The SN754410NEE4 driver serves as a robust solution capable of accommodating bidirectional drive currents up to 1 A within a voltage range of 4.5 V to 36 V. Architecturally crafted to power inductive loads like motors and solenoids, this driver seamlessly integrates with both TTL and CMOS logic systems, highlighting its versatility in various electronic circuit designs. Its ability to bridge the gap between logic circuits and high-current loads makes it a dependable choice across multiple engineering scenarios. In practical applications, the driver plays a crucial role in enhancing load management, contributing to efficient and reliable electrical systems.
Catalog
Pin
|
Function
|
Description
|
1
|
1
|
Enable driver channels 1 and 2 (active
high input)
|
2
|
2, 7, 10, 15
|
Driver inputs, non-inverting
|
3
|
3, 6, 11, 14
|
Driver outputs
|
4
|
4,5, 12, 13
|
Device ground and heat sink pin.
Connect to circuit board ground plane with multiple solid vias
|
5
|
8
|
Power VCC for drivers 4.5V to 36V
|
6
|
9
|
Enable driver channels 3 and 4
(active high input)
|
7
|
16
|
5V supply for internal logic translation
|
Circuit Symbol
Physical Layout
Three-Dimensional Render
Featuring four half-H bridge drivers, the SN754410NEE4 emerges as a versatile and steadfast component, crafted to adeptly handle high-current loads. This capability finds its place in motor and relay domains, where the need for precision and reliability calls for more than mere adequacy. The structure of the SN754410NEE4 seamlessly aligns with a wide array of logical interfaces, enhancing its flexibility in diverse technological settings.
Parts
|
Description
|
Manufacturer
|
SN754410NE DRIVERS AND INTERFACES
|
Quadruple Half-H Drivers 16-PDIP -40 to
85
|
Texas Instruments
|
Type
|
Parameter
|
Type
|
Parameter
|
Factory Lead Time
|
6 Weeks
|
Lifecycle Status
|
ACTIVE (Last Updated: 3 days ago)
|
Mounting Type
|
Through Hole
|
Mount
|
Through Hole
|
Number of Pins
|
16
|
Package / Case
|
16-DIP (0.300, 7.62mm)
|
Operating Temperature
|
-40°C~150°C TJ
|
Weight
|
951.693491mg
|
JESD-609 Code
|
e4
|
Packaging
|
Tube
|
Part Status
|
Active
|
Pbfree Code
|
yes
|
Number of Terminations
|
16
|
Moisture Sensitivity Level (MSL)
|
1 (Unlimited)
|
Terminal Finish
|
Nickel/Palladium/Gold (Ni/Pd/Au)
|
ECCN Code
|
EAR99
|
Max Power Dissipation
|
2.075W
|
Applications
|
DC Motors, General Purpose, Solenoids,
Stepper Motors
|
Terminal Position
|
DUAL
|
Voltage - Supply
|
4.5V~5.5V
|
Supply Voltage
|
5V
|
Number of Functions
|
2
|
Pin Count
|
16
|
Base Part Number
|
SN754410
|
Operating Supply Voltage
|
36V
|
Output Voltage
|
36V
|
Output Configuration
|
Half Bridge (4)
|
Interface
|
Logic
|
Supply Current-Max
|
70mA
|
Output Current
|
1A
|
Output Polarity
|
TRUE
|
Output Characteristics
|
STANDARD
|
Voltage - Load
|
4.5V~36V
|
Input Characteristics
|
STANDARD
|
Output Peak Current Limit-Nom
|
2A
|
Number of Drivers
|
4
|
Turn Off Time
|
0.8 µs
|
Supply Voltage1-Nom
|
24V
|
Load Type
|
Inductive
|
Built-in Protections
|
TRANSIENT; THERMAL
|
Length
|
19.8mm
|
Height
|
5.08mm
|
Thickness
|
4.57mm
|
Width
|
6.35mm
|
RoHS Status
|
ROHS3 Compliant
|
Radiation Hardening
|
No
|
Lead Free
|
Lead Free
|
|
|
Part Number
|
SN754410NEE4
|
RE46C122E16F
|
DS26C31TN/NOPB
|
DS26LS32CN/NOPB
|
AM26S10CN
|
Manufacturer
|
Texas Instruments
|
Microchip Technology
|
Texas Instruments
|
Texas Instruments
|
Texas Instruments
|
Package / Case
|
16
|
16
|
16
|
16
|
16
|
Number of Pins
|
16-DIP (0.300, 7.62mm)
|
16-DIP (0.300, 7.62mm)
|
16-DIP (0.300, 7.62mm)
|
16-DIP (0.300, 7.62mm)
|
16-DIP (0.300, 7.62mm)
|
Number of Drivers
|
4
|
4
|
-
|
4
|
0
|
Supply Voltage
|
5 V
|
5 V
|
9 V
|
5 V
|
5 V
|
Supply Voltage1-Nom
|
24 V
|
5 V
|
-
|
-
|
-
|
Max Power Dissipation
|
2.075 W
|
-
|
-
|
1.736 W
|
-
|
Mount
|
Through Hole
|
Through Hole
|
Through Hole
|
Through Hole
|
Through Hole
|
Terminal Position
|
DUAL
|
DUAL
|
DUAL
|
DUAL
|
DUAL
|
Distinct Output Capacity and Versatile Applications
- Provides up to 1 A output per driver, fueling its effectiveness in varied uses.
- Well-suited for solenoid and motor driver roles within industrial and consumer sectors.
Enhancing Power Supply Efficiency
- Specifically crafted for environments using positive power supplies, boosting operational lifespan and performance.
- Operates efficiently across a spectrum of supply voltages, allowing diverse electrical applications.
Broad Input Compatibility and Embedded Safety Measures
- Compatible with both TTL and CMOS technologies, enhancing its implementation across varied circuit designs.
- Incorporates a dependable thermal shutdown feature, adding protection against the prevalent issue of overheating in rigorous operations.
Augmented Protection and Performance Improvements
- Integrated ESD protection enhances resilience against static discharge, crucial for sensitive electronic setups.
- Improved noise immunity due to input hysteresis, adjusting efficiently to fluctuating signal situations.
Energy Efficiency and Mitigation of Conduction Challenges
- Reduces power consumption through thoughtful design, appealing to energy-efficient applications.
- Features a design that prevents simultaneous conduction, thus protecting against possible switching circuit damage and inefficiencies.
Ensuring Operational Smoothness
- Maintains steady functioning without interruptions during power cycling, fostering uninterrupted and dependable system operation.
- Regarded as a favorable option compared to the SGS L293 model, significant for endeavors aiming at upgrading legacy systems with minimal redesign complexities.
Mastery in Stepper Motor Regulation
The SN754410NEE4 plays a pivotal role in the field of stepper motor regulation. Stepper motors, which are central to precise motion handling tasks, gain significant advantages from the IC's adeptness in orchestrating step increments with remarkable accuracy. This characteristic proves invaluable in sectors such as 3D printing and CNC machinery, where exact positioning holds immense value.
Versatile DC Motor Management
When it comes to managing DC motors, the SN754410NEE4 stands out as a reliable component for directing forward and reverse actions through PWM signals. As a dual H-bridge driver IC, it provides a gateway to enhanced mobility and speed regulation in robotic systems, crucial for the performance of robotic arms and vehicles. The ability to control motor torque effectively with this IC emerges as a core element in advancing applications that prioritize refined speed adjustment and energy conservation.
Efficient Relay System Implementation
The adaptability of the SN754410NEE4 extends to relay system execution. Traditional switching operations gain from the IC’s dependable driving skills, enabling proficient isolation of control signals in modern home automation and industrial system setups. With a strong emphasis on safety and consistency, this application highlights how such ICs streamline intricate circuitry and lighten the integration load.
Connecting to a 5-V power source ensures that the integrated circuit maintains consistent logic levels, which helps avoid malfunctions while supporting circuit functionality. In real-world scenarios, specific voltage levels drive the performance of electronic components and can be a determining factor in their effectiveness.
Circuit Visualization for the SN754410NEE4
Founded in 1958, Texas Instruments (TI) laid the groundwork for the transformation of the semiconductor industry. Its creation heralded a new era of technological evolution. From the outset, the company has been fueled by a drive to enhance analog and embedded processing technologies, serving as the backbone of its enduring success. TI's passion for research and development propels it to the cutting edge of semiconductor technology, creating an atmosphere where groundbreaking advancements are commonplace. This is showcased in the company's stream of innovative products that have significantly influenced the course of modern electronics.
Frequently Asked Questions [FAQ]
1. What is SN754410NEE4?
The SN754410NEE4 is a versatile and robust quadruple high-current half-H driver crafted to handle bidirectional drive currents reaching up to 1 A, with operational voltages spanning from 4.5 V to 36 V. A designated supply voltage (VCC1) is assigned for the logic input circuits, serving to minimize overall power dissipation of the device.
2. How much current is the SN754410NEE4 rated to output continuously?
The datasheet specifies a continuous output current of 1.1 A for the SN754410NEE4, comfortably supporting a stepper motor with a rating of approximately 0.6 A. This configuration suggests that overheating issues might be avoided. Additionally, the datasheet cites an output supply current of 70 mA.
3. What package is the SN754410NEE4 available in?
The SN754410NEE4 is offered in a 16-DIP (0.300 inches, 7.62 mm) package.
4. What is the SN754410NEE4 designed for?
The design of the SN754410NEE4 accommodates operation within a temperature range of −40°C to 85°C, making it suitable for stepper motor driver applications.