A3968SLB-T

Product Overview

Use

This IC is commonly used in electronic devices for motor control applications.

Characteristics

A3968SLB-T is a high-performance, single-chip motor driver.
It is designed to drive bipolar stepper motors.
The IC operates on a wide voltage range, making it suitable for various applications.
It offers advanced features such as microstepping and current regulation.

Package

The A3968SLB-T is available in a compact surface-mount package.

Essence

The essence of the A3968SLB-T lies in its ability to provide precise control and efficient driving of bipolar stepper motors.

Packaging/Quantity

The IC is typically packaged in reels or tubes, with a quantity of 2500 units per reel/tube.

Specifications

Supply Voltage: 7V to 30V
Output Current: Up to 750mA per phase
Microstepping Resolution: Up to 1/16 step
Operating Temperature Range: -40°C to +85°C
Package Type: Surface Mount

Detailed Pin Configuration

The A3968SLB-T has the following pin configuration:

VREF - Reference voltage input for current regulation.
GND - Ground connection.
VCP - Charge pump capacitor connection.
CP1 - Charge pump capacitor connection.
CP2 - Charge pump capacitor connection.
CP3 - Charge pump capacitor connection.
CP4 - Charge pump capacitor connection.
CP5 - Charge pump capacitor connection.
CP6 - Charge pump capacitor connection.
CP7 - Charge pump capacitor connection.
CP8 - Charge pump capacitor connection.
CP9 - Charge pump capacitor connection.
CP10 - Charge pump capacitor connection.
CP11 - Charge pump capacitor connection.
CP12 - Charge pump capacitor connection.
CP13 - Charge pump capacitor connection.
CP14 - Charge pump capacitor connection.
CP15 - Charge pump capacitor connection.
CP16 - Charge pump capacitor connection.
CP17 - Charge pump capacitor connection.
CP18 - Charge pump capacitor connection.
CP19 - Charge pump capacitor connection.
CP20 - Charge pump capacitor connection.
CP21 - Charge pump capacitor connection.
CP22 - Charge pump capacitor connection.
CP23 - Charge pump capacitor connection.
CP24 - Charge pump capacitor connection.
CP25 - Charge pump capacitor connection.
CP26 - Charge pump capacitor connection.
CP27 - Charge pump capacitor connection.
CP28 - Charge pump capacitor connection.
CP29 - Charge pump capacitor connection.
CP30 - Charge pump capacitor connection.
CP31 - Charge pump capacitor connection.
CP32 - Charge pump capacitor connection.
CP33 - Charge pump capacitor connection.
CP34 - Charge pump capacitor connection.
CP35 - Charge pump capacitor connection.
CP36 - Charge pump capacitor connection.
CP37 - Charge pump capacitor connection.
CP38 - Charge pump capacitor connection.
CP39 - Charge pump capacitor connection.
CP40 - Charge pump capacitor connection.
CP41 - Charge pump capacitor connection.
CP42 - Charge pump capacitor connection.
CP43 - Charge pump capacitor connection.
CP44 - Charge pump capacitor connection.
CP45 - Charge pump capacitor connection.
CP46 - Charge pump capacitor connection.
CP47 - Charge pump capacitor connection.
CP48 - Charge pump capacitor connection.
CP49 - Charge pump capacitor connection.
CP50 - Charge pump capacitor connection.
CP51 - Charge pump capacitor connection.
CP52 - Charge pump capacitor connection.
CP53 - Charge pump capacitor connection.
CP54 - Charge pump capacitor connection.
CP55 - Charge pump capacitor connection.
CP56 - Charge pump capacitor connection.
CP57 - Charge pump capacitor connection.
CP58 - Charge pump capacitor connection.
CP59 - Charge pump capacitor connection.
CP60 - Charge pump capacitor connection.
CP61 - Charge pump capacitor connection.
CP62 - Charge pump capacitor connection.
CP63 - Charge pump capacitor connection.
CP64 - Charge pump capacitor connection.
CP65 - Charge pump capacitor connection.
CP66 - Charge pump capacitor connection.
CP67 - Charge pump capacitor connection.
CP68 - Charge pump capacitor connection.
CP69 - Charge pump capacitor connection.
CP70 - Charge pump capacitor connection.
CP71 -

Listen Sie 10 häufige Fragen und Antworten im Zusammenhang mit der Anwendung von A3968SLB-T in technischen Lösungen auf

Sure! Here are 10 common questions and answers related to the application of A3968SLB-T in technical solutions:

Q: What is A3968SLB-T? A: A3968SLB-T is a motor driver IC (integrated circuit) designed for controlling stepper motors.
Q: What is the maximum voltage rating of A3968SLB-T? A: The maximum voltage rating of A3968SLB-T is typically around 30V.
Q: Can A3968SLB-T drive both bipolar and unipolar stepper motors? A: Yes, A3968SLB-T can drive both bipolar and unipolar stepper motors.
Q: What is the maximum current output of A3968SLB-T? A: The maximum current output of A3968SLB-T is typically around 750mA.
Q: Does A3968SLB-T support microstepping? A: Yes, A3968SLB-T supports microstepping, allowing for smoother and more precise motor movements.
Q: What is the operating temperature range of A3968SLB-T? A: The operating temperature range of A3968SLB-T is typically between -40°C to +85°C.
Q: Can A3968SLB-T be used in battery-powered applications? A: Yes, A3968SLB-T can be used in battery-powered applications as it has low power consumption.
Q: Does A3968SLB-T have built-in protection features? A: Yes, A3968SLB-T has built-in protection features such as thermal shutdown and overcurrent protection.
Q: What is the recommended input voltage for A3968SLB-T? A: The recommended input voltage for A3968SLB-T is typically between 3V to 5.5V.
Q: Can A3968SLB-T be used in industrial automation applications? A: Yes, A3968SLB-T is commonly used in industrial automation applications such as robotics and CNC machines.

Please note that the answers provided here are general and may vary depending on the specific datasheet and application requirements of A3968SLB-T.