The Kynix Components

Product Overview74AHCT595 is an 8-bit serial-in/serial or parallel-out shift register with a storage register and 3-state outputs. Both the shift and storage register have separate clocks. The device features a serial input (DS) and a serial output (Q7S) to enable cascading and an asynchronous reset MR input. A LOW on MR will reset the shift register. Data is shifted on the LOW-to-HIGH transitions of the SHCP input. The data in the shift register is transferred to the storage register on a LOW-to-HIGH transition of the STCP input. This blog will introduce 74AHCT595D systematically from its features, pinout to its specifications, applications, also including 74AHCT595D datasheet and so much more. Video: How 74HC595 Shift Register Works ? | 3D animated CatalogProduct Overview74AHCT595D Features74AHCT595D Pinout74AHCT595D Pin description74AHCT595D Applications74AHCT595D Functional Diagram74AHCT595D PackageWaveforms and test circuit74AHCT595D Specification74AHCT595D Manufacturer74AHCT595D DatasheetUsing Warnings74AHCT595D FAQ 74AHCT595D FeaturesWide supply voltage range from 2.0 V to 5.5 VBalanced propagation delaysAll inputs have Schmitt-trigger actionOvervoltage tolerant inputs to 5.5 VHigh noise immunityCMOS low power dissipationInput levels:The 74AHC595 operates with CMOS input levelsThe 74AHCT595 operates with TTL input levelsESD protection:HBM JESD22-A114F exceeds 2000 VMM JESD22-A115-A exceeds 200 VCDM JESD22-C101E exceeds 1000 VLatch-up performance exceeds 100 mA per JESD 78 Class II Level AMultiple package optionsSpecified from -40 °C to +85 °C and from -40 °C to +125 °C 74AHCT595D PinoutThe following figure is the diagram of 74AHCT595D pinout. 74AHCT595D Pinout 74AHCT595D Pin descriptionSymbolPinDescriptionQ0, Q1, Q2, Q3, Q4, Q5, Q6, Q715, 1,2,3,4,5, 6, 7parallel data outputGND8ground (0 V)Q7S 9serial data outputMR10master reset (active LOW)SHCP11shift register clock inputSTCP12storage register clock inputOE13output enable input (active LOW)DS14serial data inputVcc16supply voltage  74AHCT595D ApplicationsSerial-to-parallel data conversionRemote control holding register 74AHCT595D Functional DiagramThe following is the circuit diagram of 74AHCT595D. 74AHCT595D Functional Diagram 74AHCT595D PackageThe following diagram shows the 74AHCT595D package. 74AHCT595D Package Waveforms and test circuitVOL and VOH are typical output voltage levels that occur with the output load. Waveforms and test circuit 74AHCT595D SpecificationLogic FunctionShift RegisterMax Operating Temperature125 °CMax Supply Voltage5.5 VMin Operating Temperature-40 °CMin Supply Voltage4.5 VNumber of Bits8Number of Circuits1Number of Elements1Number of Input Lines1Number of Output Lines9Operating Supply Voltage5 VPropagation Delay3.8 nsTurn-On Delay Time14.5 ns 74AHCT595D ManufacturerNexperia is a dedicated global leader in discretes, logic and MOSFET devices. Formerly a part of NXP Standard Products, Nexperia is focused on efficiency, producing consistently reliable semiconductor components at high volume. The company’s extensive portfolio meets the stringent standards set by the automotive industry. Industry-leading small packages, produced in Nexperia’s manufacturing facilities, combine power and thermal efficiency with best-in-class quality levels. 74AHCT595D DatasheetYou can download 74AHCT595D datasheet from the link given below:74AHCT595D Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. 74AHCT595D FAQHow does the shift register work in the 74hc595?The 595 has two registers (which can be thought of as “memory containers”), each with just 8 bits of data. The first one is called the Shift Register. The Shift Register lies deep within the IC circuits, quietly accepting input. What is shift register and its types?There are four types of shift registers: serial in-serial out (SISO) shift registers, in which data is input serially until it reaches the output; serial in-parallel out (SIPO) shift registers, in which the data is input serially one bit at a time and output in a parallel form; parallel in-serial out (PISO) shift. What is 4 bit shift register?These 4-bit registers feature parallel inputs, parallel outputs, J-K serial inputs, shift/load control input, and a direct overriding clear. The registers have two modes of operation: parallel (broadside) load, and shift (in the direction QA and QD). What is a 3 bit shift register?The shift register, which allows parallel input and produces parallel output is known as Parallel In − Parallel Out PIPO shift register. The block diagram of 3-bit PIPO shift register is shown in the following figure. This circuit consists of three D flip-flops, which are cascaded. What is an 8-bit register?The accumulator is an 8-bit register (can store 8-bit data) that is the part of the arithmetic and logical unit (ALU). After performing arithmetical or logical operations, the result is stored in accumulator. Accumulator is also defined as register A. Flag registers: It consists of 8 bits and only 5 of them are useful.

CatalogProduct Overview DP83867ERGZT CAD ModelsDP83867ERGZT Pin ConfigurationDP83867ERGZT Block DiagramDP83867ERGZT FeaturesDP83867ERGZT ApplicationsDP83867ERGZT DatasheetDP83867ERGZT SpecificationsDP83867ERGZT ManufacturerUsing WarningDP83867ERGZT FAQ Product OverviewThe DP83867 device is a robust, low power, fully featured Physical Layer transceiver with integrated PMD sublayers to support 10BASE-Te, 100BASE-TX and 1000BASE-T Ethernet protocols. Optimized for ESD protection, the DP83867 exceeds 8-kV IEC 61000-4-2 (direct contact). The DP83867 is designed for easy implementation of 10/100/1000 Mbps Ethernet LANs. It interfaces directly to twisted pair media through an external transformer. This device interfaces directly to the MAC layer through Reduced GMII (RGMII) or embedded clock Serial GMII (SGMII). The DP83867 provides precision clock synchronization, including a synchronous Ethernet clock output. It has low latency and provides IEEE 1588 Start of Frame Detection. Designed for low power, the DP83867 consumes only 457 mW under full operating power. Wake-on-LAN can be used to lower system power consumption. DP83867ERGZT CAD ModelsFigure: PCB Symbol  Figure: Footprint  3D-Models DP83867ERGZT Pin ConfigurationFigure: Pin Configuration   DP83867ERGZT Block DiagramFigure: Block Diagram DP83867ERGZT Features1)Extra low latency TX < 90 ns, RX < 290 ns2)Time Sensitive Network (TSN) compliant3)Low power consumption: 457 mW4)Exceeds 8000 V IEC 61000-4-2 ESD protection5)Meets EN55011 class B emission standards6)16 programmable RGMII delay modes on RX/TX7)Integrated MDI termination resistors8)Programmable MAC interface termination impedance9)WoL (Wake-on-LAN) packet detection10)25-MHz or 125-MHz synchronized clock output11)IEEE 1588 time stamp support12)RJ45 mirror mode13)Fully compatible to IEEE 802.3 10BASE-Te, 100BASE-TX, and 1000BASE-T Specification14)Cable diagnostics15)RGMII and SGMII MAC interface options16)Configurable I/O voltage (3.3 V, 2.5 V, 1.8 V)17)Fast link drop mode18)JTAG support DP83867ERGZT Applications1)Motor drives2)Industrial factory automation3)Field Bus Support4)Industrial embedded computing5)Wired and wireless communications infrastructure6)Test and measurement7)Consumer electronics DP83867ERGZT DatasheetYou can download the datasheet from the link given below:Datasheet DP83867ERGZT SpecificationsTypeDescriptionCategoryIntegrated Circuits (ICs)Interface - ControllersMfrTexas InstrumentsPart StatusActiveProtocolEthernetFunctionPhysical Layer ControllerInterfaceSerialStandards10/100/1000 Base-TX PHYVoltage - Supply1.1V, 2.5VCurrent - Supply0Operating Temperature-40°C ~ 105°CPackage / Case48-VFQFN Exposed PadSupplier Device Package48-VQFN (7x7)Base Product NumberDP83867 DP83867ERGZT ManufacturerTexas Instruments Incorporated (TI) is an American technology company headquartered in Dallas, Texas, that designs and manufactures semiconductors and various integrated circuits, which it sells to electronics designers and manufacturers globally. It is one of the top 10 semiconductor companies worldwide based on sales volume.The company's focus is on developing analog chips and embedded processors, which account for more than 80% of its revenue.TI also produces TI digital light processing technology and education technology products including calculators, microcontrollers and multi-core processors. The company holds 45,000 patents worldwide as of 2016. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. DP83867ERGZT FAQWhat is Ethernet physical layer transceiver?An Industrial Ethernet PHY is a physical layer transceiver device for sending and receiving Ethernet frames based on the OSI network model. In the OSI model, Ethernet covers Layer 1 (the physical layer) and part of Layer 2 (the data link layer) and is defined by the IEEE 802.3 standard. Is Ethernet a physical layer protocol?The Ethernet physical layer is the physical layer functionality of the Ethernet family of computer network standards. What is the purpose of physical layer?Physical Layer is responsible for the communication of the unstructured raw data streams over a physical medium. Physical Layer maintains the data rate (how many bits a sender can send per second). It performs Synchronization of bits. It helps in Transmission Medium decision (direction of data transfer). 

CatalogDescriptionCAD ModelsPin ConfigurationBlock DiagramFeaturesApplicationsDatasheetProduct AttributesManufacturerUsing WarningFrequently Asked QuestionsDescriptionThis 6-bit noninverting translator uses two separate configurable power-supply rails. The A port isdesigned to track VCCA. VccA accepts any supply voltage from 1.2 V to 3.6 V. The B port is designed to track VccB. VccB accepts any supply voltage from 1.65 V to 5.5 V. This allows for universal low-voltage bidirectional translation between any of the 1.2 V, 1.5V, 1.8 V, 2.5V, 3.3 V, and 5 V voltage nodes. VccA should not exceed VccB. When the output-enable (OE) input is low, all outputs are placed in the high-impedance state. The TXB0106 is designed so that the OE input circuit is supplied by VcCA. This device is fully specified for partial-power-down applications using Iff The loff circuitry disables the outputs，preventing damaging current backflowthrough the device when it is powered down. To ensure the high-impedance state during power up or power down, OE should be tied to GND through a pulldown resistor; the minimum value of the resistor is determined by the current-sourcing capability of the driver. CAD Models Figure: PCB Symbol  Figure: Footprint  Figure: 3D Model Pin Configuration Figure: Pin Configuration Block DiagramFigure: Block Diagram Features1.2Vto 3.6V on A Port and 1.65to 5.5V on B Port (ccaS Vcce)Vcc Isolation Feature - If Either Vcc Input Is at GND, AlI Outputs Are in the High-lmpedance StateOE Input Circuit Referenced to VccALow-Power Consumption, 4 μA Max lccloff Supports Partial-Power-Down Mode Oper ationLatch-Up Performance Exceeds 100 mA Per JESD 78, Class IIESD Protection Exceeds JESD 22         - A Port            -2500 V Human Body Model (A114-B)            -150 V Machine Model (A115-A)            -1500 V Charged-Device Model (C101)         - B Port .            - +15 kV Human Body Model (A114-B)            -150 V Machine Model (A115-A)            - 1500 V Charged-Device Model (C101) ApplicationsHeadsetSmartphoneTabletDesktop PC DatasheetYou can download the datasheet from the link given below:TXB0106PWR-Datasheet Product AttributesManufacturer:Texas InstrumentsProduct Category:Translation - Voltage LevelsRoHS: DetailsPropagation Delay Time:14.2 nsSupply Voltage - Max:5.5 VSupply Voltage - Min:1.2 V, 1.65 VMinimum Operating Temperature:- 40 ℃Maximum Operating Temperature:+ 85 ℃Mounting Style:SMD/SMTPackage / Case:TSSOP-16Series:TXB0106Packaging:ReelPackaging:Cut TapePackaging:MouseReelBrand:Texas InstrumentsData Rate:100 Mb/sHigh Level Output Current:50 mALogic Family:SLL C10 (33B10)Logic Type:Dual Supply TranslatorLow Level Output Current:50 mAOperating Temperature Range:- 40 ℃ to + 85 ℃Product Type:Translation - Voltage LevelsFactory Pack Quantity:2000Subcategory:Logic ICsUnit Weight:0.002183 oz ManufacturerTexas Instruments Incorporated (TI) is an American technology company headquartered in Dallas, Texas, that designs and manufactures semiconductors and various integrated circuits, which it sells to electronics designers and manufacturers globally. It is one of the top 10 semiconductor companies worldwide based on sales volume.The company's focus is on developing analog chips and embedded processors, which account for more than 80% of its revenue.TI also produces TI digital light processing technology and education technology products including calculators, microcontrollers and multi-core processors. The company holds 45,000 patents worldwide as of 2016. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. Frequently Asked QuestionsWhat is a voltage level translator?A level shifter (level translator), in digital electronics, also called logic-level shifter or voltage level translation, is a circuit used to translate signals from one logic level or voltage domain to another, allowing compatibility between ICs with different voltage requirements, such as TTL and CMOS. What is voltage level shifting?A level shifter translates logic signals from one level to another. Usually, this shift takes place between 5V and 3.3V, but you can use other voltages as needed, such as 2.5V or 1.8V. What is level translator circuit why it is used with the cascaded differential amplifier?Because of the direct coupling the dc level at the emitter rises from stages to stage. This increase in dc level tends to shift the operating point of the succeeding stages and therefore limits the output voltage swing and may even distort the output signal. 

Product OverviewThe TPS54620 in thermally enhanced 3.50 mm × 3.50 mm QFN package is a full featured 17-V, 6-A, synchronous, step-down converter which is optimized for small designs through high efficiency and integrating the high-side and low-side MOSFETs. Further space savings are achieved through current mode control, which reduces component count, and by selecting a high switching frequency, reducing the footprint of the inductor. This blog will introduce TPS54620RHLR systematically from its features, pinout to its specifications, applications, also including TPS54620RHLR datasheet and so much more. CatalogProduct OverviewTPS54620RHLR FeaturesTPS54620RHLR PinoutTPS54620RHLR ApplicationsTPS54620RHLR CAD ModelsTPS54620RHLR SchematicTPS54620RHLR Block DiagramApplication Circuit DiagramTPS54620RHLR SpecificationTPS54620RHLR ManufacturerTPS54620RHLR DatasheetUsing WarningsTPS54620RHLR FAQ TPS54620RHLR FeaturesIntegrated 26 mΩ and 19 mΩ MOSFETsSplit Power Rail: 1.6 V to 17 V on PVIN200-kHz to 1.6-MHz Switching FrequencySynchronizes to External Clock0.8 V ±1% Voltage Reference OvertemperatureLow 2-µA Shutdown Quiescent CurrentMonotonic Start-Up into Prebiased Outputs–40°C to 150°C Operating Junction TemperatureRangeAdjustable Slow Start and Power SequencingPower Good Output Monitor for Undervoltage andOvervoltageAdjustable Input Undervoltage Lockout TPS54620RHLR PinoutThe following figure is the diagram of TPS54620RHLR pinout. TPS54620RHLR Pinout TPS54620RHLR Pin FunctionsTPS54620RHLR ApplicationsHigh Density Distributed Power SystemsHigh Performance Point of Load RegulationBroadband, Networking and OpticalCommunications Infrastructure TPS54620RHLR CAD ModelsThe followings are TPS54620RHLR Symbol, Footprint, and 3D Model. TPS54620RHLR Symbol TPS54620RHLR Footprint TPS54620RHLR 3D Model TPS54620RHLR SchematicThe following is TPS54620RHLR Simplified Schematic. TPS54620RHLR Simplified Schematic TPS54620RHLR Block DiagramThe following figure shows the block diagram of TPS54620RHLR. TPS54620RHLR Block Diagram Application Circuit DiagramThe application schematic was developed to meet the requirements of the device. This circuit is available as the TPS54620EVM-374 evaluation module. TPS54620EVM-374 Circuit Diagram TPS54620RHLR SpecificationProduct AttributeAttribute ValueManufacturer:Texas InstrumentsProduct Category:Switching Voltage RegulatorsRoHS:DetailsMounting Style:SMD/SMTPackage / Case:VQFN-14Topology:BuckOutput Voltage:3.3 VOutput Current:6 ANumber of Outputs:1 OutputInput Voltage MAX:17 VInput Voltage MIN:4.5 VQuiescent Current:2 uASwitching Frequency:480 kHzMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 150 CSeries:TPS54620Brand:Texas InstrumentsDevelopment Kit:TPS54620EVM-374Input Voltage:4.5 V to 17 VMoisture Sensitive:YesOperating Supply Current:600 uAProduct:Voltage RegulatorsProduct Type:Switching Voltage RegulatorsFactory Pack Quantity:3000Subcategory:PMIC - Power Management ICsSupply Voltage - Min:4.5 VTradename:SWIFTType:Voltage ConverterUnit Weight:0.001136 oz TPS54620RHLR ManufacturerTexas Instruments Incorporated designs and manufactures analog technologies, digital signal processing (DSP) and microcontroller (MCU) semiconductors. TI is a leader in semiconductor solutions for analog and digital embedded and applications processing. A global semiconductor company, TI innovates through design, sales and manufacturing operations in more than 30 countries. TPS54620RHLR DatasheetYou can download TPS54620RHLR datasheet from the link given below:TPS54620RHLR Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. TPS54620RHLR FAQHow do switching voltage regulators work?A switching regulator works by taking small chunks of energy, bit by bit, from the input voltage source, and moving them to the output. The energy losses involved in moving chunks of energy around in this way are relatively small, and the result is that a switching regulator can typically have 85% efficiency. What is the advantage of switching regulators?Switching regulators are efficient because the series element is either fully conducting or switched off so it dissipates almost no power. Switching regulators are able to generate output voltages that are higher than the input voltage or of opposite polarity, unlike linear regulators. What are three types of switching regulators?There are three types of Switching voltage regulators: Step up, Step down, and Inverter voltage regulators. What is the difference between a voltage converter and a voltage regulator?Unlike a voltage converter, which seeks to actually alter the voltage amount, a voltage regulator is a piece of equipment that is: Switching regulators are much more efficient and can be used for more high-powered applications while maintaining a small size. What is the difference between linear regulator and switching regulator?Linear regulators are much less efficient than switching regulators and therefore waste more power which dissipates as heat. Linear regulators require an input voltage that is higher than the output. The minimum voltage level difference between the input and the output is called the dropout voltage.

CatalogProduct OverviewRC4558P CAD Models RC4558P Pin Configuration RC4558P Block Diagram RC4558P Features RC4558P Applications RC4558P Datasheet RC4558P Specifications RC4558P Manufacturer Using WarningProduct OverviewThe RC4558 device is a dual general-purpose operational amplifier, with each half electrically similar to the μA741, except that offset null capability is not provided. The high common-mode input voltage range and the absence of latch-up make this amplifier ideal for voltage-follower applications. The device is short-circuit protected, and the internal frequency compensation ensures stability without external components.  RC4558P CAD ModelsFigure: PCB Symbol Figure: Footprint Figure: 3D Models RC4558P Pin ConfigurationFigure: Pin Configuration Pin 1: OutputPin 2: Inverting InputPin 3: Noninverting inputPin 4: Negative SupplyPin 5: Noninverting inputPin 6: Inverting InputPin 7: OutputPin 8: Positive Supply RC4558P Block DiagramFigure: Block DiagramRC4558P Features1)Continuous Short-Circuit Protection2)Wide Common-Mode and Differential Voltage Range3)No Frequency Compensation Required4)Low Power Consumption5)No Latch-Up6)Unity-Gain Bandwidth: 3 MHz Typ7)Gain and Phase Match Between Amplifiers8)Low Noise: 8 nV/VHz Typ at 1 kHz RC4558P Applications1)DVD Recorders and Players2)Pro Audio MixersRC4558P DatasheetYou can download the datasheet from the link given below:Datasheet RC4558P SpecificationsTypeDescriptionCategoryIntegrated Circuits (ICs)Linear - Amplifiers - Instrumentation, OP Amps, Buffer AmpsMfrTexas InstrumentsPackageTubePart StatusActiveAmplifier TypeGeneral PurposeNumber of Circuits2Output TypeDifferentialSlew Rate1.7V/μsGain Bandwidth Product3 MHzCurrent - Input Bias150 nAVoltage - Input Offset500 μVCurrent - Supply2.5mA (x2 Channels)Current - Output / Channel10 mAVoltage - Supply, Single/Dual (±)10V ~ 30V, ±5V ~ 15VOperating Temperature0℃ ~ 70℃Mounting TypeThrough HolePackage / Case8-DIP (0.300", 7.62mm)Supplier Device Package8-PDIPBase Product NumberRC4558  RC4558P ManufacturerTexas Instruments Incorporated (TI) is an American technology company headquartered in Dallas, Texas, that designs and manufactures semiconductors and various integrated circuits, which it sells to electronics designers and manufacturers globally. It is one of the top 10 semiconductor companies worldwide based on sales volume.The company's focus is on developing analog chips and embedded processors, which account for more than 80% of its revenue.TI also produces TI digital light processing technology and education technology products including calculators, microcontrollers and multi-core processors. The company holds 45,000 patents worldwide as of 2016. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. 

Product OverviewThe LSM6DSL is a system-in-package featuring a 3D digital accelerometer and a 3D digital gyroscope performing at 0.65 mA in high-performance mode and enabling always-on low-power features for an optimal motion experience for the consumer. The LSM6DSL supports main OS requirements, offering real, virtual and batch sensors with 4 kbyte for dynamic data batching. This blog will introduce LSM6DSLTR systematically from its features, pinout to its specifications, applications, also including LSM6DSLTR datasheet and so much more. CatalogProduct OverviewLSM6DSLTR FeaturesLSM6DSLTR PinoutLSM6DSLTR ApplicationsLSM6DSLTR CAD ModelsLSM6DSLTR Block DiagramLSM6DSLTR Application hintsLSM6DSLTR SpecificationLSM6DSLTR ManufacturerLSM6DSLTR DatasheetUsing WarningsLSM6DSLTR FAQ LSM6DSLTR FeaturesPower consumption: 0.4 mA in combo normal modeand 0.65 mA in combo high-performance mode“Always-on” experience with low powerconsumption for both accelerometer and gyroscopeSmart FIFO up to 4 kbyte based on features setAndroid M compliantHard, soft ironing for external magnetic sensorcorrections±2/±4/±8/±16 g full scale±125/±250/±500/±1000/±2000 dps full scaleAnalog supply voltage: 1.71 V to 3.6 VIndependent IOs supply (1.62 V)Compact footprint, 2.5 mm x 3 mm x 0.83 mmSPI & I2C serial interface with main processor datasynchronization featurePedometer, step detector and step counterSignificant motion and tilt functionStandard interrupts: free-fall, wakeup, 6D/4Dorientation, click and double-clickEmbedded temperature sensorECOPACK®, RoHS and “Green” compliant LSM6DSLTR PinoutThe following figure is the diagram of LSM6DSLTR pinout. LSM6DSLTR Pinout LSM6DSLTR Pin Description LSM6DSLTR ApplicationsMotion tracking and gesture detectionCollecting sensor dataIndoor navigationIoT and connected devicesIntelligent power saving for handheld devicesVibration monitoring and compensation LSM6DSLTR CAD ModelsThe followings are LSM6DSLTR Symbol, Footprint, and 3D Model. LSM6DSLTR Symbol LSM6DSLTR Footprint LSM6DSLTR 3D Model LSM6DSLTR Block DiagramThe following figure shows the block diagram of LSM6DSLTR. LSM6DSLTR Block Diagram of filters LSM6DSLTR Application hintsThe device core is supplied through the Vdd line. Power supply decoupling capacitors (C1, C2 = 100 nF ceramic) should be placed as near as possible to the supply pin of the device (common design practice). The functionality of the device and the measured acceleration/angular rate data is selectable and accessible through the SPI/I2C interface. The functions, the threshold and the timing of the two interrupt pins for each sensor can be completely programmed by the user through the SPI/I2C interface. LSM6DSL electrical connections LSM6DSLTR SpecificationProduct AttributeAttribute ValueManufacturer:STMicroelectronicsProduct Category:IMUs - Inertial Measurement UnitsSensor Type:6-axisSensing Axis:X, Y, ZSensitivity:0.061 mg/LSB, 0.122 mg/LSB, 0.244 mg/LSB, 0.488 mg/LSBAcceleration:2 g, 4 g, 8 g, 16 gOutput Type:DigitalInterface Type:I2C, SPIResolution:16 bitOperating Supply Current:650 uASupply Voltage - Min:1.71 VSupply Voltage - Max:3.6 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 85 CPackage / Case:LGA-14Packaging:ReelPackaging:Cut TapePackaging:MouseReelBrand:STMicroelectronicsMoisture Sensitive:YesProduct Type:IMUs - Inertial Measurement UnitsSeries:LSM6DSLFactory Pack Quantity:5000Subcategory:SensorsUnit Weight:0.004233 oz LSM6DSLTR ManufacturerSTMicroelectronics is a global independent semiconductor company and a leader in developing and delivering semiconductor solutions across the spectrum of microelectronics applications. An unrivaled combination of silicon and system expertise, manufacturing strength, Intellectual Property (IP) portfolio, and strategic partners positions, STMicroelectronics is at the forefront of System-on-Chip (SoC) technology and its products play a key role in enabling today's convergence trends. LSM6DSLTR DatasheetYou can download LSM6DSLTR datasheet from the link given below:LSM6DSLTR Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. LSM6DSLTR FAQWhat is an IMU device?An Inertial Measurement Unit (IMU) is a device that typically consists of gyroscopes to measure and report angular rate and accelerometers to measure and report specific force. What is LSM6DSL?The LSM6DSL is a system-in-package featuring a 3D digital accelerometer and a 3D digital gyroscope performing at 0.65 mA in high-performance mode and enabling always-on low-power features for an optimal motion experience for the consumer. What is IMU in Arduino?IMU, meaning for Inertial Measurement Unit is defined as a 9-axis sensor that measures orientation, velocity, and gravitational forces by combining Accelerometer, Gyroscope, and Magnetometer into one. As such, I'll be introducing the list of IMU sensors available at Seeed, and how you can use it with an Arduino. What is the difference between INS and IMU?An IMU is an assembly of at least 3 gyros and 3 accelerometers. INS is a system. It must have a computer or processor to calculate position and velocity using IMU outputs. How does a 6 axis IMU work?An IMU takes gyroscopes and accelerometers and uses them to accurately measure both acceleration in a linear direction but also changes in orientation. There are five and six-axis IMUs available and in use today. There are six possible movements that can be detected and measured by the IMU.