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LIS2L02AQ

LIS2L02AQ

  • 厂商:

    STMICROELECTRONICS(意法半导体)

  • 封装:

    VFQFN44_EP

  • 描述:

    ACCELEROMETER DUAL AXIS 44QFN

  • 数据手册
  • 价格&库存
LIS2L02AQ 数据手册
LIS2L02AQ INERTIAL SENSOR: 2Axis - 2g/6g LINEAR ACCELEROMETER 1 ■ ■ ■ ■ FEATURES 2.4V TO 5.25V SINGLE SUPPLY OPERATION 0.5mg RESOLUTION OVER 100Hz BW 2g/6g USER SELECTABLE FULL-SCALE OUTPUT VOLTAGE, OFFSET AND SENSITIVITY RATIOMETRIC TO THE SUPPLY VOLTAGE FACTORY TRIMMED DEVICE SENSITIVITY AND OFFSET EMBEDDED SELF TEST HIGH SHOCK SURVIVABILITY Figure 1. Package QFN-44 Table 1. Order Codes Part Number LIS2L02AQ Package QFN-44 ■ ■ ■ 2 DESCRIPTION The LIS2L02AQ is a dual-axis linear accelerometer that includes a sensing element and an IC interface able to take the information from the sensing element and to provide an analog signal to the external world. The sensing element, capable to detect the acceleration, is manufactured using a dedicated process called THELMA (Thick Epi-Poly Layer for Microactuators and Accelerometers) developed by ST to produce inertial sensors and actuators in silicon. The IC interface instead is manufactured using a CMOS process that allows high level of integration to design a dedicated circuit which is trimmed to better match the sensing element characteristics. The LIS2L02AQ has a user selectable full scale of Figure 2. Block Diagram 2g, 6g and it is capable of measuring accelerations over a maximum bandwidth of 4.0 KHz for both the X and Y axis. The device bandwidth may be reduced by using external capacitances. A self-test capability allows the user to check the functioning of the system. The LIS2L02AQ is available in plastic SMD package and it is specified over a temperature range extending from -40°C to +85°C. The LIS2L02AQ belongs to a family of products suitable for a variety of applications: – Motion activated functions in mobile terminals – Gaming and Virtual Reality input devices – Virtual reality input devices – Antitheft systems and Inertial Navigation – Appliance Control and Robotics Routx S1X S1Y CHARGE AMPLIFIER S/H Voutx rot S2Y S2X MUX DEMUX Routy S/H Vouty VOLTAGE & CURRENT REFERENCE TRIMMING CIRCUIT & TEST INTERFACE CLOCK & PHASE GENERATOR November 2004 Rev. 3 1/9 LIS2L02AQ Figure 3. Pin Description N° 1 to 3 4 5 6 7 8 9-13 14 15 16 17-18 19 20 21 22-23 24-25 26 27 28 29-44 Pin NC GND Vdd Vouty ST Voutx NC PD NC FS Reserved NC Reserved NC Reserved NC Reserved Reserved Reserved NC Internally not connected 0V supply Power supply Output Voltage Self Test (Logic 0: normal mode; Logic 1: Self-test) Output Voltage Internally not connected Power Down (Logic 0: normal mode; Logic 1: Power-Down mode) Internally not connected Full Scale selection (Logic 0: 2g Full-scale; Logic 1: 6g Full-scale) Leave unconnected Internally not connected Leave unconnected Internally not connected Leave unconnected Internally not connected Connect to Vdd or GND Leave unconnected or connect to Vdd Leave unconnected or connect to GND Internally not connected Function Figure 4. Pin Connection (Top view) NC NC NC NC NC NC NC NC NC NC NC 1 Y NC NC NC GND Vdd NC NC NC NC NC X Vouty ST Voutx NC NC NC LIS2L02AQ Reserved Reserved Reserved NC NC Reserved NC NC PD NC FS Reserved Reserved Reserved Reserved NC 2/9 Reserved DIRECTION OF THE DETECTABLE ACCELERATIONS LIS2L02AQ Table 2. Electrical Characteristics (Temperature range -40°C to +85°C) All the parameters are specified @ Vdd =3.3V, T=25°C unless otherwise noted Symbol Vdd Idd Parameter Supply voltage Supply current mean value PD pin connected to GND rms value PD pin connected to Vdd T = 25°C Delta from +25°C FS pin connected to GND FS pin connected to Vdd So Sensitivity2 Full-scale = 2g Full-scale = 6g SoDr NL Sensitivity drift Vs temperature Non Linearity4 Delta from +25°C Best fit straight line Full-scale = 2g X, Y axis ±1.8 ±5.4 Vdd/5–10% Vdd/15–10% Vdd/2-10% Test Condition Min. 2.4 Typ.1 3.3 0.85 Max. 5.25 1.5 Unit V mA IddPdn Supply current in Power Down Mode Zero-g level2 Zero-g level Vs temperature Acceleration range3 2 5 µA Voff OffDr Ar Vdd/2 ±1.5 ±2.0 ±6.0 Vdd/5 Vdd/15 ±0.01 ±0.3 Vdd/2+10% V mg/°C g g Vdd/5+10% Vdd/15+10% V/g V/g %/°C ±1.5 % FS CrossAx Cross-Axis5 fuc Sensing Element Resonant Frequency6 Acceleration noise density X, Y axis 3.2 ±2 4.0 ±4 4.8 % KHz µg/ Hz an Vdd=3.3V; Full-scale = 2g T = 25°C Vdd=3.3V Full-scale = 2g X axis T = 25°C Vdd=3.3V Full-scale = 2g Y axis -20 50 Vt Self test output voltage delta change7,8,9 40 mV 20 -40 mV Vst Self test input Logic 0 level Logic 1 level 0 2.2 80 110 0.8 Vdd 140 V V Rout Output impedance kΩ 3/9 LIS2L02AQ Table 2. Electrical Characteristics (continued) (Temperature range -40°C to +85°C) All the parameters are specified @ Vdd =3.3V, T=25°C unless otherwise noted Symbol Cload Ton Parameter Capacitive load drive10 Cload in µF Test Condition Min. 320 550*Cload +0.3 Typ.1 Max. Unit pF ms Turn-On Time at exit from Power Down mode Notes: 1. Typical specifications are not guaranteed 2. Offset and sensitivity are essentially ratiometric to supply voltage 3. Guaranteed by wafer level test and measurement of initial offset and sensitivity 4. Guaranteed by design through measurements done up to 1g 5. Contribution to the measuring output of the inclination/acceleration along the perpendicular axis 6. Guaranteed by design 7. Self test “output voltage delta change” is defined as Vout(Vst=Logic1)-Vout(Vst=Logic0) 8. Self test “output voltage delta change” varies cubically with supply voltage 9. When full-scale is set to 6g, self-test “output delta change” is one third of the specified value 10.Bandwidth=1/(2*π*110KΩ*Cload) ABSOLUTE MAXIMUM RATING Stresses above those listed as “absolute maximum ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device under these conditions is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. Table 3. Absolute Maximum Rating Symbol Vdd Vin APOW Supply voltage Input voltage on any control pin (FS, PD, ST) Acceleration (Any axis, Powered, Vdd=3.3V) Ratings Maximum Value -0.3 to 7 -0.3 to Vdd +0.3 3000g for 0.5 ms 10000g for 0.1 ms AUNP Acceleration (Any axis, Unpowered) 3000g for 0.5 ms 10000g for 0.1 ms TOP TSTG ESD Operating Temperature Range Storage Temperature Range Electrostatic discharge protection -40 to +85 -40 to +105 2KV HBM °C °C Unit V V 4/9 LIS2L02AQ 3 FUNCTIONALITY The LIS2L02AQ is a low-cost, low-power, analog output dual-axis linear accelerometer packaged in QFN package. The complete device includes a sensing element and an IC interface able to take the information from the sensing element and to provide an analog signal to the external world. 3.1 Sensing element The THELMA process is utilized to create a surface micro-machined accelerometer. The technology allows to carry out suspended silicon structures which are attached to the substrate in a few points called anchors and free to move on a plane parallel to the substrate itself. To be compatible with the traditional packaging techniques a cap is placed on top of the sensing element to avoid blocking the moving parts during the molding phase. The equivalent circuit for the sensing element is shown in the figure below; when a linear acceleration is applied, the proof mass displaces from its nominal position, causing an imbalance in the capacitive half-bridge. This imbalance is measured using charge integration in response to a voltage pulse applied to the sense capacitor. Figure 5. Equivalent electrical circuit Cps1 Rs1 S1x Cs1y Cpr Rr Cs2y S2x Cps2 Rs2 rot Cps1 Rs1 S1y Cs1z Cpr Rr Cs2z S2y Cps2 Rs2 5/9 LIS2L02AQ The nominal value of the capacitors, at steady state, is few pF and when an acceleration is applied the maximum variation of the capacitive load is few hundredths of pF. 3.2 IC Interface The complete signal processing uses a fully differential structure, while the final stage converts the differential signal into a single-ended one to be compatible with the external world. The first stage is a low-noise capacitive amplifier that implements a Correlated Double Sampling (CDS) at its output to cancel the offset and the 1/f noise. The produced signal is then sent to two different S&Hs, one for each channel, and made available to the outside. The low noise input amplifier operates at 200 kHz while the two S&Hs operate at a sampling frequency of 66 kHz. This allows a large oversampling ratio, which leads to in-band noise reduction and to an accurate output waveform. All the analog parameters (output offset voltage and sensitivity) are ratiometric to the voltage supply. Increasing or decreasing the voltage supply, the sensitivity and the offset will increase or decrease linearly. The feature provides the cancellation of the error related to the voltage supply along an analog to digital conversion chain. 3.3 Factory calibration The IC interface is factory calibrated to provide to the final user a device ready to operate. The trimming values are stored inside the device by a non volatile structure. Any time the device is turned on, the trimming parameters are downloaded into the registers to be employed during the normal operation thus allowing the final user to utilize the device without any need for further calibration. 6/9 LIS2L02AQ 4 PACKAGE INFORMATION Figure 6. QFN-44 Mechanical Data & Package Dimensions mm DIM. MIN. A A1 b D E e J K L P 5.04 5.04 0.38 0.48 45 REF 1.70 0.19 0.20 0.25 7.0 7.0 0.50 5.24 5.24 0.58 0.198 0.198 0.015 0.019 45 REF TYP. 1.80 MAX. 1.90 0.21 0.30 MIN. 0.067 0.007 0.008 0.01 0.276 0.276 0.020 0.206 0.206 0.023 TYP. 0.071 MAX. 0.075 0.008 0.012 inch OUTLINE AND MECHANICAL DATA QFN-44 (7x7x1.8mm) Quad Flat Package No lead M G M N 34 44 44 1 33 1 DETAIL "N" 23 11 22 12 DETAIL G SEATING PLANE 7/9 LIS2L02AQ Table 4. Revision History Date January 2004 February 2004 November 2004 Revision 1 2 3 First Issue Values of some parameters have been changed in Electrical characteristics table. Changed the maturity from Product Preview to Final. Modified/added some values in the table 2 Electrical characteristics. Description of Changes 8/9 LIS2L02AQ Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics. The ST logo is a registered trademark of STMicroelectronics. All other names are the property of their respective owners © 2004 STMicroelectronics - All rights reserved STMicroelectronics group of companies Australia - Belgium - Brazil - Canada - China - Czech Republic - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan Malaysia - Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States of America www.st.com 9/9
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