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公开(公告)号:KR1020150086752A
公开(公告)日:2015-07-29
申请号:KR1020140006794
申请日:2014-01-20
Applicant: 한국전자통신연구원 , 단국대학교 산학협력단
IPC: H01L27/04
Abstract: 본발명은정전기방전보호회로에관한것이다. 본발명의정전기방전보호회로는기판상에형성된 N 베리드영역, N 베리드영역상에형성된딥 N웰, 딥 N웰좌측에형성되는제 1 싱크영역, 딥 N웰내에형성되고, 양의단자에연결된제 1 P+도핑영역과제 1 N+도핑영역을포함하는제1 N웰, 딥 N웰내에형성되고, 외부저항을통해서음의단자에연결된제 2 P+도핑영역, 제 3 P+도핑영역, 및제 4 P+도핑영역과, 음의단자에연결된제 2 N+도핑영역및 제 3 N+도핑영역을포함하는 P웰, 딥 N웰내에형성되고, 양의단자에연결된제 5 P+도핑영역과제4 N+도핑영역을포함하는제 2 N웰, 딥 N웰우측에형성되는제2 싱크영역, 제 1 N+도핑영역과제 1 N웰사이에형성된제 1 N웰저항, P웰과, 제 2 P+도핑영역, 제 3 P+도핑영역, 및제 4 P+도핑영역사이에형성된 P웰저항, 제 4 N+도핑영역과제 2 N웰사이에형성된제 2 N웰저항, 딥 N웰과 N 베리드영역사이에형성되고, N 베리드영역에형성된일측이제 1 N+도핑영역과연결된제 1 딥 N웰저항, 및딥 N웰과 N 베리드영역사이에형성되고, N 베리드영역에형성된일측이제 4 N+도핑영역과연결된제2 딥 N웰저항을포함한다.
Abstract translation: 静电放电保护电路技术领域本发明涉及静电放电保护电路。 本发明的静电放电保护电路包括:形成在基板上的N掩埋区域; 在N埋地区形成深N井; 在深N井左侧形成的第一个水槽区; 在深N阱中形成的第一N阱,其包括连接到正极端子的第一N +掺杂区域和第一P +掺杂区域; 在深N阱中形成的P阱,其包括通过外部电阻连接到负极端子的第二P +掺杂区域,第三P +掺杂区域和第四P +掺杂区域,并且包括第二N +掺杂区域和 连接到负极的第三N +掺杂区域; 在深N阱中形成的第二N阱,其包括连接到正极端子的第四N +掺杂区域和第五P +掺杂区域; 形成在深N井右侧的第二个水槽区; 形成在N +掺杂区域和第一N阱之间的第一N阱电阻; 在P阱和具有第二P +掺杂区域的区域,第三P +掺杂区域和第四P +掺杂区域之间形成P阱电阻; 形成在第四N +掺杂区和第二N阱之间的第二N阱电阻; 形成在深N阱和N掩埋区之间的第一深N阱电阻,其中形成在N掩埋区中的一侧连接到第一N +掺杂区; 以及形成在深N阱和N掩埋区域之间的第二深N阱电阻,其中形成在N掩埋区域的一侧连接到第四N +掺杂区域。
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公开(公告)号:KR1020150086751A
公开(公告)日:2015-07-29
申请号:KR1020140006792
申请日:2014-01-20
Applicant: 한국전자통신연구원 , 단국대학교 산학협력단
IPC: H01L27/04
Abstract: 본발명은정전기방전보호회로에관한것이다. 본발명의정전기방전보호회로는기판상에형성된딥 N웰, 딥 N웰상의우측에형성되고, 제 1 P+확산영역, 제 1 N+확산영역, 제 2 P+확산영역, 및플로팅 P+확산영역을포함하는제 1 P웰, 딥 N웰상에형성되고, 제 1 P웰의좌측에위치하고, 플로팅 N+확산영역, 제 3 P+확산영역, 제 2 N+확산영역을포함하는 N웰, 및딥 N웰상에형성되고, 제 N웰의좌측에위치하고, 제 4 P+확산영역과제 3 N+ 확산영역중 하나를포함하는제 2 P웰을포함하고, N웰은제 1 P웰과제 2 P웰사이에위치하고, N웰과제 2 P웰사이의간격은 N웰과제 1 P웰사이의간격보다좁고, 제 1 P+확산영역과제 1 N+확산영역은캐소드에연결되고, 제 3 P+확산영역과제 2 N+확산영역은애노드에연결되고, 제 2 P+확산영역과제 4 P+확산영역은상호간에연결되는것을특징으로한다.
Abstract translation: 静电放电保护电路技术领域本发明涉及静电放电保护电路。 本发明的静电放电保护电路包括:在衬底上形成的深N阱; 第一P阱形成在深N阱的右侧,并且包括第一P +扩散区域,第一N +扩散区域,第二P +扩散区域和浮置P +扩散区域; N阱形成在深N阱上,位于第一P阱的左侧,并且包括浮置N +扩散区域,第三P +扩散区域和第二N +扩散区域; 以及形成在深N阱上的第二P阱,位于N阱的左侧,并且包括第四P +扩散区域和第三N +扩散区域中的一个。 N井位于第一个P井和第二个P井之间。 N阱和第二P阱之间的间隔比N阱和第一P阱之间的间隔窄。 第一P +扩散区域和第一N +扩散区域连接到阴极。 第三P +扩散区域和第二N +扩散区域连接到阳极。 第二P +扩散区域和第四P +扩散区域相互连接。
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公开(公告)号:KR1020130135521A
公开(公告)日:2013-12-11
申请号:KR1020120059148
申请日:2012-06-01
Applicant: 한국전자통신연구원
IPC: H02J17/00
CPC classification number: H02J50/12 , H02J17/00 , H02J50/00 , H02J50/40 , H02J50/80 , Y10T307/25 , Y10T307/297
Abstract: The present invention relates to an apparatus and method for transmitting and receiving wireless energy in an energy transmission system. The apparatus for transmitting and receiving the wireless energy includes a transmission controller which generates a wireless energy signal, a transmission resonator port which provides the wireless energy signal, and a transmission resonator which transmits the wireless energy signal provided through the transmission resonator port to a plurality of receiving apparatuses. The transmission controller transmits an impedance control signal for controlling each impedance of reception resonator ports of the receiving apparatuses in consideration of the transmission properties of the receiving apparatuses. [Reference numerals] (500) Transmitter;(511) Transmission controller;(512) Transmission resonator port;(513) Transmission resonator;(610) First receiver;(611) First reception resonator;(612) First reception resonator port;(613) Frist reception controller;(620) Second receiver;(621) Second reception resonator;(622) Second reception resonator port;(623) Second reception controller
Abstract translation: 本发明涉及在能量传输系统中发送和接收无线能量的装置和方法。 用于发送和接收无线能量的装置包括产生无线能量信号的发送控制器,提供无线能量信号的发送谐振器端口,以及将通过发送谐振器端口提供的无线能量信号发送到多个发送谐振器的发送谐振器 的接收设备。 考虑到接收装置的传输特性,传输控制器发送用于控制接收装置的接收谐振器端口的每个阻抗的阻抗控制信号。 (500)发送器(511)发送控制器(512)发送谐振器端口;(513)发送谐振器;(610)第一接收机;(611)第一接收振荡器;(612)第一接收振荡器端口; 613)第一接收控制器;(620)第二接收机;(621)第二接收谐振器;(622)第二接收谐振器端口;(623)第二接收控制器
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公开(公告)号:KR1020130098730A
公开(公告)日:2013-09-05
申请号:KR1020120020482
申请日:2012-02-28
Applicant: 한국전자통신연구원
IPC: H02J17/00
CPC classification number: H02J50/70 , H02J50/12 , H04B5/0093 , H04B5/02
Abstract: PURPOSE: An energy supply apparatus in an energy system is provided to have an effect of improving the energy transmission efficiency by collecting the leakage energy. CONSTITUTION: An energy supply apparatus comprises a transmission unit (105), a transmission coil unit (115), a reception coil unit (120), a receptor (130), a collection coil unit (135) and a collector (145). The transmission unit outputs the electric energy to supply to a first load. The transmission coil unit transmits the electric energy output from the transmission unit through the resonance and induction method. The reception coil unit receives the transmitted electric energy through the resonance and induction method. The receptor supplies the electric energy to the first load. The collection coil unit wirelessly collects the leakage energy generated in transmission and/or reception of the electric energy. The collector supplies the leakage energy to a second load. [Reference numerals] (105) Transmission unit; (130) Receptor unit; (145) Collector unit
Abstract translation: 目的:提供能量系统中的能量供应装置,以通过收集泄漏能量来提高能量传输效率。 一种能量供给装置,包括发送单元(105),发送线圈单元(115),接收线圈单元(120),接收器(130),收集线圈单元(135)和收集器(145)。 传输单元输出电能以提供给第一负载。 传输线圈单元通过谐振和感应方法传输从传输单元输出的电能。 接收线圈单元通过谐振和感应方式接收透射电能。 受体将电能提供给第一负载。 收集线圈单元无线地收集在电能的发送和/或接收中产生的泄漏能量。 集电器将泄漏能量提供给第二个负载。 (附图标记)(105)传输单元; (130)受体单位; (145)收藏单位
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Patent Agency Ranking
公开(公告)号:KR1020120100666A
公开(公告)日:2012-09-12
申请号:KR1020110050767
申请日:2011-05-27
Applicant: 한국전자통신연구원
CPC classification number: H02J7/025 , G05F3/06 , H02H3/202 , H02J5/005 , H04B5/0037
Abstract: PURPOSE: An overvoltage protecting circuit, a power transmitting device including the same, and a control method of the device are provided to improve performance for dealing with overvoltage by consistently maintaining receiving-end impedance. CONSTITUTION: A sensing unit(242a) generates a control signal by sensing an input voltage and a first current. The first current flows from an input terminal to an output terminal. A current control unit(242b) controls a second current flowing from the input terminal to a ground connection. An input current is generated by combing the first current with the second current. The current control unit is placed between the input terminal and the ground connection. [Reference numerals] (242a) Sensing unit; (242b) Current control unit; (AA) Input current; (BB,CC) First current; (DD) Input terminal; (EE) Output terminal; (FF) Second current; (GG) Equivalent resistance; (HH) Sensing signal; (II) Control signal; (JJ) Input voltage
Abstract translation: 目的:提供过电压保护电路,包括该过电压保护电路的电力传输装置和该装置的控制方法,以通过始终如一地保持接收端阻抗来改善处理过电压的性能。 构成:感测单元(242a)通过感测输入电压和第一电流来产生控制信号。 第一电流从输入端流向输出端。 电流控制单元(242b)控制从输入端流到接地连接的第二电流。 通过将第一电流与第二电流组合来产生输入电流。 电流控制单元位于输入端和接地连接之间。 (附图标记)(242a)感测单元; (242b)电流控制单元; (AA)输入电流; (BB,CC)第一电流; (DD)输入端子; (EE)输出端子; (FF)第二电流; (GG)等效电阻; (HH)感应信号; (二)控制信号; (JJ)输入电压
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公开(公告)号:KR1020120088266A
公开(公告)日:2012-08-08
申请号:KR1020110009506
申请日:2011-01-31
Abstract: PURPOSE: A wireless power transmitter and a wireless power transmission method thereof are provided to increase output power by amplifying a power signal using a balancing structure. CONSTITUTION: A wireless power transmitter(100) includes a power generation circuit(120) and a non-radial electromagnetic wave generation circuit(140). The power generation circuit includes a balanced amplifier(124) generating an AC power signal. The non-radial electromagnetic wave generation circuit includes a transmission coil(1401) and a transmission resonant coil(1402). A wireless power receiver(200) generates a power signal by receiving the non-radial electromagnetic wave from the wireless power transmitter. The wireless power receiver includes a non-radial electromagnetic wave reception circuit(220) and a load circuit(240).
Abstract translation: 目的:提供无线功率发射机及其无线功率传输方法,以通过使用平衡结构放大功率信号来增加输出功率。 构成:无线电力发射器(100)包括发电电路(120)和非径向电磁波产生电路(140)。 发电电路包括产生AC电力信号的平衡放大器(124)。 非径向电磁波发生电路包括发送线圈(1401)和发送谐振线圈(1402)。 无线电力接收器(200)通过从无线电力发射器接收非径向电磁波来产生电力信号。 无线电力接收机包括非径向电磁波接收电路(220)和负载电路(240)。
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公开(公告)号:KR1020120051320A
公开(公告)日:2012-05-22
申请号:KR1020100112701
申请日:2010-11-12
Applicant: 한국전자통신연구원
Abstract: PURPOSE: A wireless power transmitting device is provided to maximize transmission efficiency by arranging a plurality of non-radiative electromagnetic wave generating units. CONSTITUTION: A wireless power transmitting unit(100) includes a power generating unit(120) and a plurality of non-radiative electromagnetic wave generating units(141-14N). The power generating unit generates power of an AC signal type. A plurality of non-radiative electromagnetic wave generating units generate non-radiative electromagnetic waves. A wireless power receiving unit(200) includes a non-radiative electromagnetic wave receiving unit(220) and a load unit(240). The non-radiative electronic wave receiving unit includes a reception resonant coil(2221) and a load coil(2222).
Abstract translation: 目的:提供一种无线电力发送装置,通过布置多个非辐射电磁波发生单元来最大化传输效率。 构成:无线电力发送单元(100)包括发电单元(120)和多个非辐射电磁波发生单元(141-14N)。 发电单元产生交流信号类型的电力。 多个非辐射电磁波发生单元产生非辐射电磁波。 无线电力接收单元(200)包括非辐射电磁波接收单元(220)和负载单元(240)。 非辐射电波接收单元包括接收谐振线圈(2221)和负载线圈(2222)。
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公开(公告)号:KR1020120040779A
公开(公告)日:2012-04-30
申请号:KR1020100102192
申请日:2010-10-20
Applicant: 한국전자통신연구원
CPC classification number: H04B5/0037 , H01L23/5227 , H01L2924/0002 , H01Q7/00 , H04B5/0081 , H01L2924/00
Abstract: PURPOSE: A wireless power transmitting device is provided to reduce resonant frequency by multiplying capacitance between laminated repeater coils. CONSTITUTION: A base substrate(110) comprises a base coil. Relay substrates(120-140) comprises transmission coils and are arranged to be separated from the base substrate. The relay substrates comprise a first relay substrate, a second relay substrate, and a third relay substrate. The second relay substrate is arranged between the first relay substrate and the third substrate. A contact plug passes through the base substrate and relay substrates. The contact plug interlinks one ends of the transmission coils. The contact plug comprises a first contact plug and a second contact plug. The transmission coils has many rev count than the base coil. The transmission coils transmits and receives an electric source signal with a magnetism resonance method.
Abstract translation: 目的:提供无线电力传输装置,通过乘以层叠中继器线圈之间的电容来降低谐振频率。 构成:基底(110)包括基线圈。 继电器基板(120-140)包括传输线圈并被布置成与基底基板分离。 继电器基板包括第一继电器基板,第二继电器基板和第三继电器基板。 第二继电器基板设置在第一继电器基板和第三基板之间。 接触塞通过基底基板和继电器基板。 接触塞将传动线圈的一端相互连接。 接触插头包括第一接触插头和第二接触插头。 传输线圈的转数大于基线圈数。 发送线圈以磁共振方式发送和接收电源信号。
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公开(公告)号:KR1020110070747A
公开(公告)日:2011-06-24
申请号:KR1020100060523
申请日:2010-06-25
Applicant: 한국전자통신연구원
Abstract: PURPOSE: A chemical sensor using nano metal particles and a method for manufacturing the same are provided to achieve small size and excellent sensitivity and durability of a chemical sensor. CONSTITUTION: A chemical sensor comprises metal nano particles(110), ligand organic single-molecules(130), substrate joint functional groups(140), a substrate(150), electrodes(160), and substrate functional groups(170). The ligand organic single-molecules are combined with the metal nano particles through metal joint functional group. The ubstrate joint functional groups are formed in the combined metal nano particles and ligand organic single-molecules. The electrodes are formed as an IDT(Interdigitate Structure) on the substrate. The substrate functional groups are formed between the electrodes on the substrate and covalently bond with the ubstrate joint functional groups.
Abstract translation: 目的:提供使用纳米金属颗粒的化学传感器及其制造方法,以实现化学传感器的小尺寸和优异的灵敏度和耐久性。 构成:化学传感器包括金属纳米颗粒(110),配体有机单分子(130),基底接合官能团(140),基底(150),电极(160)和底物官能团(170)。 配体有机单分子通过金属接头官能团与金属纳米颗粒结合。 组合的金属纳米颗粒和配体有机单分子中形成了基底结合官能团。 电极在基板上形成为IDT(叉指结构)。 衬底官能团形成在衬底上的电极之间并与基板接合官能团共价键合。
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