Skip to main content

LMR50410XFDBVR

Synchronous Buck Converter

The LMR50410XFDBVR is a synchronous buck converter from Texas Instruments. View the full LMR50410XFDBVR datasheet below including key specifications, pinout, electrical characteristics, absolute maximum ratings.

Manufacturer

Texas Instruments

Category

Synchronous Buck Converter

Package

SOT-23-6

Key Specifications

ParameterValue
PackagingMouseReel
Standard Pack Qty3000

Overview

Part: LMR50410 — Texas Instruments

Type: Synchronous Buck Converter

Description: The LMR50410 is a wide-VIN, easy-to-use synchronous buck converter capable of driving up to 1-A load current with an input range of 4 V to 36 V, operating at a 700-kHz fixed switching frequency.

Operating Conditions:

  • Supply voltage: 4–36 V
  • Operating temperature: -40 to 150 °C
  • Output voltage: 1–28 V
  • Output current: 0–1 A

Absolute Maximum Ratings:

  • Max supply voltage: 38 V
  • Max junction temperature: 150 °C
  • Max storage temperature: 150 °C

Key Specs:

  • Input voltage range: 4 V to 36 V
  • Continuous output current: 1 A
  • Switching frequency: 700 kHz (min 600 kHz, max 800 kHz)
  • Feedback voltage (VFB): 0.99 V to 1.01 V
  • High-side MOSFET ON-resistance (RDS-ON-HS): 450 mΩ (TJ=25°C, VIN=12V)
  • Low-side MOSFET ON-resistance (RDS-ON-LS): 240 mΩ (TJ=25°C, VIN=12V)
  • Operating quiescent current (non-switching): 80 μA (PFM variant only, VEN=3.3V, VFB=1.1V)
  • Minimum switch on-time: 60 ns (IOUT=1A)
  • Thermal shutdown threshold: 170 °C

Features:

  • Functional Safety-Capable
  • Integrated synchronous rectification
  • Internal compensation
  • Monotonic start-up with pre-biased output
  • Internal short circuit protection with hiccup mode
  • Precision enable
  • PFM and forced PWM (FPWM) options

Applications:

  • Major appliances
  • PLC, DCS, and PAC
  • Smart meters
  • General purpose wide VIN power supplies

Package:

  • SOT-23-6 (2.90 mm × 1.60 mm)

Features

  • Functional Safety-Capable
  • -Documentation available to aid functional safety system design
  • Configured for rugged industrial applications
  • -Input voltage range: 4 V to 36 V
  • -1-A continuous output current
  • -Minimum switching-on time: 60 ns
  • -700-kHz fixed switching frequency
  • -Junction temperature range: -40°C to 150°C
  • -98% maximum duty cycle
  • -Monotonic start-up with pre-biased output
  • -Internal short circuit protection with hiccup mode
  • -±1% tolerance voltage reference
  • -Precision enable
  • Small solution size and ease of use
  • -Integrated synchronous rectification
  • -Internal compensation for ease of use
  • -SOT-23-6 package
  • Pin-to-pin compatible with LMR14010Aand TPS560430
  • Various options in pin-to-pin compatible package -PFM and forced PWM (FPWM) options
  • Create a custom design using the LMR50410 with the WEBENCH ® Power Designer

Applications

Pin Configuration

LMR50410XFDBVR Pinout

Package: SOT-23-6

Pin NumberPin NameTypeDescription
1CBPBootstrap capacitor connection for high-side FET driver. Connect a high quality 100-nF capacitor from this pin to the SW pin.
2GNDGPower ground terminal, connected to the source of low-side FET internally. Connect to system ground, ground side of CIN and COUT. Path to CIN must be as short as possible.
3FBAFeedback input to the converter. Connect a resistor divider to set the output voltage. Never short this terminal to ground during operation.
4ENAPrecision enable input to the converter. Do not float. High = on, low = off. Can be tied to VIN. Precision enable input allows adjustable UVLO by external resistor divider.
5VINPSupply input terminal to internal bias LDO and high-side FET. Connect to input supply and input bypass capacitors CIN. Input bypass capacitors must be directly connected to this pin and GND.
6SWPSwitching output of the converter. Internally connected to source of the high-side FET and drain of the low-side FET. Connect to power inductor.

Notes

  • Type codes: P = Power, G = Ground, A = Analog
  • Pin numbers verified against the SOT-23-6 package diagram (top view)
  • All six pins are accounted for in this 6-pin package

Electrical Characteristics

Limits apply over operating junction temperature (T J ) range of -40°C to +150°C, unless otherwise stated. Minimum and Maximum limits (1) are specified through test, design or statistical correlation. Typical values represent the most likely parametric norm at TJ = 25°C, and are provided for reference purposes only. Unless otherwise stated, the following conditions apply: V IN = 4 V to 36 V.

PARAMETERPARAMETERTEST CONDITIONSMINTYPMAXUNIT
SUPPLY VOLTAGE (VIN PIN)SUPPLY VOLTAGE (VIN PIN)SUPPLY VOLTAGE (VIN PIN)SUPPLY VOLTAGE (VIN PIN)SUPPLY VOLTAGE (VIN PIN)SUPPLY VOLTAGE (VIN PIN)SUPPLY VOLTAGE (VIN PIN)
V IN_UVLOUndervoltage lockout thresholdsRising threshold3.553.754V
Falling threshold
Hysteresis		3.253.45
0.3		3.65V
V
I Q-nonSWOperating quiescent current (non- switching) (2)V EN = 3.3 V, VFB=1.1V (PFM variant only)80120μA
I SDShutdown quiescent current; measured at VIN pinV EN = 0 V310μA
ENABLE (EN PIN)ENABLE (EN PIN)ENABLE (EN PIN)ENABLE (EN PIN)ENABLE (EN PIN)ENABLE (EN PIN)ENABLE (EN PIN)
V EN-VOUT-HEnable input high-level for V OUTV ENABLE rising1.11.231.36V
V EN-VOUT-LEnable input low-level for V OUTV ENABLE falling0.951.11.22V
V EN-VOUT-HYSEnable input hysteresis for V OUTHysteresis130mV
I LKG-ENEnable input leakage currentV EN = 3.3V10200nA
VOLTAGE REFERENCE (FB PIN)VOLTAGE REFERENCE (FB PIN)VOLTAGE REFERENCE (FB PIN)VOLTAGE REFERENCE (FB PIN)VOLTAGE REFERENCE (FB PIN)VOLTAGE REFERENCE (FB PIN)VOLTAGE REFERENCE (FB PIN)
V FBFeedback voltage0.9911.01V
I LKG-FBFeedback leakage currentFB = 1.2 V0.2nA
CURRENT LIMITS AND HICCUPCURRENT LIMITS AND HICCUPCURRENT LIMITS AND HICCUPCURRENT LIMITS AND HICCUPCURRENT LIMITS AND HICCUPCURRENT LIMITS AND HICCUPCURRENT LIMITS AND HICCUP
I SCHigh-side current limit (3)Vin=12V1.251.61.9A
I LS-LIMITLow-side current limit (3)Vin=12V0.91.11.3A
I L-ZCZero cross detector thresholdPFM variants only0.02A
I L-NEGNegative current limit (3)FPWM variant only-0.6A
MOSFETSMOSFETSMOSFETSMOSFETSMOSFETSMOSFETSMOSFETS
R DS-ON-HSHigh-side MOSFET ON-resistanceT J =25 °C , V IN = 12 V450
R DS-ON-LSLow-side MOSFET ON-resistanceT J =25 °C , V IN = 12 V240
THERMAL SHUTDOWNTHERMAL SHUTDOWNTHERMAL SHUTDOWNTHERMAL SHUTDOWNTHERMAL SHUTDOWNTHERMAL SHUTDOWNTHERMAL SHUTDOWN
T SD-Rising (1)Thermal shutdownShutdown threshold170°C
T SD-Falling (1)Thermal shutdownRecovery threshold158°C

Absolute Maximum Ratings

Over junction temperature range of -40°C to 150°C (unless otherwise noted) (1)

MINMAXUNIT
Input voltageVIN to GND-0.338V
Input voltageEN to GND-0.3V IN +0.3V
Input voltageFB to GND-0.35.5V
SW to GND-0.3V IN +0.3V
SW to GND less than 10-ns transients-3.538V
CB to SW-0.35.5V
Junction Temperature T JJunction Temperature T J-40150°C
Storage temperature, T stgStorage temperature, T stg-65150°C

Recommended Operating Conditions

Over the recommended operating junction temperature range of -40 °C to 150°C (unless otherwise noted) (1)

MINMAXUNIT
Input voltageVIN to GND436V
Input voltageEN to GND (2)0VINV
Output voltageV OUT (3) (4)128V
Output currentI OUT01A

Thermal Information

The value of RθJA given in this table is only valid for comparison with other packages and cannot be used for design purposes. These values were calculated in accordance with JESD 51-7, and simulated on a 4-layer JEDEC board. They do not represent the performance obtained in an actual application. For example, with a 2-layer PCB, a R θJA = 80 °C /W can be achieved. For design information see Maximum Output Current versus Ambient Temperature.

THERMAL METRIC (1)THERMAL METRIC (1)LMR50410 DBV(SOT-23-6) 6 PINSUNIT
R θJAJunction-to-ambient thermal resistance173°C/W
R θJC(top)Junction-to-case (top) thermal resistance116°C/W
R θJBJunction-to-board thermal resistance31°C/W
ψ JTJunction-to-top characterization parameter20°C/W

The value of RθJA given in this table is only valid for comparison with other packages and cannot be used for design purposes. These values were calculated in accordance with JESD 51-7, and simulated on a 4-layer JEDEC board. They do not represent the performance obtained in an actual application. For example, with a 2-layer PCB, a R θJA = 80 °C /W can be achieved. For design information see Maximum Output Current versus Ambient Temperature.

(1)THERMAL METRICLMR50410 DBV(SOT-23-6) 6 PINSUNIT
ψ JBJunction-to-board characterization parameter30°C/W

Typical Application

The LMR50410 is a step-down DC-to-DC converter. It is typically used to convert a higher input voltage to a lower output DC voltage with a maximum output current of 1 A. The following design procedure can be used to select components for the LMR50410. Alternately, the WEBENCH® software can be used to generate complete designs. When generating a design, the WEBENCH® software utilizes iterative design procedure and accesses comprehensive databases of components. Go to ti.com for more details.

Ordering Information

MPNPackageTemperature RangePacking
LMR50410SOT-23-6-40°C to 150°Cnull
LMR50410XDBVRSOT-23-6-40°C to 150°Cnull
LMR50410XFDBVRSOT-23-6-40°C to 150°Cnull

Related Variants

The following components are covered by the same datasheet.

Part NumberManufacturerPackage
LMR50410Texas InstrumentsSOT-23-6
LMR50410-Q1Texas Instruments
LMR50410XDBVRTexas InstrumentsSOT-23-6
Data on this page is extracted from publicly available manufacturer datasheets using automated tools including AI. It may contain errors or omissions. Always verify specifications against the official manufacturer datasheet before making design or purchasing decisions. See our Terms of Service. Rights holders can submit a takedown request.

Get structured datasheet data via API

Get started free