Industrial communication

Industrial communication

Easy, fast and real-time data exchange using our analog and embedded processing devices and certified software

Unlock seamless connectivity and scalability in your design

Industrial communication enables a connected world in which both centralized and edge intelligence can be used to improve efficiency and real-time data exchange. It is transforming our homes, mobility, production and energy supply from stand-alone, discrete systems to fully transparent, connected systems. Simplify your design with our ready-to-use industrial communication solutions using our integrated software-on-chip products, protocol-compliant interface devices and certified device software stacks.

Ready-to-use industrial communication solutions

checkmark

Integrated SoC products

Our scalable, high-performance microprocessor and microcontroller portfolio enables simultaneous communication and computing in a single system on a chip (SoC) with 1Gb Time-Sensitive Networking.

checkmark

Protocol-compliant interface devices

Our product portfolio includes our trusted CAN and RS-485 transceivers, industrial Ethernet PHYs, IO-Link and single-pair Ethernet PHYs to increase system performance and reliability. 

checkmark

Certified, licensed and production-ready

We offer licensed and certified device software stacks, including production-ready hardware solutions from our partners and advanced configuration tooling for industrial protocols.

checkmark

Service and support from TI experts

Get online support from our industrial communication protocol stack experts on TI’s E2E community, offering customization and optimization options to help you get to market faster.

Discover featured protocols

EtherCAT
為即時性能與拓撲結構靈活性建立新標準
Ethernet/IP
利用此乙太網路通訊網路部署標準乙太網路技術
Profinet
透過 Profinet 強化工業製程的生產力、效率和靈活性

為即時性能與拓撲結構靈活性建立新標準

EtherCAT 為高性能且可擴充的工業乙太網路通訊協定,可在工業自動化中提供確定性通訊。

優點:

  • 使用 PRU 工業通訊子系統 (ICSS) 區塊中的可編程即時單元 (PRU),透過 Arm® 處理器系列支援多協定工業乙太網路。
  • 堆疊與 EtherCAT 從屬控制器 (ESC)(媒體存取控制)可提供一站式體驗。
  • 評估模組可評估 EtherCAT 解決方案,並讓您可立即著手開發。

特色資源

產品
硬件開發
  • TMDS64EVM – 適用 Sitara™ 處理器的 AM64x 評估模組
  • LP-AM263 – AM263x Arm® 架構 MCU 通用型 LaunchPad™ 開發套件
  • LP-AM243 – 適用 Arm® 架構 MCU 的 AM243x 通用 LaunchPad™ 開發套件
  • LAUNCHXL-F28P65X – C2000™ 即時 MCU F28P65x LaunchPad™ 開發套件
  • DP83826EVM – DP83826 低延遲 10/100 乙太網路 PHY 評估模組
  • DP83826-EVM-AM2 – 適用於工業乙太網路 PHY 附加電路板的 AM2x 評估模組
軟體開發
設計工具和模擬
  • TMDXIDDK379D – 適用於工業馬達控制的 C2000 DesignDRIVE 開發套件
參考設計
  • TIDEP-01032 – EtherCAT® 連線、單晶片、雙伺服馬達驅動參考設計
  • TIDM-02006 – 透過快速序列介面 (FSI) 參考設計的分散式多軸伺服驅動

利用此乙太網路通訊網路部署標準乙太網路技術

EtherNet/IP™ 工業網路通訊協定以通用工業通訊協定為基礎,這是用於工廠與製程自動化的工業通訊協定。

優點:

  • 多協定工業乙太網路媒體存取控制 (MAC) 支援 EtherNet/IP 和 EtherNet/IP 堆疊。
  • 評估模組及 EtherNet/IP 範例軟體應用可助您尋找適合設計的解決方案,並立即著手開發。

特色資源

產品
硬件開發
  • TMDS64EVM – 適用 Sitara™ 處理器的 AM64x 評估模組
  • LP-AM243 – 適用 Arm® 架構 MCU 的 AM243x 通用 LaunchPad™ 開發套件
  • DP83867ERGZ-R-EVM – DP83867ERGZ RGMII 1000M/100M/10M 乙太網路 PHY 評估模組
軟體開發

透過 Profinet 強化工業製程的生產力、效率和靈活性

Profinet 為開放式工業乙太網路解決方案,可在自動化設定中於控制器與裝置間交換資料。Profinet 定義元件間的週期性與非週期性通訊,包含診斷、功能安全與警報等。

優點:

  • 多協定工業乙太網路媒體存取控制 (MAC) 支援 Profinet 和 Profinet 堆疊。
  • 評估模組及 Profinet 範例軟體應用可助您尋找適合設計的解決方案,並立即著手開發。

特色資源

產品
硬件開發
  • TMDS64EVM – 適用 Sitara™ 處理器的 AM64x 評估模組
  • LP-AM263 – AM263x Arm® 架構 MCU 通用型 LaunchPad™ 開發套件
  • LP-AM263P – AM263Px Arm® 架構 MCU 通用型 LaunchPad™ 開發套件
  • LP-AM243 – 適用 Arm® 架構 MCU 的 AM243x 通用 LaunchPad™ 開發套件
  • DP83822EVM – DP83822I 10 Mbps 和 100 Mbps 乙太網路 PHY 評估模組
  • DP83869EVM – 銅纜和光纖工業乙太網路 PHY 評估模組
軟體開發

Software FAQs

Explore the essentials of industrial communication, protocols and integration

What does TI offer for fieldbus and industrial Ethernet?

Our device portfolio with the industrial communication subsystem (ICSS) implements various fieldbus and industrial Ethernet protocols. Our industrial communications software development kit includes certified protocol stacks along with application examples to help you get started.

What protocol stacks does TI offer?

Our software development kit (SDK) supports Profinet, EtherCAT and EtherNet/Internet Protocol (IP). Implementing these protocols using the ICSS hardware block enables users to stay up to date with the latest specification, while also providing the flexibility of a common hardware platform to implement different protocol stacks.

Are TI protocols certified?

Yes. We have certified our protocol stacks on our hardware evaluation platforms.

What is the cost and licensing model for the protocols?

Our protocols are royalty-free, with the production license included. There are no additional costs.

Does TI provide controller host-side protocols?

Yes. We partner with companies such as Acontis, Codesys, IBV and IGH to provide host-side (master) protocols.

Does TI collaborate with a partner network?

We work with an extensive ecosystem of partners. For a list of these partners and details about their business, see the Partner Directory page under Software Partners.

Where can I find support for industrial communication- and software-related issues?

Our TI E2E™ design support forums are an engineer’s go-to source for help throughout every step of the design process. Our protocol experts answer your technical questions and share their knowledge to help you quickly solve your design issues.

Enabling industrial communication technologies

The latest technology in real-time data communication

Time-Sensitive Networking (TSN) is a set of Institute of Electrical and Electronics Engineers (IEEE) standards that enable deterministic, real-time communication over Ethernet networks. TSN ensures low latency and high reliability in applications requiring precise timing and synchronization. Our products offer TSN support, such as processors with TSN-enabled media access control (MAC), including software protocol stacks and a broad Ethernet PHY portfolio to complete your design.

Take advantage of our products to:

  • Evaluate and prototype your TSN network requirements using our processor evaluation module and software development kit.
  • Leverage our TSN-related documentation, training resources and technical support.
White paper
Time Sensitive Networking for Industrial Automation (Rev. C)
Time-Sensitive Networking (TSN) is an Ethernet extension defined by the Institute of Electrical and Electronics Engineers (IEEE) designed to make Ethernet-based networks more deterministic.
PDF
部落格
Ethernet PHYs to simplify design and optimize network performance
Read more about two Ethernet physical layer (PHY) transceivers, expanding connectivity options for designers of both space-constrained applications and time-sensitive networks.
影片
Process this series: Time-Sensitive Networking using Linux® on AM64x processors
This webinar focuses on the AM64x Time-Sensitive Networking capabilities that enable deterministic networking across a line topology of several nodes.
Featured products for Time-Sensitive Networking
DP83867E 現行 具有 SGMII 的廣泛溫度、穩固低延遲 GB 乙太網路 PHY 收發器
AM6442 現行 雙核心 64 位元 Arm® Cortex®-A53、四核心 Cortex-R5F、PCIe、USB 3.0 和安全性

Simplifying network connectivity

Take industrial communications from the cloud to the edge using single-pair Ethernet (SPE). Transmission Control Protocol/Internet Protocol enablement along the entire signal chain allows both distributed processing and detailed remote analysis and storage.

To make predictive maintenance a reality in your system, get started by:

  • Building a system using our reliable physical layers (PHYs) and reduce maintenance costs once deployed.
  • Enabling precise timing characteristics using simplified solutions for Time-Sensitive Networking applications with industry-leading determinism and synchronization.
  • Maximizing system uptime with predictive maintenance enabled by advanced cable diagnostics.
Application note
Single Pair Ethernet with Power Over Data Line
This application note contrasts Power over Data Line (PoDL) and Power over Ethernet (PoE), along with links to reference designs for implementation and more detailed technical information.
PDF | HTML
Application note
How and Why to Use Single Twisted-Pair Ethernet (SPE) for Industrial Robotics Environments (Rev. A)
Learn about the advantages of single-pair Ethernet (SPE) in robotics. Step through specific testing performed on TI SPE physical layers (PHYs) to ensure proper operation using galvanic decoupling, plus how to minimize latency.
PDF | HTML
Featured products for single-pair Ethernet
DP83TG721S-Q1 現行 具有 TC-10、802.1AS、進階 TSN 和 AVB 功能的車用、1000BASE-T1 乙太網路 PHY
新產品 DP83TC818S-Q1 現行 具有 TC-10 和 MACsec 的車用、100BASE-T1 乙太網路 PHY、時間精確度
DP83TD510E 現行 IEEE 802.3cg 10BASE-T1L Ethernet PHY

Combining data and power over single-pair Ethernet

Power over Data Line (PoDL) and Advanced Physical Layers (APLs) are technologies that enable devices to receive both power and data over a single Ethernet cable. They simplify network installations in applications such as sensors, actuators and industrial Internet of Things devices. APL is used for process automation environments, with its reliable data communication in harsh conditions.

Kick-start your project to implement PoDL and power-critical APL solutions by:

  • Leveraging our scalable reference designs to implement power-sourcing equipment (PSE) and powered device (PD).
  • Using our gateway solution to bridge Ethernet communication between standard Ethernet to single-pair Ethernet.
Application note
Single Pair Ethernet with Power Over Data Line
Read more about how Power over Data Line (PoDL), also called single-pair Power over Ethernet (SPoE), combines single-pair Ethernet (SPE) and power on one cable, without the need to add additional lines.
PDF | HTML
Application brief
How to Implement an IEEE 802.3cg or 802.3bu-Compliant PoDL PSE
Power over Data Line (PoDL) for single-pair Ethernet is standardized in IEEE 802.3cg and IEEE 802.3bu. In 802.3bu, PoDL is specified for 100 and 1000BASE-T1 Ethernet, while 802.3cg adds support for 10BASE-T1L. 
PDF | HTML
Application note
IEEE 802.3cg 10BASE-T1L Power over Data Lines Powered Device Design (Rev. A)
Read about how the IEEE 802.3cg 10BASE-T1L specification has resolved challenges around industrial communication by allowing 10Mbps full-duplex communications up to a distance of 1,000m through a single pair of twisted wires.
PDF | HTML
Featured products for Power over Data Line
DP83TD510E 現行 IEEE 802.3cg 10BASE-T1L Ethernet PHY
AM2434 現行 四核心 Arm® Cortex®-R5F 架構 MCU,具有工業通訊功能和最高達 800 MHz 的安全性

Empowering smart sensors and actuators

IO-Link is an industrial communication protocol that connects sensors and actuators to automation systems. By enhancing data exchange and enabling advanced diagnostics and configuration, our IO-Link physical layers (PHYs) and reference designs simplify installation and maintenance, with seamless integration and improved efficiency in smart manufacturing environments.

Start your design by:

  • Using our evaluation module and reference designs to build low-cost IO-Link devices.
  • Design a single-chip solution with an eight-port IO-Link device, integrated frame handler and industrial Ethernet gateway.
  • Take advantage of our IO-Link documentation, training resources and technical support.
Technical article
Implementing an IO-Link master with deterministic timing
In industrial factory automation designs, IO-Link has evolved into a popular protocol for sensors and actuators to improve factory efficiency and reduce downtime.
PDF | HTML
資源
 IO-Link device implementation for sensors and actuator reference design
This reference design gives an example implementation of an IO-Link device interface. The design includes the IO-Link device physical layer (PHY), including a low-dropout regulator (LDO) as well as a low-power microcontroller.
資源
Eight port IO-Link BoosterPack™ plug-in module
This design implements an eight-port IO-Link with deterministic timing, independent cycling and bit-rate configuration to build a remote IO-Link gateway to connect to OPC Unified Architecture, Profinet, EtherCAT or Ethernet IP.
Featured products for IO-Link
TIOL112 現行 具低殘餘電壓和整合式突波保護和的 IO-Link 裝置收發器
AM2434 現行 四核心 Arm® Cortex®-R5F 架構 MCU,具有工業通訊功能和最高達 800 MHz 的安全性
MSPM0L1306 現行 具 64-KB 快閃記憶體、4-KB SRAM、12 位元 ADC、比較器、OPA 的 32-MHz Arm® Cortex®-M0+ MCU

Bridging systems for seamless integration

An industrial communication gateway connects disparate systems and devices, translating data and protocols between networks. It streamlines integration, facilitates real-time data exchange, and enhances operational efficiency across industrial environments.

Our reference designs and evaluation modules (EVMs) support different types of gateways for you to start evaluating with, such as:

  • Eight-port IO-Link master to industrial Ethernet with our EVM, and example software to build a remote IO-Link gateway to connect to OPC Unified Architecture, Profinet, EtherCAT or Ethernet IP.
  • An Ethernet gateway that functions as a bridge between four 10BASE-T1L single-pair Ethernet ports with Power over Data Line and a 1000BASE-T Ethernet port.
Featured products for communication gateway
AM6442 現行 雙核心 64 位元 Arm® Cortex®-A53、四核心 Cortex-R5F、PCIe、USB 3.0 和安全性
AM2434 現行 四核心 Arm® Cortex®-R5F 架構 MCU,具有工業通訊功能和最高達 800 MHz 的安全性

技術資源

Technical article
Technical article
利用高度整合的處理器,加快工廠自動化採用乙太網路的速度 (Rev. A)
Read about how Ethernet provides a mechanism for transferring latency-critical data, especially for Time-Sensitive Networking and protocols such as EtherCAT and Profinet.
document-pdfAcrobat PDF
部落格
部落格
How new connectivity technologies are lowering the barriers to Industry 4.0
In this blog post, learn about how the networking architecture of today’s factories is continuously evolving, unlocking better efficiency, safety and sustainability.
影片
影片
Key protocols for increasingly automated factories
TI experts discuss trends in connected factories including predictive maintenance and Time-Sensitive Networking, and how Ethernet continues to lead the way in transforming factories to meet digitization and connectivity needs.