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LMV324IDT 其他数据使用手册 - ST Microelectronics(意法半导体)
制造商:
ST Microelectronics(意法半导体)
分类:
运算放大器
封装:
SOIC-14
描述:
STMICROELECTRONICS LMV324IDT 运算放大器, 四路, 1.3 MHz, 4个放大器, 0.45 V/µs, 2.7V 至 6V, SOIC, 14 引脚
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典型应用电路图在P27P31
功能描述在P5P6P7P27P31P32P42P43P50P51P53
应用领域在P4P15P27P29P31P53
型号编号列表在P31
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LMV324IDT数据手册
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3
The Industrial world is changing in a trend that goes under a variety of names including Industry 4.0, the
4th industrial revolution, Industrial Internet of Thing (IIoT) and smart manufacturing. At ST we call this trend
Smart Industry. We believe that it is a (r)evolution that builds on the many different technology advances
over the past decades but which will fundamentally change the way factories and workplaces function.
For us “Smart” means doing things more efciently, more exibly and in a more environmentally friendly
manner. It also means the manufacturing will be safer for people working there.
Introduction
To achieve this we see industrial infrastructure evolving in three directions:
More Efficient
With factories accounting for 40% of the
world's energy consumption, reducing their
energy use will play a major role in putting
the planet on a more sustainable course.
Higher efficiency can be improved at all
points in power usage with a particular focus
on power conversion & energy harvesting,
power management, power storage and
motor control. This is implemented in the
factory by retrofitting existing machinery with
new inverters and power boards containing
the latest generation of ICs or silicon-
carbide power devices, leading to improved
efficiency, thermal management, size and
cost.
More intelligent and aware
Machines are aware of the humans around
them and provide new interfaces such
as smart tools, augmented reality and
touchless interfaces for easier and safer
interactions. Sensors collect information
about every machine all the time. Then
safe & secure distributed local processing
allows data to be turned into information,
allowing real-time monitoring and predictive
maintenance and repair. Products contain
the instructions for their manufacturing and
carry that information with them throughout
their lifecycle. This will be achieved through
the addition of local processing and sensor/
actuator capabilities through the factory and
connecting them in an efficient manner.
More Connected
Machines are connected inside the factory
to the larger supply chain and to the cloud.
When orders can be customized in real time
and only what is needed is actually made,
this enables optimal planning and flexibility
in manufacturing. Real-time communication
down to the lowest level of sensors and
actuators, ensuring optimal reactivity and
real-time analysis processes. And of course
all of these communications are secure. To
achieve this the existing industrial networking
standard are still valid, but more is needed
in modern factories improve cooperation
among machines so they can decide
where resources are needed and adapt the
workload to better serve critical processes.
This is done using fieldbus protocols with advanced Machine-to Machine M2M communication systems based on IO-Link and industrial wireless
networks.
Smart Industry focuses on data management. Instead of being the vertex of the computer-integrated manufacturing (CIM) pyramid model, this
creates a new paradigm where the supervisor level is now the backbone, ensuring the continuity between the two worlds. For instance, with
communication protocols such as OPC Unified Architecture or IPv6-based network infrastructures.
Safety is also a key function which is pervasive and transversal to all levels of Smart Industry. Safety is implemented in many different ways
ranging from ICs with an extended voltage range matching IEC 61508 requirements, to new hardware architectures, which help developers
meet the challenges of qualifying their systems to SIL requirements.
Semiconductors are a key enabler behind this new Smart Industry, pervasive through the industrial infrastructure and behind the digital
intelligence that it makes possible throughout the entire supply chain. As a supplier with over 30 years’ experience in developing products
for factory automation and industrial applications, ST is playing a leadership role with its catalog of products that help make smart industry a
reality, today. Our goal is to provide products and solutions to support developers of the factory of tomorrow including product evaluation boards,
prototyping systems and online design tools.
This document is organized in three main parts, each of them focusing on the Smart Industry’s
targets to become:
• More efficient by improving performance at all points in power usage, from power
conversion and management to motion control
• More intelligent and aware through the use of sensors, MCUs and industrial IOs to collect
information about every machine and the development of distributed local processing to turn
data into information
• And more connected by creating networks between machines inside the factory, with the
larger supply chain, and to the cloud
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