Specification	BD95602MUV-LBE2

Frequency - Switching [Max]	500 kHz
Frequency - Switching [Min]	150 kHz
Mounting Type	Surface Mount
Number of Outputs	4
Operating Temperature [Max]	85 °C
Operating Temperature [Min]	-20 ░C
Package / Case	32-VFQFN Exposed Pad
Supplier Device Package	VQFN032V5050
Topology	Step-Down (Buck) Synchronous (2), Linear (LDO) (2)
Voltage - Supply [Max]	28 V
Voltage - Supply [Min]	5.5 V
Voltage/Current - Output 1 [Max]	5.5 V
Voltage/Current - Output 1 [Min]	1 V
Voltage/Current - Output 2 [Max]	5.5 V
Voltage/Current - Output 2 [Min]	1 V
Voltage/Current - Output 3	50 mA, 3.3 V
w/LED Driver	False
w/Sequencer	False
w/Supervisor	False

BD95602 Series

Part	Mounting Type	Voltage/Current - Output 2 [Min]	Voltage/Current - Output 2 [Max]	w/Supervisor	Voltage/Current - Output 1 [Max]	Voltage/Current - Output 1 [Min]	Voltage/Current - Output 3	w/LED Driver	Supplier Device Package	Number of Outputs	Voltage - Supply [Min]	Voltage - Supply [Max]	Package / Case	Frequency - Switching [Max]	Frequency - Switching [Min]	w/Sequencer	Operating Temperature [Max]	Operating Temperature [Min]	Topology
Rohm Semiconductor BD95602MUV-E2	Surface Mount	1 V	5.5 V		5.5 V	1 V	3.3 V 50 mA		VQFN032V5050	4	5.5 V	28 V	32-VFQFN Exposed Pad	500 kHz	150 kHz		85 °C	-20 ░C	Linear (LDO) (2) Step-Down (Buck) Synchronous (2)
Rohm Semiconductor BD95602MUV-LBE2	Surface Mount	1 V	5.5 V		5.5 V	1 V	3.3 V 50 mA		VQFN032V5050	4	5.5 V	28 V	32-VFQFN Exposed Pad	500 kHz	150 kHz		85 °C	-20 ░C	Linear (LDO) (2) Step-Down (Buck) Synchronous (2)

Pricing

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

Distributor	Package	Quantity	$

Digikey	Cut Tape (CT)	1	$ 6.98
		10	$ 4.75
		25	$ 4.17
		100	$ 3.52
		250	$ 3.21
		500	$ 3.01
		1000	$ 2.85
	Digi-Reel®	1	$ 6.98
		10	$ 4.75
		25	$ 4.17
		100	$ 3.52
		250	$ 3.21
		500	$ 3.01
		1000	$ 2.85
	N/A	2390	$ 5.22
	Tape & Reel (TR)	2500	$ 2.69
Newark	Each (Supplied on Cut Tape)	1	$ 7.00
		10	$ 4.04
		25	$ 3.81
		50	$ 3.57
		100	$ 3.34
		300	$ 3.00
		500	$ 2.80

Description

General part information

BD95602 Series

This is the product guarantees long time support in Industrial market. BD95602MUV-LB is a dual buck regulator controller with adjustable output voltage from 1.0V to 5.5V and an input voltage range of 5.5 to 28V. High efficiency is achieved with an external synchronous Nch-MOSFET. H3Reg™, ROHM's advanced proprietary control method that uses constant on-time control to provide ultra high transient responses to load changes is used. SLLM(Simple Light Load Mode) technology is added to improve efficiency with light loads giving high efficiency over a wide load range. In addition to the dual buck regulator controllers, here are 2 LDO regulators included that are fixed output voltage of 3.3V and 5.0V. Other functions included are soft start, variable frequency, short circuit protection with timer latch, over voltage, and power good outputs. This buck regulator is optimal for high-current applications.Power Supply Reference BoardFor Xilinx’s FPGA Spartan-7

Documents

Technical documentation and resources

VQFN032V5050 Taping Spec

Datasheet

BD95602MUV-LBE2

Deep-Dive with AI

BD95602MUV-LBE2

Deep-Dive with AI

Technical Specifications

BD95602 Series

Pricing

Description

BD95602 Series

Documents

VQFN032V5050 Taping Spec

BD95602MUV-LBE2 Flammability

Method for Calculating Junction Temperature from Transient Thermal Resistance Data

Considerations for Power Inductors Used for Buck Converters

Considering Polarity of Power Inductor to Reduce Radiated Emission of DC-DC converter

Factory Information

BD95602MUV-LB Data Sheet

Diode Selection Method for Asynchronous Converter

Solder Joint Rate and Thermal Resistance of Exposed Pad

Three Steps for Successful Design of DC-DC Converters

Calculation of Power Dissipation in Switching Circuit

Capacitor Calculation for Buck converter IC

Judgment Criteria of Thermal Evaluation

θ<sub>JC</sub> and Ψ<sub>JT</sub>

Phase Compensation Design for Current Mode Buck Converter

PCB Layout Essential Check sheet for Switching Regulator

The Important Points of Multi-layer Ceramic Capacitor Used in Buck Converter circuit

Resistor Value Table to set Output Voltage of Buck Converter IC

Suppression Method of Switching Noise Using Linear Regulator and Low Pass Filter

Method for Determining Constants of Peripheral Parts of Buck DC/DC Converter

Precautions for PCB Layout Regarding Common Mode Filters

Measurement Method for Phase Margin with Frequency Response Analyzer (FRA)

Impedance Characteristics of Bypass Capacitor

PCB Layout Techniques of Buck Converter

Efficiency of Buck Converter

Thermal Resistance

Anti-Whisker formation

How to Use the Thermal Resistance and Thermal Characteristics Parameters

Inductor Calculation for Buck converter IC

Overview of ROHM's Simulation Models(for ICs and Discrete Semiconductors)

Five Steps for Successful Thermal Design of IC

θ<sub>JA</sub> and Ψ<sub>JT</sub>

How to Use the Two-Resistor Model

PCB Layout Thermal Design Guide

What Is Thermal Design

Basics of Thermal Resistance and Heat Dissipation

Step-down DC-DC converter PCB layout EMC Design guide

Precautions When Measuring the Rear of the Package with a Thermocouple

Heat Dissipation Effect of Thermal Via in Exposed Pad Type Package

Calculation of Power Loss (Synchronous)

Considering Input Filter to Reduce Conducted Emissions by DCDC Converter

Cutting-Edge Web Simulation Tool "ROHM Solution Simulator" Capable of Complete Circuit Verification of Power Devices and Driver ICs

Types of Capacitors Used for Output Smoothing of Switching Regulators and their Precautions

Design Guide and Example of Stencil for Exposed Pad

Two-Resistor Model for Thermal Simulation

Power Supply Sequence Circuit with General Purpose Power Supply IC

Compliance with the ELV directive

Snubber Circuit for Buck Converter IC

BD95602 Series