DE-ACCM3D buffered 3g tri-axis accelerometer features triple axis 3g sense range up to 360mv/g sensitivity 500hz bandwidth operating voltage 3.5v to 15v (onboard regulator) operating voltage 2.0v to 3.6v (without regulator) 3.3v regulator can power external microcontroller reverse voltage protection output short protected standard dip-16 form factor integrated power supply decoupling draws 0.9ma can accurately drive 500 � loads applications motion, tilt and slope measurement device positioning shock sensing vehicle acceleration logging general description the DE-ACCM3D is a complete 3d 3g analog accelerometer solution. it features integrated op amp buffers for direct connection to a microcontroller?s analog inputs, or for driving heavier loads. the onboard 3.3v regulator and decoupling capacitor give you great flexibility when powering the device, and can also be bypassed for operation down to 2.0v. the DE-ACCM3D is designed to fit the dip-16 form factor, making it suitable for breadboarding, perfboarding, and insertion into standard chip sockets. it is based on the analog devices adxl330 for superior sensitivity and tighter accuracy tolerances .
measuring acceleration and tilt the voltage outputs on the DE-ACCM3D correspond to acceleration being experienced in the x, y and z directions. the output is ratiometric, so the outpu t sensitivity (in mv/g) will depend on the supply v oltage. sensitivity and accuracy here are some typical sensitivity values for common operating voltages: operating voltage sensitivity 3.6v 360 mv/g 3.33v (default when using onboard regulator) 333 mv/g 3.0v 300 mv/g 2.0v 195 mv/g due to manufacturing variances when analog devices makes their accelerometer chips, these values aren? t always set in stone. sensitivity can vary by up to 10% in extreme cases, and the 0g bias point can var y up to 5% on the x and y axes, and 10% on the z axis. for projects that require a very high degree of accurac y, we recommend that you incorporate measured calibration s into your hardware/software.
example calculations voltage to acceleration example: ?with the 3.3v supply, the x output reads 2.06v. wh at acceleration does this correspond to?? at 3.3v, the 0g point is approximately 1.66v 2.06v ? 1.66v = +0.40v with respect to the 0g point at 3.3v, if sensitivity is 333mv/g, 0.40 / 0.333 = 1.20g therefore the acceleration in the x direction is +1 .20g acceleration to voltage example: ?i am powering the DE-ACCM3D with 2.0v. what voltag e will correspond to an acceleration of -0.5g?? at 2v, the 0g point is approximately 1.00v if sensitivity at 2v is 195mv/g, -0.5 * 0.195 = -0 .0975v with respect to the 0g point. 1.00v ? 0.0975v = 0.903v therefore you can expect a voltage of approximately 0.903v when experiencing an acceleration of -0.5g. voltage to tilt example: ?with a vcc of 3.0v, and the accelerometer oriented flat and parallel to ground in my robot, yout is 1 .50v. when my robot goes uphill, yout increases to 1.67v. what is the slope of the hill?? 1.67v ? 1.50 = +0.17v with respect to the 0g point. with a sensitivity of 300mv/g, 0.17 / 0.300 = 0.567 g sin -1 (0.567) = 34.5o the slope of the hill is 34.5o in the y axis tilt to voltage example: ?i am making an antitheft device that will sound an alarm if it is tilted more than 10o with respect t o ground in any direction. i have measured the 0g bias point to be 1.701v, and i want to know what voltage to trig ger the alarm at. i am using the onboard 3.3v source.? sin(10o) = 0.1736 so acceleration with a tilt of 10 o will be 0.1736g 0.1736g * 0.333v/g = 0.058v with respect to the 0g point 1.701 + 0.058 = 1.759v 1.701 ? 0.058 = 1.643v sound the alarm when the voltage reaches more than 1.759v or less than 1.643v.
performance features output buffers a bare accelerometer chip has an output impedance o f 32k � , which is unsuitable for obtaining reliable measurements when connected to an analog to digital converter. on the DE-ACCM3D, a quad rail to rail operational amplifier buffers the outputs from the adxl330, greatly reducing output impedance. the absolute maximum load beyond which accuracy begins to seriously suffer is 3.3ma, or 500 � . supply filtering a 1uf ceramic bypass capacitor on the DE-ACCM3D pro vides excellent power supply decoupling. no external capacitors are necessary between vcc and g nd. output filtering and noise a pair of 10nf capacitors limit the noise figure of the DE-ACCM3D, without overly sacrificing bandwidt h. rms noise is typically 7.3mg, and output bandwidth is 500hz - making it suitable for high frequency sampling of acceleration. regulator bypass most people will want to power DE-ACCM3D using the onboard 3.3v regulator. however, if you are designing an application that needs a lower operati ng voltage, you can bypass the voltage regulator. to do this, use the gnd pin as normal. for the posi tive supply, solder a wire to the exposed pad label ed byp. the onboard 1uf capacitor will still be in par allel with the accelerometer chip, so additional ca pacitance is not necessary unless running from a noisy source . this would be useful for e.g. an application powere d directly by 2 aa batteries or a lithium coin batt ery. the minimum operating voltage when using bypass mod e is 2.0v and the absolute maximum voltage that can be applied when bypassing the regu lator is 3.6v.
powering external devices it is possible to use the DE-ACCM3D?s voltage regul ator to power external devices that require 3.3v, s uch as a low voltage microcontroller. these devices must b e extremely low power so as to not overload the regulator! the maximum current that can be drawn in this way is 50ma, but ideally you should try keep things below 10ma. this diagram shows how to connec t up an example microcontroller and all 3 axes. additional capacitance across the microcontroller?s power pins may be necessary, depending on your particular setup. protection features reverse voltage in the event that you mix up vcc and gnd, a p chann el mosfet will prevent current from flowing ? protecting the DE-ACCM3D from damage. this protecti on is only designed to work with dc voltages. do no t apply ac voltages to the power pins. output shorting the operational amplifier driving the DE-ACCM3D?s o utputs is capable of handling a direct short from t he x, y and z outputs to ground for as long as you want.
|
