EVAL-ADXL362Z-DB Analog Devices, EVAL-ADXL362Z-DB Datasheet - Page 15

EVAL-ADXL362Z-DB

Manufacturer Part Number

EVAL-ADXL362Z-DB

Description

Acceleration Sensor Development Tools enl Datalogger Board of ADXL362

Manufacturer

Analog Devices

Datasheet

1.EVAL-ADXL362Z-S.pdf (44 pages)

Specifications of EVAL-ADXL362Z-DB

Rohs

yes

Tool Is For Evaluation Of

ADXL362

Acceleration

2 g, 4 g, 8 g

Sensing Axis

Triple Axis

Interface Type

SPI

Operating Voltage

1.6 V to 3.5 V

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Operating Current

1.8 uA

Output Type

Digital

Product

Development Boards

Sensitivity

1 mg/LSB, 2 mg/LSB, 4 mg/LSB

Factory Pack Quantity

Current page: 15 of 44
Download datasheet (2Mb)

Data Sheet

POWER SAVINGS FEATURES

Designed for the most power conscious applications, the

includes several features (as described in this section) for enabling

power savings at the system level, as well as at the device level.

ULTRALOW POWER CONSUMPTION IN ALL

MODES

At the device level, the most obvious power saving feature of the

ADXL362

The

(typical) across all data rates up to 400 Hz and all supply voltages

up to 3.5 V (see Figure 30). An even lower power, 270 nA (typical)

motion triggered wake-up mode is provided for simple motion

detection applications that require a power consumption lower

than 1 µA.

At these current levels, the accelerometer consumes less power

in full operation than the standby currents of many other

system components, and is, therefore, optimal for applications that

require continuous acceleration monitoring and very long

battery life. Because the accelerometer is always on, it can act as

a motion activation switch. The accelerometer signals to the rest

of the system when to turn on, thereby managing power at the

system level.

As important as its low operating current, the 10 nA (typical)

standby current of the

battery life in applications that spend most of their time in a

sleep state and wake up via an external trigger.

MOTION DETECTION

The

of acceleration above a threshold) and inactivity (lack of

acceleration above a threshold). Activity and inactivity events

can be used as triggers to manage the accelerometer mode of

operation, trigger an interrupt to a host processor, and/or

autonomously drive a motion switch.

Detection of an activity or inactivity event is indicated in the

status register and can be configured to generate an interrupt.

In addition, the activity status of the device, that is, whether it is

moving or stationary, is indicated by the AWAKE bit, described

in the Using the AWAKE Bit section.

Activity and inactivity detection can be used when the accel-

erometer is in either measurement mode or wake-up mode.

Activity Detection

An activity event is detected when acceleration remains above a

specified threshold for a specified time period.

Referenced and Absolute Configurations

Activity detection can be configured as referenced or absolute.

When using absolute activity detection, acceleration samples are

compared to a user set threshold to determine whether motion

is present. For example, if a threshold of 0.5 g is set and the

acceleration on the z-axis is 1 g for longer than the user defined

activity time, the activity status asserts.

ADXL362

is its ultralow current consumption in all configurations.

features built-in logic that detects activity (presence

consumes between 1.1 µA (typical) and 5 µA

ADXL362

contributes to a much longer

ADXL362

Rev. B | Page 15 of 44

In many applications, it is advantageous for activity detection to

be based not on an absolute threshold, but on a deviation from

a reference point or orientation. This is particularly useful

because it removes the effect on activity detection of the static

1 g imposed by gravity. When an accelerometer is stationary, its

output can reach 1 g, even when it is not moving. In absolute

activity, when the threshold is set to less than 1 g, activity is

immediately detected in this case.

In the referenced configuration, activity is detected when

acceleration samples are at least a user set amount above an

internally defined reference for the user defined amount of time,

as described in Equation 1.

Consequently, activity is detected only when the acceleration

has deviated sufficiently from the initial orientation. The

reference for activity detection is calculated when activity

detection is engaged in the following scenarios:

•

The referenced configuration results in a very sensitive activity

detection that detects even the most subtle motion events.

Fewer False Positives

Ideally, the intent of activity detection is to wake up a system

only when motion is intentional, ignoring noise or small,

unintentional movements. In addition to being sensitive to

subtle motion events, the

is designed to be robust in filtering out undesired triggers.

The

to filter out unwanted motion and ensure that only sustained

motion is recognized as activity. The duration of this timer, as

well as the acceleration threshold, are user adjustable from one

sample (that is, no timer) to up to 20 seconds of motion.

Note that the activity timer is operational in measurement mode

only. In wake-up mode, one-sample activity detection is used.

Inactivity Detection

An inactivity event is detected when acceleration remains below

a specified threshold for a specified time. Inactivity detection is

also configurable as referenced or absolute.

When using absolute inactivity detection, acceleration samples

are compared to a user set threshold for the user set time to

determine the absence of motion. Inactivity is detected when

enough consecutive samples are all below the threshold. The

absolute configuration of inactivity should be used for

implementing free fall detection.

ADXL362

ABS(Acceleration − Reference) > Threshold

When the activity function is turned on and measurement

mode is engaged;

If link mode is enabled: when inactivity is detected and

activity detection begins; or

If link mode is not enabled: when activity is detected and

activity detection repeats.

activity detection functionality includes a timer

ADXL362

activity detection algorithm

ADXL362

(1)

EVAL-ADXL362Z-DB Analog Devices, EVAL-ADXL362Z-DB Datasheet - Page 15

EVAL-ADXL362Z-DB

Specifications of EVAL-ADXL362Z-DB

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