MAX40203
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MAX40203

Ultra-Tiny nanoPower, 1A Ideal Diodes with Ultra-Low-Voltage Drop

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Current Switch/Ideal Diode Saves Space and Offers 10x Lower Voltage Drop Than Schottkys

Info: : PRODUCTION tooltip
Info: : PRODUCTION tooltip
Part Details
Part Models 4
1ku List Price Starting From $0.35
Features
  • Lower Voltage Drop in Portable Applications
    • 14mV Forward Drop at 1mA (WLP)
    • 16mV Forward Drop at 100mA (WLP)
    • 43mV Forward Drop at 500mA (WLP)
    • 90mV Forward Drop at 1A (WLP)
  • Longer Battery Life
    • Low Leakage When Reverse-Biased from VDD:
      • 10nA (typ)
    • Low Supply Quiescent Current
      • 300nA (typ), 500nA (max)
  • Smaller Footprint Than Larger Schottky Diodes
    • Tiny 0.77mm x 0.77mm 4-Bump WLP
    • 5-Pin SOT23 Package
  • Wide Supply Voltage Range: 1.2V to 5.5V
  • Thermally Self-Protecting
  • -40°C to +125° C Operating Temperature Range
Additional Details
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The MAX40203 is an ideal diode current-switch with forward voltage drop that is approximately an order of magnitude smaller than that of Schottky diodes. When forward biased and enabled, the MAX40203 conducts with 90mV of voltage drop while carrying currents as high as 1A. During a short-circuit or a fast power-up, the device limits its output current to 2A. The MAX40203 thermally protects itself and any downstream circuitry from overcurrent conditions.

This ideal diode operates from a supply voltage of 1.2V to 5.5V. The supply current is relatively constant with load current, and is typically 300nA. When disabled (EN = low), the ideal diode blocks voltages up to 6V in either direction, makes it suitable for use in most low-voltage, portable electronic devices.

The MAX40203 is available in a tiny, 0.77mm x 0.77mm, 4-bump WLP with a 0.35mm bump pitch and a 5-pin SOT23 package. It is specified over the -40°C to +125°C automotive temperature range.

Applications

  • Battery Backup Systems
  • Cellular Phones
  • Electronic Toys
  • Notebook and Tablet Computers
  • Portable Medical Devices
  • Powerline Fault Recorders
  • USB-Powered Peripherals
Part Models 4
1ku List Price Starting From $0.35

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Documentation

Documentation

Video

Part Model Pin/Package Drawing Documentation CAD Symbols, Footprints, and 3D Models
MAX40203ANS+
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MAX40203ANS+T
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MAX40203AUK+
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MAX40203AUK+T
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Software & Part Ecosystem

Software & Part Ecosystem

Evaluation Kit

Evaluation Kits 3

MAX40203-W-EVKIT

Evaluation Kit for the MAX40203

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MAX40203-W-EVKIT

Evaluation Kit for the MAX40203

Evaluation Kit for the MAX40203

Features and Benefits

  • Drops Only 43mV at 500mA
  • Less than 10nA Leakage When Reverse-Biased From VDD
  • Supply Voltage Range: Between 1.2V and 5.5V
  • Low Supply Quiescent Current: 300nA (typ), 500nA (max)
  • Thermally Self-Protecting
  • -40°C to +125°C Temperature Range
  • Evaluates MAX40203ANS+
  • Accommodates Easy-to-Use Components
  • Proven PCB Layout
  • Fully Assembled and Tested

Product Detail

The MAX40203 WLP evaluation kit provides a proven design to evaluate the MAX40203 “ideal-diode”. This EV kit demonstrates the MAX40203 in a tiny 4-bump WLP (MAX40203ANS+).

The MAX40203 WLP EV kit PCB comes with two MAX40203ANS+ devices installed. The MAX40203 device is a current-switch, which drops so little voltage as to approximate an “ideal diode”.

Applications

  • Battery Backup Systems
  • Cellular Phones
  • Electronic Toys
  • Notebook and Tablet Computers
  • Portable Medical Devices
  • Powerline Fault Recorders
  • USB-Powered Peripherals
reference details image

MAX40203EVKIT

Evaluation Kit for the MAX40203

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MAX40203EVKIT

Evaluation Kit for the MAX40203

Evaluation Kit for the MAX40203

Features and Benefits

  • Drops Only 100mV at 500mA
  • Less than 10nA Leakage When Reverse-Biased From VDD
  • Supply Voltage Range: Between 1.2V and 5.5V
  • Low Supply Quiescent Current: 300nA (typ), 500nA (max)
  • Thermally Self-Protecting
  • -40 °C to +125 °C Temperature Range
  • Evaluates MAX40203AUK+
  • Accommodates Easy-to-Use Components
  • Proven PCB Layout
  • Fully Assembled and Tested

Product Detail

The MAX40203 evaluation kit (EV kit) provides a proven design to evaluate the MAX40203 “ideal-diode”. This EV kit demonstrates the MAX40203 in a space-saving 5-pin SOT23 (MAX40203AUK+). This EV kit can be used to evaluate the MAX40203AUK+ as well.

The MAX40203 EV kit PCB comes with two MAX40203AUK+ devices installed. The MAX40203 device is a current-switch, which drops so little voltage as to approximate an “ideal diode”.

The MAX40203 is also available in a tiny 0.8mm x 0.8mm 4-bump WLP with a 0.35mm bump pitch and has lower voltage drop. These devices operate over the automotive -40°C to +125°C temperature range.

Applications

  • Cellular Phones
  • Electronic Toys
  • Notebook and Tablet Computers
  • Portable Media Players
  • Portable/Wearable Medical Devices
  • USB-Powered Peripherals
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AD-PQMON-SL

Power Quality Monitor Development Platform

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AD-PQMON-SL

Power Quality Monitor Development Platform

Power Quality Monitor Development Platform

Features and Benefits

  • Allows prototyping of high performance, polyphase energy meters
  • Modular hardware design:
    • Metering & compute base board
    • Add-on board for COMMS and HMI
  • The base board offers flexibility in input/output (I/O) interfacing through custom add-on boards
  • Industrial connectivity: 10BASE-T1L (ADIN1110), RS-485 (ADM2587E), Ethernet (WIZ82)
  • Long time data logging (SD card)
  • Standalone interface (display, LEDs, buttons)
  • I/O prototyping area (external control signals, GPS / GNSS)
  • Publicly available software for evaluation and prototyping
  • Embedded processing implementing the complete IEC 61000-4-30 class S power quality standard (using ADI proprietary ADSW-PQ-CLS library)
  • Open-source GUI (Scopy – Cross-platform Qt application)
  • Fully isolated design for safe operation
  • Industry standard form factor compatible with DIN rail mounts

Product Detail

The AD-PQMON-SL provides a complete software and hardware platform for prototyping and evaluating high performance class S polyphase energy quality monitors. The design incorporates the ADE9430 high performance, polyphase energy monitoring IC that has an advanced metrology feature set (total and fundamental active power, volt amperes reactive (VAR), volt amperes (VA), watthour, VAR hour, VA hour, total and fundamental IRMS and VRMS, power factor) and the MAX32650 ultralow power ARM cortex-M4 with FPU-based microcontroller with 3 MB flash and 1 MB SRAM. The ADE9430 enables accurate energy monitoring over a wide dynamic range through its superior analog performance and digital signal processing (DSP) core. The ADE9430 simplifies the implementation and certification of energy and power quality monitoring systems by providing tight integration of acquisition and calculation engines. This solution can be used on a 3-phase system or up to three single-phase systems.

The design also features the MAX32650, which is a part of a new breed of low-power microcontrollers built to thrive in the rapidly evolving Internet of Things (IoT) named DARWIN. These MCUs are smart, with the biggest memories in their class and a massively scalable memory architecture. The MCU exposes all the necessary debug and programming features to enable a complete software development experience with the system. It is coupled with 512 Mb RAM and 64 Mb flash external memories to provide flexibility. The system's firmware is based on ADI's open-source no-OS framework and ADI proprietary ADSW-PQ-CLS library.

The solution has an on-board ADuM6424A Quad-Channel Isolator with Integrated DC-to-DC Converter. This DC-DC converter is used to supply all the components on the high voltage side. The ADUM6424A and the ADUM4152, which is a 5 kV, 7-Channel, SPIsolator™ Digital Isolator for SPI (with 1/2 Aux channel directionality), are used to isolate the connection between the ADE9430 and MAX32650.

The board can be supplied from the AC input through an isolated AC/DC converter or from the USB through the LTC3306, a 1.75 A Synchronous Step-Down Regulator. A logic based on several MAX40203, an Ultra-Tiny nanoPower, 1 A Ideal Diodes with Ultra-Low-Voltage Drop, selects based on availability the supply input with priority to the AC input.

The other 1.1 V and 1.8 V voltage rails needed by the MCU are converted from the 3.3 V input by the ADP225, a Dual, 300 mA Adjustable Output, Quick Output Discharge, Low Noise, High PSRR Voltage Regulator.

For high accuracy time keeping, the MAX31343 ±5 ppm, I2C Real-Time Clock with Integrated MEMS Oscillator is used.

The add-on board includes a standalone interface (a 64 x 4 display, 2 LEDs, and 5 buttons), an SD card for long time data logging, several industrial connectivity ports, and exposes an I/O prototyping area for I2C, SPI, GPIO, UART, 3V3, GND. The prototyping area can be also used for GPS / GNSS (e.g., Accurate Synchrophasor Measurement) or for external control signals.

For industrial connectivity, these are the following possibilities:

  • T1L through the ADIN1110, an ultralow power, single port, 10BASE-T1L transceiver design for industrial Ethernet applications
  • RS-485 implemented using the ADM2587E, a 2.5 kV Signal and Power Isolated, ±15 kV ESD Protected, Full/Half Duplex RS-485 Transceiver (500 kbps)
  • Ethernet

APPLICATIONS

  • Energy and power monitoring
  • Standards compliant power quality monitoring
  • Protective devices
  • Smart power distribution units
  • Polyphase energy meters
  • Intelligent buildings

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