
In embedded hardware design, system stability depends heavily on how sensing, processing, and output control are synchronized. When these functions are split across multiple ICs, signal delay increases, debugging becomes harder, and power consumption often rises. Many embedded systems need a compact controller that can continuously read inputs, process logic, and update outputs in a predictable cycle. A Microcontroller Unit (MCU) solves this by integrating processing, memory, and peripheral control into one device built for embedded control systems.
| Image | Part Number / Manufacturer | Description / Specs | MOQ | Datasheet | RFQ | |
|---|---|---|---|---|---|---|
![]() | K2GICE Manufacturer: Texas Instruments Category: Development Boards RoHSREACH | 66AK2G EVAL BRD | 1 | |||
| TMDSEVM3517C Manufacturer: Texas Instruments Category: Development Boards RoHSREACH | AM3505/AM3517 EVAL BRD | 1 | ||||
| TMDSEXP1808L Manufacturer: Texas Instruments Category: Development Boards RoHSREACH | EXPERIMENTER AM1808 EVAL BRD | 1 | ||||
| ATSAMA5D35-EK Manufacturer: Microchip Technology Category: Development Boards RoHSREACH | SAMA5D35 EVAL BRD | 1 | ||||
| EV19K07A Manufacturer: Microchip Technology Category: Development Boards RoHSREACH | CEC1736 DEVELOPMENT BOARD | 1 | ||||
| LPC3180-DEV-KIT Manufacturer: Future Designs Inc. Category: Development Boards RoHSREACH | LPC3180 EVAL BRD | 1 | ||||
| FIDO1100EDK-1 Manufacturer: Analog Devices Inc. Category: Development Boards RoHSREACH | FIDO1100 EVAL BRD | 1 | ||||
| ADZS-SC584-EZBRD Manufacturer: Analog Devices Inc. Category: Development Boards RoHSREACH | EZ-BOARD ADSP-SC584 EVAL BRD | 1 | ||||
| ADZS-BF538F-EZLITE Manufacturer: Analog Devices Inc. Category: Development Boards RoHSREACH | EZ-KIT LITE ADSP-BF538 EVAL BRD | 1 | ||||
| R0K5562N0S000BE Manufacturer: Renesas Electronics Corporation Category: Development Boards RoHSREACH | RX62N R5F562N EVAL BRD | 1 | ||||
| STM32H753I-EVAL Manufacturer: STMicroelectronics Category: Development Boards RoHSREACH | STM32H753XIH6 EVAL BRD | 1 | ||||
| TMDSEVM6670L Manufacturer: Texas Instruments Category: Development Boards RoHSREACH | TMS320C6670 EVAL BRD | 1 | ||||
| STM32H743I-EVAL Manufacturer: STMicroelectronics Category: Development Boards RoHSREACH | STM32H743XIH6 EVAL BRD | 1 | ||||
| B158-H8048-X-X-7600 Manufacturer: Infineon Technologies Category: Development Boards RoHSREACH | XC161 EVAL BRD | 1 | ||||
| MIKROE-2014 Manufacturer: MikroElektronika Category: Development Boards RoHSREACH | MIKROLAB FOR AVR L AVR EVAL BRD | 1 | ||||
| ADZS-SC589-EZBRD Manufacturer: Analog Devices Inc. Category: Development Boards RoHSREACH | EZ-BOARD ADSP-SC589 EVAL BRD | 1 | ||||
| TMDSEZD2812 Manufacturer: Texas Instruments Category: Development Boards RoHSREACH | EZDSP TMS320F2812 EVAL BRD | 1 | ||||
| MIKROE-3518 Manufacturer: MikroElektronika Category: Development Boards RoHSREACH | FUSION FOR ARM V8 MSP432 | 1 | ||||
![]() | PIC18F452 DEVELOPMENT KIT Manufacturer: Custom Computer Services Inc. (CCS) Category: Development Boards RoHSREACH | PIC18F452 EVAL BRD | 1 | |||
| TMDXEVM5515 Manufacturer: Texas Instruments Category: Development Boards RoHSREACH | TMS320C55X EVAL BRD | 1 |
Many field systems still use MCUs selected during original product design. These devices are tightly linked to firmware, PCB layout, peripheral setup, and timing behavior. When an MCU reaches end-of-life, replacement is rarely simple. Differences in register layout, memory structure, clock behavior, or peripherals may require firmware updates and system revalidation.
This is common in industrial, automotive, and medical equipment where systems operate for ten years or more. Maintenance teams often require the exact MCU to avoid redesign or recertification. Delays in sourcing compatible MCUs can increase downtime and service cost.
Maketronics supports global engineering and procurement teams with reliable sourcing of both active and obsolete Microcontroller Units (MCUs).
MCUs integrate processing, memory, and peripherals into a single device, enabling predictable control, reduced hardware complexity, and improved system reliability.
By reducing external components and wiring, MCUs minimize failure points and ensure consistent timing and system stability.
Yes. Many MCUs include sleep modes, clock scaling, and peripheral shutdown features that help reduce energy consumption in battery-powered and always-on systems.
Obsolete MCUs may require firmware modification, system revalidation, or hardware redesign due to differences in architecture, timing behavior, and peripheral implementation.