1974
DOI: 10.1109/t-ed.1974.17958
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An involute gate-emitter configuration for thyristors

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Cited by 7 publications
(2 citation statements)
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“…However, this design does not maximize the gate current injection efficiency since the "anode-gate" pn junction is very close to the center of the chip. An "involute" design ( Figure 6.b) would be better suited for a reasonable trade-off between the device anode area and the gate efficiency [10]. While such a design guarantees a constant bend radius, the device periphery is susceptible to behave differently.…”
Section: Two Typical Cases Where 3d Simulations Are Helpfulmentioning
confidence: 99%
“…However, this design does not maximize the gate current injection efficiency since the "anode-gate" pn junction is very close to the center of the chip. An "involute" design ( Figure 6.b) would be better suited for a reasonable trade-off between the device anode area and the gate efficiency [10]. While such a design guarantees a constant bend radius, the device periphery is susceptible to behave differently.…”
Section: Two Typical Cases Where 3d Simulations Are Helpfulmentioning
confidence: 99%
“…Consequently, the initial turn-on area should be made as large as possible and v L should be maximised. Interlacing of narrow cathode stripes with the gate metallisation stripes increases the initial injection region (Storm and St Clair 1974). Hard gate triggering also increases the neutral conducting area.…”
Section: Thyristor Switchingmentioning
confidence: 99%