SCA830-D07 Data Sheet SCA830-D07 1-AXIS INCLINOMETER WITH DIGITAL SPI INTERFACE Features 3.3V supply voltage 1 g measurement range Single axis measurement in Y direction 30mg offset accuracy over temp range SPI digital interface Extensive self diagnostics features Size 7.6 x 3.3 x 8.6 mm (w x h x l) Qualified according to AEC-Q100 standard Package, pin-out and SPI protocol compatible with Murata digital accelerometer product family RoHS compliant Dual Flat Lead (DFL) plastic package suitable for lead free soldering process and SMD mounting Proven capacitive 3D-MEMS technology High resolution 16-bit A/D converter Applications The SCA830-D07 is targeted to applications with high stability requirements. Typical applications include Hill Start Aid (HSA) Electronic Parking Brake (EPB) Roll Over detection Suspension control Inclinometers Motion and position measurements General Description The SCA830-D07 is a single axis inclinometer component based on Murata's capacitive 3D-MEMS technology. The component integrates high accuracy micromechanical acceleration sensing together with a flexible SPI digital interface. Dual Flat Lead (DFL) housing guarantees reliable operation over product lifetime. The SCA830-D07 is designed, manufactured and tested for high stability, reliability and quality requirements of automotive applications. The inclinometer has an extremely stable output over wide ranges of temperature, humidity and mechanical noise. The component is qualified to the AEC-Q100 standard and has several advanced self diagnostics features. The DFL housing is suitable for SMD mounting and the component is compatible with the RoHS and ELV directives. The SCA830-D07 is a part of Murata's digital accelerometer family and fully compatible with its single axis accelerometers (SCA800 Series) and other multi axis accelerometers (SCA2100 Series and SCA3100 Series). Murata Electronics Oy www.muratamems.fi 1/5 Doc.nr. 82 823 00 D SCA830-D07 Performance Characteristics Vdd=3.3 V and ambient temperature unless otherwise specified. Parameter Condition Min 3.0 Analog and digital Vdd Current consumption Measurement range Active mode Power down mode Measurement axis (Y) Operating temperature B) Total offset error C) Offset stability Temperature range -40 ... +125 C Temperature range -40 ... +125 C Offset calibration error D) Offset temperature drift Sensitivity Total sensitivity error Sensitivity calibration error Sensitivity temperature drift Linearity error Cross-Axis sensitivity Zero acceleration output Amplitude response Noise Power on setup time Output data rate Output load SPI clock rate ESD protection Moisture sensitivity level Mechanical shock ID register value A) B) C) D) E) F) Typ A) Max 3.6 6.3 0.1 1 +90 125 +70 25 1.5 5 -1 -90 -40 -70 -25 -1.5 @25C 50 8 2 1 Units V mA mA g C mg mg mg mg mg Count/g /Count % FS % FS % FS mg % Counts Hz mg RMS s Hz pF MHz kV kV 20 000 g 20 1.1 Temperature range -40 ... +125 C Temperature range -20 ... +85 C 16 bit output between 3 Temperature range -40 ... +125 C @25 C 5C Temperature range -40 ... +125 C +1g ... -1g range 30 F) E) 13 0.85 32 000 0.00179 -4 4 1.4 0.9 -20 20 3.5 2 0 6.25 0.15 2-complement -3dB frequency 5 0.3 125 Human Body Model Charge Device Model IPC/JEDEC J-STD-020C, Level 3 Customer readable ID register (27hex) 0A Typical values are 3 sigma variation limits from validation test population. Includes offset deviation from 0g value including calibration error and drift over lifetime, temperature and supply voltage. After mounting of ECU the application and after offset zero-setting at room temperature. Relevant offset failure due to temperature dependency of offset as well as aging over lifetime Includes offset deviation from 0g value including calibration error and drift over lifetime. Offset drift due to temperature. Value is a relative value and has been centered to zero. Error defined as maximum change of offset in temperature range. Offset (max)-Offset Min). 100% tested in production. Biggest change of output from RT value due temperature. MOSI MISO SPI C/V A/D SCK Signal conditioning and filtering CSB Temp sensor PWM PWM Self diagnostics Murata Electronics Oy www.muratamems.fi 2/5 Doc. Nr. 82823 00 D SCA830-D07 Figure 1. SCA830-D07 Block diagram Typical Performance characteristics Offset calibration error 40 35 Percent of parts[%] 30 25 20 15 10 5 0 -25 -20 -15 -10 -5 0 5 10 15 20 25 30 35 Offset [m g] Temperature dependency of offset Offset drift at temperature range -40oC...+125oC 30 30 25 25 Offset[mg] 15 10 +3 Sigma 5 Mean 0 -3 Sigma -5 -45 -20 5 30 55 80 105 130 Percent of parts[%] 20 20 15 10 -10 5 -15 -20 0 Temp [o C] -25 -20 -15 -10 -5 0 5 10 Offset drift [m g] 15 20 25 30 35 Sensitivity drift at temperature range Sensitivity at 25oC 50 45 45 40 40 35 35 Percent of parts[%] Percent of parts[%] -40oC...+125oC 50 30 25 20 15 10 30 25 20 15 10 5 5 0 31300 31450 31600 31750 31900 32050 32200 32350 32500 32650 32800 0 Sensitivity [LSB/g] Murata Electronics Oy www.muratamems.fi -0.9 -0.8 -0.7 -0.6 -0.5 -0.4 -0.3 Sensitivity error [% FS] -0.2 -0.1 0 0.1 3/5 Doc. Nr. 82823 00 D SCA830-D07 Measument directions Figure 1. Accelerometer measuring directions Earth gravitation PIN 1 Figure 2. Zero acceleration output position Housing dimensions Figure 3. Housing dimensions Murata Electronics Oy www.muratamems.fi 4/5 Doc. Nr. 82823 00 D SCA830-D07 Application Note for Acceleration Output Reading (16 bit output sensitivity) This is addition to SCA8X0_21X0_3100 Product Family Specification chapter 3.1. DOUT_LSB Address: 4h Bits Mode 7:0 R Initial Value 00h Name Description DATA Acceleration data LSB frame Read always DOUT_MSB prior to DOUT_LSB. Initial Value 00h Name Description DATA Acceleration data MSB frame Reading of this register latches DOUT_LSB. DOUT_MSB Address: 5h Bits Mode 7:0 R The bit level description of acceleration data from DOUT_LSB ... DOUT_MSB registers is presented below. The acceleration data is presented in 2's complement format. At 0 g acceleration the output is ideally 0000h. +/-1g product Bit number SCA8xx +1g position -1g position +Full-scale -Full-scale DOUT MSB bits(7:0) 15 14 13 s 512,0 256,0 0 1 1 1 0 0 0 1 1 1 0 0 12 128,0 1 0 1 0 11 64,0 1 0 1 0 10 32,0 1 0 1 0 9 16,0 0 1 1 0 8 8,0 1 1 1 0 DOUT LSB bits(7:0) 7 6 5 4,00 2,00 1,00 0 0 0 0 0 0 1 1 1 0 0 0 4 0,50 0 0 1 0 3 0,25 0 0 1 0 2 0,13 0 0 1 0 1 0,06 0 0 1 0 16b 0 [-] Bits (15:0) 0,03 [mg] [Dec] 0 1000 32000 0 -1000 -32000 1 1023 32767 0 -1024 -32768 s = sign bit Acceleration bits can be converted to mg acceleration (Acc) using following equation 15 14 13 12 11 10 9 8 7 6 5 4 4 1 s 2 b14 2 b13 2 b12 2 b11 2 b10 2 b9 2 b8 2 b7 2 b6 2 b5 2 b4 2 b3 2 Acc mg 32 b2 2 3 b1 21 b0 Murata Electronics Oy www.muratamems.fi 5/5 Doc. Nr. 82823 00 D