Infineon CY8C5468AXI-LP106 PSoC 5LP MCU, QFP100 Package for Industrial Automation & IoT

Infineon CY8C5468AXI-LP106 PSoC 5LP MCU Overview for Industrial Control & IoT Nodes

The Infineon CY8C5468AXI-LP106 is a versatile, industrial-grade Programmable System-on-Chip (PSoC 5LP) MCU-engineered for B2B applications demanding flexible peripheral integration, ruggedness, and ease of manufacturing for industrial automation and IoT edge systems. It targets Industrial Automation (factory sensor nodes, motor control modules), Internet of Things (IoT) (industrial IoT gateways, remote monitoring devices), and Home Appliances (high-power smart appliances like washing machines). Key integrations include: 80MHz ARM Cortex-M3 core, 256KB flash memory, 64KB RAM, embedded UART/SPI/I2C/CAN (industrial communication), 12-bit ADC (20 channels, 1MSPS), 2.7V?C5.5V supply range, QFP100 (Quad Flat Package, 100-pin) through-hole/surface-mount package, and -40??C to +85??C operating temperature-enabling reliable, easy-to-implement performance in industrial and heavy-duty home systems.

With 80MHz Cortex-M3 processing + 1.2??A low standby current (tuned for industrial multi-tasking and long sensor life), it balances speed with energy efficiency. This makes it ideal for engineers prioritizing ease of debugging (for factory production lines), CAN communication (for industrial networks), and temperature resilience (for harsh factory floors). As part of Infineon??s PSoC 5LP series-a lineup trusted by 160,000+ industrial developers-it meets strict quality benchmarks: RoHS 3 compliance, IEC 61000-6-2 (industrial EMC immunity), UL 60950-1 (safety), and 20,000+ hours of reliability testing (vibration resistance, voltage stability, communication integrity).

Senior engineers at a leading industrial sensor firm endorse it: ??This PSoC 5LP MCU powers our factory temperature sensors. Its QFP100 package cuts debugging time by 22%, and 1.2??A standby extends battery life to 3 years-we hit 99.97% device uptime and 96% client satisfaction.?? For more industrial-grade, easy-to-use MCUs for automation and IoT designs, visit IC Manufacturer.

Technical Parameters of Infineon CY8C5468AXI-LP106

Key Technical Features of CY8C5468AXI-LP106 PSoC 5LP MCU

• 80MHz Cortex-M3 Core: Boosts industrial response speed. A motor control brand noted: ??80MHz M3 cuts CAN communication latency to 9??s (vs. 15??s with 60MHz MCUs)-factory motor sync improved by 40%. Downtime dropped by 25%.??
• QFP100 Package: Eases manufacturing. An IoT gateway firm shared: ??QFP100??s larger pins simplify soldering/debugging-production downtime fell from 2.5 hours/day to 2 hours/day. We saved $36,000 yearly in labor costs.??
• 1.2??A Low Standby Current: Extends sensor life. An industrial sensor brand confirmed: ??Our factory sensors lasted 1.5 years with 2.4??A MCUs-this 1.2??A model lasts 3 years. Battery replacement costs dropped by 50%, saving $48,000 yearly.??
• CAN 2.0B Communication: Enables industrial network integration. A factory control firm said: ??CAN 2.0B connects to 30+ factory devices (vs. 15 with UART-only MCUs)-we reduced wiring costs by 35% and simplified system upgrades.??
• 20-Channel 12-Bit ADC: Enhances data accuracy. A monitoring device brand explained: ??20 channels track 8 factory metrics-data error rate fell from 1.2% to 0.3%. We retained a $1.1M contract with a manufacturing plant.??

Advantages of CY8C5468AXI-LP106 vs. Typical Alternatives

Compared to low-speed industrial MCUs (slow communication), small-pin-count MCUs (limited peripherals), and high-power standby MCUs (short sensor life), this Infineon PSoC 5LP MCU solves critical B2B pain points-backed by real customer feedback:

1. Faster Than Low-Speed Industrial MCUs: Low-speed (60MHz) industrial MCUs cause 15??s CAN latency, leading to 8% factory motor sync errors. The 80MHz M3 cuts latency to 9??s. A motor control firm said: ??Our old 60MHz modules had 8% sync errors-this 80MHz model has 3%. Downtime dropped by 25%, saving $60,000 yearly in lost production.??

2. More Peripherals Than Small-Pin-Count MCUs: Small-pin-count (64-pin) MCUs lack CAN/LIN, requiring $6 external communication chips to connect to industrial networks. The 100-pin QFP eliminates this cost. An IoT gateway firm shared: ??Our old 64-pin gateways needed external CAN chips-this 100-pin model doesn??t. We saved $30,000 yearly and reduced PCB component count by 10%, cutting production errors by 12%.??

3. Longer Sensor Life Than High-Power Standby MCUs: High-power (2.4??A standby) MCUs drain sensor batteries in 1.5 years, requiring $96,000 yearly in replacements. The 1.2??A standby extends life to 3 years. An industrial sensor firm confirmed: ??Our old 2.4??A sensors cost $96,000 yearly to replace-this 1.2??A model saves $48,000. We also avoided service disruptions that risked $35,000 in contract penalties.??

Typical Applications of Infineon CY8C5468AXI-LP106

This industrial-grade, easy-to-use PSoC 5LP MCU excels in rugged, multi-tasking industrial and heavy-duty home designs-proven in these key use cases:

• Industrial Automation (Factory Sensor Nodes): 1.2??A standby extends life, CAN enables network sync. An industrial firm confirmed: ??Sensor battery life up to 3 years (vs. 1.5 years), data error rate down to 0.3%-we secured a $420,000 contract with a automotive factory and reduced service calls by 85%.??
• Internet of Things (IoT) (Industrial IoT Gateways): QFP100 eases manufacturing, 80MHz core boosts speed. An IoT supplier reported: ??Gateway production downtime cut by 20%, CAN connects 30+ devices-we sold 35,000 units to a logistics firm and improved system scalability by 40%.??
• Home Appliances (High-Power Smart Washers): 2.7V?C5.5V handles voltage swings, PWM controls motor speed. A home appliance brand noted: ??Washer motor efficiency improved by 18%, voltage fluctuation tolerance reduced errors by 22%-we sold 50,000 units to a major retailer and reduced returns by 28%.??
• Industrial Automation (Motor Control Modules): 80MHz core cuts latency, 20-channel ADC tracks performance. A motor firm shared: ??Motor sync latency down to 9??s (vs. 15??s), failure rates cut by 30%-we retained a $1.3M contract with a packaging plant and expanded to 2 new motor models.??
• Internet of Things (IoT) (Remote Monitoring Devices): -40??C to +85??C handles outdoors, 256KB flash fits code. An IoT firm confirmed: ??Monitoring devices work in -35??C warehouse temps, multi-protocol code fits without external memory-we sold 28,000 units to a food storage firm and improved data reliability by 32%.??

Frequently Asked Questions (FAQ) About Infineon CY8C5468AXI-LP106

Why is the 80MHz Cortex-M3 core important for factory motor control modules?

Factory motor control modules need low CAN latency (??10??s) to sync with industrial networks-60MHz MCUs cause 15??s latency, leading to 8% sync errors and production downtime. The 80MHz M3 cuts latency to 9??s. A motor engineer said: ??Our old 60MHz modules had 8% sync errors-this 80MHz model has 3%. Downtime dropped by 25%, saving $60,000 yearly in lost production.??

How does the QFP100 package benefit industrial IoT gateway manufacturing?

Industrial IoT gateways require easy soldering/debugging to minimize production downtime-small-pin packages (QFN64) have tiny pins that slow debugging, causing 2.5 hours/day of downtime. The QFP100??s larger pins cut downtime to 2 hours/day. An IoT engineer said: ??Our old QFN64 gateways had 2.5 hours/day downtime-this QFP100 model has 2 hours. We saved $36,000 yearly in labor costs and met 99% of delivery deadlines.??

What value does 1.2??A standby current add for factory sensor nodes?

Factory sensor nodes use industrial lithium batteries-2.4??A standby drains them in 1.5 years, requiring $96,000 yearly in replacements. 1.2??A extends life to 3 years, cutting costs by 50%. An industrial engineer said: ??Our old 2.4??A sensors cost $96,000 yearly to replace-this 1.2??A model saves $48,000. We also avoided service disruptions that risked $35,000 in contract penalties.??

Why is CAN 2.0B communication critical for industrial IoT gateways?

Industrial IoT gateways need to connect 20+ factory devices (motors, sensors) to a central network-UART-only MCUs can connect 15 devices max, requiring extra wiring and $6 external CAN chips. CAN 2.0B eliminates this. A gateway engineer said: ??Our old UART-only gateways needed external CAN chips-this CAN 2.0B model doesn??t. We saved $30,000 yearly and reduced wiring costs by 35%.??

How does the 20-channel ADC improve remote monitoring devices for food storage?

Remote monitoring devices for food storage need to track 8+ metrics (temperature, humidity, voltage)-12-channel ADCs force metric prioritization, leading to 1.2% data errors. The 20-channel ADC eliminates prioritization, cutting error to 0.3%. An IoT engineer said: ??Our old 12-channel ADCs had 1.2% errors-this 20-channel model has 0.3%. We retained a $750,000 contract with a food storage firm and improved customer trust by 30%.??