The CoolMOS C7 achieves an industry first by delivering an area-specific on resistance (R DS(ON)A) of just 1 Ω per mm 2, extending Infineon’s portfolio of products with lowest R DS(ON) per package to support customer efforts to further increase power density. The new CoolMOS series features ultra-low switching losses and targets high power SMPS applications such as server, telecom, solar and industrial applications requiring high efficiency, a reduced Bill of Materials (BoM) and total cost of ownership (TCO).

Efficiency and TCO driven applications such as hyperscale data centers and telecom base stations benefit from the switching loss reduction offered by the CoolMOS C7. Efficiency gains of 0.3 percent to 0.7 percent in PFC and 0.1 percent in LLC topologies can be achieved, leading to significant total cost of ownership benefits. In the case of a 2.5 kW server PSU, for example, using C7 600 V MOSFETs can result in energy cost reductions of around 10 percent for PSU energy loss.

In BoM and cost driven designs such as enterprise servers, the CoolMOS C7 600 V devices offer a cost reduction in magnetics. Due to the significantly lower gate charge and output capacitance, the C7 can be operated at two times higher switching frequencies with only a marginal penalty in efficiency. This enables the size of magnetic components to be minimized, lowering the overall BoM cost. For example, doubling the switching frequency from 65 kHz to 130 kHz may reduce magnetic component cost by as much as 30 percent.

The CoolMOS C7 600 V family will be manufactured in two 300 mm fabs ensuring security of supply for customers. The family comes in a broad range of R DS(ON) values and packages, with innovative options such as the TO-247 4-pin package available immediately at time of launch. The fourth pin boosts efficiency in full load by up to 0.4 percent by eliminating voltage drops across the source inductance caused by fast transients.

Infineon´s complementary new 2EDN7524 EiceDRIVER™ ICs in industry standard pin-out feature two independent, non-isolated low-side gate drivers each capable of providing a 5 A source and sink peak current. Both channels operate with typical rise and fall times of just 5 ns, while the excellent 1 ns channel-to-channel delay matching allows configuration of simultaneous switching to double the total drive current.

Despite the high current, the output stages offer a very low R DS(ON), minimizing power dissipation in the driver even if a very small or no external gate resistor is used. Exceptional robustness against ground bounce for system reliability is ensured through the ability of the driver ICs to handle up to -10 V DC at the control and enable inputs.