The Kynix Components

CatalogProduct OverviewMBR0540T1G CAD ModelsMBR0540T1G Marking DiagramMBR0540T1G FeaturesMBR0540T1G Mechanical CharacteristicsMBR0540T1G DatasheetMBR0540T1G SpecificationsMBR0540T1G ManufacturerUsing WarningMBR0540T1G FAQ Product OverviewThe Schottky Power Rectifier employs the Schottky Barrier principle with a barrier metal that produces optimal forward voltage drop−reverse current trade off. Ideally suited for low voltage, high frequency rectification, or as a free wheeling and polarity protection diodes in surface mount applications where compact size and weight are critical to the system. This package provides an alternative to the leadless 34 MELF style package. MBR0540T1G CAD ModelsFigure: MBR0540T1G PCB Symbol  Figure: MBR0540T1G Footprint  Figure: MBR0540T1G 3D Models MBR0540T1G Marking DiagramFigure: MBR0540T1G Marking Diagram MBR0540T1G FeaturesGuardring for Stress ProtectionVery Low Forward VoltageEpoxy Meets UL 94 V−0 @ 0.125 inPackage Designed for Optimal Automated BoardAssemblyAEC−Q101 Qualified and PPAP CapableNRVB Prefix for Automotive and Other ApplicationsRequiring Unique Site and Control Change RequirementsAll Packages are Pb−Free* MBR0540T1G Mechanical CharacteristicsDevice Marking: B4Polarity Designator: Cathode BandWeight: 11.7 mg (approximately)Case: Epoxy MoldedFinish: All External Surfaces Corrosion Resistant andTerminal Leads are Readily SolderableLead and Mounting Surface Temperature for Soldering Purposes:260℃ max. for 10 SecondsESD Rating:Human Body Model = 3B                             Machine Model = C MBR0540T1G DatasheetYou can download the datasheet from the link given below:MBR0540T1G Datasheet MBR0540T1G SpecificationsProduct AttributeAttribute ValueManufacturer:onsemiProduct Category:Schottky Diodes & RectifiersProduct:Schottky DiodesMounting Style:SMD/SMTPackage / Case:SOD-123-2Configuration:SingleTechnology:SiIf - Forward Current:500 mAVrrm - Repetitive Reverse Voltage:40 VVf - Forward Voltage:620 mVIfsm - Forward Surge Current:5.5 AIr - Reverse Current:20 uAOperating Temperature - Junction-55°C ~ 150°CSeries:MBR0540Brand:onsemiHeight:1.12 mmLength:2.69 mmProduct Type:Schottky Diodes & RectifiersSubcategory:Diodes & RectifiersTermination Style:SMD/SMTType:Schottky DiodeWidth:1.6 mmPart # Aliases:MBR0540T3GUnit Weight:0.001058 oz MBR0540T1G ManufacturerOnsemi is driving energy efficient innovations, empowering customers to reduce global energy use. The company offers a comprehensive portfolio of energy efficient power and signal management, logic, discrete and custom solutions to help design engineers solve their unique design challenges in automotive, communications, computing, consumer, industrial, LED lighting, medical, military/aerospace and power supply applications. onsemi operates a responsive, reliable, world-class supply chain and quality program, and a network of manufacturing facilities, sales offices and design centers in key markets throughout North America, Europe, and the Asia Pacific regions. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. MBR0540T1G FAQWhat is meant by Schottky diode?The Schottky diode (named after the German physicist Walter H. Schottky), also known as Schottky barrier diode or hot-carrier diode, is a semiconductor diode formed by the junction of a semiconductor with a metal. It has a low forward voltage drop and a very fast switching action.Which metal is used in Schottky diode?A metal-semiconductor junction is formed between a metal and a semiconductor, creating a Schottky barrier instead of a semiconductor-semiconductor junction as in conventional diodes. The semiconductor would typically be N-type silicon and typical metals used are molybdenum, platinum, chromium or tungsten. What is a Schottky diode used for?Schottky diodes are used for their low turn-on voltage, fast recovery time and low-loss energy at higher frequencies. These characteristics make Schottky diodes capable of rectifying a current by facilitating a quick transition from conducting to blocking state. How do I know if my Schottky diode is bad?Listen for a “beep” or a “buzz” from the multimeter. If the Schottky diode responds as expected, the multimeter will sound a tone. If the multimeter does not sound a tone, the Schottky diode is not functioning correctly. What is the difference between diode and Schottky diode?Like other diodes, the Schottky diode controls the direction of current flow in a circuit. However, unlike standard diodes, the Schottky diode is known for its low forward voltage and fast switching ability. This makes them an ideal choice for radio frequency applications and any device with low voltage requirements. 

Product OverviewThe FXOS8700CQR1 is a 6-axis Digital Sensor combines industry-leading accelerometer and magnetometer sensors. The 14-bit accelerometer and 16-bit magnetometer are combined with a high-performance ASIC to enable an E-compass solution capable of a typical orientation resolution of 0.1 and sub-5° compass heading accuracy for most applications. This blog will introduce FXOS8700CQR1 systematically from its features, pinout to its specifications, applications, also including FXOS8700CQR1 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionFXOS8700CQR1 FeaturesFXOS8700CQR1 PinoutFXOS8700CQR1 ApplicationsFXOS8700CQR1 CAD ModelsFXOS8700CQR1 Block DiagramFXOS8700CQR1 Circuit DiagramFXOS8700CQR1 SpecificationFXOS8700CQR1 ManufacturerFXOS8700CQR1 DatasheetUsing WarningsFXOS8700CQR1 FAQ Related Video Introduction Video: How an accelerometer works! FXOS8700CQR1 Video Description: A simplified explanation of how a capacitive MEMS accelerometer works. FXOS8700CQR1 FeaturesHighly Integrated±1200µT Wide Dynamic RangeEmbedded Vector Magnitude DetectionEmbedded Autonomous Hard Iron CalibrationLow-power Consumption32-sample FIFO for Acceleration Data OnlyIntegrated Accelerometer and Magnetometer Self-test Functions FXOS8700CQR1 PinoutThe following figure is the diagram of FXOS8700CQR1 pinout. FXOS8700CQR1 Pinout FXOS8700CQR1 ApplicationsSecurity: motion detection, door opening, smart home applications, robotics, andunmanned aerial vehicles (UAVs) with electronic compass (e-compass) function.Medical applications: patient monitoring, fall detection, and rehabilitationE-compass in mobile devices, tablets, and personal navigation devicesUser interface (menu scrolling by orientation change, tap detection for buttonreplacement)Orientation detection (portrait/landscape: up/down, left/right, back/front orientationidentification)Augmented reality (AR), gaming, and real-time activity analysis (pedometry, freefall,and drop detection for hard disk drives and other devices)Power management for mobile devices using inertial and magnetic event detectionWearable devices: motion detection, activity monitoring, sports monitoring, contextawareness, and shock and vibration monitoring (mechatronic compensation, shipping, and warranty usage logging) FXOS8700CQR1 CAD ModelsThe followings are FXOS8700CQR1 Symbol, Footprint, and 3D Model. FXOS8700CQR1 Symbol FXOS8700CQR1 Footprint FXOS8700CQR1 3D Model FXOS8700CQR1 Block DiagramThe following figure shows the block diagram of FXOS8700CQR1. FXOS8700CQR1 Block Diagram FXOS8700CQR1 Circuit DiagramThe following is the electrical connection of FXOS8700CQR1. FXOS8700CQR1 Circuit Diagram FXOS8700CQR1 SpecificationProduct AttributeAttribute ValueManufacturer:NXPProduct Category:AccelerometersSensor Type:3-axisSensing Axis:X, Y, ZOutput Type:DigitalSupply Voltage - Max:3.6 VSupply Voltage - Min:1.95 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CMounting Style:SMD/SMTPackage / Case:QFN-16Brand:NXP SemiconductorsMoisture Sensitive:YesOperating Supply Voltage:1.95 V to 3.6 VProduct Type:AccelerometersFactory Pack Quantity:1500Subcategory:SensorsTradename:XtrinsicType:6 Axis SensorPart # Aliases:9.35311E+11Unit Weight:0.000808 oz FXOS8700CQR1 ManufacturerNXP Semiconductors enables secure connections and infrastructure for a smarter world, advancing solutions that make lives easier, better and safer. As the world leader in secure connectivity solutions for embedded applications, NXP is driving innovation in the secure connected vehicle, end-to-end security and privacy and smart connected solutions markets. FXOS8700CQR1 DatasheetYou can download FXOS8700CQR1 datasheet from the link given below:FXOS8700CQR1 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. FXOS8700CQR1 FAQIs the fxos8700cq a linear or linear accelerometer?FXOS8700CQ is a small, low-power, 3-axis, linear accelerometer and 3-axis, magnetometer combined into a single package. The device features a selectable I2C or point-to-point SPI serial interface with 14-bit accelerometer and 16-bit magnetometer ADC resolution along with smart-embedded functions. What is a linear accelerometer?The linear accelerometer measures the acceleration applied to the sensor built-in into the device, excluding the force of gravity, in m/s². For example, you could use this sensor to see how fast your car is going. The linear acceleration sensor always has an offset, which you need to remove. What is the difference between accelerometer and linear accelerometer?Using the key principles of angular momentum, the gyroscope helps indicate orientation. In comparison, the accelerometer measures linear acceleration based on vibration. The typical two-axis accelerometer gives users a direction of gravity in an aircraft, smartphone, car or other device. What are the types of accelerometer?There are three different types of accelerometers, and they are each designed to efficiently function in their intended environments. The three types are: piezoelectric, piezoresistance and capacitive. How does an accelerometer work?An accelerometer is a device that measures the vibration, or acceleration of motion of a structure. The force caused by vibration or a change in motion (acceleration) causes the mass to "squeeze" the piezoelectric material which produces an electrical charge that is proportional to the force exerted upon it.

Product OverviewThe MMA8452Q is a smart, low-power, three-axis, capacitive, micromachined accelerometer with 12 bits of resolution. This accelerometer is packed with embedded functions with flexible user programmable options, configurable to two interrupt pins. Embedded interrupt functions allow for overall power savings relieving the host processor from continuously polling data. This blog will introduce MMA8452QR1 systematically from its features, pinout to its specifications, applications, also including MMA8452QR1 datasheet and so much more. CatalogProduct OverviewRelated Video IntroductionMMA8452QR1 FeaturesMMA8452QR1 PinoutMMA8452QR1 ApplicationsMMA8452QR1 CAD ModelsMMA8452QR1 Block DiagramMMA8452QR1 Application DiagramMMA8452QR1 SpecificationMMA8452QR1 ManufacturerMMA8452QR1 DatasheetUsing WarningsMMA8452QR1 FAQ Related Video Introduction Video: Arduino Nano - MMA8452Q 3-Axis 12-bit/8-bit Digital Accelerometer Tutorial MMA8452QR1 Video Description: MMA8452Q 3-Axis 12-bit/8-bit Digital Accelerometer I²C Mini Module. The MMA8452Q, manufactured by Freescale Semiconductor, Inc., is a smart, low-power, three-axis, capacitive, micromachined accelerometer with 12 bits of resolution. This accelerometer is packed with embedded functions with flexible user programmable options, configurable to two interrupt pins.The MMA8452Q has user selectable full scales of ±2g/±4g/±8g with high-pass filter filtered data as well as non-filtered data available real-time. MMA8452QR1 Features1.95 V to 3.6 V supply voltage1.6 V to 3.6 V interface voltage±2 g/±4 g/±8 g dynamically selectable full-scaleOutput data rates (ODR) from 1.56 Hz to 800 Hz99 μg/√Hz noise12-bit and 8-bit digital outputI2C digital output interfaceTwo programmable interrupt pins for six interrupt sourcesThree embedded channels of motion detection— Freefall or motion detection: one channel— Pulse detection: one channel— Transient detection: one channelOrientation (portrait/landscape) detection with set hysteresisAutomatic ODR change for auto-wake and return to sleepHigh-pass filter data available real-timeSelf-testCurrent consumption: 6 μA to 165 μA MMA8452QR1 PinoutThe following figure is the diagram of MMA8452QR1 pinout. MMA8452QR1 Pinout MMA8452QR1 ApplicationsE-compass applicationsStatic orientation detection (portrait/landscape, up/down, left/right, back/frontposition identification)Notebook, e-reader, and laptop tumble and freefall detectionReal-time orientation detection (virtual reality and gaming 3D user position feedback)Real-time activity analysis (pedometer step counting, freefall drop detection for HDD, dead-reckoning GPS backup)Motion detection for portable product power saving (auto-sleep and auto-wake for cell phone, PDA, GPS, gaming)Shock and vibration monitoring (mechatronic compensation, shipping and warranty usage logging)User interface (menu scrolling by orientation change, pulse detection for button replacement) MMA8452QR1 CAD ModelsThe followings are MMA8452QR1 Symbol, Footprint, and 3D Model. MMA8452QR1 Symbol MMA8452QR1 Footprint MMA8452QR1 3D Model MMA8452QR1 Block DiagramThe following figure shows the block diagram of MMA8452QR1. MMA8452QR1 Block Diagram MMA8452QR1 Application DiagramThe following is the application diagram of MMA8452QR1. MMA8452QR1 Application Diagram MMA8452QR1 SpecificationProduct AttributeAttribute ValueManufacturer:NXPProduct Category:AccelerometersSensor Type:3-axisSensing Axis:X, Y, ZAcceleration:2 g, 4 g, 8 gSensitivity:256 count/g, 512 count/g, 1024 count/gOutput Type:DigitalInterface Type:I2CResolution:8 bit, 12 bitSupply Voltage - Max:3.6 VSupply Voltage - Min:1.95 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CMounting Style:SMD/SMTBrand:NXP SemiconductorsProduct Type:AccelerometersSeries:MMA8452QFactory Pack Quantity:1000Subcategory:SensorsTradename:XtrinsicPart # Aliases:9.35325E+11Unit Weight:0.004586 oz MMA8452QR1 ManufacturerNXP Semiconductors enables secure connections and infrastructure for a smarter world, advancing solutions that make lives easier, better and safer. As the world leader in secure connectivity solutions for embedded applications, NXP is driving innovation in the secure connected vehicle, end-to-end security and privacy and smart connected solutions markets. MMA8452QR1 DatasheetYou can download MMA8452QR1 datasheet from the link given below:MMA8452QR1 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. MMA8452QR1 FAQWhat kind of accelerometer is the mma8452qr1 by NXP?The MMA8452Q is a smart low-power, three-axis, capacitive micromachined accelerometer with 12 bits of resolution. This accelerometer is packed with embedded functions with flexible user-programmable options, configurable to two interrupt pins. What does an accelerometer do?An accelerometer is a device that measures the vibration, or acceleration of motion of a structure. The force caused by vibration or a change in motion (acceleration) causes the mass to "squeeze" the piezoelectric material which produces an electrical charge that is proportional to the force exerted upon it. Where is an accelerometer used?Accelerometers can be used to measure vibration on cars, machines, buildings, process control systems and safety installations. They can also be used to measure seismic activity, inclination, machine vibration, dynamic distance and speed with or without the influence of gravity. What does accelerometer do in mobile phones?Accelerometers in mobile phones are used to detect the orientation of the phone. The gyroscope, or gyro for short, adds an additional dimension to the information supplied by the accelerometer by tracking rotation or twist. How does accelerometer measure steps?We are going to count steps by using the accelerometer to count bounces up and down. Because the phone can rotate in any direction, we will use gravity to know which direction down is. A pedometer can count steps by counting the number of bounces in the direction of gravity.

CatalogDescriptionBMP388 Related Video IntroductionBMP388 CAD ModelsBMP388 PinoutBMP388 Block DiagramBMP388 FeaturesBMP388 Typical applicationsBMP388 Target DevicesBMP388 DatasheetBMP388 SpecificationsBMP388 vs BMP390BMP388 ManufacturerUsing WarningBMP388 FAQDescriptionThe BMP388 is a digital sensor with pressure and temperature measurement based on proven sensing principles. The sensor module is housed in an extremely compact 10-pin metal-lid LGA package with a footprint of only 2.0×2.0 mm² and max 0.8 mm package height. Its small dimensions and its low power consumption of 3.4 µA @1Hz allow the implementation in battery driven devices such as mobile phones, GPS modules or watches. BMP388 Related Video IntroductionBMP388 Video Description: Accurate, small and low-power: Bosch Sensortec’s barometric pressure sensors serve as altimeters for a variety of consumer electronics applications. Inside smartphones, wearables and hearables, the tiny helpers enable indoor and outdoor navigation, floor level detection, and make calorie counting more precise. Inside drones, they help to stabilize the altitude to enhance the flying experience. BMP388 CAD Models Figure: PCB Symbol  Figure: Footprint BMP388 Pinout Figure: Pinout BMP388 Block Diagram Figure: Block Diagram BMP388 FeaturesPackage: 2.0 mm x 2.0 mm x 0.75 mm metal lid LGADigital interface: I²C (up to 3.4 MHz) and SPI (3 and 4 wire, up to 10 MHz)Supply voltage:VDD main supply voltage range: 1.65 V to 3.6 VVDDIO interface voltage range: 1.2 V to 3.6 VRelative accuracy: typ.±8 Pa, equiv. to±0.66 m (700 -- 900 hPa, 25 -- 40 °C )Absolute accuracy: typ. ± 50 Pa (300 --1100 hPa, -20 -- +65 °C)Temperature coefficient offset:  typ. ± 0.75 Pa/K (0 -- 55°C @700 -1100 hPa)Current consumption: 3.4 µA at 1 Hz pressure and temperature2.0 µA in sleep modeOperating range: -40 ‒ +85 °C, 300‒1250 hPa BMP388 enables accurate altitude tracking and is specifically suited for drone applications. The best-in-class TCO between -20-65°C for accurate altitude measurement over a wide temperature range of the BMP388 greatly enhance the drone flying experience by making accurate steering easier. It is compatible for use with other Bosch sensors, including the new BMI088 for better performance, robustness and stability. The new BMP388 sensor offers outstanding design flexibility, providing a single package solution that can also be easily integrated into other existing and upcoming devices such as smart homes, industrial products and wearables. The sensor is more accurate than its predecessor BMP280, covering a wide measurement range from 300 hPa to 1250 hPa. This new barometric pressure sensor exhibits an attractive price-performance ratio coupled with low power consumption. It is available in a compact 10-in 2.0 x 2.0 x 0.75 mm³ LGA package with metal lid Due to the built-in hardware synchronization of the pressure sensor data and its ability to synchronize data from external devices such as acceleration sensors, the BMP388 is ideally suited for fitness and navigation applications which require highly accurate, low power and low latency sensor data fusion. The new interrupt functionality provides simple access to data and storage. Examples of interrupts than can be used in a power efficient manner without using software algorithms include: Data ready interrupt, watermark interrupt (on byte level) or FIFO full interrupt. BMP388 also includes a new FIFO functionality. This greatly improves ease of use while helping to reduce power consumption of the overall device system during full operation. The integrated 512 byte FIFO buffer supports low power applications and prevents data loss in non-real-time systems. BMP388 Typical applicationsVertical velocity indication (e.g. rise/sink speed)Internet of thingsEnhancement of GPS navigation (e.g. time-to-first-fix improvement, dead-reckoning, slope detection)Indoor navigation & localization (floor detection, elevator detection)Outdoor navigation, leisure and sports applicationsWeather forecastHealth care applications (e.g. spirometry)Fitness applications like enhancement of calorie detectionAR & VR applicationsContext awareness BMP388 Target DevicesFlying toysDronesHandsets such as mobile phones, tablet PCs, GPS devicesNavigation systemsPortable health care devicesHome weather stationsWatchesWhite goods BMP388 DatasheetYou can download the datasheet from the link given below:BMP388-Datasheet BMP388 SpecificationsTechnicalAmbient Temperature Range High85 ℃Max Operating Temperature85 ℃Max Pressure18.129 PSIMax Supply Voltage3.6 VMin Operating Temperature-40 ℃Min Supply Voltage1.65 VOperating Supply Current3.4 μAPort StyleNo PortDimensionsHeight800 μm BMP388 vs BMP390Operation rangePressure: 300 — 1250 hPaPressure: 300 — 1250 hPaSupply voltage VDDIO1.2 V — 3.6 V1.2 V — 3.6 VSupply voltage VDD1.65 V — 3.6 V1.65 V — 3.6 VInterfaceI²C and SPII²C and SPIAverage typical current consumption (1 Hz data rate)3.4 µA @ 1Hz3.2 μA @ 1 HzAbsolute accuracy pressure (typ.)±0.5 hPa  P=900 — 1100 hPa (T=25 — 40°C)±0.50 hPa P=300 — 1100 hPa (T=0 — 65 °C)Relative accuracy pressure (typ.)±0.08 hPa  P=900 — 1100 hPa (T=25 — 40°C)±0.03 hPa(equivalent to ±25 cm) P=700 — 1100 hPa (T=25 — 40°C)Noise in pressure (lowest bandwidth, highest resolution)0.03 Pa0.02 PaTemperature coefficient offset±0.75 Pa/K (-20° — 65°C @ 700 hPa to 1100 hPa)±0.6 Pa/K (25° — 40°C at 900 hPa)Long-term stability (12 months)±0.33 hPa±0.16 hPaSolder drift< ± 1.0 hPa< ±0.8 hPaMaximum sampling rate200 Hz200 HzPackage dimensions10-pin LGA with metal lid 2.0 x 2.0 x 0.75 mm³10-pin LGA with metal lid 2.0 x 2.0 x 0.75 mm³ BMP388 ManufacturerBosch Sensortec is the technology leader in sensing solutions based on microelectromechanical systems (MEMS) and dedicated to the consumer electronics world. Our success in MEMS sensors and solutions is built on a remarkable team driven by passion, innovation and flexibility. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. BMP388 FAQHow does a barometric pressure sensor work?Aneroid barometer consists of an aneroid cell inside. The aneroid cell expands/contracts when there are small changes to atmospheric pressure. This movement from the aneroid cell causes mechanical levers to amplify, resulting in display pointers to trigger and register as readings on the front display. What are the advantages of a pressure sensor?Low cost and higher durability. Good resistance to shock, vibration, and dynamic pressure changes. Circuits are very simple and enable high-resolution measurement. Linear output and millisecond response time. Where are pressure sensors used?Pressure sensors are used for many automotive, medical, industrial, consumer and building devices, which depend on accurate and stable pressure measurements in order to operate reliably. Why are pressure sensors used?A pressure sensor is a device for pressure measurement of gases or liquids. ... Pressure sensors are used for control and monitoring in thousands of everyday applications. Pressure sensors can also be used to indirectly measure other variables such as fluid/gas flow, speed, water level, and altitude. Where can we use pressure sensors?Common Applications of Pressure TransducersMeasuring inlet, outlet or system pressure in engine test setup.Measuring pressure drops in a line for preventive maintenance.Measuring fluid height or level in tanks.Measuring the pressure of slurry/slush using a flush diaphragm pressure transducer. 

CatalogProduct OverviewRelated Video IntroductionBMX055 CAD ModelsBMX055 Block Diagram BMX055 PackageBMX055 FeaturesBMX055 ApplicationsBMX055 DatasheetBMX055 SpecificationsBMX055 ManufacturerUsing WarningBMX055 FAQ Product OverviewThe BMX055 is an integrated 9-axis sensor for the detection of movements and rotations and magnetic heading. It comprises the full functionality of a triaxial, low-g acceleration sensor, a triaxial angular rate sensor and a triaxial geomagnetic sensor. The BMX055 senses orientation, tilt, motion, acceleration, rotation, shock, vibration and heading in cell phones, handhelds, computer peripherals, man-machine interfaces, virtual reality features and game controllers. Advanced evaluation circuitry (ASIC) converts the outputs of the micro-electromechanical and geomagnetic sensing structures (MEMS), developed, produced and tested in BOSCH facilities. The programmable on-chip interrupt engine enables motion-based applications without use of a microcontroller by providing contextual status of accelerometer, gyroscope and geomagnetic sensor. The integrated FIFO memories allow buffering the inertial sensor data. The corresponding chip-sets are integrated into one single 20-pin LGA 3.0mm x 4.5mm x 0.95mm housing. For optimum system  integration the BMX055 is equipped with digital bi-directional SPI and I2C interfaces. To provide maximum performance and reliability each device is tested and ready-to-use calibrated. Package and interfaces of the BMX055 have been defined to match a multitude of hardware requirements. Since the sensor features a small footprint, a flat package and very low power consumption it is ideally suited for mobile-phone and tablet PC applications. The BMX055 offers a variable VDDIO voltage range from 1.2V to 3.6V and can be programmed to optimize functionality, performance and power consumption in customer specific applications. Related Video IntroductionBMX055 Video Description: I added acceleration sensor to prototype of gyro sensor with BMX055 on TTGO T-Display. Graph resolution on color LCD is also 200dot/Hx100dot/V. Sampling rate  is also 50Hz & graph refresh rate is about 45Hz. Graph of each sensor is select-able by button-A. Top and bottom of graph is also select-able by button-B. Architecture of control program is like below. BMX055 CAD ModelsFigure: BMX055 PCB Symbol  Figure: BMX055 Footprint  Figure: BMX055 3D Models BMX055 Block DiagramFigure: BMX055 Block Diagram BMX055 PackageFigure: BMX055 Package outline dimensions in mm BMX055 Features3 sensors in one deviceSmall packageCommon voltage suppliesDigital interfaceSmart operation and integrationConsumer electronics suite BMX055 ApplicationsAdvanced gaming, HMI and augmented realityAdvanced gesture recognitionIndoor navigationTilt measurement and compensationFree-fall detection and drop detection for warranty loggingDisplay profile switchingAdvanced system power management for mobile applicationsMenu scrolling, tap / double tap sensing BMX055 DatasheetYou can download the datasheet from the link given below:Datasheet BMX055 SpecificationsProduct AttributeAttribute ValueManufacturer:BoschProduct Category:IMUs - Inertial Measurement UnitsSensor Type:9-axisSensing Axis:X, Y, ZSensitivity:1024 LSB/gAcceleration:2 g, 4 g, 8 g, 16 gOutput Type:Analog and DigitalInterface Type:I2C, SPIResolution:16 bitOperating Supply Current:130 uASupply Voltage - Min:1.2 VSupply Voltage - Max:3.6 VOperating Temperature-40°C ~ 85°C (TA)Package / Case:LGA-20Bandwidth:1 kHzBrand:Bosch SensortecProduct Type:IMUs - Inertial Measurement UnitsSubcategory:SensorsPart # Aliases:0273.141.179-1NVUnit Weight:0.034463 oz BMX055 ManufacturerThe Bosch Group, a leading global supplier of technology and services, is designed to improve quality of life worldwide with products and services that are innovative and spark enthusiasm. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. BMX055 FAQWhat is a BMX055?The BMX055 is a very small absolute orientation sensor in the class of low-noise 9-axis measurement units. On top, the BMX055 integrates a multitude of features that facilitate its use especially in the area of motion detection applications, such as device orientation measurement, gaming, HMI or menu browser control. What is Bosch IMU?Bosch Sensortec optimizes its IMUs (Inertial Measurement Units) for advanced smartphones, wearables, AR and VR, drones, gaming and robots applications. They are designed to provide maximum flexibility to customers. An IMU combines a gyroscope with an accelerometer in one system-in-package (SiP). What does an IMU do?An Inertial Measurement Unit (IMU) is a device that can measure and report specific gravity and angular rate of an object to which it is attached. An IMU typically consists of: Gyroscopes: providing a measure angular rate. Accelerometers: providing a measure specific force/acceleration. 

CatalogProduct OverviewBAT54SLT1G CAD ModelsBAT54SLT1G Marking DiagramBAT54SLT1G CircuitBAT54SLT1G FeaturesBAT54SLT1G DatasheetBAT54SLT1G SpecificationsBAT54SLT1G ManufacturerUsing WarningBAT54SLT1G FAQ Product OverviewThese Schottky barrier diodes are designed for high speed switching applications, circuit protection, and voltage clamping. Extremely low forward voltage reduces conduction loss. Miniature surface mount package is excellent for hand held and portable applications where space is limited. BAT54SLT1G CAD ModelsFigure: BAT54SLT1G PCB Symbol  Figure: BAT54SLT1G Footprint  Figure: BAT54SLT1G 3D Models BAT54SLT1G Marking DiagramFigure: BAT54SLT1G Marking DiagramLD3 = Device CodeM = Date Code* BAT54SLT1G CircuitFigure: BAT54SLT1G Circuit BAT54SLT1G FeaturesExtremely Fast Switching SpeedLow Forward Voltage −0.35 V (Typ) @ IF = 10 mAdcS Prefix for Automotive and Other Applications RequiringUniqueSite and Control Change Requirements; AEC−Q101 Qualified and PPAP CapableThese Devices are Pb−Free, Halogen Free/BFR Freeand are RoHS Compliant BAT54SLT1G DatasheetYou can download the datasheet from the link given below:Datasheet BAT54SLT1G SpecificationsProduct AttributeAttribute ValueManufacturer:onsemiProduct Category:Schottky Diodes & RectifiersProduct:Schottky DiodesMounting Style:SMD/SMTPackage / Case:SOT-23Configuration:DualTechnology:SiIf - Forward Current:200 mAVrrm - Repetitive Reverse Voltage:30 VVf - Forward Voltage:800 mVIfsm - Forward Surge Current:600 mAIr - Reverse Current:2 uAMinimum Operating Temperature:- 55°CMaximum Operating Temperature:+ 150°CSeries:BAT54SLBrand:onsemiHeight:0.94 mmLength:2.9 mmProduct Type:Schottky Diodes & RectifiersSubcategory:Diodes & RectifiersTermination Style:SMD/SMTType:Schottky DiodeWidth:1.3 mmUnit Weight:0.001058 oz BAT54SLT1G ManufacturerOnsemi is driving energy efficient innovations, empowering customers to reduce global energy use. The company offers a comprehensive portfolio of energy efficient power and signal management, logic, discrete and custom solutions to help design engineers solve their unique design challenges in automotive, communications, computing, consumer, industrial, LED lighting, medical, military/aerospace and power supply applications. onsemi operates a responsive, reliable, world-class supply chain and quality program, and a network of manufacturing facilities, sales offices and design centers in key markets throughout North America, Europe, and the Asia Pacific regions. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. BAT54SLT1G FAQWhat is meant by Schottky diode?The Schottky diode (named after the German physicist Walter H. Schottky), also known as Schottky barrier diode or hot-carrier diode, is a semiconductor diode formed by the junction of a semiconductor with a metal. It has a low forward voltage drop and a very fast switching action. What is a Schottky diode used for?Schottky diodes are used for their low turn-on voltage, fast recovery time and low-loss energy at higher frequencies. These characteristics make Schottky diodes capable of rectifying a current by facilitating a quick transition from conducting to blocking state. How do you identify Schottky diodes?The Schottky diode is measured in both forward And reverse directions. If the re a, the measurement in Figure 8-25 indicates that the tube is a silicon diode. If it is a germanium diode, the forward voltage reading should be less than 0.3V. What is the difference between Schottky diode and normal diode?Like other diodes, the Schottky diode controls the direction of current flow in a circuit. However, unlike standard diodes, the Schottky diode is known for its low forward voltage and fast switching ability. This makes them an ideal choice for radio frequency applications and any device with low voltage requirements. What are the advantages of Schottky diodes?Advantages of Schottky diode :1)High efficiency.2)Fast recovery time so it can be mostly used in the application of high-speed switching.3)Low junction capacitance.4)The low forward voltage drop.5)It can operate high frequency.6)Schottky diode produces less unwanted noise than P-N junction diode.7)High current density.