UCC27210
- Drives Two N-Channel MOSFETs in High-Side
and Low-Side Configuration With Independent
Inputs - Maximum Boot Voltage 120-V DC
- 4-A Sink, 4-A Source Output Currents
- 0.9-Ω Pullup and Pulldown Resistance
- Input Pins Can Tolerate –10 V to 20 V and Are
Independent of Supply Voltage Range - TTL or Pseudo-CMOS Compatible Input Versions
- 8-V to 17-V VDD Operating Range, (20-V Absolute
Maximum) - 7.2-ns Rise and 5.5-ns Fall Time With 1000-pF
Load - Fast Propagation Delay Times (18 ns Typical)
- 2-ns Delay Matching
- Symmetrical Undervoltage Lockout for High-Side
and Low-Side Driver - All Industry Standard Packages Available (SOIC-8,
PowerPAD™ SOIC-8, 4-mm × 4-mm SON-8
and 4-mm × 4-mm SON-10) - Specified from –40 to 140 °C
The UCC27210 and UCC27211 drivers are based on the popular UCC27200 and UCC27201 MOSFET drivers, but offer several significant performance improvements. Peak output pull-up and pull-down current has been increased to 4-A source and 4-A sink, and pull-up and pull-down resistance have been reduced to 0.9 Ω, thereby allowing for driving large power MOSFETs with minimized switching losses during the transition through the Miller Plateau of the MOSFET. The input structure is now able to directly handle 10 VDC, which increases robustness and also allows direct interface to gate-drive transformers without using rectification diodes. The inputs are also independent of supply voltage and have a maximum rating of 20-V.
The switching node (HS pin) of the UCC2721x can handle 18 V maximum which allows the high-side channel to be protected from inherent negative voltages caused parasitic inductance and stray capacitance. The UCC27210 (Pseudo-CMOS inputs) and UCC27211 (TTL inputs) have increased hysteresis allowing for interface to analog or digital PWM controllers with enhanced noise immunity.
The low-side and high-side gate drivers are independently controlled and matched to 2 ns between the turnon and turnoff of each other.
An on-chip 120-V rated bootstrap diode eliminates the external discrete diodes. Undervoltage lockout is provided for both the high-side and the low-side drivers providing symmetric turnon and turnoff behavior and forcing the outputs low if the drive voltage is below the specified threshold.
Both devices are offered in 8-pin SOIC (D), PowerPAD SOIC-8 (DDA), 4-mm × 4-mm SON-8 (DRM) and SON-10 (DPR) packages.
Similar products you might be interested in
Pin-for-pin with same functionality to the compared device
Technical documentation
Type | Title | Date | ||
---|---|---|---|---|
* | Data sheet | UCC2721x 120-V Boot, 4-A Peak, High-Frequency High-Side and Low-Side Driver datasheet (Rev. F) | PDF | HTML | 18 Dec 2014 |
Application note | Understanding and comparing peak current capability of gate drivers | PDF | HTML | 30 Mar 2021 | |
Application brief | External Gate Resistor Selection Guide (Rev. A) | 28 Feb 2020 | ||
Application brief | Understanding Peak IOH and IOL Currents (Rev. A) | 28 Feb 2020 | ||
More literature | Fundamentals of MOSFET and IGBT Gate Driver Circuits (Replaces SLUP169) (Rev. A) | 29 Oct 2018 | ||
Selection guide | Power Management Guide 2018 (Rev. R) | 25 Jun 2018 | ||
More literature | Improving System Efficiency With a New Intermediate-Bus Architecture | 20 Sep 2011 |
Design & development
For additional terms or required resources, click any title below to view the detail page where available.
PSPICE-FOR-TI — PSpice® for TI design and simulation tool
Package | Pins | CAD symbols, footprints & 3D models |
---|---|---|
HSOIC (DDA) | 8 | Ultra Librarian |
SOIC (D) | 8 | Ultra Librarian |
VSON (DRM) | 8 | Ultra Librarian |
WSON (DPR) | 10 | Ultra Librarian |
Ordering & quality
- RoHS
- REACH
- Device marking
- Lead finish/Ball material
- MSL rating/Peak reflow
- MTBF/FIT estimates
- Material content
- Qualification summary
- Ongoing reliability monitoring
- Fab location
- Assembly location
Recommended products may have parameters, evaluation modules or reference designs related to this TI product.
Support & training
TI E2E™ forums with technical support from TI engineers
Content is provided "as is" by TI and community contributors and does not constitute TI specifications. See terms of use.
If you have questions about quality, packaging or ordering TI products, see TI support.