voltage at the thermopile outputs is directly

proportional to the acceleration. There are two identical

acceleration signal paths on the MXR7150VL, one to

measure acceleration in the x-axis and one to measure

acceleration in the Y-axis. For more details visit the

MEMSIC website at www.memsic.com for a

picture/graphic description of the free convection heat

transfer principle.

PIN DESCRIPTIONS

circuits.

For proper operation V

volts. Refer to the section on PCB layout and fabrication

suggestions for guidance on external parts and connections

recommended.

It is capable of sinking or sourcing up to 100A. The user

should ensure the load impedance is sufficiently high as to

not source/sink >100A. While the sensitivity of this axis

has been programmed at the factory to be the same as the

sensitivity for the Y-axis, the MXR7150VL can be

programmed for non-equal sensitivities on the x- and y-

axes.

Contact Memsic‟s local office for additional information.

MEMSIC MXR7150V Rev 12

OUT

MXR7150VL

– (pin 8). Supply voltage input for digital and analog

– (pin 7). X-axis acceleration signal output

is a complete dual-axis acceleration

is based on the laws of natural convection

must be between 2.70 and 5.50

Page 4 of 6

It is capable of sinking or sourcing up to 100A. The user

should ensure the load impedance is sufficiently high as to

not source/sink >100A. While the sensitivity of this axis

has been programmed at the factory to be the same as the

sensitivity for the X-axis, the MXR7150VL can be

programmed for non-equal sensitivities on the X- and Y-

axes.

Contact Memsic‟s local office for additional information.

NC – (pin 5, 4) No connect. These pins can be tied to

common if the application does not allow pins to remain

unconnected.

COM – (pin 3) This is the ground pin for the

MXR7150VL

CLK – (pin 2) This is an optional serial clock input. The

standard product is delivered with an internal clock

(800kHz. However, an external clock between 400kHz and

1.6MHz, can be used as an option, if the sensor is

programmed from the factory to run in external clock mode.

This pin is grounded internally with a 50 Kohm resistor if

an external clock is used it should be able to drive this load.

But if external clock is not used, in order to minimize noise

and ESD this pin should be grounded externally as well.

This pin controls the self-test function of the sensor

Bringing ST

between 165 mV to 1000 mV to the AoutX AoutY from the

0g value

OUT

Xout

Yout

AOUT

Self

Test

– (pin 6)

–

(pin 1) Self –Test Input

0 10 20 30 40 50 60 70 80 90 100 110

Y-axis acceleration signal output.

high will cause a negative deflection

Time - millisec

–

8/8/2005

mxr7150v memsic, mxr7150v Datasheet - Page 4

mxr7150v

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