• 24v to 12v stepdown 100w

    24v to 12v stepdown 100w

    24–30 V to 12 V / 100 W Single-Layer Synchronous Buck Converter with Robust Protection

    katzenbastler

    katzenbastler

    1 Star

  • TPS54331 Buck converter 3.3V

    TPS54331 Buck converter 3.3V

    This project appears to be a power supply circuit using the TPS54331 step-down (Buck) converter from Texas Instruments. The target output voltage is 3.3V. It also features electromagnetic interference (EMI) mitigation components such as an inductor, capacitors and a diode. An LED is included for indication purposes. #Buck #TPS54331 #project

    vasy_skral

    vasy_skral

    8 Comments

    1 Star

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    rmemon

    rmemon

    1 Star

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    michaelscote

    michaelscote

    1 Star

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    brinwin

    brinwin

    1 Star

  • Step-Down 3.6V-16V to 3.3V @ 4A (p1)

    Step-Down 3.6V-16V to 3.3V @ 4A (p1)

    3.6V-16V to 3.30V @ 4A TLVM13640 Reference design. ! EXPERIMENTAL ! Terminals: VIN: 3.6V - 16V VOUT: 3.3V @ 4A PGOOD with 10k pullup.

    arsini

    arsini

    1 Comment

  • Efficient Buck Step-down Converter 3A

    Efficient Buck Step-down Converter 3A

    Welcome to your new project. Imagine what you can build here.

    jharwinbarrozo

    jharwinbarrozo

    1 Comment

  • DC-DC step-down converter

    DC-DC step-down converter

    Welcome to your new project. Imagine what you can build here.

    ibrahimpetakhilesh

    ibrahimpetakhilesh

  • Step-Down 3.6V-16V to 3.3V @ 4A

    Step-Down 3.6V-16V to 3.3V @ 4A

    3.6V-16V to 3.30V @ 4A TLVM13640 Reference design. ! EXPERIMENTAL ! Terminals: VIN: 3.6V - 16V VOUT: 3.3V @ 4A PGOOD with 10k pullup.

    arsini

    arsini

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    nick-local

    nick-local

    42 Comments

  • Raspberry Pi 3B+ Hat 3DScan

    Raspberry Pi 3B+ Hat 3DScan

    Raspberry Pi 3 Model B+ Shield with 24V stepdown power

    instmeasure

    instmeasure

    &

    chouswei

    35 Comments

  • TPS5420D reference design mZUY

    TPS5420D reference design mZUY

    This TPS5420D reference design is a step-down voltage regulator providing a stable 5V output from a higher input voltage. It uses capacitors, an inductor, and a diode for filtering and protection, with an EN terminal for control. Ideal for applications needing a regulated 5V supply. #referenceDesign #project #stepDown #voltageRegulator #5V #TPS5420 #powermanagement #texas-instruments #template #reference-design

    ferlamas

    ferlamas

    21 Comments

  • TPS62040 Reference design

    TPS62040 Reference design

    This is a reference design of high efficiency synchronous step-down dc-dc converters optimized for battery powered portable applications. #power #dcdc #ti #buck #referenceDesign #powermanagement #texas-instruments #template #reference-design

    orlan1205

    orlan1205

    7 Comments

  • LTC3547 Reference Design

    LTC3547 Reference Design

    This project is a dual-output step-down voltage regulator based on the LTC3547 IC, designed to efficiently convert a higher input voltage to stable 2.5V and 1.8V output voltages. It is suitable for applications requiring regulated power supplies with multiple voltage levels. #LTC3547 #referenceDesign #project #stepDown #voltageRegulator #2.5V #1.8V #referenceDesign #powermanagement #analogdevices #template #reference-design #polygon

    vasy_skral

    vasy_skral

    6 Comments

  • TPS563201DDCR

    TPS563201DDCR

    Step-down type -40℃~+125℃@(TJ) 1 Step-down Adjustable 0.768V~7V 3A 4.5V~17V 580kHz SOT-23-6 DC-DC Converters ROHS #RegulatorSwitching #commonpartslibrary

    sujeto25

    sujeto25

    5 Comments

  • RT9511 Reference Design

    RT9511 Reference Design

    This project is a reference design for a Fully Integrated Battery Charger with Two Step-Down Converters the RT9511 IC. Key components include various capacitors, resistors, inductors, and two AO3401A transistors. This charger can be a valuable design baseline for portable and handheld devices needing battery management solutions. #Template #charger #referenceDesign #batterycharger #template #bms #monitor #RT9511 #richtek #reference-design #polygon

    vasy_skral

    vasy_skral

    4 Comments

  • LM2679 5V Module

    LM2679 5V Module

    This LM2679SX-ADJ reference design is a step-down voltage regulator providing a stable 5V output from a higher input voltage. Ideal for applications needing a regulated 5V supply. #referenceDesign #project #stepDown #voltageRegulator #5V #LM2679SX-ADJ #LM2679-ADJ #LM2679 #Module #subLayout #reusable #module #powermanagement #texas-instruments #sublayout

    mounika

    mounika

    3 Comments

  • MP2338 Reference Design

    MP2338 Reference Design

    This project involves designing a power supply circuit using the MP2338GTL step-down converter, featuring various resistors, inductors, and capacitors to regulate and filter the output voltage. #referenceDesign #powermanagement #template #reference-design #MP2338 #monolithicpower

    ozkanarslan

    ozkanarslan

    1 Comment

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    sdavis

    sdavis

    1 Comment

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    adinkelacker

    adinkelacker

    1 Comment

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    bokki

    bokki

    1 Comment

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    sheldonmw101

    sheldonmw101

    1 Comment

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    joshlabue

    joshlabue

    1 Comment

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    tozturk18

    tozturk18

    1 Comment

  • [Example] Simulation of Types of Transformers

    [Example] Simulation of Types of Transformers

    Two separate simulated circuits which demonstrate how step-up and step-down type transformers work.

    ianpoynter

    ianpoynter

    1 Comment