Embedded - Microcontrollers - Application Specific

Part Number	Description / PDF	Quantity
MSP430TCH5ERHBR Texas Instruments	IC MCU 16BIT	0
TUSB3410RHBG4 Texas Instruments	IC USB-SRL PORT CONTROLLER 32QFN	0
TUSB3410RHBT Texas Instruments	TUSB3410 UART, I2C & IRDA SERIAL	750
TUSB3410IVFG4 Texas Instruments	IC CTRLR SERIAL-TO-USB 32-LQFP	0
TI380C25PGE Texas Instruments	LAN CONTROLLER, 1 CHANNEL(S), 2M	4909
TUSB3410IRHBR Texas Instruments	IC USB-SRL PORT CONTROLLER 32QFN	0
TSB12LV21APGF Texas Instruments	SERIAL I/O CONTROLLER, 1 CHANNEL	303
TUSB3210PM Texas Instruments	USB BUS CONTROLLER, CMOS, PQFP64	18605
MSP430BT5190IPZ Texas Instruments	IC MCU 16BIT 256KB FLASH 100LQFP	229
TUSB3210PMG4 Texas Instruments	USB BUS CONTROLLER, CMOS, PQFP64	280
TUSB3410IVF Texas Instruments	IC CTRLR SERIAL-TO-USB 32-LQFP	413
TL1454CNSR Texas Instruments	DUAL SWITCHING CONTROLLER, VOLTA	270
TL16PNP550AFN Texas Instruments	SERIAL I/O CONTROLLER, 1 CHANNEL	3401
TUSB3410RHBR Texas Instruments	TUSB3410 UART, I2C & IRDA SERIAL	28912
TL16C550AFN Texas Instruments	SERIAL I/O CONTROLLER, 1 CHANNEL	67
TUSB3410VF Texas Instruments	IC CONV SERIAL-TO-USB 32-LQFP	152
LM3150MHX/J7002527 Texas Instruments	SIMPLE SWITCHER CONTROLLER	137500
L10005PCM Texas Instruments	THUNDERLAN 10/100 MB ETHERNET CO	1200
PTSB12LV22PZ Texas Instruments	PCI-BASED HOST CONTROLLER	883
CP3UB37VVAWQX/NOPB Texas Instruments	IC CPU BLUETOOH CAN	1000

Embedded - Microcontrollers - Application Specific

1. Overview

Application Specific Microcontrollers (AS-MCUs) are integrated circuits designed to perform dedicated functions in embedded systems. Unlike general-purpose microcontrollers, AS-MCUs are optimized for specific tasks through customized hardware, firmware, and peripherals. They play a critical role in modern technology by enabling efficient processing, real-time control, and power optimization in specialized applications such as automotive systems, industrial automation, and IoT devices.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Application-Specific Microcontrollers (AS-MCUs)	Custom I/O interfaces, optimized instruction sets, fixed-function logic	Motor control in appliances, sensor hubs
Application-Specific Standard Parts (ASSPs)	Industry-standard peripherals, pre-defined functionality	USB controllers, Ethernet PHY chips
Custom ASIC-based MCUs	Full hardware customization, dedicated accelerators	Medical imaging systems, aerospace avionics
System-on-Chip (SoC) MCUs	Integrated CPU, memory, and application-specific IP blocks	Smartphones, automotive infotainment

3. Structure and Components

AS-MCUs typically consist of:

Core Architecture: RISC/VLIW processors with specialized execution units
Memory Hierarchy: Embedded flash (128KB-8MB), SRAM with error correction
Custom Peripherals: PWM controllers, analog comparators, hardware encryption engines
Interconnect Fabric: High-speed buses (AHB/APB) with QoS management
Power Management: Multiple voltage domains, clock gating, retention registers
Package: 48-256 pin QFP/BGA with thermal dissipation features

4. Key Technical Specifications

Parameter	Importance
Processing Throughput (MIPS/GFLOPS)	Determines real-time task execution capability
Power Consumption ( A/MHz)	Critical for battery-operated devices
Memory Size & Speed	Affects code complexity and data buffering
Operating Temperature (-40 C to +150 C)	Ensures reliability in harsh environments
Interface Protocols (CAN, LIN, Ethernet)	Enables system integration compatibility
Functional Safety Certification (ISO 26262, IEC 61508)	Required for automotive/industrial systems

5. Application Domains

Key industries utilizing AS-MCUs:

Industrial: CNC machine controllers, predictive maintenance sensors
Automotive: Engine control units (ECUs), ADAS sensor fusion modules
Medical: MRI machine motion controllers, patient monitoring systems
Consumer: Smart home appliances, wearable fitness trackers
Telecom: 5G base station beamforming controllers

6. Leading Manufacturers and Products

Manufacturer	Product Series	Key Features
Texas Instruments	MSP430FRAS	Ferroelectric memory, 16-bit MCU for energy meters
NXP Semiconductors	S32K1xx	Arm Cortex-M4 for automotive body control
STMicroelectronics	STM32A	Automotive qualified, CAN FD interface
Microchip	PIC18FXX85	Integrated LCD driver for appliance controls
Infineon	AURIX TC3xx	Tri-core architecture for motor drives

7. Selection Guidelines

Key considerations:

Match computational requirements with core architecture
Verify peripheral compatibility with system interfaces
Evaluate toolchain support (compilers, debuggers)
Assess long-term supply stability
Validate security features (AES encryption, secure boot)
Compare total cost of ownership (NRE + unit cost)

8. Industry Trends

Emerging developments:

AI/ML integration for edge computing (e.g., TensorFlow Lite on-chip)
Sub-10nm process nodes enabling 200+ MHz operation
Functional safety compliance up to ASIL-D
Energy harvesting-ready ultra-low-power designs
Rise of RISC-V based customizable cores
Increased adoption in 5G IoT gateways