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TPS54561QDPRRQ1

Automotive 4.5V to 60V Input 5A Step-Down DC-DC Converter With Soft-Start and Eco-mode™ 10-WSON -40 to 125

Manufacturer Texas Instruments
Price Range $3.5716 / $4.3940

Part Details

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Distributors with Stock

Total Inventory

13,989

Part Number Description Manufacturer Compare
LMR14050SQDPRTQ1 Power Circuits SIMPLE SWITCHER® Automotive 40V, 5A, 2.2MHz Step-Down Converter with 40uA IQ 10-WSON -40 to 125 Texas Instruments TPS54561QDPRRQ1 vs LMR14050SQDPRTQ1
LMR14050SSQDDAQ1 Power Circuits SIMPLE SWITCHER® Automotive 40V, 5A, 2.2MHz Step-Down Converter with 40uA IQ 8-SO PowerPAD -40 to 125 Texas Instruments TPS54561QDPRRQ1 vs LMR14050SSQDDAQ1
TPS54540DDAR Power Circuits 42 V, 5 A, Step-Down DC-DC Converter with Eco-Mode 8-SO PowerPAD -40 to 125 Texas Instruments TPS54561QDPRRQ1 vs TPS54540DDAR
TPS54541DPRR Power Circuits 4.5V to 42V Input 5A Step-Down DC-DC Converter With Soft-Start and Eco-mode™ 10-WSON -40 to 85 Texas Instruments TPS54561QDPRRQ1 vs TPS54541DPRR
TPS54540QDDARQ1 Power Circuits 42V, 5A, Step-Down Regulator with Integrated High Side MOSFET 8-SO PowerPAD -40 to 125 Texas Instruments TPS54561QDPRRQ1 vs TPS54540QDDARQ1
LMR14050QDPRTQ1 Power Circuits SIMPLE SWITCHER® Automotive 40V, 5A, 2.2MHz Step-Down Converter with 40uA IQ 10-WSON -40 to 125 Texas Instruments TPS54561QDPRRQ1 vs LMR14050QDPRTQ1
TPS54540QDDAQ1 Power Circuits 42V, 5A, Step-Down Regulator with Integrated High Side MOSFET 8-SO PowerPAD -40 to 125 Texas Instruments TPS54561QDPRRQ1 vs TPS54540QDDAQ1
TPS54560QDDAQ1 Power Circuits Automotive 60V, 5A, Step-Down Regulator With Integrated High Side MOSFET 8-SO PowerPAD -40 to 125 Texas Instruments TPS54561QDPRRQ1 vs TPS54560QDDAQ1
TPS54540DDA Power Circuits 42 V, 5 A, Step-Down DC-DC Converter with Eco-Mode 8-SO PowerPAD 0 to 0 Texas Instruments TPS54561QDPRRQ1 vs TPS54540DDA
TPS54561DPRR Power Circuits 4.5V to 60V Input 5A Step-Down DC-DC Converter With Soft-Start and Eco-mode™ 10-WSON -40 to 125 Texas Instruments TPS54561QDPRRQ1 vs TPS54561DPRR

Global Popularity

Popularity in Power Circuits

Popularity in Switching Regulator or Controllers

Popularity by Region

Very High

Medium

Good

Low

  • 1. China
    100
  • 2. Sweden
    95
  • 3. United States
    88
  • 4. India
    84
  • 5. Austria
    82
  • 6. Jamaica
    81
  • 7. United Kingdom
    80
  • 8. Mauritania
    78
  • 9. Cayman Islands
    77
  • 10. Morocco
    77

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available
  • 1. Rochester Electronics $3.5716 Buy Now
  • 2. Texas Instruments $4.3940 Buy Now

Datasheets & Reference Designs

Reference Designs

  • PMP4442-3 Automotive I.MX6 Quad Core Processor Power Solution Reference Design | TI.com
    PMP4442-3: This design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support start-stop system as well as load dump. The second stage DCDC provides all the necessary power rails to power up I.MX6 quad core. I.MX6 is very loose on the power sequencing of the different rails so no sequencer is necessary for this design. It uses a 4 layer board with 2oz copper to have better thermal characteristic at 2MHz switching frequency and 85C ambient.
  • Automotive I.MX6 Quad Core Processor Power Solution Reference Design
    PMP4442-4: This design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support start-stop system as well as load dump. The second stage DCDC provides all the necessary power rails to power up I.MX6 quad core. I.MX6 is very loose on the power sequencing of the different rails so no sequencer is necessary for this design. It uses a 4 layer board with 2oz copper to have better thermal characteristic at 2MHz switching frequency and 85C ambient.
  • Automotive I.MX6 Quad Core Processor Power Solution Reference Design
    PMP4442-5: This design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support start-stop system as well as load dump. The second stage DCDC provides all the necessary power rails to power up I.MX6 quad core. I.MX6 is very loose on the power sequencing of the different rails so no sequencer is necessary for this design. It uses a 4 layer board with 2oz copper to have better thermal characteristic at 2MHz switching frequency and 85C ambient.
  • Automotive I.MX6 Quad Core Processor Power Solution Reference Design
    PMP4442-2: This design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support start-stop system as well as load dump. The second stage DCDC provides all the necessary power rails to power up I.MX6 quad core. I.MX6 is very loose on the power sequencing of the different rails so no sequencer is necessary for this design. It uses a 4 layer board with 2oz copper to have better thermal characteristic at 2MHz switching frequency and 85C ambient.
  • PMP4442-1 Automotive I.MX6 Quad Core Processor Power Solution Reference Design | TI.com
    PMP4442-1: This design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support start-stop system as well as load dump. The second stage DCDC provides all the necessary power rails to power up I.MX6 quad core. I.MX6 is very loose on the power sequencing of the different rails so no sequencer is necessary for this design. It uses a 4 layer board with 2oz copper to have better thermal characteristic at 2MHz switching frequency and 85C ambient.
  • PMP4442-5 Automotive I.MX6 Quad Core Processor Power Solution Reference Design | TI.com
    PMP4442-5: This design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support start-stop system as well as load dump. The second stage DCDC provides all the necessary power rails to power up I.MX6 quad core. I.MX6 is very loose on the power sequencing of the different rails so no sequencer is necessary for this design. It uses a 4 layer board with 2oz copper to have better thermal characteristic at 2MHz switching frequency and 85C ambient.
  • PMP4442-4 Automotive I.MX6 Quad Core Processor Power Solution Reference Design | TI.com
    PMP4442-4: This design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support start-stop system as well as load dump. The second stage DCDC provides all the necessary power rails to power up I.MX6 quad core. I.MX6 is very loose on the power sequencing of the different rails so no sequencer is necessary for this design. It uses a 4 layer board with 2oz copper to have better thermal characteristic at 2MHz switching frequency and 85C ambient.
  • Automotive I.MX6 Quad Core Processor Power Solution Reference Design
    PMP4442-3: This design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support start-stop system as well as load dump. The second stage DCDC provides all the necessary power rails to power up I.MX6 quad core. I.MX6 is very loose on the power sequencing of the different rails so no sequencer is necessary for this design. It uses a 4 layer board with 2oz copper to have better thermal characteristic at 2MHz switching frequency and 85C ambient.
  • TIDA-00804 Automotive i.MX6 Quad Core Processor Power Reference Design | TI.com
    TIDA-00804: The TIDA-00804 reference design is a low-cost discrete power solution for the i.MX6Q quad core application processor. All the DCDC regulators operate at frequencies above the AM radio broadcast band to avoid interference with the radio and to provide a small solution size due to smaller filter components. The first stage DC-DC converter can support a voltage input range of 6V to 42V, allowing the design to support start-stop operation as well as load dump. The second stage DC-DC converters provide all the necessary power rails to power the i.MX6Q. No power sequencer is necessary for this design. The PWB is a 4 layer board with 2 oz. copper to provide good power dissipation at 85 C ambient.
  • PMP4442-2 Automotive I.MX6 Quad Core Processor Power Solution Reference Design | TI.com
    PMP4442-2: This design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support start-stop system as well as load dump. The second stage DCDC provides all the necessary power rails to power up I.MX6 quad core. I.MX6 is very loose on the power sequencing of the different rails so no sequencer is necessary for this design. It uses a 4 layer board with 2oz copper to have better thermal characteristic at 2MHz switching frequency and 85C ambient.
  • Automotive I.MX6 Quad Core Processor Power Solution Reference Design
    PMP4442-1: This design is an low-cost discrete power solution to power I.MX6 quad core. All the DCDC regulators are running at 2MHz to avoid the AM band interference and provide low solution size. The first stage DCDC converter can support wide Vin range from 6V to 42V, which can support start-stop system as well as load dump. The second stage DCDC provides all the necessary power rails to power up I.MX6 quad core. I.MX6 is very loose on the power sequencing of the different rails so no sequencer is necessary for this design. It uses a 4 layer board with 2oz copper to have better thermal characteristic at 2MHz switching frequency and 85C ambient.

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