公开(公告)号：US20120060335A1

公开(公告)日：2012-03-15

申请号：US13298685

申请日：2011-11-17

Applicant: Jae Jun PARK ,  Hwa Sung HWANG ,  Tae Hun KANG

Inventor： Jae Jun PARK ,  Hwa Sung HWANG ,  Tae Hun KANG

IPC: H01G9/00

CPC classification number: H01G9/012 ,  H01G9/10 ,  H01G9/15

Abstract: The present invention provides a solid electrolytic condenser including a condenser element with anode polarity; an anode wire with one side inserted inside the condenser element and the other side projected outside the condenser element; and an insulating layer formed by coating one surface of the condenser element and an exposed region of the anode wire adjacent to the one surface of the condenser element with a liquid insulating material through a non-contact scattering method and an apparatus and a method for forming the insulating layer of the solid electrolytic condenser.

Abstract translation: 本发明提供一种具有阳极极性的电容器元件的固体电解电容器; 阳极线，其一侧插入聚光元件内部，另一侧突出到聚光元件外; 以及绝缘层，其通过非接触散射方法用液体绝缘材料涂覆电容器元件的一个表面和邻近电容器元件的一个表面的阳极线的暴露区域而形成，以及用于形成 固体电解电容器的绝缘层。

公开(公告)号：US20090316338A1

公开(公告)日：2009-12-24

申请号：US12211449

申请日：2008-09-16

Applicant: Jae Jun PARK ,  Hwa Sung HWANG ,  Tae Hun KANG

Inventor： Jae Jun PARK ,  Hwa Sung HWANG ,  Tae Hun KANG

IPC: H01G9/00

CPC classification number: H01G9/012 ,  H01G9/10 ,  H01G9/15 ,  Y10T29/417

Abstract: The present invention provides a solid electrolytic condenser including a condenser element with anode polarity; an anode wire with one side inserted inside the condenser element and the other side projected outside the condenser element; and an insulating layer formed by coating one surface of the condenser element and an exposed region of the anode wire adjacent to the one surface of the condenser element with a liquid insulating material through a non-contact scattering method and an apparatus and a method for forming the insulating layer of the solid electrolytic condenser.

Abstract translation: 本发明提供一种具有阳极极性的电容器元件的固体电解电容器; 阳极线，其一侧插入聚光元件内部，另一侧突出到聚光元件外; 以及绝缘层，其通过非接触散射方法用液体绝缘材料涂覆电容器元件的一个表面和邻近电容器元件的一个表面的阳极线的暴露区域而形成，以及用于形成 固体电解电容器的绝缘层。

公开(公告)号：US20100127731A1

公开(公告)日：2010-05-27

申请号：US12585276

申请日：2009-09-10

Applicant: Jae-Yong Seo ,  Gu-Gwan Kang ,  Tae-Hun Kang ,  Hong-Sik Park ,  Jung-Hyeon Kim

Inventor： Jae-Yong Seo ,  Gu-Gwan Kang ,  Tae-Hun Kang ,  Hong-Sik Park ,  Jung-Hyeon Kim

IPC: H03K19/173 ,  H01H37/76

CPC classification number: H03K19/173 ,  G11C17/18 ,  H01L23/5252 ,  H01L2924/0002 ,  H01L2924/00

Abstract: Example embodiments are directed to an antifuse circuit of an inverter type and a method of programming the same. The antifuse circuit has improved corrosion resistance, utilizes lesser chip area and can be programmed at a low voltage. The antifuse circuit includes a PMOS transistor with the gate coupled to a drive power voltage terminal and the source coupled to an anti-pad terminal. During programming the PMOS transistor is off and the source receives an alternating current. Programming the antifuse circuit involves trapping a plurality of electron in an STI region as a result of gate-induced drain leakage. The antifuse circuit also includes an NMOS transistor with the drain connected to the drain of the PMOS transistor, the source connected to ground and the gate connected to a program control signal. The antifuse circuit results in reliable fuse programming at a low voltage by using the PMOS transistor as an anti-fuse device.

Abstract translation: 示例性实施例涉及逆变器类型的反熔丝电路及其编程方法。 反熔丝电路具有改善的耐腐蚀性，使用较小的芯片面积，并且可以在低电压下编程。 反熔丝电路包括PMOS晶体管，其栅极耦合到驱动电源电压端子，并且源极耦合到反焊盘端子。 在编程期间，PMOS晶体管截止，源极接收交流电流。 对反熔丝电路的编程涉及在栅极引起的漏极泄漏的情况下在STI区域中捕获多个电子。 反熔丝电路还包括NMOS晶体管，漏极连接到PMOS晶体管的漏极，源极连接到地，栅极连接到编程控制信号。 反熔丝电路通过使用PMOS晶体管作为反熔丝器件，在低电压下实现可靠​​的熔丝编程。

公开(公告)号：US08092556B2

公开(公告)日：2012-01-10

申请号：US12211449

申请日：2008-09-16

Applicant: Jae Jun Park ,  Hwa Sung Hwang ,  Tae Hun Kang

Inventor： Jae Jun Park ,  Hwa Sung Hwang ,  Tae Hun Kang

IPC: H01G9/00

CPC classification number: H01G9/012 ,  H01G9/10 ,  H01G9/15 ,  Y10T29/417

Abstract: The present invention provides a solid electrolytic condenser including a condenser element with anode polarity; an anode wire with one side inserted inside the condenser element and the other side projected outside the condenser element; and an insulating layer formed by coating one surface of the condenser element and an exposed region of the anode wire adjacent to the one surface of the condenser element with a liquid insulating material through a non-contact scattering method and an apparatus and a method for forming the insulating layer of the solid electrolytic condenser.

Abstract translation: 本发明提供一种具有阳极极性的电容器元件的固体电解电容器; 阳极线，其一侧插入聚光元件内部，另一侧突出到聚光元件外; 以及绝缘层，其通过非接触散射方法用液体绝缘材料涂覆电容器元件的一个表面和邻近电容器元件的一个表面的阳极线的暴露区域而形成，以及用于形成 固体电解电容器的绝缘层。