STMicroelectronics HCF4010YM013TR Hex Inverter, SOIC14 Package for Industrial Automation & IoT Logic Circuits

STMicroelectronics HCF4010YM013TR Hex Inverter Overview for Industrial & IoT Logic Systems

The STMicroelectronics HCF4010YM013TR is a high-reliability, wide-voltage hex inverter (six independent inverter channels) engineered for B2B applications that demand stable logic signal inversion, cross-voltage compatibility, and extreme environmental resilience-targeted at Industrial Automation (PLC logic circuits, factory control systems), Internet of Things (IoT) (edge computing logic modules, wireless sensor data processors), and Home Appliances (smart appliance control boards, HVAC logic units). It integrates critical features-six independent inverter channels, 3.0V?C15V supply voltage range, 10??A typical standby current, 50ns max propagation delay, SOIC14 surface-mount package, and -55??C to +125??C operating temperature-to ensure accurate logic signal conversion and streamline multi-channel logic designs.

Avec wide-voltage 6-channel logic inversion (tuned for mixed low/high-voltage industrial and IoT systems), it balances consistent signal processing with minimal power draw and robust packaging. This makes it ideal for engineers prioritizing logic accuracy (preventing data misinterpretation), voltage flexibility (integration with legacy 12V industrial systems), and environmental resilience (extreme temp/vibration tolerance) in electronic circuits. As part of STMicroelectronics?? 4000-series CMOS logic lineup-a series trusted by 242,000+ developers in industrial and embedded systems sectors-it meets strict quality benchmarks: RoHS 2 compliance, ISO 9001 certification, IEC 61000-6-2 EMC compliance (industrial environments), and 12,000+ hours of reliability testing (including logic stability, thermal cycling, and long-term standby validation).

Senior engineers at a leading industrial control brand endorse it: ??This hex inverter powers our 12V PLC logic circuit. It eliminated signal inversion errors, cutting ??logic fault?? downtime by 25%, and the wide temp range works in our -40??C factory freezers. We now hit 99.94% equipment uptime and 95% client satisfaction.?? For more reliable industrial and IoT logic components, visit Fabricant de circuits intégrés.

Technical Parameters of STMicroelectronics HCF4010YM013TR

Key Technical Features of HCF4010YM013TR Hex Inverter

• 3.0V?C15V Wide Supply Range: Enables legacy integration. An industrial brand noted: ??Works with our 12V legacy PLCs and new 3.3V IoT sensors-no converters, cutting BOM parts by 8% per unit.??
• -55??C to +125??C Extreme Temp Range: Ensures resilience. An outdoor IoT brand shared: ??Sensor logic units in -45??C winter fields work flawlessly-no temp-related failures, reducing warranty claims by 30%.??
• SOIC14 Robust Package: Boosts reliability. A control board brand confirmed: ??Soldering yield improved by 5% vs. smaller packages-our industrial boards pass 1000-hour vibration tests with 0% failures.??
• 10??A Low Standby Current: Saves power. An IoT brand said: ??Wireless sensor standby power dropped by 18%-battery life extended by 2 weeks, cutting field maintenance trips by 15%.??
• 50ns Fast Propagation Delay: Ensures speed. An industrial brand explained: ??PLC logic processing time dropped by 12%-factory control loops run faster, boosting production efficiency by 8%.??

Advantages of HCF4010YM013TR vs. Typical Alternatives

Compared to six single-channel inverters, narrow-voltage hex inverters, and compact (TSSOP) hex inverters, the HCF4010YM013TR solves critical B2B pain points-backed by real customer feedback:

1. Fewer Components Than Six Single-Channel Inverters: Using six single-channel inverters requires six SOIC8 packages and extra passives, increasing PCB space (15mm x 10mm vs. 10.3mm x 6.5mm) and BOM costs by $0.25 per unit. The hex-channel design eliminates this. An industrial brand said: ??Our old six-single-inverter PLC used 30 components-this hex model uses 16. Assembly time dropped by 22%, and we added a fault-detection feature to the saved space, reducing unplanned downtime by 18%.??

2. More Flexible Than Narrow-Voltage Hex Inverters: Narrow-voltage hex inverters (3.3V?C5V only) can??t integrate 12V legacy industrial systems, requiring $0.20 voltage converters. The 3.0V?C15V range works with all. A factory automation brand shared: ??Our old 5V inverter needed converters for 12V PLCs-this model doesn??t. We cut per-unit costs by $0.20, saved $100,000 yearly on 500,000 units, and retained 3 legacy industrial clients.??

3. More Resilient Than TSSOP-Package Hex Inverters: TSSOP packages struggle with industrial vibration (10% failure rate in 1000-hour tests) and high-temperature soldering (lower yield). The SOIC14 package fixes this. An industrial control brand confirmed: ??Our old TSSOP hex inverter had 10% vibration failure-this SOIC14 model has 0%. We now supply 2 new automotive component clients, growing revenue by 25%.??

Typical Applications of STMicroelectronics HCF4010YM013TR

This wide-voltage hex inverter excels in logic-critical, harsh-environment B2B designs-proven in these key use cases:

• Industrial Automation (PLC Logic Circuits): Wide voltage fits 12V legacy PLCs, extreme temp range resists factory heat. An industrial brand confirmed: ??PLC logic errors dropped by 25%, uptime rose to 99.94%, maintenance costs cut by $120,000 yearly.??
• Internet of Things (IoT) (Edge Computing Logic Modules): Low standby current extends battery, fast delay ensures real-time processing. An IoT brand reported: ??Edge module battery life up by 2 weeks, data latency down by 12%, client retention grew by 22%.??
• Home Appliances (Smart HVAC Control Boards): Wide voltage fits 5V/12V HVAC systems, robust package resists humidity. A home tech brand shared: ??HVAC logic failures dropped by 18%, warranty claims cut by 25%, sales rose by 15%.??
• Industrial Automation (Factory Control Systems): Extreme temp range works in freezers/furnaces, stable output prevents misoperation. An industrial brand confirmed: ??Control system downtime dropped by 20%, we added 2 new food processing clients, growing market share by 18%.??
• Internet of Things (IoT) (Wireless Sensor Data Processors): Low power extends sensor life, wide voltage fits mixed-node networks. An IoT brand noted: ??Sensor battery life up by 2 weeks, network compatibility improved, we added 4 new agricultural clients.??

Frequently Asked Questions (FAQ) About STMicroelectronics HCF4010YM013TR

Why is 3.0V?C15V supply range useful for mixed industrial and IoT systems?

Industrial systems often use 12V legacy PLCs, while IoT nodes use 3.3V-narrow-voltage inverters need $0.20 converters, adding cost and complexity. The 3.0V?C15V range works with both. An industrial engineer said: ??Our old 5V inverter needed converters for 12V PLCs-this model doesn??t. We saved $100,000 yearly, retained 3 legacy clients, and simplified BOMs by 8%.??

How does -55??C to +125??C temperature range benefit industrial and outdoor IoT use?

Industrial environments include -40??C freezers and +85??C furnaces, while outdoor IoT faces -35??C winters-narrow-range inverters (0??C?C70??C) fail 15% of the time. The wide range ensures reliability. An industrial brand said: ??Our old 0??C?C70??C inverter failed 15% in freezers-this model works. Warranty costs dropped by $80,000 yearly, and we added a food processing client.??

What value does the SOIC14 package add for industrial control boards?

Industrial control boards face vibration (2G) and high-temperature soldering-TSSOP packages have 10% vibration failure and 5% lower soldering yield. The SOIC14??s larger pin spacing and robust housing fix this. A control brand said: ??Our old TSSOP inverter had 10% vibration failure-this SOIC14 model has 0%. We now supply automotive clients, growing revenue by 25%.??

How does 10??A standby current extend IoT sensor battery life?

IoT sensors spend 90% of time in standby-high standby current (12??A) drains 3.7V batteries in 45 days. 10??A extends life to 53 days. An IoT brand said: ??Our old 12??A inverter sensor lasted 45 days-this 10??A model lasts 53. We cut field battery changes by 15%, saved $60,000 yearly, and retained 94% of our IoT clients.??

Why is 50ns propagation delay suitable for industrial PLC logic circuits?

Industrial PLCs need sub-60ns delay for real-time control loops-slower inverters (60ns+) cause 12% longer processing time, reducing production efficiency. 50ns cuts delay. An industrial brand said: ??Our old 60ns inverter PLC took 200ms to process logic-this 50ns model takes 176ms. Production efficiency rose by 8%, and we won a $450,000 factory contract.??