EVAL-ADXL362Z-DB Analog Devices, EVAL-ADXL362Z-DB Datasheet - Page 16

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

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ADXL362

When using referenced inactivity detection, inactivity is

detected when acceleration samples are within a user specified

amount of an internally defined reference (as described by

Equation 2) for a user defined amount of time.

Referenced inactivity, like referenced activity, is particularly

useful for eliminating the effects of the static acceleration due to

gravity. With absolute inactivity, if the inactivity threshold is set

lower than 1 g, a device resting motionless may never detect

inactivity. With referenced inactivity, the same device under the

same configuration detects inactivity.

The inactivity timer can be set to anywhere from 2.5 ms (a single

sample at 400 Hz ODR) to almost 90 minutes (65,535 samples

at 12.5 Hz ODR) of inactivity. A requirement for inactivity detec-

tion is that for whatever period of time the inactivity timer has

been configured, the accelerometer detects inactivity only when

it has been stationary for that amount of time.

For example, if the accelerometer has been configured for

90 minutes, the accelerometer detects inactivity when it has

been stationary for 90 minutes. The wide range of timer settings

means that in applications where power conservation is critical,

the system can be put to sleep after very short periods of

inactivity. In applications where continuous operation is critical, the

system stays on for as long as any motion is present.

Linking Activity and Inactivity Detection

The activity and inactivity detection functions can be used

concurrently and processed manually by a host processor, or

they can be configured to interact in several other ways, as

follows.

Default Mode

The user must enable the activity and inactivity functions

because these functions are not automatically enabled by

default. After the user enables the activity and inactivity

functions, the

enters default mode: Both activity and inactivity detection

remain enabled and all interrupts must be serviced by a host

processor; that is, a processor must read each interrupt before it

is cleared and can be used again.

Loop mode operation is illustrated in the flowchart in Figure 32.

Linked Mode

In linked mode, activity and inactivity detection are linked to

each other such that only one of the functions is enabled at any

given time. As soon as activity is detected, the device is assumed

to be moving (or awake) and stops looking for activity; rather,

inactivity is expected as the next event. Therefore, only inactivity

detection operates.

Similarly, when inactivity is detected, the device is assumed to

be stationary (or asleep). Thus, activity is expected as the next

event; therefore, only activity detection operates.

ABS(Acceleration − Reference) < Threshold

ADXL362

exhibits the following behavior when it

Rev. B | Page 16 of 44

(2)

In linked mode, each interrupt must be serviced by a host

processor before the next interrupt is enabled.

Linked mode operation is illustrated in the flowchart in Figure 32.

Loop Mode

In loop mode, motion detection operates as described in the

Linked Mode section, but interrupts do not need to be serviced

by a host processor. This configuration simplifies the implemen-

tation of commonly used motion detection and enhances power

savings by reducing the amount of power used in bus communi-

cation.

Loop mode operation is illustrated in the flowchart in Figure 33.

Autosleep

When in linked or loop mode, enabling autosleep causes the

device to enter wake-up mode autonomously (see the Wake-Up

Mode section) when inactivity is detected, and to reenter

measurement mode when activity is detected.

The autosleep configuration is active only if linked or loop modes

are enabled. In the default mode, the autosleep setting is ignored.

Figure 31. Flowchart Illustrating Activity and Inactivity Operation in Default Mode

Figure 32. Flowchart Illustrating Activity and Inactivity Operation in Linked Mode

Figure 33. Flowchart Illustrating Activity and Inactivity Operation in Loop Mode

INTERRUPT

ACTIVITY

WAIT FOR

NOTES

1. THE AWAKE BIT DEFAULTS TO 1 WHEN ACTIVITY AND INACTIVITY

ACTIVITY

EVENT

ARE NOT LINKED.

INTERRUPT

TRIGGERS

WAIT FOR

ACTIVITY

EVENT

WAIT FOR

ACTIVITY

EVENT

CLEAR INTERRUPT

AWAKE = 1

PROCESSOR TO

AWAKE = 1

WAIT FOR

CLEAR INTERRUP

PROCESSOR TO

WAIT FOR

AWAKE = 1

AWAKE = 0

CLEAR INTERRUPT

PROCESSOR TO

WAIT FOR

CLEAR INTERRUPT

PROCESSOR TO

AWAKE = 1

WAIT FOR

AWAKE = 0

INACTIVITY

WAIT FOR

EVENT

INACTIVITY

Data Sheet

INACTIVITY

INTERRUPT

TRIGGERS

WAIT FOR

EVENT

INACTIVITY

INTERRUPT

INACTIVITY

WAIT FOR

EVENT

EVAL-ADXL362Z-DB Analog Devices, EVAL-ADXL362Z-DB Datasheet - Page 16

EVAL-ADXL362Z-DB

Specifications of EVAL-ADXL362Z-DB

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