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Integrated Circuits (ICs)

BD139 Complementary Low Voltage Transistor Datasheet PDF Download

CatalogFeaturesApplicationDescriptionInternal Schematic DiagramDevice SummaryAbsolute Maximum RatingsThermal DataElectrical CharacteristicsElectrical characteristics (curves)Package Mechanical DataBD139 DatasheetBD139 FAQ Features■Products are pre-selected in DC current gain Application■General purpose DescriptionThese epitaxial planar transistors are mounted in the SOT-32 plastic package. They are designed for audio amplifiers and drivers utilizing complementary or quasi-complementary circuits. The NPN types are the BD135 and BD139, and the complementary PNP types are the BD136 and BD140. Internal Schematic Diagram Device SummaryOrder codesMarkingPackagePackagingBD135BD135SOT-32TubeBD135-16BD135-16BD136BD136BD136-16BD136-16BD139BD139BD139-10BD139-10BD139-16BD139-16BD140BD140BD140-10BD140-10BD140-16BD140-16 Absolute Maximum RatingsSymbolParameterValueUnitNPNPNPBD135BD139BD136BD140VCBOCollector-base voltage (IE = 0)4580-45-80VVCEOCollector-emitter voltage (IB = 0)4580-45-80VVEBOEmitter-base voltage (IC = 0)5-5VICCollector current1.5-1.5AICMCollector peak current3-3AIBBase current0.5-0.5APTOTTotal dissipation at Tc ≤ 25 °C12.5WPTOTTotal dissipation at Tamb ≤ 25 °C1.25WTstgStorage temperature-65 to 150°CTjMax. operating junction temperature150°C Thermal DataSymbolParameterMax valueUnitRthj-caseThermal resistance junction-case10°C/WRthj-ambThermal resistance junction-ambient100°C/W Electrical Characteristics(Tcase= 25 °C unless otherwise specified)SymbolParameterPolarityTest conditionsValueUnitMin.Typ.Max.ICBOCollector cut-off current (IE=0)NPNVCB = 30 V  0.1µAVCB = 30 V, TC = 125 °C10PNPVCB = -30 V  -0.1µAVCB = -30 V, TC = 125 °C-10IEBOEmitter cut-off current (IC=0)NPNVEB = 5 V  10µAPNPVEB = -5 V  -10VCEO(sus)(1)Collector-emitter sustaining voltage (IB=0)NPNIC = 30 mA   VBD13545  BD13980  PNPIC = -30 mA   VBD13645  BD14080  VCE(sat) (1)Collector-emitter saturation voltageNPNIC = 0.5 A, IB = 0.05 A  0.5VPNPIC = -0.5 A, IB = -0.05 A  -0.5VVBE (1)Base-emitter voltageNPNIC = 0.5 A, VCE = 2 V  1VPNPIC = -0.5 A, VCE = -2 V  -1VhFE (1)DC current gainNPNIC = 5 mA, VCE = 2 V25 250 IC = 150 mA, VCE = 2 V40  IC = 0.5 A, VCE = 2 V25  PNPIC = -5 mA, VCE = -2 V25 250 IC = -150 mA, VCE = -2 V40  IC = -0.5 A, VCE = -2 V25  hFE (1)hFE groupsNPNIC = 150 mA, VCE = 2 V    BD139-1063 160 BD135-16/BD139-16100 250 PNPIC = -150 mA, VCE = -2 V    BD140-1063 160 BD136-16/BD140-16100 250 1.Pulsed: pulse duration = 300 µs, duty cycle 1.5% Electrical characteristics (curves)Figure. Safe Operating Area  Figure. Derating Package Mechanical DataIn order to meet environmental requirements, ST offers these devices in ECOPACK® packages. These packages have a lead-free second level interconnect. The category of second level interconnect is marked on the package and on the inner box label, in compliance with JEDEC Standard JESD97. The maximum ratings related to soldering conditions are also marked on the inner box label. ECOPACK is an ST trademark. SOT-32 (TO-126) MECHANICAL DATADIM.mm.MIN.TYPMAX.A2.4 2.9B0.64 0.88B10.39 0.63D10.5 11.05E7.4 7.8e2.042.292.54e14.074.585.08L15.3 16P2.9 3.2Q 3.8 Q11 1.52H2 2.15 I 1.27  BD139 DatasheetYou can download the datasheet of BD139 from the link given below:BD139 Datasheet BD139 FAQWhat is BD139 transistor?The BD139 is a NPN complementary low voltage NPN transistor in 3 pin SOT-32 package. This device is designed for audio amplifiers and drivers utilizing complementary or quasi-complementary circuits. Products are pre-selected in DC current gain. Collector to emitter voltage (Vce) is 80V. Collector current (Ic) is 1.5A. Is the BD139 an NPN or PNP transistor?These epitaxial planar transistors are mounted in the SOT-32 plastic package. They are designed for audio amplifiers and drivers utilizing complementary or quasi-complementary circuits. The NPN types are the BD135 and BD139, and the complementary PNP types are the BD136 and BD140. What is BD139 used for?BD139 is a Bipolar NPN transistor, mounted in the SOT-32 plastic package and is designed for audio amplifier and driver utilizing complementary circuits. due to its high collector current and low cost it is an ideal transistor to be used in educational electronic projects and also in commercial electronics. Can I use BD139 instead of BD140?When large currents or voltages need to be controlled, Darlington Transistors can be used. Though the best choice for power transistors is BD139 and BD140 but if they are not available then you may also go for BD135 and BD136 which are NPN and PNP transistors respectively but preference must be given to BD139/140 pair. What is complementary power transistors?Complementary power transistors are for general purpose power amplification and switching such as output or driver stages in applications such as switching regulators, converters and power amplifiers. 
kynix On 2022-03-08   1537
Integrated Circuits (ICs)

AMC1035 Modulator: Pinout, Datasheet, Block Diagram, Applications

Data Acquisition ADCs/DACs - Specialized Precision delta-sigma modulator with +/-1-V bipolar input and 2.5-V reference output 8-SOIC -40 to 125CatalogProduct Detailed DescriptionFunctional Block DiagramAMC1035 PinoutAMC1035 Pin functionCAD ModelProduct Technical SpecificationsAMC1035  FeaturesApplicationsApplications exampleAMC1035 PDFManufacturerProduct Detailed DescriptionThe AMC1035 is a precision delta-sigma (ΔΣ) modulator that operates from a single 3.0-V to 5.5-V supply and with an externally supplied clock signal in the range of 9 MHz to 21 MHz. In Manchester mode, the specified clock range is 9 MHz to 11 MHz. The differential ±1-V input structure of the device is optimized for high noise environments typical for industrial applications.Select the output bitstream of the AMC1035 to be Manchester coded to prevent setup and hold time requirement considerations of the receiving device and reduce overall circuit layout efforts. When used with a digital filter (such as integrated in the TMS320F28004x, TMS320F2807x or TMS320F2837x microcontroller families) to decimate the output bitstream, the device can achieve 16 bits of resolution with a dynamic range of 87 dB at a data rate of 82 kSPS.The internal reference source of the AMC1035 supports ratiometric circuit architecture to minimize the negative impact of the supply voltage variation and temperature drift on the accuracy of the measurement.The AMC1035 can also be used for AC power line voltage sensing with a digital isolator and isolated power supply. Functional Block Diagram Functional Block DiagramAMC1035 Pinout AMC1035 Pinout AMC1035 Pin functionPin1MCEI/OManchester coding enabled, active high, with internal pulldown resistor (typical value: 200 kΩ).The polarity of this signal must not be changed when the clock signal is applied.Pin2AINPINoninverting analog inputPin3AINNIInverting analog input.Pin4REFOUTIReference output: 2.5 V nominal, maximum ±5-mA sink and source capability.Pin5GNDOGround reference.Pin6DOUT/Modulator bitstream data output, updated with the rising edge of the clock signal present on CLKIN.This pin is a Manchester coded output if MCE is pulled high. Use the rising edge of the clock to latch themodulator bitstream at the input of the digital filter device.Pin7CLKINOModulator clock input: 9 MHz to 21 MHz with an internal pulldown resistor (typical value: 200 k惟). The clock signal must be applied continuously for proper device operation; see the Clock Input section for additional detailsPin8VDD/Power supply, 3.0 V to 5.5 V.See the Power Supply Recommendations section for decoupling recommendations CAD Model CAD Model  Product Technical SpecificationsProduct AttributeAttribute ValueManufacturer:Texas InstrumentsProduct Category:Data Acquisition ADCs/DACs - SpecializedRoHS:DetailsSeries:AMC1035Product:Data AcquisitionType:PrecisionResolution:16 bitNumber of Channels:1 ChannelOperating Supply Voltage:3 V to 5.5 VMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 125 CMounting Style:SMD/SMTPackage / Case:SOIC-8Packaging:Cut TapePackaging:MouseReelPackaging:ReelNumber of Converters:1 ConverterSampling Rate:82 kS/sArchitecture:Delta-SigmaBrand:Texas InstrumentsShutdown:No ShutdownGain Error:0.0002INL - Integral Nonlinearity:2 LSBMaximum Clock Frequency:11 MHzMoisture Sensitive:YesNumber of ADC Channels:1 ChannelProduct Type:Data Acquisition ADCs/DACs - SpecializedReference Voltage:2.5 VSNR - Signal to Noise Ratio:87 dBFactory Pack Quantity:2500Subcategory:Data Converter ICsUnit Weight:0.003940 ozUnit Weight:0.003940 oz AMC1035  FeaturesDelta-sigma modulator optimized for voltage and temperature sensing:±1-V input voltage rangeHigh differential input resistance: 1.6 GΩ (typ)Integrated 2.5-V, ±5-mA reference for ratiometric measurementExcellent DC performance:Offset error: ±0.5 mV (max)Offset drift: ±6 µV/°C (max)Gain error: ±0.25% (max)Gain drift: ±45 ppm/°C (max)Ratiometric gain drift: ±15 ppm/°C (max)Selectable manchester encoded or uncoded bitstream outputFully specified over the extended industrial temperature range: –40°C to +125°C ApplicationsMotor drivesPhotovoltaic invertersUninterruptible power suppliesIndustrial transport systems Applications example Applications example AMC1035 PDFAMC1035 Package DatasheetAMC1035  Datasheet  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.    
kynix On 2022-01-25   1524
Integrated Circuits (ICs)

TIL311 Hexadecimal Display With Logic Datasheet PDF Download

Catalog FeaturesDescriptionPin AssignmentFunctional Block DiagramAbsolute Maximum RatingsRecommended Operating Conditions Electrical CharacteristicsTypical CharacteristicsPrinciples of OperationMechanical DataTIL311 DatasheetTIL311 FAQ FeaturesInternal TTL MSI IC with Latch, Decoder, and Driver0.300-Inch (7,62-mm) Character HeightWide Viewing AngleHigh BrightnessLeft-and-Right-Hand DecimalsConstant-Current Drive for Hexadecimal CharactersSeparate LED and Logic Power Supplies May Be UsedOperates from 5-V SupplyEasy System Interface DescriptionThe TIL311 is a single-digit LED hexadecimal display with internal four-bit latch, decoder, and constant-current LED drivers in a 14-pin dual-in-line-package. Hexadecimal characters are formed by a 4 ´ 7 array of red light-emitting diodes that are illuminated in a modified seven-segment configuration. The device includes right-hand and left-hand externally driven decimal points. Pin Assignment Functional Block Diagram Terminal FunctionsTERMINALNAME NO.TYPEDESCRIPTIONBlanking Input8IBlanking Input. When high, the display is blanked regardless of the levels of the other inputs. When low, a character is displayed as determined by the data in the latches. The blanking input may be pulsed for intensity modulation.Data Input A3ILatch Data Input A. Data on this input is entered into the latch when the Latch Strobe Input is low. The binary weight of this input is 1.Data Input B2ILatch Data Input B. Data on this input is entered into the latch when the Latch Strobe Input is low. The binary weight of this input is 2.Data Input C13ILatch Data Input C. Data on this input is entered into the latch when the Latch Strobe Input is low. The binary weight of this input is 4.Data Input D12ILatch Data Input D. Data on this input is entered into the latch when the Latch Strobe Input is low. The binary weight of this input is 8.Ground7 Common Ground. This is the negative terminal for all logic and LED currents except for the decimal points.LED Supply1 LED Supply (VCC). This terminal permits the user to save on regulated VCC current by using a separate LED supply, or it may be externally connected to the logic supply (VCC).Left Decimal4 Left Decimal Point Cathode. This LED is not connected to the logic chip. If a decimal point is used, an external resistor or other current-limiting mechanism must be connected in series with it.Logic Supply14 Logic Supply (VCC). Separate VCC terminal for the logic chip.omitted6, 9, 11 There is no pin at this location.Right Decimal10 Right Decimal Point Cathode. This LED is not connected to the logic chip. If a decimal point is used, an external resistor or other current-limiting mechanism must be connected in series with it.Strobe Input5ILatch Strobe Input. When low, the data in the latches follow the data on the latch data inputs. When high, the data in the latches does not change. If the display is blanked and then restored while this input is high, the previously displayed character will again be displayed. Absolute Maximum Ratingsover operating free-air temperature range (unless otherwise noted)†Supply voltage, logic, VCC (see Note 1). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 VSupply voltage, LED, VCC (see Note 1). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 VInput voltage (pins 2, 3, 5, 8, 12, 13), VI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5.5 VDecimal point current. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 mAOperating case temperature range, TC (see Note 2) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .0°C to 85°CStorage temperature range, Tstg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .−25°C to 85°C † Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.NOTES:1.All voltages are with respect to the Common Ground terminal.2.Casetemperature is the surface temperature of the plastic measured directly over the integrated  Forced-air cooling may be required to maintain this temperature. Recommended Operating Conditions MINNOMMAXUNITSupply voltage, logic, VCC4.555.5VSupply voltage, LED, VLED455.5VDecimal point current, IF(DP)5mAPulse duration, tw, latch strobe40nsSetup time, tsu50nsHold time, th40ns Electrical Characteristics at TA = 25°CPARAMETERTEST CONDITIONSMINTYPMAXUNIT Iv Luminous intensity (see Note 3)Average per character LEDVCC = 5 V,See Note 4VLED = 5 V,35100 mcdEach decimalIF(DP) = 5 mA35100 mcdλpWavelength at peak emission VCC = 5 V, IF(DP) = 5 mA,VLED = 5 V,See Note 5660nmΔλSpectral bandwidth 20nmVIHHigh-level input voltage  2VVILLow-level input voltage  0.8VVIKInput clamp voltage VCC = 4.75 V,II = − 12 mA− 1.5VIIInput current VCC = 5.5 V,VI = 5.5 V1mAIIHHigh-level input current VCC = 5.5 V,VI = 2.4 V40mAIILLow-level input current VCC = 5.5 V,VI = 0.4 V− 1.6mAICCSupply current, logic VCC = 5. V,VLED = 5. V, 6090mAILEDSupply current, LED  4590mAIF(DP) = 5 mA,All inputs at 0 VNOTES:3.Luminous intensity is measured with a light sensor and filter combination that approximates the CIE (International Commission on Illumination) eye-response curve.4.This parameter ismeasured with A displayed, then again with E displayed.These parameters are measured with B displayed. Typical CharacteristicsFigure1. Relative Spectral Characteristic  Figure2. Relative Luminous Intensity vs Logic Supply Voltage  Figure3. Relative Luminous Intensity vs Case Temperature Principles of OperationTTL-level four-bit binary data is applied to Latch Data Inputs A through D. As long as the Latch Strobe Input is low, latch output follows the input data. Latch output data is decoded and sent to the display LEDs to form the corresponding characters. When the Latch Strobe Input goes high, input data is stored in the latch and the display does not change.The resulting character displays for the values of the binary data in the latch are shown in the figure below. Figure4. Display Character Configurations While the Blanking Input is held low, the display shows the character corresponding to the data at the latch output. When the Blanking Input goes high, drive to the character display LEDs is removed and the display is blanked (except for the decimal points, which are independent and externally driven). Data in the latch and operation of the device logic elements are not affected by blanking the display. A repetitive variable-width pulse can be applied to the Blanking Input to adjust the apparent brightness of the display. The LED driver outputs are designed to maintain a relatively constant on-level current of approximately 5 mA through each LED that forms the hexadecimal character. This current is virtually independent of the LED supply voltage within the recommended operating conditions. Drive current varies slightly with changes in the logic supply voltage, resulting in a change in luminous intensity as shown in Figure 2. This change is not noticeable to the eye. The decimal point anodes are connected to the LED supply; the cathodes are connected to external pins. Since there is no current limiting built into the decimal point circuits, current limiting must be provided externally if the decimal points are used. Mechanical DataThese assemblies consist of LED chips and a TTL MSI logic chip mounted on a header with a red molded plastic body. Multiple displays may be mounted on 0.450-inch (11,43-mm) centers. NOTES: A.All linear dimensions are in inches and (parenthetically) in millimeters.B.The true-position pin spacing is 0.100 (2,54) between centerlines. Each centerline is located within 0.010 ( 0,26) of its true longitudinal position relative to pins 1 and 14.C.Associated centerlines of character segments and decimal point dimensions are nominal.D.This drawing is subject to change without notice. TIL311 DatasheetYou can download the datasheet of TIL311 from the link given below:TIL311 Datasheet TIL311 FAQWhat is hexadecimal display?Displays the hexadecimal representation of the data vertically (two rows per byte) under each character. ON DATA. Displays the hexadecimal representation of the data as a string of hexadecimal characters (two per byte) under the characters. What is a 7-segment display and how it works?The 7-segment display, also written as “seven segment display”, consists of seven LEDs (hence its name) arranged in a rectangular fashion as shown. Each of the seven LEDs is called a segment because when illuminated the segment forms part of a numerical digit (both Decimal and Hex) to be displayed. Why is hexadecimal used?The Hexadecimal, or Hex, numbering system is commonly used in computer and digital systems to reduce large strings of binary numbers into a sets of four digits for us to easily understand. What is the largest hexadecimal value you can put on one seven segment display?A seven segment display is an arrangement of 7 LEDs (see below) that can be used to show any hex number between 0000 and 1111 by illuminating combinations of these LEDs. Which diode is used in seven segment display?Light emitting diodeThe seven segment displays are made up of either LEDs (Light emitting diode) or LCDs (Liquid crystal display). LED or light emitting diode is P-N junction diode which emits the energy in the form of light, differing from normal P-N junction diode which emits in the form of heat. 
kynix On 2022-04-14   1520
Integrated Circuits (ICs)

STM32F103VET6 Microcontroller: Datasheet, Pinout, Board [Video&FAQ]

Product OverviewThe STM32F103VET6 is a 32-bit high-density performance line Microcontroller Unit offers three 12-bit ADCs and 4 general-purpose 16-bit timers plus two PWM timers, as well as standard and advanced communication interfaces up to two I²Cs, three SPIs and two I²Ss, one SDIO, five USARTs and an USB and a CAN. It incorporates the high-performance ARM® Cortex®-M3 32bit RISC core operating at a 72MHz frequency, high-speed embedded memories and an extensive range of enhanced I/Os and peripherals connected to two APB buses. The 100-pin general-purpose microcontroller unit (MCU) feature 512kB flash memory. This blog will introduce STM32F103VET6 systematically from its features, pinout to its specifications, applications, also including STM32F103VET6 datasheet and so much more. Video: Video Demo Use Kit STM32F103VET6 CatalogProduct OverviewSTM32F103VET6 FeaturesSTM32F103VET6 PinoutSTM32F103VET6 ApplicationsSTM32F103VET6 CAD ModelsSTM32F103VET6 Block DiagramSTM32F103VET6 Circuit DiagramSTM32F103VET6 Board SchematicSTM32F103VET6 SpecificationSTM32F103VET6 ManufacturerSTM32F103VET6 DatasheetUsing WarningsSTM32F103VET6 FAQ STM32F103VET6 FeaturesPOR, PDR and programmable voltage detectorLow power - Sleep, stop and standby modesVBAT supply for RTC and backup registers12-channel DMA controllerDebug mode - Serial wire debug (SWD) and JTAG interfacesCortex®-M3 embedded trace Macrocell™2 x Watchdog timersSysTick timer - 24-bit down counterCRC calculation unit, 96-bit unique ID STM32F103VET6 PinoutThe following figure is the diagram of STM32F103VET6 pinout. STM32F103VET6 Pinout STM32F103VET6 ApplicationsMotor Drive & Control, Portable Devices, Medical, Consumer Electronics, Computers & Computer Peripherals, Communications & Networking, Industrial, Security, Imaging, Video & Vision, HVAC STM32F103VET6 CAD ModelsThe followings are STM32F103VET6 Symbol, Footprint, and 3D Model. STM32F103VET6 Symbol STM32F103VET6 Footprint STM32F103VET6 3D Model STM32F103VET6 Block DiagramThe following figure shows the block diagram of STM32F103VET6. STM32F103VET6 Block Diagram STM32F103VET6 Circuit DiagramThe following shows typical application with an 8 MHz crystal. STM32F103VET6 Circuit Diagram STM32F103VET6 Board SchematicThe following figure is the diagram of home made mbed board with STM32F103VET6 microcontroller. It is not mandatory to install all parts. The USB interface, the User LED, the User button or the Serial connector can be omitted if you do not need them for your particular project. STM32F103VET6 Board Schematic STM32F103VET6 SpecificationProduct AttributeAttribute ValueFamily NameSTM32FPackage TypeLQFPMounting TypeSurface MountPin Count100Device CoreARM Cortex M3Data Bus Width32bitProgram Memory Size512 kBMaximum Frequency72MHzRAM Size64 kBUSB Channels1 x DeviceNumber of PWM Units2 x 16 bitNumber of SPI Channels3Typical Operating Supply Voltage2 → 3.6 VMaximum Number of Ethernet Channels0Number of Timers6Minimum Operating Temperature-40 °CInstruction Set ArchitectureRISCNumber of CAN Channels1Number of Ethernet Channels0Number of ADC Units3Number of UART Channels0Number of PCI Channels0Length14.2mmDimensions14.2 x 14.2 x 1.45mmTimers6 x 16 bitNumber of USART Channels5Program Memory TypeFlashMaximum Operating Temperature+85 °CPulse Width Modulation2 (16 bit) (Motor Control)Number of I2C Channels2ADCs16 x 12 bitTimer Resolution16bitHeight1.45mmNumber of LIN Channels0Width14.2mm STM32F103VET6 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. STM32F103VET6 DatasheetYou can download STM32F103VET6 datasheet from the link given below:STM32F103VET6 Datasheet Using WarningsNote: Please check their parameters and pin configuration before replacing them in your circuit. STM32F103VET6 FAQWhat kind of microcontroller does STM32F103 use?STM32F103 devices use the Cortex-M3 core, with a maximum CPU speed of 72 MHz. The portfolio covers from 16 Kbytes to 1 Mbyte of Flash with motor control peripherals, USB full-speed interface and CAN. MadeForSTM32™ - the new STM32 quality label. What is STM32F103?The STM32F103 is a high performance thirty-two bit RISC based controller having an operating frequency of seventy-two hertz. It has a flash memory of having space of one twenty kilobytes and a static ram of twenty-kilo bytes. How many ADC peripheral in STM32F103 microcontroller?This microcontroller has two ADCs which their resolution is 12 bits and each one has 16 channels. What is the purpose of a microcontroller?Microcontroller is a compressed micro computer manufactured to control the functions of embedded systems in office machines, robots, home appliances, motor vehicles, and a number of other gadgets. A microcontroller is comprises components like - memory, peripherals and most importantly a processor. What are the two main functional characteristics of a microcontroller?Its two main components are the Arithmetic Logic Unit (ALU), which performs arithmetic and logical operations, and the Control Unit (CU), which handles all of the processor's instruction executions.
Kynix On 2021-11-04   1519
Integrated Circuits (ICs)

LM311N Voltage Comparator: Datasheet, Alternates, Circuits

LM311N is a Differential Voltage Comparator that have low input currents with strobes. Here introducres its datasheet, pinout and appliaction circuits.CatalogProduct OverviewLM311N CAD ModelsLM311N Package DimensionsBoard Layout Example Stencil Design ExampleLM311N Schematic DiagramLM311N FeaturesLM311N Product AttributesLM311N ApplicationsLM311N Application CircuitsAlternate PartsComponent DatasheetLM311N vs LM311PUsing WarningsLM311N ManufacturerProduct OverviewThe LM311N are also designed to operate over a wide range of supply voltages: from standard ±15V operational amplifier supplies down to the single +5V supply used for IC logic. Their output is compatible with RTL-DTL and TTL as well as MOS circuits and can switch voltages up to +50V at output currents as high as 50mA.LM311N CAD ModelsLM311N CAD ModelsLM311N Package DimensionsLM311N DIP8 Package LM311N SO-8 PackageBoard Layout Example LM311N Land Pattern Example LM311N Solder Mask DetailsStencil Design ExampleLM311N Solder Paste ExampleLM311N Schematic DiagramLM311N Comparator Schematic DiagramLM311N Features• Maximum input current: 150nA• Maximum offset current: 20nA• Differential input voltage range: ±30V• Power consumption:135mW at ±15V• Supply voltage: +5V to ±15V• Output current: 50mALM311N Product AttributesSpecificationsValuesCase/PackagePlastic, DIP-8MountThrough HoleNumber of Pins8Input Bias Current250 nAInput Offset Voltage (Vos)7.5 mVJESD-30 CodeR-PDIP-T8JESD-609 Codee0Max Dual Supply Voltage15 VMax Input Current250 nAMax Operating Temperature70 °CMax Power Dissipation1.25 WMax Supply Current6 mAMax Supply Voltage30 VMin Dual Supply Voltage2.5 VMin Operating Temperature0 °CMin Supply Voltage5 VNominal Supply Current7.5 mANumber of Channels1Number of Circuits1Number of Elements1Operating Supply Voltage28 VOutput Current50 mAOutput Current per Channel200 pAOutput TypeTTLPower Dissipation1.25 WPropagation Delay200 nsQuiescent Current7.5 mAResponse Time200 nsTypeGeneral PurposeVoltage Gain106.02 dBHeight3.3 mmLength9.8 mmWidth7.1 mmLead FreeLead FreeRadiation HardeningNoREACH SVHCNo SVHCRoHSCompliantLM311N Applications• Precision squarer• Positive/negative peak detector• Low voltage adjustable reference supply• Switching power amplifierLM311N Application CircuitsZero Detector Driving MOS Logic Detector for Magnetic Transducer TTL Interface with High Level LogicAlternate PartsLM311NG, LM311J, LM311N8, LM311JG4, LM311JG, LM311V, LM311J8, LM311N/NOPBComponent DatasheetLM311N PDFLM311N vs LM311PSpecificationsLM311NLM311PRohs CodeNoYesPart Life Cycle CodeTransferredActiveIhs ManufacturerPHILIPS SEMICONDUCTORSTEXAS INSTRUMENTS INCPackage DescriptionDIP, DIP8,.3DIP, DIP8,.3Reach Compliance CodeUnknownCompliantECCN CodeEAR99EAR99HTS Code8542.39.00.018542.39.00.01Amplifier TypeCOMPARATORCOMPARATORBias Current-Max (IIB) @25C0.25 µA0.25 µAInput Offset Voltage-Max7500 µV10000 µVJESD-30 CodeR-PDIP-T8R-PDIP-T8JESD-609 Codee0e4Neg Supply Voltage-Nom (Vsup)-15 V-15 VNumber of Functions11Number of Terminals88Operating Temperature-Max70 °C70 °COperating Temperature-Min**Package Body MaterialPLASTIC/EPOXYPLASTIC/EPOXYPackage CodeDIPDIPPackage Equivalence CodeDIP8,.3DIP8,.3Package ShapeRECTANGULARRECTANGULARPackage StyleIN-LINEIN-LINEPower Supplies+-15 V+-15 VQualification StatusNot QualifiedNot QualifiedResponse Time-Nom200 ns115 nsSupply Current-Max7.5 mA7.5 mASupply Voltage-Nom (Vsup)15 V15 VSurface MountNONOTechnologyBIPOLARBIPOLARTemperature GradeCOMMERCIALCOMMERCIALTerminal FinishTin/Lead (Sn/Pb)Nickel/Palladium/Gold (Ni/Pd/Au)Terminal FormTHROUGH-HOLETHROUGH-HOLETerminal Pitch2.54 mm2.54 mmTerminal PositionDUALDUALBase Number Matches181Source Content uid*LM311PPbfree Code* YesPart Package Code*DIPPin Count*8Factory Lead Time*6 WeeksSamacsys Description*Single comparator,LM311P 165ns DIP8 LM311P, Comparator Open Collector/Emitter 0.165μs 12 V, 15 V, 18 V, 24 V, 28 V, 5 V, 9 V 8-Pin PDIPSamacsys Manufacturer*Texas InstrumentsAverage Bias Current-Max (IIB)*0.3 µALength*9.59 mmNeg Supply Voltage Limit-Max*-18 VOutput Type*OPEN-COLLECTOR/OPEN-EMITTERPacking Method*TUBEPeak Reflow Temperature (Cel)*NOT SPECIFIEDSeated Height-Max*5.08 mmSupply Voltage Limit-Max*18 VTime@Peak Reflow Temperature-Max (s)*NOT SPECIFIEDWidth*7.62 mmUsing WarningsPlease check their parameters and pin configuration before replacing them in your circuit.LM311N ManufacturerTexas Instruments Inc. (TI) is an American technology company that designs and manufactures semiconductors and various integrated circuits, which it sells to electronics designers and manufacturers globally. Its headquarters are in Dallas, Texas, United States. TI is one of the top ten semiconductor companies worldwide, based on sales volume. Texas Instruments's focus is on developing analog chips and embedded processors, which accounts for more than 80% of their revenue. TI also produces TI digital light processing (DLP) technology and education technology products including calculators, microcontrollers and multi-core processors. To date, TI has more than 43,000 patents worldwide.
kynix On 2022-01-20   1495
Integrated Circuits (ICs)

LSM9DS1TR Sensor: Datasheet, Pinout and Arduino

 The LSM9DS1TR is a system-in-package featuring a 3D digital linear acceleration sensor, a 3D digital angular rate sensor, and a 3D digital magnetic sensor.  CatalogProduct OverviewCAD ModelProduct PinoutArduino LSM9DS1TR LibraryPrice & Stock for: LSM9DS1TRLSM9DS1TR AttributesLSM9DS1TR DatasheetLSM9DS1TR FeaturesApplicationsLSM9DS1TR Operating ModesUsing WarningFAQProduct OverviewThe LSM9DS1TR is a system-in-package featuring a 3D digital linear acceleration sensor, a 3D digital angular rate sensor, and a 3D digital magnetic sensor. The LSM9DS1TR has a linear acceleration full scale of ±2g/±4g/±8/±16 g, a magnetic field full scale of ±4/±8/±12/±16 gauss and an angular rate of ±245/±500/±2000 dps. The LSM9DS1TR includes an I2C serial bus interface supporting standard and fast mode (100 kHz and 400 kHz) and an SPI serial standard interface. Magnetic, accelerometer and gyroscope sensing can be enabled or set in power-down mode separately for smart power management. The LSM9DS1TR is available in a plastic land grid array package (LGA) and it is guaranteed to operate over an extended temperature range from -40 °C to +85 °C. CAD ModelPart Symbol Footprint Product PinoutLSM9DS1TR Pinout Arduino LSM9DS1TR LibraryThis library allows you to use the Arduino Nano 33 BLE IMU sensor. The IMU is a LSM9DS1TR, it is a 3-axis accelerometer and 3-axis gyroscope and 3-axis magnetometer; it is connected to the microcontroller through I2C on the NANO board. The values returned are signed floats. The library takes care of the sensor initialisation and sets its values as follows:Accelerometer range is set at [-4,+4]g -/+0.122 mgGyroscope range is set at [-2000, +2000] dps +/-70 mdpsMagnetometer range is set at [-400, +400] uT +/-0.014 uTAccelerometer Output data rate is fixed at 104 HzGyroscope Output data rate is fixed at 104 HzMagnetometer Output data rate is fixed at 20 Hz Price & Stock for: LSM9DS1TRSellerSKUCurrency110100100010000Digi-Key 497-14946-6-NDUSD21.0819.43818.218.218.2Digi-Key497-14946-1-NDUSD21.0819.43818.218.218.2Mouser511-LSM9DS1TRUSD24.0121.1718.6516.6416.64Farnell 2532383USD 31.66627.91726.79726.79726.797Farnell2532383RLUSD  27.91726.79726.79726.797Newark 83Y4306USD17.3415.1710.9410.9410.94Newark26Y5658USD17.5817.5817.5817.5817.58Newark29AC7702USD17.5817.5817.5817.5817.58 LSM9DS1TR AttributesSource Content uid:LSM9DS1TRManufacturer Part Number:LSM9DS1TRBrand Name:STMicroelectronicsPart Life Cycle Code:ActiveIhs Manufacturer:STMICROELECTRONICSPackage Description:TFLGA,Reach Compliance Code:compliantECCN Code:EAR99HTS Code:8542.39.00.01Factory Lead Time:16 WeeksManufacturer:STMicroelectronicsRisk Rank:0.94Samacsys Manufacturer:STMicroelectronicsAnalog IC - Other Type:ANALOG CIRCUITJESD-30 Code:R-PBGA-B24Length:3.5 mmNumber of Functions:1Number of Terminals:24Operating Temperature-Max:85 °COperating Temperature-Min:-40 °CPackage Body Material:PLASTIC/EPOXYPackage Code:TFLGAPackage Shape:RECTANGULARSeated Height-Max:1.027 mmSupply Voltage-Max (Vsup):3.6 VSupply Voltage-Min (Vsup):1.9 VSupply Voltage-Nom (Vsup):2.2 VLSM9DS1TR DatasheetLSM9DS1TR-datasheet LSM9DS1TR Features3 acceleration channels, 3 angular rate channels, 3 magnetic field channels±2/±4/±8/±16 g linear acceleration full scale±4/±8/±12/±16 gauss magnetic full scale±245/±500/±2000 dps angular rate full scale16-bit data outputSPI / I2C serial interfacesAnalog supply voltage 1.9 V to 3.6 V“Always-on” eco power mode down to 1.9 mAProgrammable interrupt generatorsEmbedded temperature sensorEmbedded FIFOPosition and motion detection functionsClick/double-click recognitionIntelligent power saving for handheld devicesECOPACK®, RoHS and “Green” compliant ApplicationsIndoor navigationSmart user interfacesAdvanced gesture recognitionGaming and virtual reality input devicesDisplay/map orientation and browsing  LSM9DS1TR Operating ModesIn the LSM9DS1TR the accelerometer and gyroscope have two operating modes available: only accelerometer active and gyroscope in power down or both accelerometer and gyroscope sensors active at the same ODR. Switching from one mode to the other requires one write operation: writing to CTRL_REG6_XL (20h), the accelerometer operates in normal mode and the gyroscope is powered down, writing to CTRL_REG1_G (10h) both accelerometer and gyroscope are activated at the same ODR. The magnetic sensor has three operating modes available: power-down (default), continuous-conversion mode and single-conversion mode. Switching from power-down to the other modes requires one write operation to CTRL_REG3_M (22h), setting values in the MD[1:0] bits. For the output of the magnetic data compensated by temperature, the TEMP_COMP bit in CTRL_REG1_M (20h) must be set to ‘1’. Using WarningPlease check their parameters and pin configuration before replacing them in your circuit. FAQWhat is the Sensor Type of LSM9DS1TR?3 Axis sensor What is the Max Supply Voltage of LSM9DS1TR? 3.6 V What is the Output Type of LSM9DS1TR? I2C, SPI What is the Packaging of LSM9DS1TR? Cut Tape
kynix On 2022-04-12   1492

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