Analog Devices MAXQ1850-BNS+T: Low-Power 32-bit MCU (28-Pin BNS+T)

Overview of MAXQ1850-BNS+T Low-Power 32-bit Embedded MCU

The MAXQ1850-BNS+T is a high-efficiency 32-bit microcontroller (MCU) from Analog Devices Inc. (ADI), engineered for battery-powered and space-constrained embedded systems. Based on ADI??s energy-optimized MAXQ? RISC architecture, it combines low-power operation with reliable performance for real-time tasks??ideal for IoT sensors, smart meters, and industrial automation. Its integration of 12-bit ADC (Analog-to-Digital Converter) and 2KB EEPROM, plus multi-protocol peripherals (UART, SPI), eliminates external components, reducing design complexity and bill-of-materials (BOM) costs. For trusted sourcing and consistent supply, visit IC 製造商.

Technical Parameters of MAXQ1850-BNS+T 32-bit Embedded MCU

Core Performance & Peripheral Specifications

Power & Packaging Details

Advantages of MAXQ1850-BNS+T Over Embedded MCU Alternatives

The MAXQ1850-BNS+T stands out with its blend of 32-bit performance, ultra-low power, and integrated peripherals??hallmarks of ADI??s MAXQ? MCU portfolio. Unlike 16-bit MCUs, its 32-bit architecture handles complex tasks (e.g., multi-sensor data fusion, energy consumption calculations) without sacrificing efficiency, making it ideal for power-constrained devices where performance cannot be compromised.

??ADI??s MAXQ1850 transformed our smart electricity meter lineup,?? says Carlos Mendez, Senior Engineer at PowerMetric Solutions. ??The MAXQ1850-BNS+T??s 0.6??A idle current extended battery life from 9 to 16 months, while its 40MHz clock processed usage data 2x faster than our old 16-bit MCU. The 2KB EEPROM also eliminated external memory, cutting our meter??s failure rate by 18%.?? Compared to MCUs with separate ADC/EEPROM, it reduces BOM costs by 20% and PCB space by 20%, avoiding external chips that increase wiring errors and failure risks. Its industrial-grade temperature range (-40??C to 85??C) also outperforms consumer-grade MCUs, ensuring reliability in outdoor meter boxes or factory sensor deployments.

ADI??s ecosystem further accelerates development: the EVAL-MAXQ1850 Evaluation Kit includes a pre-wired MCU, sensor interfaces, and debug tools, letting engineers test ADC performance and EEPROM data storage in hours. Paired with ADI??s MAXQ Development Studio (a free IDE with RISC code libraries), development time is cut by 30% vs. manual coding. ADI??s 10+ year lifecycle commitment also ensures long-term supply??critical for utility and industrial clients with multi-year production runs, addressing a top pain point for B2B buyers.

Typical Applications for MAXQ1850-BNS+T

The MAXQ1850-BNS+T excels in low-power, performance-driven embedded systems where integration and reliability align with ADI??s engineering expertise:

• 物聯網 (IoT)： Powers wireless data loggers (temperature, humidity, pressure) for smart agriculture and asset tracking??low idle current reduces maintenance costs, while 40MHz clock enables real-time data processing for edge analytics.
• 工業自動化： Controls low-power industrial sensors (flow, pressure) and small actuators??12-bit ADC ensures accurate measurements, and industrial temperature range withstands factory heat and vibration.
• 能源與電力： Supports smart meters (electricity, gas, water)??integrated EEPROM stores usage data during power outages, and UART enables communication with utility networks, simplifying deployment.

Frequently Asked Questions About MAXQ1850-BNS+T

Why is the 32-bit MAXQ? RISC core suitable for low-power embedded applications?

The 32-bit MAXQ? RISC core is optimized for energy efficiency: it executes instructions in fewer cycles than 16-bit cores, keeping active current low (2.0mA at 40MHz) while handling complex tasks. For IoT/utility devices, this means faster processing of sensor data (e.g., calculating energy usage) without draining batteries??critical for long-term, maintenance-free operation in remote or hard-to-access locations.

How does the 0.6??A idle current extend battery life for wireless embedded devices?

Idle current is the power the MCU uses when idle (e.g., waiting for a sensor trigger or RTC alarm). At 0.6??A, the MAXQ1850-BNS+T uses 45% less idle power than typical 32-bit MCUs (1.1?C1.3??A). For a wireless sensor with a 1000mAh battery, this extends runtime from 9 months to 16 months??reducing the need for frequent battery replacements in locations like utility poles, agricultural fields, or factory ceilings.

What value do the integrated 12-bit ADC and 2KB EEPROM add to embedded designs?

These components eliminate external analog conversion and data storage chips, cutting BOM costs by 20% and PCB space by 20%. The 12-bit ADC accurately samples analog sensor inputs (e.g., current, temperature), while the 2KB EEPROM stores critical data (e.g., meter calibration, user settings) during power outages. This simplifies design, reduces wiring errors, and lowers failure risks??key for reliable long-term operation in industrial or utility settings.

Can this MCU operate in harsh outdoor or industrial environments?

Yes??its -40??C to 85??C operating range meets industrial-grade standards, withstanding extreme cold (e.g., winter smart meters in northern regions) and heat (e.g., factory floor sensors near machinery). Its robust power supply design also resists voltage fluctuations common in industrial grids or battery-powered systems, while the ADC maintains ??1LSB accuracy even at temperature extremes??unlike consumer-grade MCUs that lose performance or fail in harsh conditions.

Which ADI tools support programming and testing the MAXQ1850-BNS+T?

ADI??s EVAL-MAXQ1850 Kit includes a pre-configured MAXQ1850-BNS+T, ADC test points, and a debug interface for loading code. The free MAXQ Development Studio provides compilers, RISC code libraries (for UART, SPI, and ADC), and a simulator??no expensive third-party tools needed. These resources let engineers validate designs in days, cutting development time by 30% and ensuring faster time-to-market for embedded products.