No-Snapback LDMOS Using Adaptive RESURF and Hybrid Source for Ideal SOA

No-Snapback LDMOS Using Adaptive RESURF and Hybrid Source for Ideal SOA

A simple modification to the lateral DMOS is demonstrated, enabling a significant extension to the electrical safe operating region. This approach uses a novel Hybrid Source to suppress the parasitic bipolar, prevent snapback and enable operation at high drain voltage & current regions that have...

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Veröffentlicht in:IEEE journal of the Electron Devices Society 2021, Vol.9, p.902-908
Hauptverfasser: Toner, B., Eisenbrandt, S., Frank, M., Granzner, R., Steinbeck, L., Davis, D., Dolny, G. M., Johnson, T. J., Richards, W. R.
Format: Artikel
Sprache:eng
Schlagworte:
bipolar junction transistor (BJT)
Computer architecture
Current measurement
Electric potential
electrostatic discharge (ESD)
Electrostatic discharges
Junctions
Lateral double-diffused MOSFET (LDMOS)
Logic gates
Performance evaluation
robustness
ruggedness
safe operating area (SOA)
Transistors
Transmission line measurements
Voltage
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Beschreibung
Zusammenfassung:A simple modification to the lateral DMOS is demonstrated, enabling a significant extension to the electrical safe operating region. This approach uses a novel Hybrid Source to suppress the parasitic bipolar, prevent snapback and enable operation at high drain voltage & current regions that have traditionally been inaccessible due to triggering of the parasitic bipolar. Trigger currents exceeding 10x that of conventional PN source devices under grounded gate, very fast TLP conditions have been achieved. This improvement does not compromise the basic DC parameters, such as specific on-resistance or breakdown voltage. This paper covers the device architecture, formation of the Hybrid Source, electrical performance, TCAD simulation and discussion of the mechanisms behind this new device and the improvements it enables.
ISSN:2168-6734
2168-6734
DOI:10.1109/JEDS.2021.3116254