Product details

Number of channels (#) 2 Power switch MOSFET, IGBT Peak output current (A) 1.5 Input VCC (Min) (V) 5 Input VCC (Max) (V) 40 Features Analog Shutdown with Latch, Inhibit Circuit, Thermal Shutdown Operating temperature range (C) 0 to 70 Rise time (ns) 40 Fall time (ns) 40 Prop delay (ns) 100 Input threshold TTL Channel input logic Inverting, Non-Inverting Input negative voltage (V) 0 Rating Catalog Driver configuration Dual
Number of channels (#) 2 Power switch MOSFET, IGBT Peak output current (A) 1.5 Input VCC (Min) (V) 5 Input VCC (Max) (V) 40 Features Analog Shutdown with Latch, Inhibit Circuit, Thermal Shutdown Operating temperature range (C) 0 to 70 Rise time (ns) 40 Fall time (ns) 40 Prop delay (ns) 100 Input threshold TTL Channel input logic Inverting, Non-Inverting Input negative voltage (V) 0 Rating Catalog Driver configuration Dual
PDIP (N) 16 181 mm² 19.3 x 9.4 SOIC (DW) 16 77 mm² 10.3 x 7.5
  • Dual, 1.5A Totem Pole Outputs
  • 40nsec Rise and Fall into 1000pF
  • Parallel or Push-Pull Operation
  • Single-Ended to Push-Pull Conversion
  • High-Speed, Power MOSFET Compatible
  • Low Cross-Conduction Current Spike
  • Analog, Latched Shutdown
  • Internal Deadband Inhibit Circuit
  • Low Quiescent Current
  • 5 to 40V Operation
  • Thermal Shutdown Protection
  • 16-Pin Dual-In-Line Package
  • 20-Pin Surface Mount Package
  • Dual, 1.5A Totem Pole Outputs
  • 40nsec Rise and Fall into 1000pF
  • Parallel or Push-Pull Operation
  • Single-Ended to Push-Pull Conversion
  • High-Speed, Power MOSFET Compatible
  • Low Cross-Conduction Current Spike
  • Analog, Latched Shutdown
  • Internal Deadband Inhibit Circuit
  • Low Quiescent Current
  • 5 to 40V Operation
  • Thermal Shutdown Protection
  • 16-Pin Dual-In-Line Package
  • 20-Pin Surface Mount Package

The UC1706 family of output drivers are made with a high-speed Schottky process to interface between low-level control functions and high-power switching devices - particularly power MOSFET's. These devices implement three generalized functions as outlined below.

First: They accept a single-ended, low-current digital input of either polarity and process it to activate a pair of high-current, totem pole outputs which can source or sink up to 1.5A each.

Second: They provide an optional single-ended to push-pull conversion through the use of an internal flip-flop driven by double-pulse-suppression logic. With the flip-flop disabled, the outputs work in parallel for 3.0A capability.

Third: Protection functions are also included for pulse-by-pulse current limiting, automatic deadband control, and thermal shutdown.

These devices are available in a two-watt plastic "bat-wing" DIP for operation over a 0°C to 70°C temperature range and, with reduced power, in a hermetically sealed cerdip for -55°C to +125°C operation. Also available in surface mount Q and L packages.

The UC1706 family of output drivers are made with a high-speed Schottky process to interface between low-level control functions and high-power switching devices - particularly power MOSFET's. These devices implement three generalized functions as outlined below.

First: They accept a single-ended, low-current digital input of either polarity and process it to activate a pair of high-current, totem pole outputs which can source or sink up to 1.5A each.

Second: They provide an optional single-ended to push-pull conversion through the use of an internal flip-flop driven by double-pulse-suppression logic. With the flip-flop disabled, the outputs work in parallel for 3.0A capability.

Third: Protection functions are also included for pulse-by-pulse current limiting, automatic deadband control, and thermal shutdown.

These devices are available in a two-watt plastic "bat-wing" DIP for operation over a 0°C to 70°C temperature range and, with reduced power, in a hermetically sealed cerdip for -55°C to +125°C operation. Also available in surface mount Q and L packages.

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Technical documentation

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Type Title Date
* Data sheet Dual Output Driver datasheet (Rev. A) 02 May 2001
More literature Fundamentals of MOSFET and IGBT Gate Driver Circuits (Replaces SLUP169) (Rev. A) 29 Oct 2018
Technical article How to achieve higher system robustness in DC drives, part 3: minimum input pulse 19 Sep 2018
Technical article How to achieve higher system robustness in DC drives, part 2: interlock and deadtime 30 May 2018
Technical article Boosting efficiency for your solar inverter designs 24 May 2018
Technical article How to achieve higher system robustness in DC drives, part 1: negative voltage 17 Apr 2018
Application note U-118 New Driver ICs Optimize High-Speed Power MOSFET Switching Characteristics 05 Sep 1999
Application note U-137 Practical Considerations in High Performance MOSFET, IGBT and MCT Gate 05 Sep 1999

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PDIP (N) 16 View options
SOIC (DW) 16 View options

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