4A Sink/Source Current, 12ns, Dual MOSFET Drivers

Tiny MOSFET drivers with high source/sink current capability and small propagation delay

Please check latest availability status for a specific part variant.


The MAX17600–MAX17605 devices are high-speed MOSFET drivers capable of sinking /sourcing 4A peak currents. The devices have various inverting and noninverting part options that provide greater flexibility in controlling the MOSFET. The devices have internal logic circuitry that prevents shoot-through during output-state changes. The logic inputs are protected against voltage spikes up to +14V, regardless of VDD voltage. Propagation delay time is minimized and matched between the dual channels. The devices have very fast switching time, combined with short propagation delays (12ns typ), making them ideal for high-frequency circuits. The devices operate from a +4V to +14V single power supply and typically consume 1mA of supply current. The MAX17600/MAX17601 have standard TTL input logic levels, while the MAX17603 /MAX17604/MAX17605 have CMOS-like high-noise margin (HNM) input logic levels. The MAX17600/MAX17603 are dual inverting input drivers, the MAX17601/MAX17604 are dual noninverting input drivers, and the MAX17602/MAX17605 devices have one noninverting and one inverting input. These devices are provided with enable pins (ENA, ENB) for better control of driver operation.

These devices are available in 8-pin (3mm x 3mm) TDFN, 8-pin (3mm x 5mm) µMAX®, and 8-pin SO packages and operate over the -40°C to +125°C temperature range.

MAX17600–MAX17605: Typical Operating Circuit MAX17600–MAX17605: Typical Operating Circuit Enlarge+

Key Features

  • Dual Drivers with Enable Inputs
  • +4V to +14V Single Power-Supply Range
  • 4A Peak Sink/Source Current
  • Inputs Rated to +14V, Regardless of VDD Voltage
  • Low 12ns Propagation Delay
  • 6ns Typical Rise and 5ns Typical Fall Times with 1nF Load
  • Matched Delays Between Channels
  • Parallel Operation of Dual Outputs for Larger Driver Output Current
  • TTL or HNM Logic-Level Inputs with Hysteresis for Noise Immunity
  • Low Input Capacitance: 10pF (typ)
  • Thermal Shutdown Protection
  • TDFN, µMAX, and SO Package Options
  • -40°C to +125°C Operating Temperature Range


  • DC-DC Converters
  • Motor Control
  • Power MOSFET Switching
  • Power-Supply Modules
  • Switch-Mode Power Supplies
Part NumberNo. of DriversLogic PolarityConfig.IOUT
Rise/ Fall Time @+25°C
Package/PinsOper. Temp.
peaktypmaxtypSee Notes
MAX17600 2Inverting
High-Side P Drive
Low-Side N Drive
40.50.956/6 (1000pF)4 to 14
SOIC (N)/8
-40 to +125$0.74 @1k
MAX17601 Noninverting
SOIC (N)/8
MAX17602 Mixed
SOIC (N)/8
MAX17603 Inverting
SOIC (N)/8
MAX17604 Noninverting
SOIC (N)/8
MAX17605 Mixed
SOIC (N)/8
See All MOSFET Drivers (41)
Pricing Notes:
This pricing is BUDGETARY, for comparing similar parts. Prices are in U.S. dollars and subject to change. Quantity pricing may vary substantially and international prices may differ due to local duties, taxes, fees, and exchange rates. For volume-specific and version-specific prices and delivery, please see the price and availability page or contact an authorized distributor.

MAX17600EVKIT: Evaluation Kit for the MAX17600, MAX17601, MAX17602, MAX17603, MAX17604, and MAX17605
MAX17601EVKIT: Evaluation Kit for the MAX17600, MAX17601, MAX17602, MAX17603, MAX17604, and MAX17605
MAX17602EVKIT: Evaluation Kit for the MAX17600, MAX17601, MAX17602, MAX17603, MAX17604, and MAX17605
MAX17603EVKIT: Evaluation Kit for the MAX17600, MAX17601, MAX17602, MAX17603, MAX17604, and MAX17605
MAX17604EVKIT: Evaluation Kit for the MAX17600, MAX17601, MAX17602, MAX17603, MAX17604, and MAX17605
MAX17605EVKIT: Evaluation Kit for the MAX17600, MAX17601, MAX17602, MAX17603, MAX17604, and MAX17605

Quality and Environmental Data

Request Reliability Report for: MAX17602 
Lead-Free Package Tin (Sn) Whisker Reports

CAD Symbols and Footprints

  • MAX17602ASA+
  • MAX17602ASA+T
  • MAX17602ATA+
  • MAX17602ATA+T
  • MAX17602AUA+
  • MAX17602AUA+T
  • Device   Fab Process   Technology   Sample size   Rejects   FIT at 25°C   FIT at 55°C  

    Note : The failure rates are summarized by technology and mapped to the associated material part numbers. The failure rates are highly dependent on the number of units tested.

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