联系我们
发送邮箱
主页 › 产品中心MicrocontrollerM7双核MCURenesasRZ/T2M
瑞萨电子RZ系列基于32位和64位Arm®的高端微处理器(MPU)为未来的智能社会提供了所需的解决方案。通过各种基于Arm Cortex®-A7、A9、A15、A53、A57及R4的设备,工程师可以轻松实现高分辨率人机界面(HMI)、嵌入式视觉、嵌入式人工智能(e-AI)和实时控制,以及工业以太网连接。
High-performance Multi-function MPU Realizing High-speed Processing and High Precision Control for Industrial AC Servos and Controllers

RZ/T2M is an industry-leading high-performance multi-function MPU that realizes high-speed processing, high precision control, and functional safety required for industrial equipment such as AC servos and industrial motors. Powered by dual Arm® Cortex®-R52 cores with a maximum frequency of 800MHz for real-time control and embedded with a large tightly coupled memory (576KB) directly connected to the CPU to realize high-performance real-time processing, RZ/T2M enables low latency access by arranging the peripherals for motor control to the LLPP (Low Latency Peripheral Port) that is directly connected to the CPU. RZ/T2M has a multi-protocol encoder interface that supports various absolute encoder protocols such as A-format™, EnDat, and BiSS®. Additionally, RZ/T2M has a 3-port Gigabit Ethernet switch supporting the TSN standard and EtherCAT slave controller. RZ/T2M realizes high speed and highly precise motor control and industrial Ethernet communication such as EtherCAT, PROFINET RT/IRT and EtherNet/IP on a single chip.

Features    
•CPU: Arm® Cortex®-R52 x 2, maximum operating frequency 800MHz
•3-port Gigabit Ethernet switch with TSN
•Trigonometric function accelerator
•Memory: Tightly coupled memory 576KB (with ECC), internal RAM 2MB (with ECC)
•Industrial Ethernet: EtherCAT®, PROFINET® RT/IRT, EtherNet/IP™, etc.
•Encoder interface: 2ch (supports A-format™, EnDat, BiSS®, HIPERFACE® DSL, FA-CODER)
•Functional safety support up to SIL3
•Motor current loop < 1µs
•Octa/Quad SPI support
•PWM: 3-phase complementary PWM output for dual motor control​
•ADC: 12-bit x 2 units
•ΔΣ I/F: 6ch
•Package: 320-pin BGA, 225-pin BGA, 176-pin QFP, 128-pin QFP
•Voltage: Core 1.1V, I/O 3.3/1.8V


展开