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TPS54560EVM-515

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Texas Instruments

TPS54560 DC TO DC CONVERTER AND SWITCHING REGULATOR CHIP 5V OUTPUT EVALUATION BOARD

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Development Boards, Kits, Programmers

TPS54560EVM-515

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Texas Instruments

TPS54560 DC TO DC CONVERTER AND SWITCHING REGULATOR CHIP 5V OUTPUT EVALUATION BOARD

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Specifications Series Pricing Description Documents

Technical Specifications

Parameters and characteristics for this part

Specification	TPS54560EVM-515

Board Type	Fully Populated
Current - Output	5 A
Frequency - Switching	400 kHz
Main Purpose	DC/DC, Step Down
Outputs and Type	Non-Isolated
Outputs and Type	1
Regulator Topology	Buck
Supplied Contents	Board(s)
Voltage - Input [Max]	60 V
Voltage - Input [Min]	7 V
Voltage - Output	5 V

TPS54560B-Q1 Series

Automotive 60V, 5A, Step-Down Regulator With Integrated High Side MOSFET

Part	Qualification	Supplier Device Package	Output Type	Package / Case [y]	Package / Case [x]	Package / Case	Voltage - Input (Max) [Max]	Function	Number of Outputs	Frequency - Switching [Max]	Frequency - Switching [Min]	Voltage - Input (Min) [Min]	Grade	Operating Temperature [Max]	Operating Temperature [Min]	Current - Output	Topology	Voltage - Output (Max) [Max]	Output Configuration	Mounting Type	Voltage - Output (Min/Fixed)	Frequency - Switching	Main Purpose	Regulator Topology	Outputs and Type	Outputs and Type	Voltage - Output	Board Type	Voltage - Input [Max]	Voltage - Input [Min]	Supplied Contents
Texas Instruments TPS54560QDDARQ1	AEC-Q100	8-SO PowerPad	Adjustable	3.9 mm	0.154 in	8-PowerSOIC	60 V	Step-Down	1	2.5 MHz	100 kHz	4.5 V	Automotive	150 °C	-40 °C	5 A	Buck Split Rail	58.8 V	Positive	Surface Mount	0.8 V
Texas Instruments TPS54560DDA		8-SO PowerPad	Adjustable	3.9 mm	0.154 in	8-PowerSOIC	60 V	Step-Down	1	2.5 MHz	100 kHz	4.5 V		150 °C	-40 °C	5 A	Buck Split Rail	58.8 V	Positive	Surface Mount	0.8 V
Texas Instruments TPS54560DDAR		8-SO PowerPad	Adjustable	3.9 mm	0.154 in	8-PowerSOIC	60 V	Step-Down	1	2.5 MHz	100 kHz	4.5 V		150 °C	-40 °C	5 A	Buck Split Rail	58.8 V	Positive	Surface Mount	0.8 V
Texas Instruments TPS54560BDDAR		8-SO PowerPad	Adjustable	3.9 mm	0.154 in	8-PowerSOIC	60 V	Step-Down	1			4.5 V		150 °C	-40 °C	5 A	Buck Split Rail	58.8 V	Positive	Surface Mount	0.8 V	500 kHz
Texas Instruments TPS54560BQDDARQ1	AEC-Q100	8-SO PowerPad	Adjustable	3.9 mm	0.154 in	8-PowerSOIC	60 V	Step-Down	1	2.5 MHz	100 kHz	4.5 V	Automotive	150 °C	-40 °C	5 A	Buck Split Rail	58.8 V	Positive	Surface Mount	0.8 V
Texas Instruments TPS54560QDDAQ1	AEC-Q100	8-SO PowerPad	Adjustable	3.9 mm	0.154 in	8-PowerSOIC	60 V	Step-Down	1	2.5 MHz	100 kHz	4.5 V	Automotive	150 °C	-40 °C	5 A	Buck Split Rail	58.8 V	Positive	Surface Mount	0.8 V
Texas Instruments TPS54560BQDDAQ1	AEC-Q100	8-SO PowerPad	Adjustable	3.9 mm	0.154 in	8-PowerSOIC	60 V	Step-Down	1	2.5 MHz	100 kHz	4.5 V	Automotive	150 °C	-40 °C	5 A	Buck Split Rail	58.8 V	Positive	Surface Mount	0.8 V
Texas Instruments TPS54560EVM-515																5 A						400 kHz	DC/DC Step Down	Buck	Non-Isolated	1	5 V	Fully Populated	60 V	7 V	Board(s)

Pricing

Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly

Distributor	Package	Quantity	$

Digikey	Bulk	1	$ 58.80

Description

General part information

TPS54560B-Q1 Series

The TPS54560-Q1 is a 60-V, 5-A, step-down regulator with an integrated high side MOSFET. The device survives load dump pulses up to 65 V per ISO 7637. Current mode control provides simple external compensation and flexible component selection. A low-ripple, pulse-skip mode reduces the no load supply current to 146 µA. Shutdown supply current is reduced to 2 µA when the enable pin is pulled low.

Undervoltage lockout is internally set at 4.3 V but can be increased using an external resistor divider at the enable pin. The output voltage start-up ramp is internally controlled to provide a controlled start-up and eliminate overshoot.

A wide adjustable frequency range allows either efficiency or external component size to be optimized. Output current is limited cycle-by-cycle. Frequency foldback and thermal shutdown protects internal and external components during an overload condition.

Documents

Technical documentation and resources