If you like Findchips… You will love Findchips PRO. Try it Now.

B260A-13-F

Rectifier Diode, Schottky, 1 Phase, 1 Element, 2A, 60V V(RRM), Silicon, GREEN, PLASTIC, SMA, 2 PIN

Choose Manufacturer
Price Range $0.0686 / $0.4709

Part Details

CAD Models Information

Model Data Powered by Samacsys
  • Part Symbol
  • Footprint
  • 3D Model
Available Download Formats
Altium Eagle OrCad PADS KiCad

Sign in to download this CAD model.

Register or Sign In

By downloading CAD models from Samacsys, you agree to our Terms & Conditions and Privacy Policy

Distributors with Stock

Part Number Description Manufacturer Compare
B260A Diodes Rectifier Diode, Schottky, 1 Phase, 1 Element, 2A, 60V V(RRM), Silicon, SMA, 2 PIN Lite-On Semiconductor Corporation B260A-13-F vs B260A
SS26-LTP Diodes 2A, 60V, SILICON, RECTIFIER DIODE, DO-214AC, ROHS COMPLIANT, PLASTIC, SMA, 2 PIN Micro Commercial Components B260A-13-F vs SS26-LTP
Part Number Description Manufacturer Compare
MBRS260T3 Diodes Schottky Power Rectifier, Surface Mount, 2.0 A, 60 V, SMB Package, SMB, 2500-REEL ON Semiconductor B260A-13-F vs MBRS260T3
SS26-E3/52T Diodes DIODE 2 A, 60 V, SILICON, RECTIFIER DIODE, DO-214AA, ROHS COMPLIANT, PLASTIC, SMB, 2 PIN, Rectifier Diode Vishay Semiconductors B260A-13-F vs SS26-E3/52T
B260A Diodes Rectifier Diode, Schottky, 1 Phase, 1 Element, 2A, 60V V(RRM), Silicon, SMA, 2 PIN Lite-On Semiconductor Corporation B260A-13-F vs B260A
B260-13-F Diodes Rectifier Diode, Schottky, 1 Phase, 1 Element, 2A, 60V V(RRM), Silicon, GREEN, PLASTIC, SMB, 2 PIN Diodes Incorporated B260A-13-F vs B260-13-F
SS26-E3/5BT Diodes DIODE 2 A, 60 V, SILICON, RECTIFIER DIODE, DO-214AA, ROHS COMPLIANT, PLASTIC, SMB, 2 PIN, Rectifier Diode Vishay Semiconductors B260A-13-F vs SS26-E3/5BT
SS26T3G Diodes 60 V, 2.0 A Schottky Rectifier, SMB, 2500-REEL ON Semiconductor B260A-13-F vs SS26T3G
MBRS260T3G Diodes Schottky Power Rectifier, Surface Mount, 2.0 A, 60 V, SMB Package, SMB, 2500-REEL ON Semiconductor B260A-13-F vs MBRS260T3G
SS26HE3/5BT Diodes DIODE 2 A, 60 V, SILICON, RECTIFIER DIODE, DO-214AA, ROHS COMPLIANT, PLASTIC, SMB, 2 PIN, Rectifier Diode Vishay Semiconductors B260A-13-F vs SS26HE3/5BT
SS26-TP Diodes Rectifier Diode, Schottky, 1 Phase, 1 Element, 2A, 60V V(RRM), Silicon, DO-214AC, ROHS COMPLIANT, PLASTIC, SMA, 2 PIN Micro Commercial Components B260A-13-F vs SS26-TP

Global Popularity

Popularity in Diodes

Popularity in Rectifier Diodes

Popularity by Region

Very High

Medium

Good

Low

  • 1. China
    100
  • 2. United States of America
    97
  • 3. South Korea
    87
  • 4. HKG
    86
  • 5. India
    86
  • 6. United Kingdom
    83
  • 7. Taiwan
    82
  • 8. Belgium
    82
  • 9. Austria
    79
  • 10. Lithuania
    79

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available
  • 1. Avnet $0.0686 Buy Now
  • 2. Allied Electronics & Automation $0.1400 Buy Now
  • 3. Newark element14 $0.4330 Buy Now
  • 4. element14 Asia-Pacific $0.4709 Buy Now
  • 5. element14 Asia-Pacific $0.4709 Buy Now

Datasheets & Reference Designs

B260A-13-F

Diodes Incorporated

Also for: B250A-13-F, B240A-13-F, B250-13-F and 9 others.
  • B220-13-F,
  • B250,
  • B230-13-F,
  • B240,
  • B230A-13-F,
  • B240-13-F,
  • B220,
  • B220A-13-F,
  • B260A-13-F

Reference Designs

  • Dual Rail (+/-) Ultra-Low Noise High PSRR, LDOs (-15V @ 200mA) Reference Design
    PMP5863.4: The negative-voltage TPS7A3001 LDO, when paired with the positivevoltage TPS7A4901 LDO, provides designers with a total solution for powering precision analog applications. These LDOs feature ultra-high PSRR performance with output noise as low as 16 µVrms and are designed to power noise-sensitive applications such as op amps, ADCs, DACs and other high-performance analog circuitry.
  • Dual Rail (+/-) Ultra-Low Noise High PSRR LDOs (-16V @ 300mA) Reference Design
    PMP5863.2: The negative-voltage TPS7A3001 LDO, when paired with the positivevoltage TPS7A4901 LDO, provides designers with a total solution for powering precision analog applications. These LDOs feature ultra-high PSRR performance with output noise as low as 16 µVrms and are designed to power noise-sensitive applications such as op amps, ADCs, DACs and other high-performance analog circuitry.
  • Dual Rail (+/-) Ultra-Low Noise High PSRR LDOs (16V @ 150mA) Reference Design
    PMP5863.1: The negative-voltage TPS7A3001 LDO, when paired with the positivevoltage TPS7A4901 LDO, provides designers with a total solution for powering precision analog applications. These LDOs feature ultra-high PSRR performance with output noise as low as 16 µVrms and are designed to power noise-sensitive applications such as op amps, ADCs, DACs and other high-performance analog circuitry.
  • Dual Rail (+/-) Ultra-Low Noise High PSRR, LDOs (-15V @ 200mA) Reference Design - PMP5863.4 - TI Tool Folder
    PMP5863: The negative-voltage TPS7A3001 LDO, when paired with the positivevoltage TPS7A4901 LDO, provides designers with a total solution for powering precision analog applications. These LDOs feature ultra-high PSRR performance with output noise as low as 16 µVrms and are designed to power noise-sensitive applications such as op amps, ADCs, DACs and other high-performance analog circuitry.
  • Isolated IGBT Gate-Drive Push-Pull Power Supply with 4 Outputs
    TIDA-00181: This reference design provides isolated positive and negative voltage rails required for Insulated Gate Bipolar Transistor (IGBT) gate drivers from a single 24-volt DC input supply. IGBTs are used in three phase inverters for variable-frequency drives to control the speed of AC motors. This reference design uses a push-pull isolated control topology and provides isolation compliant to IEC61800-5 and is intended to operate from a pre-regulated 24Vdc input. With a regulated (within 5%) input source, a simple open-loop, free-running oscillator can be implemented with a push-pull PWM controller. This topology is essentially a forward converter with two primary windings used to create a dual-drive winding. This fully utilizes the transformer core's magnetizing current more efficiently than flyback or the forward topologies. Another advantage this configuration has over flyback and forward configurations is that the supply output can be scaled up for higher power drives. This reference design also takes advantage of another benefit of the push pull topology in that multiple transformers can be controlled in parallel from a single controller to generate all the isolated voltage rails required for 3-phase IGBT inverters. Lastly, larger IGBTs for higher power drives sometimes require more gate drive current than what is provided by a typical IGBT gate driver, for which designers often use additional transistors for gate current boosting. This reference design provides +16V on the positive outputs and -8V on the negative outputs to compensate for the added voltage drop in those transistors.
  • Reinforced Isolated IGBT Gate Drive Flyback Power Supply with 8 Outputs Reference Design
    TIDA-00182: This reference design provides reinforced isolated positive and negative voltage rails required for Insulated Gate Bipolar Transistor (IGBT) gate drivers from a single 24-volt DC input supply. Utilizing a flyback isolated control topology, this reference design provides isolation compliant to IEC61800-5, and generates power rails for all three arms of the 3-phase inverter from a single transformer. The output power is currently set at 2W/IGBT but can be scaled up for higher power IGBTs by changing the transformer design.
  • Dual Rail (+/-) Ultra-Low Noise High PSRR LDOs (15V @ 150mA) Reference Design
    PMP5863.3: The negative-voltage TPS7A3001 LDO, when paired with the positivevoltage TPS7A4901 LDO, provides designers with a total solution for powering precision analog applications. These LDOs feature ultra-high PSRR performance with output noise as low as 16 µVrms and are designed to power noise-sensitive applications such as op amps, ADCs, DACs and other high-performance analog circuitry.
  • Phase Compensated 8-Ch Multiplexed Data Acquisition System for Power Automation Reference Design
    TIPD167: This TI Verified Design provides the theory, component selection, TINA-TI simulations, Verification & Measurement Performance, Altium Schematics, PCB Layout for a Phase Compensated 8-Ch Multiplexed Data Acquisition System for Power Automation. The design uses a 16-bit, 8-Channel, 500ksps SAR ADC, ADS8688 with integrated analog front-end circuit for ease of system hardware design. The design introduces the concept of phase and phase Compensation, compares the additional phase delay introduced between the input channels of a non-simultaneous sampling ADC with a simultaneous sampling ADC, and provides a optimal algorithm to compensate for the phase delay introduced in a non-simultaneous implementation. Measured results demonstrate how the phase compensation algorithm used in this design compensates for the additional phase delay introduced by a multiplexed ADC, resulting in an equivalent performing solution as compared to a simultaneous sampling ADC solution.

Related Parts

Add to list:
Create New List

Confirm BOM Data

! Unable to save document.
Please try again.

!

Part Number ( parts) Qty CPN Designator Partent PN

BOM Options

Preferred distributors for this list (10)

Select preferred distributors

!  

Working...

Your FindChips PRO license has expired.

Please update your account details for future billings.

Update Account Details → or Request Extension →
You have a Findchips Basic account.

Your account has reached its list limit (3 Lists). To create a new list, an existing list must be removed.

Upgrade to Findchips Pro to increase your List count to 200

Upgrade to FindChips PRO →