SLUSFL3B June 2024 – October 2024 UCC57102 , UCC57108
PRODUCTION DATA
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The inputs of the UCC5710x devices are compatible with TTL based threshold logic and the inputs are independent of the VDD supply voltage. With typical high threshold of 2.2 V and typical low threshold of 1.2 V, the logic level thresholds can be conveniently driven with PWM control signals derived from 3.3-V or 5-V logic. Wider hysteresis (typically 1 V) offers enhanced noise immunity compared to traditional TTL logic implementations, where the hysteresis is typically less than 0.5 V. This device also features tight control of the input pin threshold voltage levels which eases system design considerations and ensures stable operation across temperature. The very low input capacitance, typically less than 8 pF, on these pins reduces loading and increases switching speed.
The device features an important protection function wherein, whenever the input pin is in a floating condition, the output is held in the low state. This is achieved with internal pullup or pulldown resistors on the input pins as shown in the simplified functional block diagrams. In some applications, due to difference in bias supply sequencing, different ICs power-up at different times. This may cause output of the controller to be in tri-state. This output of the controller is connected to the input of the driver IC. If the driver IC does not have a pulldown resistor then the output of the driver may go high erroneously and damage the switching power device.
The input stage of the driver should preferably be driven by a signal with a short rise or fall time. Caution must be exercised whenever the driver is used with slowly varying input signals, especially in situations where the device is located on a separate daughter board or PCB layout has long input connection traces:
An external resistance is highly recommended between the output of the driver and the power device instead of adding delays on the input signal. This also limits the rise or fall times to the power device which reduces EMI. The external resistor has the additional benefit of reducing part of the gate charge related power dissipation in the gate driver device package and transferring it into the external resistor itself.
Finally, because of the unique input structure that allows negative voltage capability on the input and enable pins, caution must be used in the following applications:
If both of these conditions occur, add a series 150-Ω resistor for the pin(s) being switched to limit the current through the input structure.