EVAL-ADXL344Z Analog Devices, EVAL-ADXL344Z Datasheet - Page 19

EVAL-ADXL344Z

Manufacturer Part Number

EVAL-ADXL344Z

Description

Daughter Cards & OEM Boards EB

Manufacturer

Analog Devices

Series

ADXL344r

Datasheet

1.EVAL-ADXL344Z.pdf (40 pages)

Specifications of EVAL-ADXL344Z

Rohs

yes

Product

Breakout Boards

Description/function

3 axis accelerometer evaluation board

Interface Type

I2C, SPI

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Operating Supply Voltage

1.7 V to 2.75 V

Factory Pack Quantity

For Use With

ADXL344

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Data Sheet

SELF-TEST

The

tests its mechanical and electronic systems simultaneously.

When the self-test function is enabled (via the SELF_TEST bit

(Bit D7 in the DATA_FORMAT register, Address 0x31), an

electrostatic force is exerted on the mechanical sensor. This

electrostatic force moves the mechanical sensing element in the

same manner as acceleration would, and it is additive to the

acceleration experienced by the device. This added electrostatic

force results in an output change in the x-, y-, and z-axes. Because

the electrostatic force is proportional to V

varies with V

The scale factors listed in Table 14 can be used to adjust the

expected self-test output limits for different supply voltages, V

The self-test feature of the

behavior. However, the limits listed in Table 1 and Table 15 to

Table 18 are valid for both potential self-test values due to bi-

modality. Use of the self-test feature at data rates less than 100 Hz

or at 1600 Hz may yield values outside these limits. Therefore,

the part must be in normal power operation (LOW_POWER

bit = 0 in the BW_RATE register, Address 0x2C) and be placed

into a data rate of 100 Hz through 800 Hz or 3200 Hz for the

self-test function to operate correctly.

ADXL344

–1

–2

–3

Figure 31. Self-Test Output Change Limits vs. Supply Voltage

1.6

X-AXIS SELF-TEST HIGH LIMIT

Y-AXIS SELF-TEST HIGH LIMIT

Z-AXIS SELF-TEST HIGH LIMIT

X-AXIS SELF-TEST LOW LIMIT

Y-AXIS SELF-TEST LOW LIMIT

Z-AXIS SELF-TEST LOW LIMIT

. This effect is shown in Figure 31.

incorporates a self-test feature that effectively

1.8

SUPPLY VOLTAGE, V

2.0

ADXL344

2.2

also exhibits a bimodal

(V)

2.4

, the output change

2.6

2.8

Rev. 0 | Page 19 of 40

Table 14. Self-Test Output Scale Factors for Different Supply

Voltages, V

Supply Voltage, V

1.70 V

1.80 V

2.00 V

2.60 V

2.75 V

Table 15. Self-Test Output in LSB for ±2 g, 10-Bit or Full

Resolution (T

Axis

Table 16. Self-Test Output in LSB for ±4 g, 10-Bit Resolution

Axis

Table 17. Self-Test Output in LSB for ±8 g, 10-Bit Resolution

Axis

Table 18. Self-Test Output in LSB for ±16 g, 10-Bit Resolution

Axis

= 25°C, V

= 2.6 V, V

= 25°C, V

Min

−50

Min

−400

100

Min

−200

Min

−100

X-, Y-Axes

0.43

0.48

0.59

1.00

1.13

DD I/O

= 2.6 V, V

= 1.8 V)

Max

−8

Max

400

−70

500

Max

200

−35

250

Max

100

−17

125

DD I/O

= 1.8 V)

Z-Axis

0.38

0.47

0.58

1.00

1.11

ADXL344

Unit

LSB

Unit

LSB

Unit

LSB

Unit

LSB

EVAL-ADXL344Z Analog Devices, EVAL-ADXL344Z Datasheet - Page 19

EVAL-ADXL344Z

Specifications of EVAL-ADXL344Z

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