EVAL-ADXL362Z-DB Analog Devices, EVAL-ADXL362Z-DB Datasheet - Page 40

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: 40 of 44
Download datasheet (2Mb)

ADXL362

Alternate Functions of Interrupt Pins

The INT1 and INT2 pins can be configured for use as input

pins instead of for signaling interrupts. INT1 is used as an

external clock input when the EXT_CLK bit (Bit 6) in the

POWER_CTL register (Address 0x2D) is set. INT2 is used

as the trigger input for synchronized sampling when the

EXT_SAMPLE bit (Bit 3) in the FILTER_CTL register

(Address 0x2C) is set. One or both of these alternate functions

can be used concurrently; however, if an interrupt pin is used

for its alternate function, it cannot simultaneously be used for

its primary function, to signal interrupts.

External clocking and data synchronization are described in the

Applications Information section.

Activity and Inactivity Interrupts

The ACT bit (Bit 4) and INACT bit (Bit 5) in the STATUS

respectively. Detection procedures and criteria are described in

the Motion Detection section.

Data Ready Interrupt

The DATA_READY bit (Bit 0) is set when new valid data is

available, and it is cleared when no new data is available.

The DATA_READY bit is not set while any of the data registers,

Address 0x08 to Address 0x0A and Address 0x0E to Address 0x15,

are being read. If DATA_READY = 0 prior to a register read

and new data becomes available during the register read,

DATA_READY remains at 0 until the read is complete and,

only then, is set to 1.

If DATA_READY = 1 prior to a register read, it is cleared at the

start of the register read.

If DATA_READY = 1 prior to a register read and new data

becomes available during the register read, DATA_READY is

cleared to 0 at the start of the register read and remains at 0

throughout the read. When the read is complete, DATA_READY is

set to 1.

Using FIFO Interrupts

FIFO Watermark

The FIFO_WATERMARK bit (Bit 2) is set when the number of

samples stored in the FIFO is equal to or exceeds the number speci-

fied in the FIFO_SAMPLES register (Address 0x29) together with

the AH bit in the FIFO_CONTROL register (Bit 3, Address 0x28).

The FIFO_WATERMARK bit is cleared automatically when

enough samples are read from the FIFO, such that the number

of samples remaining is lower than that specified.

If the number of FIFO samples is set to 0, the FIFO watermark

interrupt is set. To avoid unexpectedly triggering this interrupt,

the default value of the FIFO_SAMPLES register is 0x80.

FIFO Ready

The FIFO_READY bit (Bit 1) is set when there is at least one

valid sample available in the FIFO output buffer. This bit is

cleared when no valid data is available in the FIFO.

Rev. B | Page 40 of 44

Overrun

The FIFO_OVERRUN bit (Bit 3) is set when the FIFO has

overrun or overflowed, such that new data replaces unread data.

This may indicate a full FIFO that has not yet been emptied or a

clocking error caused by a slow SPI transaction. If the FIFO is

configured to oldest saved mode, an overrun event indicates

that there is insufficient space available for a new sample.

The FIFO_OVERRUN bit is cleared automatically when the

contents of the FIFO are read. Likewise, when the FIFO is

disabled, the FIFO_OVERRUN bit is cleared.

USING SYNCHRONIZED DATA SAMPLING

For applications that require a precisely timed acceleration

measurement, the

acceleration sampling to an external trigger. The EXT_SAMPLE

bit (Bit 3) in the FILTER_CTL Register (Address 0x2C) enables

this feature. When the EXT_SAMPLE bit is set to 1, the INT2

pin is automatically reconfigured for use as the sync trigger input.

When external triggering is enabled, it is up to the system

designer to ensure that the sampling frequency meets system

requirements. Sampling too infrequently causes aliasing. Noise

can be lowered by oversampling; however, sampling at too high

a frequency may not allow enough time for the accelerometer to

process the acceleration data and convert it to valid digital output.

When Nyquist criteria are met, signal integrity is maintained.

An internal antialiasing filter is available in the

can assist the system designer in maintaining signal integrity. To

prevent aliasing, set the filter bandwidth to a frequency no

greater than ½ the sampling rate. For example, when sampling

at 100 Hz, set the filter pole to no higher than 50 Hz. The filter

pole is set via the ODR bits in the FILTER_CTL register

(Address 0x2C). The filter bandwidth is set to ½ the ODR and is

set via these bits. Even though the ODR is ignored (as the data

rate is set by the external trigger), the filter is still applied at the

specified bandwidth.

Because of internal timing requirements, the trigger signal

applied to pin INT2 must meet the following criteria:

•

The trigger signal is active high.

The pulse width of the trigger signal must be at least 25 µs.

The trigger must be deasserted for at least 25 µs before it is

reasserted.

The maximum sampling frequency that is supported is

625 Hz (typical).

The minimum sampling frequency is set only by system

requirements. Samples need not be polled at any minimum

rate; however, if samples are polled at a rate lower than the

bandwidth set by the antialiasing filter, then aliasing may

occur.

ADXL362

features an option to synchronize

Data Sheet

ADXL362

and

EVAL-ADXL362Z-DB Analog Devices, EVAL-ADXL362Z-DB Datasheet - Page 40

EVAL-ADXL362Z-DB

Specifications of EVAL-ADXL362Z-DB

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