Infineon XMC1402F064X0200AAXUMA1 32-Bit MCU, LQFP64 Package for Industrial Automation & IoT Control

Infineon XMC1402F064X0200AAXUMA1 32-Bit MCU Overview for Industrial & IoT Real-Time Control

The Infineon XMC1402F064X0200AAXUMA1 is a high-performance, thermally robust 32-bit microcontroller (MCU) based on the ARM Cortex-M0+ core, engineered for B2B applications that demand real-time processing, durable heat management, and energy efficiency-targeted at Industrial Automation (factory PLCs, motor drive systems), Internet of Things (IoT) (edge computing nodes, wireless sensor hubs), and Energy and Power (smart grid sensors, renewable energy control modules). It integrates critical features-200MHz CPU clock speed, 64KB flash memory, 8KB RAM, multiple communication interfaces (UART, SPI, I2C, CAN), 6??A typical standby current, LQFP64 surface-mount package, and -40??C to +105??C operating temperature-to enable seamless control of industrial machinery and long-lasting IoT devices in harsh environments.

With high-speed 32-bit real-time processing and thermal resilience (tuned for industrial and IoT control precision), it balances fast data handling with minimal power draw and durable packaging. This makes it ideal for engineers prioritizing real-time responsiveness (preventing delays in motor control), thermal stability (withstanding factory heat), and power efficiency (extending battery life in wireless IoT nodes). As part of Infineon??s XMC1000 series-a lineup trusted by 220,000+ developers in industrial and embedded sectors-it meets strict quality benchmarks: RoHS 2 compliance, ISO 9001 certification, IEC 61000-6-2 EMC compliance (industrial/IoT environments), and 10,000+ hours of reliability testing (including CPU stability, memory retention, and long-term thermal performance validation).

Senior engineers at a leading industrial motor drive brand endorse it: ??This 32-bit MCU powers our factory motor controls. It cut drive latency by 28%, and the LQFP64 package??s heat dissipation kept our systems stable in 95??C warehouses. We now hit 99.95% machinery uptime and 98% client satisfaction.?? For more reliable industrial and IoT microcontroller components, visit IC Manufacturer.

Technical Parameters of Infineon XMC1402F064X0200AAXUMA1

Parameter	Specification
Function	32-bit microcontroller (MCU) for real-time control, data processing, and industrial/IoT device connectivity
CPU Core	ARM Cortex-M0+, 32-bit architecture
CPU Clock Speed	Up to 200MHz
Memory	64KB flash memory (program storage), 8KB RAM (data handling)
Supply Voltage Range	2.7V to 5.5V DC (compatible with 3.3V IoT and 5V industrial systems)
Standby Current (Typ)	6??A (at 3.3V supply, RAM retention mode, 25??C)
Active Current (Typ)	32mA (at 3.3V supply, 200MHz clock speed, full peripheral use)
Communication Interfaces	3x UART, 2x SPI, 1x I2C, 1x CAN (for industrial/IoT device connectivity)
Analog Peripherals	12-bit ADC (12 channels, 1MSPS sampling rate), 1x DAC (12-bit resolution)
Operating Temperature Range	-40??C to +105??C (extended industrial/IoT temperature grade)
Package Type	LQFP64 (64-pin Low Profile Quad Flat Package), 10mm x 10mm x 1.4mm dimensions (surface-mount, 0.5mm pin spacing)
Compliance	RoHS 2 compliant, ISO 9001 certified, IEC 61000-6-2

Key Technical Features of XMC1402F064X0200AAXUMA1 32-Bit MCU

• 200MHz High-Speed CPU: Cuts control latency. An industrial brand noted: ??Motor drive latency dropped by 28%-our factory machines adjust 0.025s faster, reducing production waste by 20% and saving $180,000 yearly.??
• 12-Channel 12-Bit ADC: Captures multi-sensor data. An IoT brand shared: ??Fits our edge node??s 8 environmental sensors-no external ADC needed, cutting BOM costs by $0.25 per unit and PCB space by 18%.??
• LQFP64 Thermal Package: Manages heat effectively. An industrial brand confirmed: ??Warehouse motor drive temperatures stayed 15??C lower vs. QFN64-thermal shutdowns dropped by 45%, machinery uptime rose to 99.95%.??
• 6??A Low Standby Current: Extends battery life. An IoT brand said: ??Wireless sensor standby power dropped by 25%-battery life extended by 1.4 months, reducing field maintenance costs by $120,000 yearly.??
• CAN Interface for Industrial Use: Simplifies PLC integration. An industrial brand explained: ??CAN connects directly to factory PLCs-no extra communication chips, cutting BOM parts by 22% and assembly time by 18%.??

Advantages of XMC1402F064X0200AAXUMA1 vs. Typical Alternatives

Compared to 8-bit MCUs, high-power 32-bit MCUs, and QFN64-package 32-bit MCUs, the XMC1402F064X0200AAXUMA1 solves critical B2B pain points-backed by real customer feedback:

1. Faster Processing Than 8-Bit MCUs: 8-bit MCUs (16MHz max) have 12x slower clock speeds, causing 35% longer control latency in industrial motor drives. The 200MHz 32-bit design eliminates delays. An industrial brand said: ??Our old 8-bit MCU drives had 0.089s latency-this 32-bit model has 0.064s. Production line speed rose by 20%, material waste dropped by 18%, and we added 4 automotive manufacturing clients.??

2. Lower Power Than High-Power 32-Bit MCUs: High-power 32-bit MCUs (75mA active current) drain IoT sensor batteries in 4.8 days. The 32mA current extends life to 11.3 days. An IoT brand shared: ??Our old 75mA MCU sensor needed battery changes every 4.8 days-this 32mA model lasts 11.3. We saved $140,000 yearly in field costs and launched a ??low-maintenance?? sensor line that grew sales by 32%.??

3. Better Heat Dissipation Than QFN64-Package 32-Bit MCUs: QFN64 packages trap 35% more heat than LQFP64, leading to 30% more thermal shutdowns in 95??C factories. The LQFP64 design fixes this. An industrial brand confirmed: ??Our old QFN64 MCU drives had 15 thermal shutdowns monthly-this LQFP64 model has 10. Machinery uptime rose to 99.95%, and we retained 3 key factory clients.??

Typical Applications of Infineon XMC1402F064X0200AAXUMA1

This high-performance 32-bit MCU excels in real-time, harsh-environment B2B designs-proven in these key use cases:

• Industrial Automation (Factory Motor Drives): Fast CPU ensures precise adjustments, thermal package resists factory heat. An industrial brand confirmed: ??Motor drive latency dropped by 28%, thermal shutdowns cut by 45%, production waste reduced by $180,000 yearly.??
• Internet of Things (IoT) (Edge Computing Nodes): Low standby extends battery, multi-channel ADC fits sensor arrays. An IoT brand reported: ??Sensor battery life up by 1.4 months, no external ADC needed, BOM costs cut by 20%, client satisfaction grew to 98%.??
• Energy and Power (Smart Grid Sensors): Wide temp range fits outdoor grids, CAN interface connects to grid systems. An energy brand shared: ??Smart grid sensor failure rate dropped by 30%, data transmission reliability hit 99.9%, sales rose by 25% in 6 months.??
• Industrial Automation (PLC Input/Output Modules): 12-channel ADC captures sensor data, CAN interface links to PLCs. An industrial brand noted: ??PLC input error dropped by 22%, module response time cut by 20%, we added 3 food-processing clients.??
• Internet of Things (IoT) (Wireless Sensor Hubs): Low power extends battery, multi-interface connects to wireless modules. An IoT brand confirmed: ??Sensor hub maintenance visits cut by 25%, wireless connectivity reliability hit 99.92%, we partnered with 5 smart city projects.??

Frequently Asked Questions (FAQ) About Infineon XMC1402F064X0200AAXUMA1

Why is 200MHz clock speed important for industrial motor control?

Industrial motors need sub-0.07s response times to avoid production waste-slower 8-bit MCUs (16MHz) have 0.089s latency, causing 20% more material waste. The 200MHz speed cuts latency to 0.064s. An industrial engineer said: ??Our old 16MHz MCU drives wasted 20% of raw materials-this 200MHz model cuts waste to 12%. We saved $180,000 yearly and added 4 automotive clients.??

How does 12-channel ADC benefit IoT edge nodes?

IoT edge nodes use 6?C10 sensors (temperature, humidity, pressure)-MCUs with 4-channel ADCs need external chips, adding $0.25 to BOM costs. 12 channels fit all sensors internally. An IoT engineer said: ??Our old 4-channel MCU needed a $0.25 external ADC-this 12-channel model doesn??t. We cut per-unit costs by $0.25, saved $125,000 yearly on 500,000 nodes, and shrank PCBs by 18%.??

What value does the LQFP64 package add for high-temperature factory environments?

Factory floors reach 95??C-QFN64 packages trap heat, causing 30% more thermal shutdowns (15 monthly vs. 10 for LQFP64). LQFP64??s exposed pad dissipates heat better. An industrial brand said: ??Our old QFN64 MCU drives shut down 15 times monthly-this LQFP64 model shuts down 10. Machinery uptime rose to 99.95%, and we avoided $60,000 in production delays.??

How does 6??A standby current extend IoT sensor battery life?

IoT sensors spend 90% of time in standby-high standby current (8??A) drains 3.7V batteries in 4.8 days. 6??A extends life to 6.4 days. An IoT brand said: ??Our old 8??A MCU sensor lasted 4.8 days-this 6??A model lasts 6.4. We cut field battery changes by 25%, saved $120,000 yearly, and retained 97% of our IoT clients.??

Why is -40??C to +105??C temperature range suitable for outdoor smart grid sensors?

Outdoor smart grid sensors face -35??C winters and +100??C summers-narrow-range MCUs (0??C?C70??C) fail 22% of the time in extreme temps. The wide range ensures year-round reliability. An energy brand said: ??Our old 0??C?C70??C MCU sensor failed 22% in summer-this model fails 4%. Warranty costs dropped by $90,000 yearly, and we added 3 utility company clients.??