TM4C129ENCZADT3 Overview
The TM4C129ENCZADT3 is a high-performance ARM Cortex-M4F microcontroller designed for industrial and networking applications that require more compute and more connectivity than typical mid-range MCUs. It delivers a higher core frequency and larger on-chip memory capacity compared with many general-purpose controllers, plus multiple high-speed interfaces and integrated Ethernet capability for robust edge-node and gateway designs. Engineers and sourcing specialists can evaluate this part for systems needing reliable real-time control, deterministic networking, and broad peripheral integration. Reference product resources are available from IC Manufacturer.
TM4C129ENCZADT3 Technical Specifications
| Parameter | Value |
|---|---|
| Core | ARM Cortex-M4F |
| Maximum CPU Frequency | 120 MHz |
| Flash Memory | 1 MB (1024 KB) |
| SRAM | 256 KB |
| Ethernet | 2 ?? 10/100 Mbps MACs (integrated) |
| USB | USB 2.0 Host/Device/OTG |
| Analog | 12-bit ADCs, multiple channels |
| Comms Interfaces | Multiple UART, SPI, I2C, CAN controllers |
| Package | 176-pin LQFP (or equivalent high-pin-count) |
| Operating Voltage | 3.3 V nominal |
| Operating Temperature Range | -40 ??C to +85 ??C (industrial grade) |
TM4C129ENCZADT3 Key Features
- ARM Cortex-M4F core with floating-point unit for faster DSP and control algorithms, which reduces cycle counts versus integer-only MCUs.
- Large on-chip memory (1 MB flash, 256 KB SRAM) to support larger firmware images and local data buffering, helping avoid external memory in many designs.
- Integrated dual 10/100 Ethernet MACs for multi-port or switching gateway topologies, enabling more ports without extra PHY controllers.
- Comprehensive peripheral set including USB Host/Device/OTG, CAN, multiple UART/SPI/I2C, ADCs and timers for consolidated system integration and reduced BOM count.
Typical Applications
- Industrial Ethernet gateways and protocol converters where deterministic timing and multiple 10/100 Mbps interfaces connect field networks to control systems over IP.
- Edge controllers for factory automation that require higher compute and memory to run device stacks, local analytics, and secure communications concurrently.
- Smart grid and energy monitoring nodes that need accurate ADC conversion, time-synchronized Ethernet, and local buffering for intermittent upstream connectivity.
- High-integration building automation controllers that replace multiple discrete components by using the MCU’s Ethernet, USB, CAN, and analog peripherals in one package.
TM4C129ENCZADT3 Advantages vs Typical Alternatives
This device offers more on-chip memory and more integrated networking than many mid-range microcontrollers, making it a stronger fit where firmware size and multiple wired interfaces matter. Compared with single-Ethernet or lower-memory MCUs, it reduces external component count and board complexity. The integrated Ethernet MACs and USB support enable higher total system throughput, while the Cortex-M4F core accelerates signal processing tasks versus comparable integer-only cores.
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TM4C129ENCZADT3 Brand Info
The TM4C129ENCZADT3 is part of Texas Instruments’ Tiva C series of microcontrollers. TI positions this family for industrial and networking applications that demand higher performance, deterministic control, and broad peripheral integration for embedded systems and gateway products.
FAQ
What core does this MCU use?
The device uses an ARM Cortex-M4F core with a hardware floating-point unit. This provides improved performance for math-heavy control and DSP tasks compared with non-FPU microcontrollers.
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How much on-chip flash and SRAM are available?
On-chip memory includes approximately 1 MB of flash and roughly 256 KB of SRAM, allowing larger application code and local data buffering without mandatory external memory for many designs.
Does it support Ethernet connectivity?
Yes. The MCU integrates two 10/100 Mbps Ethernet MACs, enabling multi-port or bridging topologies and reducing the need for additional MAC controllers in networked products.
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Which peripheral interfaces are included?
The device includes a broad set of peripherals: USB 2.0 Host/Device/OTG, CAN controllers, multiple UARTs, SPI and I2C buses, timers, PWM modules, and multi-channel 12-bit ADCs for mixed-signal designs.
Is this part suitable for industrial temperature ranges?
Yes. It is specified for industrial use with an operating temperature range around -40 ??C to +85 ??C, making it suitable for deployed embedded and field equipment in standard industrial environments.