Overview of MAX1847EEE+T Low-Power Synchronous Step-Down PMIC
The MAX1847EEE+T is a compact Power Management IC (PMIC) from Analog Devices Inc. (ADI), specialized as a low-power synchronous step-down DC/DC converter for battery-powered and portable applications. It integrates high-side and low-side MOSFETs, eliminating the need for discrete switching components, and supports a voltage range optimized for Li-ion batteries (3.7V) and consumer/industrial 3.3V/5V rails. This integration streamlines power supply designs, reduces bill-of-materials (BOM) costs, and ensures stable output for sensitive electronics like IoT microcontrollers, wearables, and small industrial sensors. For trusted sourcing and consistent supply, visit الشركة المصنعة للدوائر المتكاملة.
Technical Parameters of MAX1847EEE+T Sync Step-Down PMIC
مواصفات الأداء الأساسي وتنظيم الجهد الأساسي
| المعلمة | القيمة |
|---|---|
| نوع وظيفة PMIC | Synchronous step-down DC/DC converter with integrated MOSFETs |
| نطاق جهد الإدخال | 2.7V ?C 5.5V |
| نطاق جهد الخرج القابل للتعديل | 0.8V ?C 3.6V (via external resistor divider) |
| Peak Continuous Output Current | 1.5A (typical, 25??C) |
| الميزات الرئيسية | Current mode control, 500kHz?C2MHz adjustable freq, overcurrent (OCP) protection, thermal shutdown, power-good indicator |
كفاءة الطاقة وتفاصيل التعبئة والتغليف
| المعلمة | القيمة |
|---|---|
| ذروة الكفاءة | 94% (typical, 3.7V input ?? 3.3V output, 1A load) |
| Quiescent Current (No Load) | 30??A (typical, output enabled) |
| نطاق درجة حرارة التشغيل | -40??C to 85??C (industrial/consumer grade) |
| Switching Frequency Range | 500kHz ?C 2MHz (externally adjustable via resistor) |
| نوع الحزمة | 16-pin EEE (Lead-Free Thin Shrink Small Outline Package, TSSOP, 5mm ?? 6mm footprint) |
Advantages of MAX1847EEE+T Over Traditional PMIC Alternatives
The MAX1847EEE+T stands out with its integrated MOSFETs, low power consumption, and compact TSSOP package??core strengths of ADI??s low-power PMIC portfolio. Unlike discrete step-down solutions (which require separate controllers, external MOSFETs, and input filters), its all-in-one architecture cuts BOM costs by 30% and reduces PCB complexity by 25%. This is critical for space-constrained systems like IoT sensors, smart wearables, or portable industrial tools, where every millimeter and component impacts usability and cost.
🔥 المنتجات الأكثر مبيعًا
??ADI??s MAX1847 transformed our wireless IoT sensor designs,?? says Lisa Wong, Senior Hardware Engineer at SenseTech IoT??a leading IoT module provider. ??The MAX1847EEE+T??s 30??A quiescent current extended our 3.7V Li-ion battery life by 22%, while its 16-pin TSSOP fit our 10mm ?? 10mm sensor PCB. The integrated MOSFETs also eliminated 3 discrete parts, simplifying our BOM.?? Compared to non-synchronous PMICs (88?C90% efficiency), its 94% peak efficiency reduces heat generation, avoiding the need for heat sinks in enclosed devices like fitness trackers. Its 2.7V?C5.5V input also outperforms single-voltage PMICs, seamlessly working with both Li-ion batteries (3.7V) and USB power (5V)??no redesign needed for multi-platform products.
تعمل منظومة ADI ?? على تسريع عملية التنمية: نظام EVAL-MAX1847 Evaluation Kit includes a pre-wired MAX1847EEE+T, test points, and USB interface, letting engineers validate voltage regulation, efficiency, and protection features in hours. Paired with ADI??s استوديو إدارة الطاقة (free for frequency tuning and OCP setup), development time is cut by 35% vs. manual coding. ADI??s 15+ year lifecycle commitment also ensures long-term supply??critical for consumer and IoT clients with multi-year production runs, addressing a top pain point for B2B buyers in fast-paced sectors.
🌟 المنتجات المميزة
Typical Applications for MAX1847EEE+T
The MAX1847EEE+T excels in low-power PMIC designs where compact size, battery efficiency, and reliability align:
- إنترنت الأشياء (IoT): Powers wireless sensors (temperature, motion) and smart meters??low 30??A quiescent current extends Li-ion battery life to 2+ years, compact TSSOP package fits miniaturized enclosures, and 3.3V output supports most IoT microcontrollers.
- الإلكترونيات الاستهلاكية: Regulates voltage for smart wearables (fitness trackers), portable audio devices, and small displays??94% efficiency reduces heat in enclosed designs, overcurrent protection guards against accidental shorts, and 2.7V?C5.5V input works with Li-ion/USB power.
- الأتمتة الصناعية: Supports low-power industrial sensors (proximity, light) and portable test tools??-40??C to 85??C temp range withstands factory conditions, 1.5A output powers small actuators, and compact package fits dense control panels.
Frequently Asked Questions About MAX1847EEE+T
Why is a synchronous step-down design better for battery-powered IoT devices?
Synchronous step-down PMICs use two active MOSFETs (instead of one MOSFET + a passive diode) for current recirculation, boosting efficiency to 94% vs. 88?C90% for non-synchronous designs. This lower power loss extends battery life??critical for IoT sensors that run on 3.7V Li-ion batteries. The MAX1847EEE+T??s integrated MOSFETs also eliminate discrete components, reducing PCB space by 25%??essential for miniaturized IoT enclosures where size is a primary constraint.
📩 اتصل بنا
How does the 2.7V?C5.5V input range benefit multi-platform B2B designs?
The 2.7V?C5.5V range lets the PMIC work with two common power sources: Li-ion batteries (3.7V, used in IoT/consumer devices) and industrial 5V rails (used in small sensors). This flexibility means B2B engineers can use one PMIC design across multiple products (e.g., a wearable and an industrial sensor), reducing engineering time by 40%. It also eliminates the need for separate voltage regulators, cutting BOM costs by 15% for multi-product lines.
What value does the 16-pin TSSOP package add to compact designs?
The 16-pin TSSOP package has a compact 5mm ?? 6mm footprint, saving 25% PCB space compared to larger SOIC packages??critical for devices like smart wearables or tiny IoT sensors, where enclosure size is fixed. Its surface-mount design supports automated pick-and-place assembly, reducing human error and production time for high-volume B2B runs (e.g., 10k+ IoT modules). The package??s thin profile (1.1mm) also fits slim devices like fitness trackers, where height is as important as width.
How does the 30??A quiescent current impact battery life for low-power devices?
Quiescent current is the power the PMIC uses when the system is in standby (no load). At 30??A, the MAX1847EEE+T uses 40% less standby power than competing PMICs (50??A+). For a 1000mAh Li-ion battery powering an IoT sensor that spends 90% of its time in standby, this extends runtime from 18 months to 24 months??cutting maintenance costs for B2B clients who deploy sensors in remote locations.
Which ADI tools support testing and configuring the MAX1847EEE+T?
ADI? EVAL-MAX1847 Evaluation Kit includes a pre-configured MAX1847EEE+T, input/output test points, and a USB-to-analog bridge. The free استوديو إدارة الطاقة software enables real-time monitoring of output voltage/current, adjustment of switching frequency (500kHz?C2MHz), and setup of overcurrent protection thresholds. These tools let engineers validate designs in days instead of weeks, cutting development time by 35% and ensuring faster time-to-market for low-power PMIC products.
