ADXL345TCCZ-EP

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## **Enhanced Product** 

## **3-Axis, ±2** _**g**_ **/±4** _**g**_ **/±8** _**g**_ **/±16** _**g**_ **Di ital Accelerometer g ADXL345-EP** 

## **FEATURES** 

**Ultralow power: as low as 23 µA in measurement mode and 0.1 µA in standby mode at VS = 2.5 V (typical) Power consumption scales automatically with bandwidth User-selectable resolution from 10 to 13 bits** 

**4 m** _**g**_ **/LSB scale factor in all** _**g**_ **ranges** 

**32-sample FIFO minimizes host processor load Single tap, double tap, and free-fall detection Activity/inactivity monitoring Supply voltage range: 2.0 V to 3.6 V I/O voltage range: 1.7 V to VS SPI (3- and 4-wire) and I[2] C digital interfaces Flexible interrupt modes mappable to either interrupt pin Measurement ranges selectable via serial command Bandwidth selectable via serial command 10,000** _**g**_ **shock survival** 

**Pb free/RoHS compliant Small and thin: 3 mm × 5 mm × 1 mm LGA package** 

## **ENHANCED PRODUCT FEATURES** 

**Supports defense and aerospace applications (AQEC standard) Extended industrial temperature range (−55°C to +105°C) Controlled manufacturing baseline One assembly/test site One fabrication site Enhanced product change notification Qualification data available on request** 

## **APPLICATIONS** 

## **GENERAL DESCRIPTION** 

The ADXL345-EP is an extended performance version of the ADXL345, which is a small, thin, ultralow power, 3-axis accelerometer with high resolution (13-bit) measurement at up to ±16 _g_ . Digital output data is formatted as 16-bit twos complement and is accessible through either a SPI (3- or 4-wire) or I[2] C digital interface. 

The ADXL345-EP is well suited for extended temperature range industrial and aerospace equipment. It measures the static acceleration of gravity in tilt-sensing applications, as well as dynamic acceleration resulting from motion or shock. Its high resolution (3.9 m _g_ /LSB) enables measurement of inclination changes less than 1.0°. 

Several special sensing functions are provided. Activity and inactivity sensing detect the presence or lack of motion by comparing the acceleration on any axis with user-set thresholds. Tap sensing detects single and double taps in any direction. Freefall sensing detects if the device is falling. These functions can be mapped individually to either of two interrupt output pins. An integrated memory management system with a 32-level first in, first out (FIFO) buffer can be used to store data to minimize host processor activity and lower overall system power consumption. 

Low power modes enable intelligent motion-based power management with threshold sensing and active acceleration measurement at extremely low power dissipation. 

The ADXL345-EP is supplied in a small, thin, 3 mm × 5 mm × 1 mm, 14-lead, enhanced plastic package. 

## **Industrial equipment Aerospace equipment** 

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FUNCTIONAL BLOCK DIAGRAM<br>VS VDD I/O<br>ADXL345-EP<br>POWER<br>MANAGEMENT<br>CONTROL INT1<br>SENSE ADC AND<br>ELECTRONICS DIGITAL INTERRUPT<br>3-AXIS FILTER LOGIC INT2<br>SENSOR<br>SDA/SDI/SDIO<br>32 LEVELFIFO SERIAL I/O SDO/ALT<br>ADDRESS<br>SCL/SCLK<br>GND CS<br>Figure 1.<br>10413-001<br>**----- End of picture text -----**<br>


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**Rev. B Document Feedback Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective owners.** 

**One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 ©2009–2013 Analog Devices, Inc. All rights reserved. Technical Support www.analog.com** 

## **ADXL345-EP** 

## **Enhanced Product** 

## **TABLE OF CONTENTS** 

Features .............................................................................................. 1 Enhanced Product Features ............................................................ 1 Applications ....................................................................................... 1 General Description ......................................................................... 1 Functional Block Diagram .............................................................. 1 Revision History ............................................................................... 2 Related Documents .......................................................................... 2 Specifications ..................................................................................... 3 

Absolute Maximum Ratings ............................................................5 Thermal Resistance .......................................................................5 ESD Caution...................................................................................5 Pin Configuration and Function Descriptions ..............................6 Typical Performance Characteristics ..............................................7 Outline Dimensions ..........................................................................9 Ordering Guide .............................................................................9 

## **REVISION HISTORY** 

## **4/13—Rev. A to Rev. B** 

Deleted Package Information Section, Figure 2, and Table 4, Renumbered Sequentially ................................................................. 5 **2/13—Rev. 0 to Rev. A** Changes 354 to 345 in Figure 2 ....................................................... 5 

**12/11—Revision 0: Initial Version** 

## **RELATED DOCUMENTS** 

**The ADXL345-EP is, by definition, an extended performance variation of the ADXL345 accelerometer. All ADXL345 datasheet descriptions are applicable and not repeated in this document, so users should refer to it for complete functionality and product description. Information and data in this ADXL345-EP subset datasheet supersede those in the standard ADXL345 datasheet.** 

Rev. B | Page 2 of 12 

**ADXL345-EP** 

**Enhanced Product** 

## **SPECIFICATIONS** 

TA = 25°C, VS = 2.5 V, VDD I/O = 1.8 V, acceleration = 0 _g_ , CS = 10 µF tantalum, CI/O = 0.1 µF, output data rate (ODR) = 800 Hz, unless otherwise noted. All minimum and maximum specifications are guaranteed. Typical specifications are not guaranteed. **Table 1.** 

|**Table 1.**||||
|---|---|---|---|
|**Parameter**|**Test Conditions**|**Min**<br>**Typ1**<br>**Max**|**Unit**|
|SENSOR INPUT<br>Measurement Range<br>Nonlinearity<br>Inter-Axis Alignment Error<br>Cross-Axis Sensitivity2|Each axis<br>User selectable<br>Percentage of full scale|±2, ±4, ±8, ±16<br>±0.5<br>±0.1<br>±1|_g_<br>%<br>Degrees<br>%|
|OUTPUT RESOLUTION<br>All_g_Ranges<br>±2_g_Range<br>±4_g_Range<br>±8_g_Range<br>±16_g_Range|Each axis<br>10-bit resolution<br>Full resolution<br>Full resolution<br>Full resolution<br>Full resolution|10<br>10<br>11<br>12<br>13|Bits<br>Bits<br>Bits<br>Bits<br>Bits|
|SENSITIVITY<br>Sensitivity at XOUT, YOUT, ZOUT<br>Sensitivity Deviation from Ideal<br>Scale Factor at XOUT, YOUT, ZOUT<br>SensitivityChange Due to Temperature|Each axis<br>All_g_-ranges, full resolution<br>±2_g_, 10-bit resolution<br>±4_g_, 10-bit resolution<br>±8_g,_10-bit resolution<br>±16_g,_10-bit resolution<br>All_g_-ranges<br>All_g_-ranges, full resolution<br>±2_g_, 10-bit resolution<br>±4_g,_10-bit resolution<br>±8_g,_10-bit resolution<br>±16_g,_10-bit resolution|230<br>256<br>282<br>230<br>256<br>282<br>115<br>128<br>141<br>57<br>64<br>71<br>29<br>32<br>35<br>±1.0<br>3.5<br>3.9<br>4.3<br>3.5<br>3.9<br>4.3<br>7.1<br>7.8<br>8.7<br>14.1<br>15.6<br>17.5<br>28.6<br>31.2<br>34.5<br>±0.01|LSB/_g_<br>LSB/_g_<br>LSB/_g_<br>LSB/_g_<br>LSB/_g_<br>%<br>m_g/_LSB<br>m_g/_LSB<br>m_g/_LSB<br>m_g/_LSB<br>m_g/_LSB<br>%/°C|
|0_g_OFFSET<br>0_g_Output for XOUT, YOUT<br>0_g_Output for ZOUT<br>0_g_Output Deviation from Ideal, XOUT, YOUT<br>0_g_Output Deviation from Ideal, ZOUT<br>0_g_Offset vs. Temperature for X-, Y-Axes<br>0_g_Offset vs. Temperature for Z-Axis|Each axis|−150<br>0<br>+150<br>−250<br>0<br>+250<br>±35<br>±40<br>±0.4<br>±1.2|m_g_<br>m_g_<br>m_g_<br>m_g_<br>mg/°C<br>m_g_/°C|
|NOISE<br>X-, Y-Axes<br>Z-Axis|ODR = 100 Hz for ±2_g_, 10-bit resolution or<br>all_g_-ranges, full resolution<br>ODR = 100 Hz for ±2_g_, 10-bit resolution or<br>all_g_-ranges, full resolution|0.75<br>1.1|LSB rms<br>LSB rms|
|OUTPUT DATA RATE AND BANDWIDTH<br>Output Data Rate (ODR)3, 4, 5|User selectable|0.1<br>3200|Hz|
|SELF-TEST6<br>Output Change in X-Axis<br>Output Change in Y-Axis<br>Output Change in Z-Axis||0.20<br>2.10<br>−2.10<br>−0.20<br>0.30<br>3.40|_g_<br>_g_<br>_g_|
|POWER SUPPLY<br>Operating Voltage Range (VS)<br>Interface Voltage Range (VDD I/O)<br>Supply Current<br>Standby Mode Leakage Current<br>Turn-On and Wake-UpTime7|ODR ≥ 100 Hz<br>ODR < 10 Hz<br>ODR = 3200 Hz|2.0<br>2.5<br>3.6<br>1.7<br>1.8<br>VS<br>140<br>23<br>0.1<br>1.4|V<br>V<br>µA<br>µA<br>µA<br>ms|



Rev. B | Page 3 of 12 

## **ADXL345-EP** 

## **Enhanced Product** 

|**Parameter**|**Test Conditions**|**Min**<br>**Typ1**<br>**Max**|**Unit**|
|---|---|---|---|
|TEMPERATURE<br>OperatingTemperature Range||−55<br>+105|°C|
|WEIGHT<br>Device Weight||30|mg|



> 1 The typical specifications shown are for at least 68% of the population of parts and are based on the worst case of mean ±1 σ, except for 0 _g_ output and sensitivity, which represents the target value. For 0 _g_ output and sensitivity, the deviation from the ideal describes the worst case of mean ±1 σ. 

2 Cross-axis sensitivity is defined as coupling between any two axes. 

3 Bandwidth is the −3 dB frequency and is defined as half the output data rate, bandwidth = ODR/2. 

- 4 The output format for the 3200 Hz and 1600 Hz ODRs is different from the output format for the remaining ODRs. This difference is described in the ADXL345 data sheet. 

5 Output data rates below 6.25 Hz exhibit additional offset shift with increased temperature, depending on selected output data rate. Refer to the ADXL345 data sheet for details. 

> 6 Self-test change is defined as the output ( _g_ ) when the SELF_TEST bit = 1 (in the DATA_FORMAT register, Address 0x31) minus the output ( _g_ ) when the SELF_TEST bit = 0. Due to device filtering, the output reaches its final value after 4 × τ when enabling or disabling self-test, where τ = 1/(data rate). The part must be in normal power operation (LOW_POWER bit = 0 in the BW_RATE register, Address 0x2C) for self-test to operate correctly. 

7 Turn-on and wake-up times are determined by the user-defined bandwidth. At a 100 Hz data rate, the turn-on and wake-up times are each approximately 11.1 ms. For other data rates, the turn-on and wake-up times are each approximately τ + 1.1 in milliseconds, where τ = 1/(data rate). 

Rev. B | Page 4 of 12 

**ADXL345-EP** 

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## **ABSOLUTE MAXIMUM RATINGS** 

## **Table 2.** 

|**Table 2.**||
|---|---|
|**Parameter**|**Rating**|
|Acceleration<br>Any Axis, Unpowered<br>Any Axis, Powered<br>VS<br>VDD I/O<br>Digital Pins<br>All Other Pins<br>Output Short-Circuit Duration<br>(Any Pin to Ground)<br>Temperature Range<br>Powered<br>Storage|10,000_g_<br>10,000_g_<br>−0.3 V to +3.9 V<br>−0.3 V to +3.9 V<br>−0.3 V to VDD I/O+ 0.3 V or 3.9 V,<br>whichever is less<br>−0.3 V to +3.9 V<br>Indefinite<br>−55°C to +105°C<br>−65°C to +150°C|



## **THERMAL RESISTANCE** 

## **Table 3. Package Characteristics** 

|**Package Type **|**θJA**|**θJC**|**Device Weight**|
|---|---|---|---|
|14-Terminal LGA|150°C/W|85°C/W|30 mg|



## **ESD CAUTION** 

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Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. 

Rev. B | Page 5 of 12 

**ADXL345-EP** 

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## **PIN CONFIGURATION AND FUNCTION DESCRIPTIONS** 

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ADXL345-EP<br>**----- End of picture text -----**<br>


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TOP VIEW<br>(Not to Scale)<br>SCL/SCLK<br>VDD I/O 1 14 13 SDA/SDI/SDIO<br>GND 2 12 SDO/ALT ADDRESS<br>RESERVED 3 11 RESERVED<br>+x<br>GND 4 10 NC<br>+y<br>+z<br>GND 5 9 INT2<br>VS 6 7 8 INT1<br>CS 10413-002<br>**----- End of picture text -----**<br>


_Figure 2. Pin Configuration (Top View)_ 

**Table 4. Pin Function Descriptions** 

|**Pin No.**|**Mnemonic**|**Description**|
|---|---|---|
|1<br>2<br>3<br>4<br>5<br>6<br>7<br>8<br>9<br>10<br>11<br>12<br>13<br>14|VDD I/O<br>GND<br>RESERVED<br>GND<br>GND<br>VS<br>CS<br>INT1<br>INT2<br>NC<br>RESERVED<br>SDO/ALT ADDRESS<br>SDA/SDI/SDIO<br>SCL/SCLK|Digital Interface Supply Voltage.<br>This pin must be connected to ground.<br>Reserved. This pin must be connected to VSor left open.<br>This pin must be connected to ground.<br>This pin must be connected to ground.<br>Supply Voltage.<br>Chip Select.<br>Interrupt 1 Output.<br>Interrupt 2 Output.<br>Not Internally Connected.<br>Reserved. This pin must be connected to ground or left open.<br>Serial Data Output (SPI 4-Wire)/Alternate I2C Address Select (I2C).<br>Serial Data (I2C)/Serial Data Input (SPI 4-Wire)/Serial Data Input and Output (SPI 3-Wire).<br>Serial Communications Clock. SCL is the clock for I2C, and SCLK is the clock for SPI.|



Rev. B | Page 6 of 12 

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## **TYPICAL PERFORMANCE CHARACTERISTICS** 

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150<br>100<br>50<br>0<br>–50<br>–100<br>–150<br>–60 –40 –20 0 20 40 60 80 100<br>TEMPERATURE (°C)<br>) g<br>OUTPUT (m<br>10413-004<br>**----- End of picture text -----**<br>


_Figure 3. X-Axis Zero_ g _Offset vs. Temperature— Eight Parts in Sockets, VS = 3.6 V_ 

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150<br>100<br>50<br>0<br>–50<br>–100<br>–150<br>–60 –40 –20 0 20 40 60 80 100<br>TEMPERATURE (°C)<br>) g<br>OUTPUT (m<br>10413-005<br>**----- End of picture text -----**<br>


_Figure 4. Y-Axis Zero_ g _Offset vs. Temperature— Eight Parts in Sockets, VS = VDD I/O = 3.6 V_ 

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250<br>200<br>150<br>100<br>50<br>0<br>–50<br>–60 –40 –20 0 20 40 60 80 100<br>TEMPERATURE (°C)<br>) g<br>OUTPUT (m<br>10413-011<br>**----- End of picture text -----**<br>


_Figure 5. Z-Axis Zero_ g _Offset vs. Temperature— Eight Parts in Sockets, VS = VDD I/O = 3.6 V_ 

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150<br>100<br>50<br>0<br>–50<br>–100<br>–150<br>–60 –40 –20 0 20 40 60 80 100<br>TEMPERATURE (°C)<br>) g<br>OUTPUT (m<br>10413-007<br>**----- End of picture text -----**<br>


_Figure 6. X-Axis Zero_ g _Offset vs. Temperature— Eight Parts in Sockets, VS = 2.5 V_ 

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150<br>100<br>50<br>0<br>–50<br>–100<br>–150<br>–60 –40 –20 0 20 40 60 80 100<br>TEMPERATURE (°C)<br>Figure 7. Y-Axis Zero  g  Offset vs. Temperature—<br>Eight Parts Soldered to PCB, VS = VDD I/O = 2.5 V<br>250<br>200<br>150<br>100<br>50<br>0<br>–50<br>–60 –40 –20 0 20 40 60 80 100<br>TEMPERATURE (°C)<br>Figure 8. Z-Axis Zero  g  Offset vs. Temperature—<br>Eight Parts Soldered to PCB, VS = VDD I/O = 2.5 V<br>) g<br>OUTPUT (m<br>10413-008<br>) g<br>OUTPUT (m<br>10413-012<br>**----- End of picture text -----**<br>


Rev. B | Page 7 of 12 

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260<br>258<br>256<br>254<br>252<br>250<br>248<br>246<br>244<br>242<br>–60 –40 –20 0 20 40 60 80 100 120<br>TEMPERATURE (°C)<br>Figure 9. X-Axis Sensitivity vs. Temperature—<br>Eight Parts in Sockets, VS = VDD I/O = 2.5 V<br>260<br>258<br>256<br>254<br>252<br>250<br>248<br>246<br>244<br>242<br>–60 –40 –20 0 20 40 60 80 100 120<br>TEMPERATURE (°C)<br>Figure 10. Z-Axis Sensitivity vs. Temperature—<br>Eight Parts in Sockets, VS = VDD I/O = 2.5 V<br>) g<br>SENSITIVITY (LSB/<br>10413-006<br>) g<br>SENSITIVITY (LSB/<br>10413-010<br>**----- End of picture text -----**<br>


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260<br>258<br>256<br>254<br>252<br>250<br>248<br>246<br>244<br>242<br>–60 –40 –20 0 20 40 60 80 100 120<br>TEMPERATURE (°C)<br>Figure 11. Y-Axis Sensitivity vs. Temperature—<br>Eight Parts in Sockets, VS = VDD I/O = 2.5 V<br>) g<br>SENSITIVITY (LSB/<br>10413-009<br>**----- End of picture text -----**<br>


Rev. B | Page 8 of 12 

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## **OUTLINE DIMENSIONS** 

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3.00<br>CORNERPAD A1 BSC 0.49 BOTTOM VIEW 0.813 × 0.50<br>13 14 1<br>5.00 0.80<br>BSC BSC<br>0.50<br>8 6<br>7<br>TOP VIEW 1.01<br>0.49<br>0.79<br>1.00<br>0.95 END VIEW 0.74 1.50<br>0.85 0.69<br>SEATING<br>PLANE<br>Figure 12. 14-Terminal Land Grid Array [LGA]<br>(CC-14-1)<br>Solder Terminations Finish Is Au over Ni<br>Dimensions shown in millimeters<br>03-16-2010-A<br>**----- End of picture text -----**<br>


## **ORDERING GUIDE** 

|**ORDERING GUIDE**||||||
|---|---|---|---|---|---|
|**Model1**|**Measurement**<br>**Range (****_g_) **|**Specified**<br>**Voltage (V)**|**Temperature**<br>**Range **|**Package Description**|**Package**<br>**Option**|
|ADXL345TCCZ-EP<br>ADXL345TCCZ-EP-RL7<br>ADXL345TCCZ-EP-RL|±2, ±4, ±8, ±16<br>±2, ±4, ±8, ±16<br>±2, ±4, ±8, ±16|2.5<br>2.5<br>2.5|−55°C to +105°C<br>−55°C to +105°C<br>−55°C to +105°C|14-Terminal Land Grid Array [LGA]<br>14-Terminal Land Grid Array [LGA]<br>14-Terminal Land Grid Array[LGA]|CC-14-1<br>CC-14-1<br>CC-14-1|



1 Z = RoHS Compliant Part. 

Rev. B | Page 9 of 12 

**ADXL345-EP** 

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## **NOTES** 

Rev. B | Page 10 of 12 

**ADXL345-EP** 

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## **NOTES** 

Rev. B | Page 11 of 12 

**ADXL345-EP** 

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## **NOTES** 

**Analog Devices offers specific products designated for automotive applications; please consult your local Analog Devices sales representative for details. Standard products sold by Analog Devices are not designed, intended, or approved for use in life support, implantable medical devices, transportation, nuclear, safety, or other equipment where malfunction of the product can reasonably be expected to result in personal injury, death, severe property damage, or severe environmental harm. Buyer uses or sells standard products for use in the above critical applications at Buyer's own risk and Buyer agrees to defend, indemnify, and hold harmless Analog Devices from any and all damages, claims, suits, or expenses resulting from such unintended use.** 

**©2009–2013 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners.** 

**D10413-0-4/13(B)** 

Rev. B | Page 12 of 12