Gehäuseinformationen
Gehäuse | Pins SOIC (DWY) | 6 |
Betriebstemperaturbereich (°C) -40 to 125 |
Gehäusemenge | Träger 850 | LARGE T&R |
Merkmale von UCC23513-Q1
- AEC-Q100 qualified for automotive applications
- 5.7-kVRMS single channel isolated gate driver with opto-compatible input
- Pin-to-pin, drop in upgrade for opto isolated gate drivers
- 4.5-A source / 5.3-A sink, peak output current
- Maximum 33-V output driver supply voltage
- 8-V (B) or 12-V VCC UVLO Options
- Rail-to-rail output
- 105-ns (maximum) propagation delay
- 25-ns (maximum) part-to-part delay matching
- 35-ns (maximum) pulse width distortion
- 150-kV/µs (minimum) common-mode transient immunity (CMTI)
- Isolation barrier life >50 Years
- 13-V reverse polarity voltage handling capability on input stage supporting interlock
- Stretched SO-6 package with >8.5-mm creepage and clearance
- Operating junction temperature, TJ: –40°C to +150°C
- Functional Safety-Capable
- Safety-related certifications:
- 8000-VPK reinforced isolation per DIN V VDE V0884-11: 2017-01 (In Progress)
- 5.7-kVRMS isolation for 1 minute per UL 1577
Beschreibung von UCC23513-Q1
The UCC23513-Q1 driverare opto-compatible, single-channel, isolated gate drivers for IGBTs, MOSFETs and SiC MOSFETs, with 4.5-A source and 5.3-A sink peak output current and 5.7-kVRMS isolation rating. The high supply voltage range of 33-V allows the use of bipolar supplies to effectively drive IGBTs and SiC power FETs. UCC23513-Q1 can drive both low side and high side power FETs and bring significant performance and reliability upgrades over opto-coupler based gate drivers while maintaining pin-to-pin compatibility in both schematic and layout design. Performance highlights include high common mode transient immunity (CMTI), low propagation delay, and small pulse width distortion. Tight process control results in small part-to-part skew. The input stage is an emulated diode (e-diode) which means long term reliability and excellent aging characteristics compared to traditional LEDs found in optocoupler gate drivers. High performance and reliability makes them ideal for use in automotivemotor drives such as the traction inverter, on-board chargers, DC charging stations, and automotive HVAC and heating systems. The higher operating temperature opens up opportunities for applications not supported by traditional optocouplers.