STMicroelectronics M74HC365YRM13TR Hex Buffer, SOIC13N Package for IoT & Consumer Electronics Signal Routing

STMicroelectronics M74HC365YRM13TR Hex Buffer Overview for IoT & Consumer Electronics Signal Systems

The STMicroelectronics M74HC365YRM13TR is a low-power, wide-voltage hex buffer with 3-state outputs, engineered for B2B applications that demand compact 6-channel signal gating, cross-voltage compatibility, and energy efficiency-targeted at Internet of Things (IoT) (wireless sensor nodes, edge computing devices), Consumer Electronics (smart home hubs, portable media players), and Home Appliances (smart thermostats, kitchen appliance control boards). It integrates critical features-six independent buffer channels, 2.0V?C6.0V supply voltage range, 1.0??A typical standby current, 24ns max propagation delay, SOIC13N surface-mount package, and -40??C to +85??C operating temperature-to eliminate signal cross-talk and streamline space-constrained multi-device communication designs.

With compact 6-channel signal gating (tuned for 3.3V/5V IoT and consumer systems), it balances reliable data transfer with minimal power draw and small footprint. This makes it ideal for engineers prioritizing space efficiency (compact device designs), power efficiency (battery-powered IoT nodes), and signal stability (preventing data corruption) in electronic circuits. As part of STMicroelectronics?? HC-series logic lineup-a series trusted by 230,000+ developers in consumer and embedded sectors-it meets strict quality benchmarks: RoHS 2 compliance, ISO 9001 certification, IEC 61000-6-3 EMC compliance (consumer environments), and 8,000+ hours of reliability testing (including signal integrity, thermal stability, and long-term standby validation).

Senior engineers at a leading IoT sensor brand endorse it: ??This hex buffer powers our 6-sensor wireless nodes. It cut ??signal collision?? downtime by 28%, and the SOIC13N package let us shrink our sensor size by 15%. We now hit 99.9% sensor uptime and 96% client satisfaction.?? For more reliable IoT and consumer electronics logic components, visit IC Manufacturer.

Technical Parameters of STMicroelectronics M74HC365YRM13TR

Key Technical Features of M74HC365YRM13TR Hex Buffer

• 2.0V?C6.0V Wide Supply Range: Simplifies mixed-system integration. A consumer electronics brand noted: ??Works with 3.3V smart hub chips and 5V peripheral modules-no $0.12 converters, cutting BOM costs by 14% per unit.??
• 24ns Propagation Delay: Ensures timely data transfer. An IoT brand shared: ??Sensor data latency dropped by 22%-our nodes send alerts 0.05s faster, reducing response time for industrial clients.??
• SOIC13N Compact Package: Saves critical space. A home appliance brand confirmed: ??Smart thermostat PCB area used dropped by 15% vs. SOIC14-we added a humidity sensor, boosting product functionality and sales by 22%.??
• 1.0??A Low Standby Current: Extends battery life. An IoT brand said: ??Wireless sensor standby power dropped by 20%-battery life extended by 1.2 months, reducing field maintenance costs by $90,000 yearly.??
• ??4mA Output Drive: Ensures signal strength. A consumer brand explained: ??Drives 5-meter smart home cables without loss-??weak signal?? issues in hubs dropped by 30%, cutting customer support tickets by 25%.??

Advantages of M74HC365YRM13TR vs. Typical Alternatives

Compared to six single-channel buffers, high-power hex buffers, and bulky SOIC14-package hex buffers, the M74HC365YRM13TR solves critical B2B pain points-backed by real customer feedback:

1. Fewer Components Than Six Single-Channel Buffers: Using six single-channel buffers requires six SOT23 packages and extra passives, increasing PCB space (12mm x 8mm vs. 8.7mm x 5.3mm) and BOM costs by $0.25 per unit. The hex-channel design eliminates this. A consumer brand said: ??Our old six-single-buffer smart hub used 28 components-this hex model uses 16. Assembly time dropped by 23%, and we added a motion sensor to the saved space, growing product appeal and market share by 18%.??

2. Longer Battery Life Than High-Power Hex Buffers: High-power hex buffers (5.0mA per channel) drain IoT 6-sensor batteries in 4.8 days. The 2.5mA current extends life to 6.5 days. An IoT brand shared: ??Our old 5.0mA buffer sensor needed battery changes every 4.8 days-this 2.5mA model lasts 6.5. We saved $120,000 yearly in field costs and added 5 new industrial IoT clients.??

3. Smaller Footprint Than SOIC14-Package Hex Buffers: SOIC14 hex buffers take up 30% more PCB space than SOIC13N (12.4mm x 6.5mm vs. 8.7mm x 5.3mm), forcing compact consumer devices to exceed size limits. The SOIC13N package fixes this. A portable electronics brand confirmed: ??Our old SOIC14 buffer media player was 11mm thick-too big for 10mm-max cases. This SOIC13N model fits, and we launched a slim variant that boosted sales by 30%.??

Typical Applications of STMicroelectronics M74HC365YRM13TR

This compact hex buffer excels in space-constrained, low-power B2B designs-proven in these key use cases:

• Internet of Things (IoT) (Wireless Sensor Nodes): Low standby extends battery, compact package fits small sensors. An IoT brand confirmed: ??Sensor battery life up by 1.2 months, data loss dropped by 28%, maintenance costs cut by $90,000 yearly.??
• Consumer Electronics (Smart Home Hubs): Wide voltage fits mixed chips, small package saves space. A consumer brand reported: ??Hub peripheral issues dropped by 30%, BOM costs cut by 14%, client satisfaction grew to 96%.??
• Home Appliances (Smart Thermostats): Temperature range fits home environments, low power reduces energy use. A home appliance brand shared: ??Thermostat signal errors dropped by 25%, energy use down by 12%, sales rose by 22% in 6 months.??
• Internet of Things (IoT) (Edge Computing Devices): Fast delay ensures real-time data, compact package fits edge nodes. An IoT brand noted: ??Edge node latency dropped by 22%, device size shrank by 15%, we added 3 new industrial clients.??
• Consumer Electronics (Portable Media Players): Small package fits slim designs, low power extends playback time. A portable brand confirmed: ??Media player thickness dropped to 10mm, playback time up by 1.5 hours, customer retention hit 94%.??

Frequently Asked Questions (FAQ) About STMicroelectronics M74HC365YRM13TR

Why is 2.0V?C6.0V supply range useful for IoT and consumer systems?

IoT sensors use 3.3V, while consumer peripherals use 5V-narrow-voltage buffers need $0.12 converters, adding cost and complexity. The 2.0V?C6.0V range works with both. An IoT engineer said: ??Our old 3.3V buffer needed converters for 5V hubs-this model doesn??t. We cut per-unit costs by $0.12, saved $60,000 yearly on 500,000 units, and added 4 new consumer IoT clients.??

How does 24ns propagation delay improve IoT edge node performance?

IoT edge nodes need fast delay for real-time data-slower buffers (35ns) cause 22% longer latency. 24ns cuts delay, speeding response. An IoT brand said: ??Our old 35ns buffer node took 0.32s to send data-this 24ns model takes 0.25s. Industrial clients reported 22% faster issue resolution, and we won a $350,000 edge sensor contract.??

What value does the SOIC13N package add for smart home hubs?

Smart home hubs need compact PCBs (max 9mm x 6mm per component)-SOIC14 buffers (12.4mm x 6.5mm) exceed this, limiting feature integration. The SOIC13N??s small size fixes this. A consumer brand said: ??Our old SOIC14 buffer hub had 4 ports-this SOIC13N model has 5. We added a USB-C port, growing hub sales by 25%.??

How does 1.0??A standby current extend IoT sensor battery life?

IoT 6-sensor nodes spend 90% of time in standby-high standby current (1.8??A) drains 3.7V batteries in 4.8 days. 1.0??A extends life to 6.5 days. An IoT brand said: ??Our old 1.8??A buffer sensor lasted 4.8 days-this 1.0??A model lasts 6.5. We cut field battery changes by 20%, saved $120,000 yearly, and retained 95% of our IoT clients.??

Why is -40??C to +85??C temperature range suitable for home appliances?

Home appliances face 0??C (garage freezers) to 75??C (kitchen ovens)-narrow-range buffers (0??C?C70??C) fail 12% of the time. The wide range ensures reliability. A home appliance brand said: ??Our old 0??C?C70??C buffer failed 12% in freezers-this model fails 2%. Warranty costs dropped by $80,000 yearly, and we added a major home goods retailer as a client.??