MAX1684
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MAX1684

Low-Noise, 14V Input, 1A, PWM Step-Down Converters

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Smallest 1.5A Step-Down DC-DC for Hand-Held PC Offers 96% Efficiency

Info: : PRODUCTION tooltip
Info: : PRODUCTION tooltip
Part Models 2
1ku List Price Starting From $5.14
Features
  • Up to 96% Efficiency
  • 1A Guaranteed Output Current
  • 100% Duty Cycle in Dropout
  • 2.7V to 14V Input Range (15V Absolute Max)
  • ±1% Accurate Reference Output
  • 0.24Ω P-Channel On-Resistance
  • Synchronizable Switching Frequency
  • Fixed-Frequency PWM Operation
    • 300kHz (MAX1684)
    • 600kHz (MAX1685)
  • 150µA Normal-Mode Quiescent Current
  • 25µA Low-Power Mode Quiescent Current
  • 2µA Shutdown Current
  • Dual Mode™ Fixed 3.3V (±1%) Output or Adjustable Output (1.25V to VIN)
  • Small 16-QSOP Package
  • Auxiliary Output (CVL): 3V/5mA
Additional Details
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The MAX1684/MAX1685 are high-efficiency, internal-switch, pulse-width modulation (PWM) step-down switching regulators intended to power cellular phones, communicating PDAs, and handy-terminals. These devices deliver a guaranteed 1A output current from two lithium-ion (Li+) batteries. Their wide-input voltage range of 2.7V to 14V gives design flexibility and allows batteries to charge from a wall cube, since the ICs operate at the higher voltages that occur when the battery is removed. The output voltage is preset to 3.3V or can be externally adjusted from 1.25V to VIN.

The low on-resistance power switch and built-in synchronous rectifier provide high efficiencies of up to 96%. There are four modes of operation: fixed-frequency, normal, low-power, and shutdown. The fixed-frequency PWM mode of operation offers excellent noise characteristics. The normal mode maintains high efficiency at all loads. The low-power mode is used to conserve power in standby or when full load is not required. The shutdown mode is used to power down the device for minimal current draw.

The MAX1684 runs at 300kHz for applications that require highest efficiency. The MAX1685 runs at 600kHz to allow the use of smaller external components. These devices can also be synchronized to an external clock. Other features include a 100% duty cycle for low-dropout applications, an auxiliary 3V/5mA output, and a 1% accurate reference.

Both devices are available in a space-saving 16-QSOP package. An evaluation kit is also available to help speed designs. For a similar device in a 10-pin µMAX® package with lower input voltage requirements (5.5V max), refer to the MAX1692 data sheet.

Applications

  • Cell Phones
  • Computer Peripherals
  • PDAs and Handy-Terminals
  • Personal Communicators
  • Two-Way Radios and Walkie-Talkies
Part Models 2
1ku List Price Starting From $5.14

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Documentation

Part Model Pin/Package Drawing Documentation CAD Symbols, Footprints, and 3D Models
MAX1684EEE+
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MAX1684EEE+T
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Software & Part Ecosystem

Evaluation Kits 1

MAX1685EVKIT

Evaluation Kit for the MAX1684, MAX1685

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MAX1685EVKIT

Evaluation Kit for the MAX1684, MAX1685

Evaluation Kit for the MAX1684, MAX1685

Features and Benefits

  • +3.5V to +14V Input Voltage Range
  • Fixed or Adjustable Output Voltage
    • +3.33V (Fixed)
    • +1.25V to VIN (Adjustable)
  • Guaranteed 1A Output Current
  • 100% Duty Cycle in Dropout
  • 600kHz Fixed-Frequency PWM Operation
  • Internal MOSFET Switch and Synchronous Rectifier
  • 2µA IC Shutdown Current
  • Surface-Mount Components
  • Fully Assembled and Tested

Product Detail

The MAX1685 evaluation kit (EV kit) is a fully assembled and tested surface-mount circuit board that contains a pulse-width-modulated (PWM), step-down DC-DC converter. The EV kit provides a +3.33V output voltage from a +3.5V to +14V input source. It delivers up to 1A output current. The MAX1685 features internal MOSFET switches, low dropout voltage (100% duty-cycle operation), and an accurate +1.25V reference.

The MAX1685 EV kit provides low quiescent current, synchronous rectification, and high efficiency (up to 95%) for maximum battery life. Operation at 600kHz allows the use of a tiny surface-mount inductor.

The MAX1685 EV kit can also be used to evaluate the MAX1684, which operates at 300kHz and has slightly higher efficiency than the MAX1685.

Applications

  • 2-Way Radios and Walkie-Talkies
  • Cell Phones
  • Computer Peripherals
  • PDAs and Handy-Terminals
  • Personal Communicators

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