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SIC MOSFET Toshiba develops advanced SiC MOSFET for automotive applications
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Toshiba Electronic Devices & Storage Corporation has developed "X5M007E120," a bare die[1] 1200V silicon carbide MOSFET for automotive traction inverters[2] with an innovative structure that deliver both low On-resistance and high reliability. Test samples are now shipping, for evaluation by customers.
The reliability of typical SiCMOSFETs is degraded by increased On-resistance when its body diodes are bipolar energized[3] during reverse conduction operation[4]. Toshiba SiC MOSFETs alleviate this issue by a device structure that embeds Schottky barrier diodes (SBDs) into the MOSFET to inactivate body diodes, but positioning the SBDs on the chip reduces the area available for channels that determines the resistance of MOSFET On-operation and increases the chip’s On-resistance.
The SBDs embedded in X5M007E120 are arrayed in a check pattern, not the typically used striped pattern, an arrangement that effectively suppresses bipolar energization of the device’s body diodes, while improving the upper limit of unipolar operation to approximately twice the current area, even when taking up the same SBDs mounting area[5]. Channel density is also improved against the striped array, and On-resistance per unit area is low, reduced by approximately 20 % to 30 %[5]. This improved performance, low On-resistance while maintaining reliability against reverse conduction operation, will save energy in inverters used for motor control, such as automotive traction inverters.
:quality(80)/p7i.vogel.de/wcms/07/92/0792ce07b553dc6df147714963a7c282/0121826651v1.jpeg "Figure 1. Appearance (top view) and internal circuit.(Source: TOSHIBA ELECTRONIC DEVICES & STORAGE CORPORATION)")
:quality(80)/p7i.vogel.de/wcms/ca/a5/caa53c08916c931faad0fee4e586a427/0121827106v1.jpeg "Figure 2. Schematic diagrams of MOSFETs with existing striped-pattern embedded SBDs and MOSFETs with check-pattern embedded SBDs.(Source: TOSHIBA ELECTRONIC DEVICES & STORAGE CORPORATION)")
:quality(80)/p7i.vogel.de/wcms/6a/82/6a82f49b9061bd06960d21614d29838a/0121827116v1.jpeg "Figure 3. Measured values of critical current density of unipolar conduction and On-resistance of MOSFETs with existing striped-pattern embedded SBDs and MOSFETs with check-pattern embedded SBDs (Toshiba survey).(Source: TOSHIBA ELECTRONIC DEVICES & STORAGE CORPORATION)")
:quality(80)/p7i.vogel.de/wcms/27/39/27392d625b8f6c2d002e96641710e4b9/0121827125v1.jpeg "Figure 4. Comparison between typical SiC MOSFETs and Toshiba SiC MOSFETs (MOSFETs with embedded SBDs into MOSFET chips).(Source: TOSHIBA ELECTRONIC DEVICES & STORAGE CORPORATION)")
Reducing On-resistance in an SiC MOSFET causes excess current flow through the MOSFET during short-circuit[6], reducing short-circuit durability. Enhancing the conduction of the embedded SBDs to improve the reliability of reverse conduction operation also increases current leakage during short-circuit, again decreasing short-circuit durability. The new bare die has a deep barrier structure[7] that suppresses excessive current in the MOSFET and leakage current in SBDs during short circuit status, improving its durability while maintaining excellent reliability against reverse conduction operation.
:quality(80)/p7i.vogel.de/wcms/a2/ff/a2ff000af92482225b1c854f8b3c67d4/97155317.jpeg "With increasing switching speeds enabled by SiC power MOSFETs, fast rise and fall times during switching transients are desirable to reduce the anticipated hard-switching losses. (Source: Andrei Kuzmik - stock.adobe.com)")
PCIM EUROPE 2021 - 3. WINNER OF YOUNG ENGINEER AWARD
An adaptive SiC MOSFET gate driver
Users can customize the bare die to meet their specific design needs and realize solutions for their applications.
Toshiba expects to provide engineering samples of X5M007E120 in 2025, and to start mass production in 2026. In the meantime, it will explore further improvement to device characteristics.
Toshiba will contribute to the realization of a decarbonized society by providing customers with easier to use, higher performance power semiconductors for fields where energy efficiency is essential, such as inverters for motor control and power control systems for electric vehicles.
Notes
[1] Unpackaged chip product.
[2] Equipment that converts battery-powered DC power to AC power and controls the motors in the electric vehicle (EV) or the hybrid vehicle (HEV).
[3] Bipolar operation when a forward voltage is applied to a pn diode between drain and source.
[4] An operation in which current flows from the source to the drain of the MOSFET due to the reflux of current in the circuit.
[5] Compared to Toshiba’s product using striped pattern.
[6] A phenomenon where long-term conduction occurs during abnormal mode such as control circuit failures, compared to short-term conduction during normal switching operation. Ruggedness that does not fail with a certain duration of short-circuit operation is required.
[7] An element of the device structure provided to control the high electric field due to high voltage. It greatly affects the performance of the device.
Power Electronics in the Energy Transition
The parameters for energy transition and climate protection solutions span education, research, industry, and society. In the new episode of "Sound On. Power On.", Frank Osterwald of the Society for Energy and Climate Protection Schleswig‐Holstein talks about the holistic guidance his organization can provide.
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(ID:50243283)
:quality(80)/p7i.vogel.de/wcms/7c/fe/7cfed9657536b819e32991012e816b05/0125112222v2.jpeg "Toshiba's new technology boosts efficiency and reliability in SiC trench MOSFETs and Schottky diodes for electric vehicles and renewable energy by reducing on-resistance. (Source: © sigemin - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/b8/13/b8139abf82c98aa04248a4a119d28c13/0129194616v2.jpeg "A 600V super junction MOSFET platform supports efficient switching and reduced losses in high-voltage power conversion designs. (Source: Aplha & Omega Semiconductor)")