公开(公告)号：US5441900A

公开(公告)日：1995-08-15

申请号：US308698

申请日：1994-09-19

Applicant: Constantin Bulucea ,  Esin Dermirlioglu ,  Sheldon Aronowitz

Inventor： Constantin Bulucea ,  Esin Dermirlioglu ,  Sheldon Aronowitz

IPC: H01L27/092 ,  H01L21/265

CPC classification number: H01L27/0921 ,  Y10S148/023 ,  Y10S438/904 ,  Y10S438/917

Abstract: A unique approach to suppressing latchup in CMOS structures is described. Atomic species that exhibit midgap levels in silicon and satisfy the criteria for localized action and electrical compatibility can be implanted to suppress the parasitic bipolar behavior which causes latchup. Reduction of minority carrier lifetime can be achieved in critical parasitic bipolar regions that, by CMOS construction are outside the regions of active MOS devices. One way to accomplish this goal is to use the source/drain masks to locally implant the minority carrier lifetime reducer (MCLR) before the source/drain dopants are implanted. This permits the MCLR to be introduced at different depths or even to be different species, of the n and p-channel transistors. Another way to accomplish this goal requires that a blanket MCLR implant be done very early in the process, before isolation oxidation, gate oxidation or active threshold implants are done.

Abstract translation: 描述了抑制CMOS结构中的闭锁的独特方法。 可以植入在硅中显示中间水平并满足局部作用和电相容性标准的原子物质，以抑制引起闭锁的寄生双极性行为。 通过CMOS结构在有源MOS器件区域之外的临界寄生双极区域可以实现少数载流子寿命的降低。 实现这一目标的一个方法是在源极/漏极掺杂剂被植入之前，使用源极/漏极掩模来局部注入少数载流子寿命衰减器（MCLR）。 这允许MCLR在n沟道晶体管和p沟道晶体管的不同深度或者甚至不同的物种中被引入。 实现这一目标的另一种方法是要求在隔离氧化，栅极氧化或活性阈值植入完成之前，在该过程中非常早地完成覆盖MCLR植入物。

公开(公告)号：US5384477A

公开(公告)日：1995-01-24

申请号：US28456

申请日：1993-03-09

Applicant: Constantin Bulucea ,  Esin Dermirlioglu ,  Sheldon Aronowitz

Inventor： Constantin Bulucea ,  Esin Dermirlioglu ,  Sheldon Aronowitz

IPC: H01L27/092 ,  H01L29/78

CPC classification number: H01L27/0921 ,  Y10S148/023 ,  Y10S438/904 ,  Y10S438/917

Abstract: A unique approach to suppressing latchup in CMOS structures is described. Atomic species that exhibit midgap levels in silicon and satisfy the criteria for localized action and electrical compatibility can be implanted to suppress the parasitic bipolar behavior Which causes latchup. Reduction of minority carrier lifetime can be achieved in critical parasitic bipolar regions that, by CMOS construction are outside the regions of active MOS devices. One way to accomplish this goal is to use the source/drain masks to locally implant the minority carrier lifetime reducer (MCLR) before the source/drain dopants are implanted. This permits the MCLR to be introduced at different depths or even to be different species, of the n and p-channel transistors. Another way to accomplish this goal requires that a blanket MCLR implant be done very early in the process, before isolation oxidation, gate oxidation or active threshold implants are done.

Abstract translation: 描述了抑制CMOS结构中的闭锁的独特方法。 可以植入在硅中显示中等水平并满足局部作用和电相容性标准的原子物质，以抑制引起闭锁的寄生双极性行为。 通过CMOS结构在有源MOS器件区域之外的临界寄生双极区域可以实现少数载流子寿命的降低。 实现这一目标的一个方法是在源极/漏极掺杂剂被植入之前，使用源极/漏极掩模来局部注入少数载流子寿命衰减器（MCLR）。 这允许MCLR在n沟道晶体管和p沟道晶体管的不同深度或者甚至不同的物种中被引入。 实现这一目标的另一种方法是要求在隔离氧化，栅极氧化或活性阈值植入完成之前，在该过程中非常早地完成覆盖MCLR植入物。