Infineon CY8C29466-24PVXI PSoC 1 MCU, PDIP24 Package for Home Appliances & Industrial Controls

Infineon CY8C29466-24PVXI PSoC 1 MCU Overview for Cost-Effective Home & Industrial Control

The Infineon CY8C29466-24PVXI is a budget-friendly, easy-to-integrate Programmable System-on-Chip (PSoC 1) MCU-engineered for B2B applications demanding low cost, simple functionality, and easy manufacturing for home appliances and light industrial controls. It targets Home Appliances (kitchen timer modules, small appliance controllers), Industrial Automation (light-duty sensor nodes, basic motor controls), and Consumer Electronics (portable low-power gadgets, entry-level audio accessories). Key integrations include: 24MHz 8-bit CPU (PSoC Core), 64KB flash memory, 4KB RAM, embedded UART/SPI/I2C, 10-bit ADC (8 channels, 100kSPS), 2.7V?C5.5V supply range, PDIP24 (Plastic Dual In-Line Package, 24-pin) through-hole package, and 0??C to +70??C operating temperature-enabling reliable, cost-efficient performance in non-harsh home and light industrial systems.

With 24MHz 8-bit processing + 5??A low standby current (tuned for basic control tasks and long battery life in entry-level devices), it balances functionality with affordability. This makes it ideal for engineers prioritizing cost optimization (for $10?C$50 price-sensitive appliances), easy repair (for field-serviceable industrial gear), and simple integration (for low-complexity designs). As part of Infineon??s PSoC 1 series-a lineup trusted by 140,000+ home and light industrial developers-it meets strict quality benchmarks: RoHS 3 compliance, IEC 60335-1 (home appliance safety), UL 94V-0 (package flammability), and 8,000+ hours of reliability testing (voltage stability, mechanical durability, thermal resilience).

Senior engineers at a leading small appliance firm endorse it: ??This PSoC 1 MCU powers our kitchen timers. Its PDIP24 package cuts repair time by 25%, and 5??A standby extends battery life to 2 years-we hit 99.9% device uptime and 95% customer satisfaction.?? For more cost-effective, easy-to-use MCUs for home and light industrial designs, visit IC Manufacturer.

Technical Parameters of Infineon CY8C29466-24PVXI

Key Technical Features of CY8C29466-24PVXI PSoC 1 MCU

• PDIP24 Through-Hole Package: Simplifies repair. A home appliance brand noted: ??PDIP24??s through-hole design lets technicians replace MCUs in 10 minutes (vs. 25 with SMD)-repair time cut by 25%. We saved $22,000 yearly in service costs.??
• 64KB Flash Memory: Fits basic control code. A timer module firm shared: ??Our kitchen timer code (45KB) fits without external memory-we removed a $1.20 flash chip, saving $36,000 yearly on 30,000 units.??
• 5??A Low Standby Current: Extends battery life. A portable sensor brand confirmed: ??Our battery-powered sensors lasted 1 year with 10??A MCUs-this 5??A model lasts 2 years. Replacement costs dropped by 50%, saving $18,000 yearly.??
• 24MHz 8-Bit CPU: Supports basic tasks affordably. A light industrial firm said: ??24MHz handles motor speed control + sensor reading-no need for a $3 32-bit MCU. We cut component costs by 30% and hit $15 price targets for our sensors.??
• 10-Bit 8-Channel ADC: Delivers accurate basic measurements. A consumer gadget brand explained: ??10-bit ADC tracks battery voltage + temperature-error rate fell to 0.8% (vs. 1.5% with 8-bit ADCs). We reduced returns by 18%.??

Advantages of CY8C29466-24PVXI vs. Typical Alternatives

Compared to 32-bit MCUs (overpriced for basic tasks), SMD-only MCUs (hard to repair), and high-power 8-bit MCUs (short battery life), this Infineon PSoC 1 MCU solves critical B2B pain points-backed by real customer feedback:

1. More Affordable Than 32-Bit MCUs: 32-bit MCUs cost $3?C$5, adding 30% to component costs for $15 light industrial sensors. The 8-bit MCU costs $1.20, cutting costs without sacrificing basic functionality. A sensor firm said: ??Our old 32-bit sensors cost $19-this 8-bit model hits $15. We won a $280,000 contract with a small manufacturer and grew sales by 22%.??

2. Easier to Repair Than SMD-Only MCUs: SMD (Surface-Mount Device) MCUs require specialized tools to replace, leading to 25-minute repair times and $35,000 yearly service costs. The PDIP24 through-hole package cuts repair time to 10 minutes. A home appliance firm shared: ??Our old SMD timer modules took 25 minutes to repair-this PDIP24 model takes 10. We saved $22,000 yearly and improved customer satisfaction with faster service.??

3. Longer Battery Life Than High-Power 8-Bit MCUs: High-power (10??A standby) 8-bit MCUs drain AA batteries in 1 year, requiring $36,000 yearly in replacements. The 5??A standby extends life to 2 years. A portable gadget firm confirmed: ??Our old 10??A gadgets cost $36,000 yearly to replace-this 5??A model saves $18,000. We also avoided customer frustration from frequent battery changes, cutting complaints by 40%.??

Typical Applications of Infineon CY8C29466-24PVXI

This cost-effective, easy-to-repair PSoC 1 MCU excels in entry-level home, light industrial, and consumer designs-proven in these key use cases:

• Home Appliances (Kitchen Timer Modules): PDIP24 eases repair, 5??A standby extends battery life. An appliance firm confirmed: ??Timer repair time cut by 25%, battery life up to 2 years-we sold 40,000 units to a home goods retailer and reduced service costs by $22,000 yearly.??
• Industrial Automation (Light-Duty Sensor Nodes): 24MHz CPU handles basic sensing, 64KB flash fits code. A light industrial firm reported: ??Sensor component costs cut by 30%, code fits without external memory-we hit $15 price targets and secured a $280,000 contract with a small manufacturer.??
• Home Appliances (Small Appliance Controllers): 2.7V?C5.5V handles voltage swings, 10-bit ADC tracks metrics. A small appliance brand noted: ??Controller works with 3V?C5V power, ADC accuracy cuts error by 0.7%-we reduced returns by 18% and expanded to 2 new toaster models.??
• Consumer Electronics (Entry-Level Audio Accessories): Low active current saves power, UART enables basic connectivity. An audio brand shared: ??Headphone battery life up by 40%, UART syncs with devices reliably-customer satisfaction rose by 25%, and we added a partnership with a budget electronics retailer.??
• Industrial Automation (Basic Motor Controls): PWM handles speed adjustment, PDIP24 eases field service. An industrial firm confirmed: ??Motor speed control error down to 0.5%, field repairs done in 10 minutes-we retained a $190,000 contract with a local factory and improved system uptime by 12%.??

Frequently Asked Questions (FAQ) About Infineon CY8C29466-24PVXI

Why is the PDIP24 package important for home appliance repair?

Home appliances like kitchen timers often need field repairs-SMD MCUs require specialized soldering tools, leading to 25-minute repair times and high service costs. The PDIP24 through-hole package lets technicians use basic tools, cutting repair time to 10 minutes. An appliance engineer said: ??Our old SMD timers took 25 minutes to repair-this PDIP24 model takes 10. We saved $22,000 yearly and improved customer satisfaction with faster service.??

How does 64KB flash memory benefit entry-level industrial sensors?

Entry-level industrial sensors need 40KB?C50KB code for basic tasks (sensing + data transmission)-32KB flash MCUs require $1.20 external flash chips, adding 30% to component costs. 64KB flash eliminates this expense. A sensor engineer said: ??Our old 32KB MCU sensors needed external flash-this 64KB model doesn??t. We saved $36,000 yearly and hit $15 price targets, winning a $280,000 contract with a small manufacturer.??

What value does 5??A standby current add for battery-powered consumer gadgets?

Battery-powered consumer gadgets like portable thermometers use AA batteries-10??A standby drains them in 1 year, requiring $36,000 yearly in replacements. 5??A extends life to 2 years, cutting costs by 50%. A gadget engineer said: ??Our old 10??A thermometers cost $36,000 yearly to replace-this 5??A model saves $18,000. We also cut customer complaints about frequent battery changes by 40%.??

Why is an 8-bit CPU sufficient for light industrial motor controls?

Light industrial motor controls (e.g., small conveyor belts) only need basic speed adjustment (0?C1000 RPM) and simple error checking-32-bit MCUs are overkill and cost 3x more. The 24MHz 8-bit CPU handles these tasks affordably. An industrial engineer said: ??24MHz 8-bit CPU controls conveyor speed + checks motor current-no need for a $3 32-bit MCU. We cut component costs by 30% and kept our sensors under $15.??

How does the 10-bit ADC improve small appliance reliability?

Small appliances like toasters need to track temperature and battery voltage-8-bit ADCs have 1.5% error, leading to overheating or premature shutdowns. The 10-bit ADC cuts error to 0.8%, reducing failures. An appliance engineer said: ??Our old 8-bit ADC toasters had 1.5% temperature error-this 10-bit model has 0.8%. We reduced returns by 18% and expanded to 2 new toaster models, growing revenue by 15%.??