DRV8874 H-Bridge Motor Driver

Texas Instruments Power_Management — specifications, applications, sourcing support and RFQ.

DRV8874 H-Bridge Motor Driver

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Part Number
DRV8874
Manufacturer
Texas Instruments
Package
HTSSOP (PWP), 16-pin with exposed thermal pad, 5.00 mm x 4.40 mm body
Category
Power Management
Product Type
LDO Regulator

Quick Sourcing Note

The DRV8874 from Texas Instruments is a Power_Management H-Bridge motor driver supplied in an HTSSOP (PWP) 16-pin package with exposed thermal pad and 5.00 mm x 4.40 mm body. It integrates an N-channel H-bridge for brushed DC motors and inductive or resistive loads. Key operating parameters include a 4.5 to 37 V VM supply range, 6 A peak output current, 200 mΩ total MOSFET on-resistance, and less than 1 µA sleep current at VM=24 V and TJ=25°C. It supports 1.8 V, 3.3 V, and 5 V logic inputs, PWM operation from 0 to 100 kHz, selectable PH/EN, PWM H-bridge, or independent half-bridge control, and cycle-by-cycle or fixed off-time current regulation.

Specifications

TypeDescription
Part NumberDRV8874
ManufacturerTexas Instruments
Product TypeLDO Regulator
CategoryPower Management
Package / CaseHTSSOP (PWP), 16-pin with exposed thermal pad, 5.00 mm x 4.40 mm body
Operating supply voltage range4.5 to 37 V; VM power supply input
Driver topologyN-channel H-bridge motor driver; integrated motor driver for brushed DC motors and inductive/resistive loads
Peak output current6 A; DRV8874, OUT1/OUT2; thermal limits must be observed
Total MOSFET on-resistance200 mΩ; high-side plus low-side RDS(on), DRV8874 variant
Sleep mode current<1 µA; VM=24 V, TJ=25°C
Logic input support1.8 V, 3.3 V, and 5 V logic inputs; control inputs
PWM frequency0 to 100 kHz; EN/IN1 and PH/IN2 recommended operating condition
Current regulation modesCycle-by-cycle or fixed off-time; selectable using IMODE
Control modesPH/EN, PWM H-bridge, independent half-bridge; selectable using PMODE
Absolute maximum VM voltage-0.3 to 40 V; power supply pin voltage
Absolute maximum ground pin voltage difference-0.3 to 0.3 V; between GND and PGND
Absolute maximum logic pin voltage-0.3 to 5.75 V; EN/IN1, IMODE, nSLEEP, PH/IN2, PMODE
Absolute maximum nFAULT voltage-0.3 to 5.75 V; open-drain output pin
Absolute maximum output pin voltage-0.9 V to VM+0.9 V; OUT1 and OUT2
Absolute maximum IPROPI voltage-0.3 to 5.75 V or -0.3 V to VM+0.3 V; proportional current output pin voltage limits
Absolute maximum VREF voltage-0.3 to 5.75 V; reference input pin voltage
Ambient temperature range-40 to 125 °C; absolute maximum and recommended operating condition, TA
Junction temperature range-40 to 150 °C; absolute maximum and recommended operating condition, TJ
Storage temperature range-65 to 150 °C; Tstg
ESD rating, HBM±2000 V; per ANSI/ESDA/JEDEC JS-001
ESD rating, CDM±500 V; per JEDEC JESD22-C101
Recommended logic input voltage0 to 5.5 V; EN/IN1, MODE, nSLEEP, PH/IN2
nFAULT pullup voltage0 to 5.5 V; open-drain pullup voltage
nFAULT output current0 to 5 mA; open-drain output current
IPROPI output current0 to 3 mA; current sense output current
VREF current limit reference voltage0 to 3.6 V; recommended operating condition
Junction-to-ambient thermal resistance36.0 °C/W; PWP HTSSOP 16-pin package
Junction-to-case top thermal resistance27.3 °C/W; PWP HTSSOP 16-pin package
Junction-to-board thermal resistance11.1 °C/W; PWP HTSSOP 16-pin package
Junction-to-case bottom thermal resistance2.7 °C/W; PWP HTSSOP 16-pin package
VM sleep mode current0.75 typ, 1 max µA; VM=24 V, nSLEEP=0 V, TJ=25°C
VM sleep mode current5 max µA; nSLEEP=0 V
VM active mode current3 typ, 7 max mA; VM=24 V, nSLEEP=5 V, EN/IN1=PH/IN2=0 V
Turn-on time1 ms; VM > VUVLO, nSLEEP=5 V to active
Turn-off time1 ms; nSLEEP=0 V to sleep mode
Charge pump regulator voltage5 V; VCP with respect to VM, VM=24 V
Charge pump switching frequency400 kHz; VCP
Input logic low voltage0 to 0.7 V; VM < 5 V, EN/IN1, PH/IN2, nSLEEP
Input logic low voltage0 to 0.8 V; VM >= 5 V, EN/IN1, PH/IN2, nSLEEP
Input logic high voltage1.5 to 5.5 V; EN/IN1, PH/IN2, nSLEEP
Input hysteresis200 mV; logic-level inputs
nSLEEP input hysteresis50 mV; nSLEEP input
Input logic low current-5 to 5 µA; VI=0 V
Input logic high current50 typ, 75 max µA; VI=5 V
Input pulldown resistance100 kΩ; to GND
PMODE tri-level logic low voltage0 to 0.65 V; PMODE input
PMODE tri-level Hi-Z voltage0.9 min, 1.1 typ, 1.2 max V; PMODE input
PMODE tri-level logic high voltage1.5 to 5.5 V; PMODE input
PMODE tri-level pulldown resistance44 kΩ; to GND
PMODE tri-level pullup resistance156 kΩ; to internal 5 V
IMODE quad-level level 1 voltage0 to 0.45 V; voltage to set quad-level 1
IMODE quad-level level 2 resistance18.6 min, 20 typ, 21.4 max kΩ; resistance to GND to set quad-level 2
IMODE quad-level level 3 resistance57.6 min, 62 typ, 66.4 max kΩ; resistance to GND to set quad-level 3
IMODE quad-level level 4 voltage2.5 to 5.5 V; voltage to set quad-level 4
IMODE quad-level pulldown resistance136 kΩ; to GND
IMODE quad-level pullup resistance68 kΩ; to internal 5 V
nFAULT output logic low voltage0.3 max V; IOD=5 mA
nFAULT output logic high current-2 to 2 µA; VOD=5 V
High-side MOSFET on-resistance100 typ, 120 max mΩ; VM=24 V, IO=2 A, TJ=25°C
Low-side MOSFET on-resistance100 typ, 120 max mΩ; VM=24 V, IO=-2 A, TJ=25°C
Body diode forward voltage0.9 V; ISD=1 A
Output rise time150 ns; VM=24 V, OUTx rising 10% to 90%
Output fall time150 ns; VM=24 V, OUTx falling 90% to 10%
Input-to-output propagation delay400 ns; EN/IN1 or PH/IN2 to OUTx, 200 Ω from OUTx to GND
Output dead time100 ns; body diode conducting
Current mirror scaling factor450 µA/A; IPROPI current sense output
Current mirror scaling error-30 to 30 mA; IOUT < 0.4 A, 5.5 V <= VM <= 37 V
Current mirror scaling error-7.5% to 7.5%; 0.4 A <= IOUT < 1 A, 5.5 V <= VM <= 37 V
Current mirror scaling error-6% to 6%; 1 A <= IOUT < 2 A, 5.5 V <= VM <= 37 V
Current mirror scaling error-5.5% to 5.5%; 2 A <= IOUT <= 4 A, 5.5 V <= VM <= 37 V
Current regulation off-time25 µs; current sense and regulation
Current sense delay time1.6 µs; current sense and regulation
Current regulation deglitch time0.6 µs; current sense and regulation
Current regulation blanking time1.1 µs; current sense and regulation
Supply undervoltage lockout rising threshold4.3 min, 4.45 typ, 4.6 max V; VM rising
Supply undervoltage lockout falling threshold4.2 min, 4.35 typ, 4.5 max V; VM falling
Supply UVLO hysteresis100 mV; protection circuit
Supply undervoltage deglitch time10 µs; protection circuit
Charge pump undervoltage lockout2.25 V; VCP with respect to VM, VVCP falling
Overcurrent protection trip point6 min, 10 max A; protection circuit
Overcurrent protection deglitch time3 µs; protection circuit
Overcurrent protection retry time2 ms; protection circuit
Thermal shutdown temperature160 min, 175 typ, 190 max °C; protection circuit
Thermal shutdown hysteresis20 °C; protection circuit
Datasheet Statusrequest_only

Product Overview

The DRV8874 is a Texas Instruments H-Bridge motor driver in the Power_Management category. It is built as an integrated N-channel H-bridge motor driver for brushed DC motors as well as inductive and resistive loads, with selectable PH/EN, PWM H-bridge, and independent half-bridge control modes through PMODE.

Key Features

  • 4.5 to 37 V VM operating supply range
  • 6 A peak output current at OUT1 and OUT2
  • 200 mΩ total high-side plus low-side on-resistance
  • Less than 1 µA sleep current at 24 V
  • Supports 1.8 V, 3.3 V, and 5 V logic
  • 0 to 100 kHz PWM input frequency range
  • PH/EN, PWM H-bridge, and independent half-bridge modes
  • Cycle-by-cycle or fixed off-time current regulation
  • IPROPI current sense output with 450 µA/A scaling
  • Undervoltage, overcurrent, and thermal shutdown protection

Typical Applications

  • Brushed DC motor drives
  • Inductive load control
  • Resistive load switching
  • PWM motor speed control
  • Half-bridge load driving
  • Current-regulated motor outputs
  • Low-sleep-current motor systems

Procurement Notes

When requesting a quote for DRV8874, buyers should confirm the manufacturer, package or case, required quantity, target date code, compliance documents, packing method, destination country and expected delivery schedule.

If alternatives are acceptable, buyers should share the approved vendor list, required electrical or optical limits, package constraints and qualification requirements. Any alternative part should be reviewed by the buyer's engineering team before production use.

For power IC and power device sourcing, voltage rating, current rating, power dissipation, package thermal performance, protection features, qualification grade and application conditions should be reviewed before approval.

FAQ

What supply voltage range does the DRV8874 support?

The DRV8874 supports a VM operating supply input range of 4.5 to 37 V. The absolute maximum VM pin voltage is specified from -0.3 to 40 V.

Which control modes are available on the DRV8874?

The DRV8874 supports PH/EN, PWM H-bridge, and independent half-bridge control modes. These modes are selectable using the PMODE input.

What current sensing function does the DRV8874 provide?

The DRV8874 provides an IPROPI proportional current sense output with a current mirror scaling factor of 450 µA/A. The IPROPI output current recommended operating range is 0 to 3 mA.

What package is used for the DRV8874?

The DRV8874 uses an HTSSOP (PWP), 16-pin package with an exposed thermal pad. The listed body size is 5.00 mm x 4.40 mm.

Technical Review & Sourcing Note

Prepared by LDeepAI Component Sourcing Team. Reviewed for RFQ, documentation and alternative sourcing use. Last updated: June 30, 2026.

This page is based on manufacturer datasheet information and LDeepAI sourcing review. Specifications should be verified against the official manufacturer datasheet before final procurement or design approval. Final electrical, optical and reliability approval should be confirmed by the buyer's engineering team.

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