The Kynix Components

Catalog Description Related Video Instruction CAD Models Pin Configuration Block Diagram Features Applications Datasheet Specifications Manufacturer Using Warning FAQ Description The MAX038 is a high-frequency, precision function generator producing accurate, high-frequency triangle, sawtooth, sine, square, and pulse waveforms with a minimum of external components. The output frequency can be controlled over a frequency range of 0.1Hz to 20MHz by an internal 2.5V bandgap voltage reference and an external resistor and capacitor. The duty cycle can be varied over a wide range by applying a ±2.3V control signal, facilitating pulse-width modulation and the generation of sawtooth waveforms. Frequency modulation and frequency sweeping are achieved in the same way. The duty cycle and frequency controls are independent.   Sine, square, or triangle waveforms can be selected at the output by setting the appropriate code at two TTL-compatible select pins. The output signal for all waveforms is a 2VP-P signal that is symmetrical around ground. The low-impedance output can drive up to ±20mA.   The TTL-compatible SYNC output from the internal oscillator maintains a 50% duty cycle—regardless of the duty cycle of the other waveforms—to synchronize other devices in the system. The internal oscillator can be synchronized to an external TTL clock connected to PDI.   Related Video Instruction Video: Function/Waveform Generator MAX038 Video Description: In this episode of DIY or Buy we will have a short look at commercial function/waveform generators in order to determine what features are important for a DIY version. Afterwards I will then show you how to create a simple function generator, the analog and digital way. At the end I will then present you a DIY DDS function generator design which can (kind of) hold up to the commercial versions.   CAD Models   Figure: PCB Symbol     Figure: Footprint   Pin Configuration   Figure: Pin Configuration   Block Diagram   Figure: Block Diagram   Features 0.1Hz to 20MHz Operating Frequency RangeTriangle, Sawtooth, Sine, Square, and PulseWaveformsIndependent Frequency and Duty-CycleAdjustments350 to 1 Frequency Sweep Range15% to 85% Variable Duty CycleLow-Impedance Output Buffer: 0.1ΩLow-Distortion Sine Wave: 0.75%Low 200ppm/°C Temperature Drift   Applications Precision Function GeneratorsVoltage-Controlled OscillatorsFrequency ModulatorsPulse-Width ModulatorsPhase-Locked LoopsFrequency SynthesizerFSK Generator—Sine and Square Waves   Datasheet You can download the datasheet from the link given below: MAX038-Datasheet   Specifications Part Package Code:SOICPackage Description:SOP, SOP20,.4Pin Count:20Reach Compliance Code:not_compliantECCN Code:EAR99HTS Code:8542.39.00.01Manufacturer:Maxim Integrated ProductsRisk Rank:5.87Additional Feature:ALSO REQUIRES -5V SUPPLYAnalog IC - Other Type:SQUARE; TRIANGULAR; SINE; SAWTOOTH; PULSEJESD-30 Code:R-PDSO-G20JESD-609 Code:e0Length:12.8 mmMoisture Sensitivity Level:1Neg Supply Voltage-Nom (Vsup):-5 VNumber of Functions:1Number of Terminals:20Operating Temperature-Max:70 °COutput Frequency-Max:20 MHzPackage Body Material:PLASTIC/EPOXYPackage Code:SOPPackage Equivalence Code:SOP20,.4Package Shape:RECTANGULARPackage Style:SMALL OUTLINEPeak Reflow Temperature (Cel):245Power Supplies:+-5 VSeated Height-Max:2.65 mmSubcategory:Analog Waveform Generation FunctionsSupply Voltage-Max (Vsup):5.25 VSupply Voltage-Min (Vsup):4.75 VSupply Voltage-Nom (Vsup):5 VSurface Mount:YESTemperature Grade:COMMERCIALTerminal Finish:Tin/Lead (Sn85Pb15)Terminal Form:GULL WINGTerminal Pitch:1.27 mmTerminal Position:DUALTime@Peak Reflow Temperature-Max (s):NOT SPECIFIEDWidth:7.5 mm   Manufacturer Maxim Integrated, a subsidiary of Analog Devices, designs, manufactures, and sells analog and mixed-signal integrated circuits for the automotive, industrial, communications, consumer, and computing markets. Maxim's product portfolio includes power and battery management ICs, sensors, analog ICs, interface ICs, communications solutions, digital ICs, embedded security, and microcontrollers. The company is headquartered in San Jose, California, and has design centers, manufacturing facilities, and sales offices worldwide.   Using Warning Note: Please check their parameters and pin configuration before replacing them in your circuit.   FAQ What is the difference between waveform generator and signal generator? A signal generator differs from a waveform and function generator in the aspect that it generates simple waveforms, usually a sine wave. Although some signal generators produce square wave and triangle wave.   Why do we use waveform generators? Waveform Generators are used to apply specified analog signals to circuits, anything from DC signals, sine waves of varying frequencies, AM/FM modulated signals, and more. This guide explains the use of the Waveform Generator instrument in WaveForms. This instrument is also referred to as the Wavegen.   Which circuit is used to generate waveforms? A square wave generator is an electronic circuit which generates square wave. This section discusses about op-amp based square wave generators. Observe that in the circuit diagram shown above, the resistor R1 is connected between the inverting input terminal of the op-amp and its output of op-amp.  

Catalog 74HC595N Description 74HC595N Related Video Instruction 74HC595N CAD Models 74HC595N Pin Configuration 74HC595N Functional Diagram 74HC595N Shift Register with Arduino 74HC595N Circuit Diagram 74HC595N Features 74HC595N Applications 74HC595N Datasheet 74HC595N Specifications 74HC595N Manufacturer Using Warning 74HC595N FAQ 74HC595N Description The 74HC/HCT595 are high-speed Si-gate CMOS devices and are pin compatible with low power Schottky TTL (LSTTL). They are specified in compliance with JEDEC standard no. 7A.   The 74HC/HCT595 is an 8-stage serial shift register with a storage register and 3-state outputs. The shift register and storage register have separate clocks.   Data is shifted on the positive-going transitions of the SH_CP input. The data in each register is transferred to the storage register on a positive-going transition of the ST_CP input. If both clocks are connected together, the shift register will always be one clock pulse ahead of the storage register.   The shift register has a serial input (DS) and a serial standard output (Q7’) for cascading. It is also provided with asynchronous reset (active LOW) for all 8 shift register stages. The storage register has 8 parallel 3-state bus driver outputs. Data in the storage register appears at the output whenever the output enable input (OE) is LOW.   74HC595N Related Video Instruction Video:How Shift Registers Work - 74HC595N 74HC595N Video Description: A Schematic (and also a great tutorial)    Video:One 74hc595n Shift Register Tutorial   74HC595N CAD Models   Figure: PCB Symbol     Figure: Footprint     Figure: 3D Model   74HC595N Pin Configuration   Figure: Pin Configuration   74HC595N Functional Diagram   Figure: Functional Diagram   74HC595N Shift Register with Arduino   Figure: Using a shift register 74HC595N with Arduino   74HC595N Circuit Diagram   Figure: Circuit Diagram   74HC595N Features 8-bit serial input8-bit serial or parallel outputStorage register with 3-state outputsShift register with direct clear100 MHz (typical) shift out frequencyESD protection:      - HBM EIA/JESD22-A114-A exceeds 2000 V      - MM EIA/JESD22-A115-A exceeds 200 V   74HC595N Applications Serial-to-parallel data conversionRemote control holding register.   74HC595N Datasheet You can download the datasheet from the link given below: 74HC595N-Datasheet   74HC595N Specifications PhysicalCase/PackageDIPMountThrough HoleNumber of Pins16 TechnicalFrequency100 MHzLogic FunctionShift RegisterMax Operating Temperature125 °CMax Supply Voltage6 VMin Operating Temperature-40 °CMin Supply Voltage2 VNumber of Bits8Number of Circuits8Number of Elements1Number of Gates1Operating Supply Voltage5 VOutput Voltage6 VPower Dissipation750 mWPropagation Delay265 ns ComplianceLead FreeLead FreeRadiation HardeningNoREACH SVHCNo SVHCRoHSCompliant   74HC595N Manufacturer NXP Semiconductors N.V. is a Netherlands-domiciled American semiconductor manufacturer with headquarters in Eindhoven, Netherlands that focuses in the automotive industry. The company employs approximately 31,000 people in more than 35 countries, including 11,200 engineers in 33 countries.   Using Warning Note: Please check their parameters and pin configuration before replacing them in your circuit.   74HC595N FAQ What does a shift register do? A shift register is a type of digital circuit using a cascade of flip-flops where the output of one flip-flop is connected to the input of the next. They share a single clock signal, which causes the data stored in the system to shift from one location to the next.   What is the difference between shift register and counter? There Are used in Memories Like RAM,ROM etc. A counter is a special case of a register. Shift registers are a type of sequential logic circuit, mainly for storage of digital data. They are a group of flip-flops connected in a chain so that the output from one flip-flop becomes the input of the next flip-flop.   When would you use a shift register? Shift Registers are used for data storage or for the movement of data and are therefore commonly used inside calculators or computers to store data such as two binary numbers before they are added together, or to convert the data from either a serial to parallel or parallel to serial format.   What are shift register counters? Shift register counters are a sequence of a certain number of core registers that are connected together to provide a clock-driven data shift. The most common of these are called Johnson counters and ring counters.   Can a shift register be used as a counter? Shift registers are also used as counters. There are two types of counters based on the type of output from right most D flip-flop is connected to the serial input. Those are Ring counter and Johnson Ring counter.  

Catalog Product Overview LM555CN Related Video Introduction LM555CN CAD Models LM555CN Circuits LM555CN Block Diagram LM555CN Features LM555CN Applications LM555CN Datasheet LM555CN Specifications LM555CN Manufacturer Using Warning LM555CN FAQ   Product Overview The LM555 is a highly stable controller capable of producing accurate timing pulses. With a monostable operation, the delay is controlled by one external resistor and one capacitor. With a stable operation, the frequency and duty cycle are accurately controlled by two external resistors and one capacitor.   LM555CN Related Video Introduction LM555CN Video Description: In this tutorial we will learn how the 555 Timer works, one of the most popular and widely used ICs of all time.   LM555CN CAD Models Figure: LM555CN PCB Symbol       Figure: LM555CN Footprint       Figure: LM555CN 3D Models   LM555CN Circuits Figure: LM555CN Monostable Circuit     Figure: LM555CN Circuit for Pulse Width Modulation     Figure: LM555CN Circuit for Pulse Position Modulation   LM555CN Block Diagram Figure: LM555CN Block Diagram   LM555CN Features High-Current Drive Capability: 200 mAAdjustable Duty CycleTemperature Stability of 0.005%/°CTiming From us to HoursTurn off Time Less Than 2 us   LM555CN Applications Precision TimingPulse GenerationDelay GenerationSequential Timing   LM555CN Datasheet You can download the datasheet from the link given below: LM555CN Datasheet   LM555CN Specifications TypeDescriptionCategoryIntegrated Circuits (ICs)Clock/Timing - Programmable Timers and OscillatorsMfronsemiPackageTubePart StatusObsoleteType555 Type, Timer/Oscillator (Single)Voltage - Supply4.5V ~ 16VCurrent - Supply7.5 mAOperating Temperature0°C ~ 70°CPackage / Case8-DIP (0.300", 7.62mm)Supplier Device Package8-DIPMounting TypeThrough HoleBase Product NumberLM555   LM555CN Manufacturer Onsemi 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 Warning Note: Please check their parameters and pin configuration before replacing them in your circuit.   LM555CN FAQ What is LM555CN? The LM555CN is a highly stable Controller/Single Timer, capable of producing accurate timing pulses. With monostable operation, the time delay is controlled by one external resistor and one capacitor.   What is IC 555 timer used for? The 555 timer IC is an integrated circuit (chip) used in a variety of timer, delay, pulse generation, and oscillator applications. Derivatives provide two (556) or four (558) timing circuits in one package. It was commercialized in 1972 by Signetics.   Why IC 555 is called Timer? The 555 Timers name comes from the fact that there are three 5kΩ resistors connected together internally producing a voltage divider network between the supply voltage at pin 8 and ground at pin 1.  

CatalogDescriptionCAD ModelsPin ConfigurationBlock DiagramFeaturesApplication ExampleDatasheetSpecificationsManufacturerUsing WarningFAQDescriptionThe BTS7960 is part of the NovalithIC family containing three separate chips in one package: One p-channel highside MOSFET and one n-channel lowside MOSFET together with a driver IC, forming a fully integrated high current half-bridge. All three chips are mounted on one common leadframe, using the chip on chip and chip by chip technology. The power switches utilize vertical MOS technologies to ensure optimum on state resistance. Due to the p-channel highside switch the need for a charge pump is eliminated thus minimizing EMI. Interfacing to a microcontroller is made easy by the integrated driver IC which features logic level inputs, diagnosis with current sense, slew rate adjustment, dead time generation and protection against overtemperature, overvoltage, undervoltage, overcurrent and short circuit. The BTS 7960 can be combined with other BTS 7960 to form H-bridge and 3-phase drive configurations. CAD Models Figure: PCB Symbol  Figure: Footprint Pin Configuration Figure: Pin Configuration Block Diagram Figure: Block Diagram FeaturesPath resistance of typ. 16 mΩ@ 25 °CLow quiescent current of typ. 7 µA @ 25 °CPWM capability of up to 25 kHz combined with active freewheelingSwitched mode current limitation for reduced power dissipation in overcurrentCurrent limitation level of 43 A typ.Status flag diagnosis with current sense capabilityOvertemperature shut down with latch behaviourOvervoltage lock outUndervoltage shut downDriver circuit with logic level inputsAdjustable slew rates for optimized EMI Application Example Figure: Application Example: H-bridge with Two BTS7960B DatasheetYou can download the datasheet from the link given below:BTS7960B-Datasheet SpecificationsManufacturer:InfineonProduct Category:Motor / Motion / Ignition Controllers & DriversOperating Supply Voltage:5.5 V to 27.5 VOperating Supply Current:3 mAMinimum Operating Temperature:- 40 CMaximum Operating Temperature:+ 150 CMounting Style:SMD/SMTPackage / Case:TO-263-7Packaging:ReelBrand:Infineon TechnologiesProduct Type:Motor / Motion / Ignition Controllers & DriversFactory Pack Quantity:1000Subcategory:PMIC - Power Management ICs ManufacturerInfineon Technologies AG is a German semiconductor manufacturer founded in 1999, when the semiconductor operations of the former parent company Siemens AG were spun off. Infineon has about 46,665 employees and is one of the ten largest semiconductor manufacturers worldwide. It is market leader in automotive and power semiconductors. Using WarningNote: Please check their parameters and pin configuration before replacing them in your circuit. FAQWhat is half bridge circuit?Half-Bridge can refer to: is one of DC-DC converter using two input switches to control the output voltage of the transformer. A single-direction configuration of an H-Bridge motor controller. A form of DC to DC converter switched-mode power supply. Is H-bridge same as half bridge?An H-Bridge is a circuit of 4 switches allowing to select the direction of current flowing through a part. Often Half-bridges are used where you'd expect an H-Bridge. They are almost the same - but only the left (or right) part of the Bridge is already connected. (2 switches in series with their middle as output. What is half bridge inverter?The inverter is a device that converts a dc voltage into ac voltage and it consists of four switches whereas half-bridge inverter requires two diodes and two switches which are connected in anti-parallel. 

Product Overview The LT® 1017/LT1018 are general purpose micropower comparators. The LT1017 is optimized for lowest operating power while the LT1018 operates at higher power and higher speed. Both devices can operate from a single 1.1V cell up to 40V. The output stage includes a class “B” pullup current source, eliminating the need for an external resistive pull-up and saving power.   This blog will introduce LT1017 systematically from its features, pinout to its specifications, applications, also including LT1017 datasheet and so much more.   Catalog Product Overview LT1017 Features LT1017 Pinout LT1017 Applications LT1017 CAD Models LT1017 Circuit Diagram LT1017 Package LT1017 Specification LT1017 Manufacturer LT1017 Datasheet Using Warnings LT1017 FAQ   LT1017 Features Maximum Offset Voltage: 1mVMaximum Bias Current: 15nATypical Output Drive: 70mAOperates from 1.1V to 40VInternal Pull-Up CurrentOutput Can Drive Loads Above V+30µA Supply Current (LT1017) 110µA Supply Current (LT1018) Available in 8-Lead PDIP, 8-Lead Plastic S0, and 16-Lead Plastic SO Packages   LT1017 Pinout The following figure is the diagram of LT1017 pinout.   LT1017 Pinout   LT1017 Applications ■ Power Supply Monitors ■ Relay Driving ■ Oscillators   LT1017 CAD Models The followings are LT1017CN8 Symbol, Footprint, and 3D Model.   LT1017CN8 Symbol   LT1017CN8 Footprint   LT1017CN8 3D Model   LT1017 Circuit Diagram The following is the circuit diagram of LT1017.   LT1017 Circuit Diagram   1.5V Powered Refrigerator Alarm   LT1017 Package The following diagram shows the LT1017 package.   LT1017 Package   LT1017 Specification Manufacturer:Analog Devices IncAverage Bias Current-Max (IIB):0.025 µAMaximum Offset Voltage: 1mVMaximum Bias Current: 15nATypical Output Drive: 70mAOperating Temperature-Max:70 °CPeak Reflow Temperature (Cel):235Subcategory:ComparatorTerminal Position:DUALTime@Peak Reflow Temperature-Max (s):20   LT1017 Manufacturer Analog Devices has built one of the longest standing, highest growth companies within the technology sector utilizing cultural pillars such as innovation, performance, and excellence. Acknowledged industry-wide as the world leader in data conversion and signal conditioning technology, Analog Devices serves over 100,000 customers, representing virtually all types of electronic equipment. Celebrating over 50 years as a leading global manufacturer of high-performance integrated circuits used in analog and digital signal processing applications, Analog Devices is headquartered in Norwood, Massachusetts, with design and manufacturing facilities throughout the world. Analog Devices' is included in the S&P 500 Index.   LT1017 Datasheet You can download LT1017 datasheet from the link given below: LT1017 Datasheet   Using Warnings Note: Please check their parameters and pin configuration before replacing them in your circuit.   LT1017 FAQ What is the function of comparator? A comparator circuit compares two voltages and outputs either a 1 (the voltage at the plus side; VDD in the illustration) or a 0 (the voltage at the negative side) to indicate which is larger. Comparators are often used, for example, to check whether an input has reached some predetermined value.   Why is comparator needed? Comparators are used to find-out deviation of dimensions between a given component being checked and a known datum. The indicated difference in the dimensions is usually small and hence suitable magnification device should be employed to obtain the desired accuracy of measurements.   What is the difference between op-amp and comparator? The difference between an op-amp comparator and a voltage comparator is in the output stage as a standard op-amp has an output stage that is optimized for linear operation, while the output stage of a voltage comparator is optimized for continuous saturated operation as it is always intended to be close to one supply.

Catalog Product Overview TDA7297 Related Video Introduction TDA7297 CAD Models TDA7297 Pin Connection TDA7297 Block Diagram TDA7297 Features TDA7297 Packaging Dimensions TDA7297 Datasheet TDA7297 Specifications TDA7297 Manufacturer Using Warning TDA7297 FAQ   Product Overview The TDA7297 is a dual bridge amplifier specially designed for TV and Portable Radio applications.   TDA7297 Related Video Introduction TDA7297 Video Description: Assalam-o-alaikum DIY TDA7297 Amplifier | Stereo Power Amplifier | How to Amplifier | Electrical Techet This is a series of stereo power amplifiers that use TDA7297 chip amp, this chip amp sounds less familiar maybe because of the power that is not so great. The power released by this power amplifier is about 15W x2 (stereo), this power amp circuit is often used in TV or radio amplifiers. But no one, if you also try to come make this audio power amplifier project.   TDA7297 CAD Models Figure: TDA7297 PCB Symbol     Figure: TDA7297 Footprint     Figure: TDA7297 3D Models   TDA7297 Pin Connection Figure: TDA7297 Pin Connection   TDA7297 Block Diagram Figure: TDA7297 Block Diagram   TDA7297 Features Wide Supply Voltage Range (6V -18V)Minimum External Components – No Svr Capacitor – No Bootstrap – No Boucherot Cells – Internally Fixed Gain Stand-By & Mute FunctionsShort Circuit ProtectionThermal Overload Protection   TDA7297 Packaging Dimensions Figure: TDA7297 Packaging Dimensions   TDA7297 Datasheet You can download the datasheet from the link given below: TDA7297 Datasheet   TDA7297 Specifications Product AttributeAttribute ValueManufacturer:STMicroelectronicsProduct Category:Audio AmplifiersSeries:TDA7297Product:Audio AmplifiersClass:Class-ABOutput Power:15 WMounting Style:Through HoleType:2-Channel StereoPackage / Case:Multiwatt-15Audio - Load Impedance:8 OhmsTHD plus Noise:0.10%Supply Voltage - Max:18 VSupply Voltage - Min:6.5 VOperating Temperature:0°C ~ 70°C (TA)Packaging:TubeBrand:STMicroelectronicsDescription/Function:SpeakerGain:32 dBHeight:10.7 mmInput Type:SingleLength:19.6 mmNumber of Channels:2 ChannelOperating Supply Current:2 AOperating Supply Voltage:9 V, 12 V, 15 VOutput Current:2 AOutput Signal Type:DifferentialPd - Power Dissipation:33000 mWProduct Type:Audio AmplifiersPSRR - Power Supply Rejection Ratio:56 dBSubcategory:Audio ICsSupply Type:SingleWidth:5 mmUnit Weight:0.255983 oz   TDA7297 Manufacturer STMicroelectronics is a French-Italian multinational electronics and semiconductors manufacturer headquartered in Plan-les-Ouates near Geneva, Switzerland. The company resulted from the merger of two government-owned semiconductor companies in 1987: "Thomson Semiconducteurs" of France and "SGS Microelettronica" of Italy. It is commonly called "ST", and it is Europe's largest semiconductor chip maker based on revenue. While STMicroelectronics corporate headquarters and the headquarters for EMEA region are based in the Canton of Geneva, the holding company, STMicroelectronics N.V. is incorporated in the Netherlands.   Using Warning Note: Please check their parameters and pin configuration before replacing them in your circuit.   TDA7297 FAQ What is TDA7297? The TDA7297 is a 15-W dual-bridge amplifier specially designed for audio applications with two speakers. It has a wide supply voltage range of 6 V to 18 V, maximum output current of 2,000 mA, and maximum quiescent current of 65 mA when operating at 16.5 V.   Are TDA7296 and TDA7297 interchangeable? TDA7296 and TDA7297 are not interchangeable, although the package is the same, the internal structure is too different: Tda7296-70v-60w DMOS AUDIO AMPLIFIER WITH MUTE/ST-BY +35V/-35V, single circuit 60W AUDIO AMPLIFIER WITH MUTE/ standby function. Tda7297-15 +15W DUAL BRIDGE AMPLIFIER (BTL), operating voltage 6V~18V, also with mute and standby function.   What is a dual bridge amplifier? The IC is a dual bridge amplifier, meaning it requires both left and right audio input to provide a stereo output. The output is also split into channel 1 and channel 2 each capable of driving 15W speakers. The IC also comes in with a built-in mute function and stand-by function.   What is a bridge amplifier? Bridging an amplifier refers to the process of combining two of four channels into one or two channels with half the ohms. The technique has become very popular among many car owners because it allows amplifiers to send out a more powerful mono signal to the subwoofer or speakers.   How does a bridged amplifier work? To operate an amp in bridged mode, a single input signal enters the amplifier and is split into two identical signals. One has its polarity inverted. The original signal is sent to one channel of the amp and the inverted signal is sent to the other channel.