TWI630701B - 溫度補償電路 - Google Patents
溫度補償電路 Download PDFInfo
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- TWI630701B TWI630701B TW106126041A TW106126041A TWI630701B TW I630701 B TWI630701 B TW I630701B TW 106126041 A TW106126041 A TW 106126041A TW 106126041 A TW106126041 A TW 106126041A TW I630701 B TWI630701 B TW I630701B
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Classifications
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- H01L27/085—Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components specially adapted for rectifying, oscillating, amplifying or switching and having potential barriers; including integrated passive circuit elements having potential barriers the substrate being a semiconductor body including only semiconductor components of a single kind including field-effect components only
- H01L27/088—Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components specially adapted for rectifying, oscillating, amplifying or switching and having potential barriers; including integrated passive circuit elements having potential barriers the substrate being a semiconductor body including only semiconductor components of a single kind including field-effect components only the components being field-effect transistors with insulated gate
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- H01L27/0203—Particular design considerations for integrated circuits
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- H01L27/0266—Particular design considerations for integrated circuits for electrical or thermal protection, e.g. electrostatic discharge [ESD] protection for MOS devices using field effect transistors as protective elements
- H01L27/0285—Particular design considerations for integrated circuits for electrical or thermal protection, e.g. electrostatic discharge [ESD] protection for MOS devices using field effect transistors as protective elements bias arrangements for gate electrode of field effect transistors, e.g. RC networks, voltage partitioning circuits
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- H01L21/77—Manufacture or treatment of devices consisting of a plurality of solid state components or integrated circuits formed in, or on, a common substrate
- H01L21/78—Manufacture or treatment of devices consisting of a plurality of solid state components or integrated circuits formed in, or on, a common substrate with subsequent division of the substrate into plural individual devices
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- H01L21/822—Manufacture or treatment of devices consisting of a plurality of solid state components or integrated circuits formed in, or on, a common substrate with subsequent division of the substrate into plural individual devices to produce devices, e.g. integrated circuits, each consisting of a plurality of components the substrate being a semiconductor, using silicon technology
- H01L21/8232—Field-effect technology
- H01L21/8234—MIS technology, i.e. integration processes of field effect transistors of the conductor-insulator-semiconductor type
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- H01L21/77—Manufacture or treatment of devices consisting of a plurality of solid state components or integrated circuits formed in, or on, a common substrate
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- H01L21/82—Manufacture or treatment of devices consisting of a plurality of solid state components or integrated circuits formed in, or on, a common substrate with subsequent division of the substrate into plural individual devices to produce devices, e.g. integrated circuits, each consisting of a plurality of components
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- H01L27/04—Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components specially adapted for rectifying, oscillating, amplifying or switching and having potential barriers; including integrated passive circuit elements having potential barriers the substrate being a semiconductor body
- H01L27/06—Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components specially adapted for rectifying, oscillating, amplifying or switching and having potential barriers; including integrated passive circuit elements having potential barriers the substrate being a semiconductor body including a plurality of individual components in a non-repetitive configuration
- H01L27/0611—Devices consisting of a plurality of semiconductor or other solid-state components formed in or on a common substrate including semiconductor components specially adapted for rectifying, oscillating, amplifying or switching and having potential barriers; including integrated passive circuit elements having potential barriers the substrate being a semiconductor body including a plurality of individual components in a non-repetitive configuration integrated circuits having a two-dimensional layout of components without a common active region
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- H01L29/02—Semiconductor bodies ; Multistep manufacturing processes therefor
- H01L29/06—Semiconductor bodies ; Multistep manufacturing processes therefor characterised by their shape; characterised by the shapes, relative sizes, or dispositions of the semiconductor regions ; characterised by the concentration or distribution of impurities within semiconductor regions
- H01L29/0603—Semiconductor bodies ; Multistep manufacturing processes therefor characterised by their shape; characterised by the shapes, relative sizes, or dispositions of the semiconductor regions ; characterised by the concentration or distribution of impurities within semiconductor regions characterised by particular constructional design considerations, e.g. for preventing surface leakage, for controlling electric field concentration or for internal isolations regions
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- H01L29/40—Electrodes ; Multistep manufacturing processes therefor
- H01L29/43—Electrodes ; Multistep manufacturing processes therefor characterised by the materials of which they are formed
- H01L29/49—Metal-insulator-semiconductor electrodes, e.g. gates of MOSFET
- H01L29/495—Metal-insulator-semiconductor electrodes, e.g. gates of MOSFET the conductor material next to the insulator being a simple metal, e.g. W, Mo
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- H01L29/00—Semiconductor devices specially adapted for rectifying, amplifying, oscillating or switching and having potential barriers; Capacitors or resistors having potential barriers, e.g. a PN-junction depletion layer or carrier concentration layer; Details of semiconductor bodies or of electrodes thereof ; Multistep manufacturing processes therefor
- H01L29/40—Electrodes ; Multistep manufacturing processes therefor
- H01L29/43—Electrodes ; Multistep manufacturing processes therefor characterised by the materials of which they are formed
- H01L29/49—Metal-insulator-semiconductor electrodes, e.g. gates of MOSFET
- H01L29/4966—Metal-insulator-semiconductor electrodes, e.g. gates of MOSFET the conductor material next to the insulator being a composite material, e.g. organic material, TiN, MoSi2
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- H—ELECTRICITY
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- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L29/00—Semiconductor devices specially adapted for rectifying, amplifying, oscillating or switching and having potential barriers; Capacitors or resistors having potential barriers, e.g. a PN-junction depletion layer or carrier concentration layer; Details of semiconductor bodies or of electrodes thereof ; Multistep manufacturing processes therefor
- H01L29/40—Electrodes ; Multistep manufacturing processes therefor
- H01L29/43—Electrodes ; Multistep manufacturing processes therefor characterised by the materials of which they are formed
- H01L29/49—Metal-insulator-semiconductor electrodes, e.g. gates of MOSFET
- H01L29/4966—Metal-insulator-semiconductor electrodes, e.g. gates of MOSFET the conductor material next to the insulator being a composite material, e.g. organic material, TiN, MoSi2
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Abstract
本揭露大體上係關於積體電路,且更特定言之係關於低偏壓電壓參考電路。該等電壓參考電路能夠提供高度精確且溫度不敏感輸出。明確言之,本揭露提供具有低製程變動及可調諧溫度係數之與絕對溫度互補電路。
Description
本發明之實施例係有關於一種溫度補償電路。
電壓參考係通常用作混合模式中之功能區塊之電路及類比積體電路(IC),諸如資料轉換器、鎖相迴路(PLL)、振蕩器、功率管理電路、動態隨機存取記憶體(DRAM)、快閃記憶體等。一電壓參考較佳標稱獨立於溫度、電源供應器及負載變動。
本揭露之一實施例係關於一種電壓參考電路,其包括:一第一電路,其經組態以產生量值隨溫度之一增大而增大之一第一輸出電壓;及一第二電路,其包含各自具有一不同臨限電壓且經組態以產生量值隨溫度之該增大而減小之一第二輸出電壓之至少兩個電晶體;其中該至少兩個電晶體之一第一電晶體包括具有一第一功函數材料之一第一閘極堆疊,且該至少兩個電晶體之一第二電晶體包括具有不同於該第一功函數材料之一第二功函數材料之一第二閘極堆疊。 本揭露之一實施例係關於一種電路,其包括:一第一場效電晶體,其具有一第一臨限電壓,其中該第一場效電晶體包括具有一第一導電類型之一第一功函數材料之一第一閘極電極;及一第二場效電晶體,其耦合至該第一場效電晶體而具有不同於該第一臨限電壓之一第二臨限電壓,其中該第二場效電晶體包括具有與該第一導電類型相反之一第二導電類型之一第二功函數材料之一第二閘極電極,且該第一場效電晶體及該第二場效電晶體係相同通道類型裝置。 本揭露之一實施例係關於一種形成一半導體結構之方法,其包括:在一基板上形成複數個鰭狀物,該複數個鰭狀物之各鰭狀物具有一相同導電類型;在具有該相同導電類型之該複數個鰭狀物之各鰭狀物上方沈積一第一功函數層;自具有該相同導電類型之該複數個鰭狀物之至少一個鰭狀物移除該第一功函數層;沈積一第二功函數層;及在該第二功函數層上方沈積一金屬層。
以下揭露提供用於實施所提供之標的之不同構件之許多不同實施例或實例。下文描述組件及配置之特定實例以簡化本揭露。當然,此等僅為實例且非旨在限制。舉例而言,在以下描述中之一第一構件形成於一第二構件上方可包含其中該第一構件及該第二構件經形成直接接觸之實施例,且亦可包含其中額外構件經放置在該第一構件與該第二構件之間,使得該第一構件及該第二構件不直接接觸之實施例。另外,本揭露可在各種實例中重複元件符號及/或字母。此重複本身不指示所論述之各種實施例及/或組態之間之一關係。 如本文中使用之縮寫詞「FET」係指一場效電晶體。一極常見類型之FET稱為一金屬氧化物半導體場效電晶體(MOSFET)。在歷史上,MOSFET係建置在一基板(諸如一半導體晶圓)之平面表面中及上之平面結構。但半導體製造中之最新進展已導致使用垂直結構作為MOSFET。 術語「FinFET」係指形成於相對於一晶圓之平面表面垂直定向之一鰭狀物上方之一FET。 S/D係指形成一FET之四個端子之兩者之源極及/或汲極接面。 如本文中使用之術語「標稱」係指在一產品或一製程之設計階段期間設定之一組件或一製程操作之一特性或參數之一所要或目標值,連同超出及/或低於所要值之一系列值。該系列值通常歸因於製程或容限之略微變動。 根據本揭露之各種實施例大體上係關於IC (積體電路)裝置,且更明確言之提供產生低電壓應用中之製程不變且溫度獨立電壓參考電路之電路的電路及方法。高溫通常以不利地影響IC裝置之操作速度及可靠性之方式改變IC裝置之特性,因此低成本且溫度獨立裝置係所要的,尤其對於現代攜帶型及IoT (物聯網)裝置。IoT裝置通常不受限制且需要具有低功率消耗之組件。用於IoT應用之感測裝置(諸如壓力、溫度或濕度感測器)使用溫度獨立且在低偏壓電壓下操作之ADC (類比轉數位轉換器)及DAC (數位轉類比轉換器)組件。根據本揭露之電壓參考電路係用於上述低功率IoT應用或電力供應系統(諸如低壓降(LDO)調節器)之整合及重要部分。 根據本揭露之例示性溫度補償電路將雙功函數層併入至FET閘極堆疊中以調整其等臨限電壓。併入雙功函數層之一個益處係用此等FET製成之一電壓參考電路能夠產生具有一寬電流範圍之高度精確且溫度獨立輸出電壓。根據本揭露之電壓參考電路之一益處係該等電壓參考電路可用於低電壓應用(諸如(但不限於)低於0.5 V偏壓電壓電路或熱感測器)中。此外,將雙功函數層併入至用於電壓參考電路中之FET中具成本效率,且此等電路展現對製程變動之降低之敏感度。 在描述與電壓參考電路相關之例示性實施例之前,呈現積體電路設計管理之一實例。隨著將來自印刷電路板之功能及應用合併至一單晶片之需求愈來愈強,IC之規模及設計變得日益複雜且耗時。電腦輔助設計(CAD)已成為加速及改良IC設計之品質之一必要工具。在設計一專用積體電路(ASIC)之全部階段當中,實體佈局佔據設計循環之一主要部分。 在產生一ASIC之一實體佈局時,可首先產生一電腦佈局。通常,可藉由基於指定示意圖配置若干個別區塊或「邏輯單元」而產生電腦佈局。個別邏輯單元之功能性及設計可經預定且儲存在一電腦系統上作為一標準化單元設計。此等單元設計技術可節省設計循環之時間,此係因為一IC設計者不再需要定製設計一積體電路中之各個別閘極及電晶體。實情係,電路或裝置設計者將一新電路或裝置設計分解成若干已知(或新)單元設計且接著適當地組合此等單元以產生執行一所要功能之一電路或裝置。邏輯單元或裝置之各者含有用於與IC中之其他單元互連之若干端子。 為將佈局發佈至用於半導體處理中之遮罩製造,可將佈局資料傳送至一遮罩廠(mask shop)。此稱為下線。下線表示當一IC之一設計佈局資料庫準備好傳送至一遮罩製造操作時之一階段。為製備用於下線之一佈局資料庫,使用商業置放及佈線(place-and-route) CAD工具。更特定言之,置放及佈線CAD程式用於1)配置邏輯單元及其他元件以最佳化其等互連及一IC之整體大小;且2)界定佈線安排區且選擇通道以連接邏輯單元及元件。一置放及佈線CAD工具需要預定數目個預定義邏輯單元類型(例如,反相器、NAND、NOR、XOR、多工器、正反器、退耦電容等)作為輸入以實施上文中提及之任務。據此回應,置放及佈線CAD工具輸出一佈局資料庫。 使用佈局資料庫作為用於光微影遮罩之一藍圖,在基板中透過半導體製程之一組合(即,沈積、遮罩及蝕刻)產生界定IC之元件及互連之若干基本電晶體層、接點及金屬層。當組合時,此等層形成IC且實際上實施所要功能。IC之元件及互連之實例係(但不限於) FinFET、平面FET及多層互連件(MLI)。取決於ASIC之複雜性,各電路可涉及多個基層、多個接點及多個金屬層。此佈局資料庫發佈程序被廣泛稱為下線。 圖1係一例示性電壓參考電路之一方塊圖。根據本揭露之電壓參考電路藉由抵消溫度變化引發之輸出變動而產生標稱溫度獨立電壓輸出。一電壓參考電路100可包括一第一電壓源101、一第二電壓源103及一電壓輸出子電路105。電壓參考電路100可包含各種其他裝置及構件,諸如額外電晶體、雙極接面電晶體、電阻器、電容器、二極體、熔絲等,但為更好地理解本揭露而簡化。 電壓參考電路100係一標稱溫度獨立電壓參考電路,其中第一電壓源101之正溫度相依性由第二電壓源103之負溫度相依性取消,因此導致一參考溫度下之一穩定輸出電壓V
REF。在此實施例中,第一電壓源101係具有一正溫度相依性之一與絕對溫度成比例(PTAT)電路。在一PTAT電路中,其輸出電壓之變動與溫度成比例,即,隨著溫度增大及減小而分別增大及減小。在此實施例中,第二電壓源103係具有一負溫度相依性之一與絕對溫度互補(CTAT)電路。在一CTAT電路中,其輸出電壓之變動與溫度互補,即,隨著溫度增大及減小而分別減小及增大。在操作中,PTAT電路產生輸出電壓V
P及電流I
P,且CTAT電路產生輸出電壓V
C及電流I
C。由CTAT及PTAT電路產生之輸出電流藉由電壓輸出模組105加總以產生一參考電壓V
REF。取決於電路拓撲,由CTAT及PTAT電路產生之輸出電壓可替代地藉由電壓輸出模組105加總以產生參考電壓V
REF。參考電壓V
REF標稱對溫度或電源供應器之變化不敏感。 圖2係一CTAT電路之一例示性實施例之一示意圖。例示性CTAT電路係包括具有如圖2中展示般連接之端子之兩個NMOS電晶體M1及M2之一CTAT單元200。各電晶體包括至少三個端子:源極、汲極及閘極。如圖2中展示,第一電晶體M1之汲極端子耦合至一輸入電流源I
IN且亦耦合至兩個電晶體M1及M2之閘極端子。電晶體M1之源極端子耦合至電晶體M2之汲極端子以提供輸出電壓V
C。電晶體M2之源極端子耦合至接地。CTAT單元200可包含各種其他裝置及構件,諸如額外電晶體、雙極接面電晶體、電阻器、電容器、二極體、熔絲等,但為更好地理解本揭露而簡化。因此,CTAT單元200可包含互連之複數個裝置。 在此例示性實施例中,電晶體M1及M2係金屬閘極n通道電晶體。CTAT單元200可視電路效能規範之需要而包括複數個電晶體M1及複數個電晶體M2。實施金屬閘極之一個製程稱為一「後閘極」或「替換閘極」。此等製程包含形成一犧牲多晶矽閘極、執行與半導體裝置相關聯之各種製程及隨後移除犧牲閘極且將其替換為一金屬閘極。用於金屬閘極之功函數材料之選擇影響電晶體臨限電壓V
TH。一功函數值與功函數層之材料組合物相關聯,因此,功函數層之材料經選取以調諧其功函數使得達成所要標稱臨限電壓V
TH。功函數金屬可為p型或n型。舉例而言,NFET可含有p型以及n型功函數金屬及一個以上功函數層,或NFET可含有僅一個類型之功函數金屬。例示性p型功函數材料包含(但不限於) TiN、TaN、Ru、Mo、WN、ZrSi
2、MoSi
2、TaSi
2、NiSi
2、WN。例示性n型功函數金屬包含(但不限於) Ti、Ag、Al、TaAl、TaAlC、TiAlN、TaC、TaCN、TaSiN、Mn、Zr。可藉由CVD (化學氣相沈積)、PVD (物理氣相沈積)、ALD (原子層沈積)及/或其他適合製程沈積功函數層。 在例示性CTAT單元200中,NMOS電晶體M1及M2包含不同功函數層以達成不同臨限電壓。舉例而言,電晶體M1之結構包含一n型功函數層而電晶體M2包含一p型功函數層。由若干因素判定電晶體臨限電壓,且一個因素係閘極與半導體材料之功函數之間之差異。不同功函數材料具有不同溫度斜率。由於NMOS電晶體M1及M2兩者皆為n通道裝置,故併入n型功函數層及p型功函數層導致閘極及半導體材料之不同組合。因此,n型功函數層與p型功函數層之功函數之間之差異導致NMOS電晶體M1及M2之不同臨限電壓。在例示性CTAT單元200中,NMOS電晶體M1之臨限電壓經組態以低於NMOS電晶體M2之臨限電壓。類似地,若M1及M2係PMOS電晶體,則n型功函數層與p型功函數層之功函數之間之差異導致不同臨限電壓。 如上文中描述,各種功函數層可經預定且儲存為CAD功能區塊,因此n型功函數層可藉由將n型功函數金屬CAD區塊置放至佈局設計中而併入至電晶體M1佈局設計中。其他功能層(諸如裝置設計之閘極、源極及汲極)可以一類似方式併入至佈局中作為CAD功能區塊。 p型功函數層藉由使用電晶體M1佈局設計且用一p型功函數金屬CAD區塊替換n型功函數金屬CAD區塊而併入至電晶體M2佈局設計中,尤其在電晶體M1及M2之佈局歸因於效能規範及電路設計規則而在裝置設計方面具有足夠類似性時。為達成此,電晶體M1佈局及對應裝置層可作為一「假想」視圖匯入至一CAD區塊庫中以用於電晶體M2之CAD區塊庫。假想視圖亦可包含覆蓋區(例如,包含閘極、源極及汲極區、互連、隔離區、功函數區塊及類似者之位置及規範之電路之實體資訊)及關於第一裝置之連接(例如,接腳佈局)之資訊。自CAD區塊庫提取用於產生電晶體M2佈局之必要CAD區塊以根據效能規範及電路設計規則置放且連接至彼此或其他電路組件。效能規範之實例係(但不限於)標稱溫度係數、特定偏壓或輸出電壓、特定偏壓或輸出電流、實體限制等。 替代地,可首先產生複數個電晶體M1佈局,其中置放電晶體M1及M2兩者經設計。接著,使用一或多個排出(block-out)CAD區塊排出電晶體M1佈局中之一或多個CAD功能區塊。一排出CAD區塊係來自用於排出功能CAD區塊及其等覆蓋區之CAD庫之一空白CAD區塊。接著,視效能規範之需要用來自庫之CAD功能區塊替換排出CAD功能區塊。舉例而言,電晶體M1佈局設計中之n型功函數金屬CAD區塊可經排出且用p型功函數金屬CAD區塊替換,因此產生具有p型功函數層之電晶體M2佈局。由於可預定n型及p型功函數金屬CAD區塊兩者,故無需新層或區塊。用於提供一標稱臨限電壓之任何適當裝置可用於電壓參考電路中,諸如(但不限於)標準臨限電壓(SVT)層、超低臨限電壓(uLVT)層、低臨限電壓(LVT)層或高臨限電壓(HVT)層。 在一替代製程中,n型功函數層及p型功函數層可以不同於上文中描述之製程之一方式併入至電晶體佈局設計中。首先將p型功函數金屬CAD區塊置放至電晶體M2之佈局設計中。接著,為將n型功函數金屬CAD區塊併入至電晶體M1之佈局設計中,用一n型功函數金屬CAD區塊替換電晶體M2佈局中之p型功函數金屬CAD區塊。 在另一替代製程中,可首先產生具有p型功函數金屬CAD區塊之複數個電晶體M2佈局,電晶體M1及M2兩者經設計以置放於該等電晶體M2佈局中。電晶體M2佈局設計中之p型功函數金屬CAD區塊經排出且用n型功函數金屬CAD區塊替換,因此產生具有n型功函數層之電晶體M1佈局。由於可預定n型及p型功函數金屬CAD區塊兩者,故無需新層或區塊。 上文中提及之製程提供CTAT單元對製程變動不敏感之益處,此係因為無需額外或新裝置/製程層。 CTAT單元200之輸出電壓V
C遵循以下方程式1:
其中Vgs
M1及Vgs
M2係電晶體M1及M2之各自閘極至源極電壓,且Vth
M1及Vth
M2係電晶體M1及M2之各自臨限電壓。Vth
M2經組態以大於Vth
M1。功函數層經選擇使得電壓參考電路能夠在低於0.5 V偏壓電壓(舉例而言,0.3 V)下起作用。 根據本揭露之方法提供具有可調諧線性溫度係數之電壓參考電路。藉由調整電晶體M1及M2之有效閘極寬度及長度,可達成提供隨溫度之線性電壓輸出之一標稱溫度係數。儘管下文中之例示性裝置圖解說明為修改有效閘極寬度及長度,然而可類似地修改一半導體裝置之閘極結構或構件之其他態樣,舉例而言,閘極高度。 可實施根據本揭露之方法以調整CMOS裝置之有效閘極寬度及長度。然而,吾人可辨識,其他半導體裝置類型可受益於本方法,諸如且不限於平面FET及FinFET。為更好地圖解說明半導體裝置之各種結構及構件(諸如閘極寬度、長度或高度),在圖3中圖解說明一例示性半導體裝置結構300。 圖3係包含FinFET裝置結構之半導體裝置結構300之一透視圖。應理解,圖3僅為代表性而非旨在限制。 半導體裝置結構300包含一基板302、複數個鰭狀物304、複數個隔離結構306及放置在各鰭狀物304之側壁及頂部表面上方之一閘極結構308。閘極結構308包含一閘極介電層315及一閘極電極層317。在替代實施例中,一或多個額外層可包含於閘極結構308中。圖3展示放置在閘極電極層317之一頂部表面上之一硬遮罩320。硬遮罩320用於圖案化(諸如藉由蝕刻)閘極結構308。在一些實施例中,硬遮罩320由一介電材料(諸如氧化矽)製成。在閘極結構308之圖案化製程(例如,蝕刻)之後獲取圖3之透視圖。圖3展示僅一個閘極結構308。熟習此項技術者將理解,典型積體電路含有複數個此(等)及類似閘極結構。 圖3中展示之複數個鰭狀物304之各者包含一對S/D端子。為便於描述,該對S/D端子之一第一者稱為一源極區310
S且該對S/D端子之一第二者稱為一汲極區310
D,其中S/D端子形成在鰭狀物304中、上及/或周圍。鰭狀物304之一通道區312下伏於閘極結構308。如圖3中展示,閘極結構308具有一閘極長度L,及一有效閘極寬度W
E=2×H
F+W。在一些實施例中,閘極長度L在約10 nm至約30 nm之範圍中。在一些其他實施例中,閘極長度L在約3 nm至約10 nm之範圍中。在一些實施例中,鰭狀物寬度W在約10 nm至約20 nm之範圍中。在一些其他實施例中,鰭狀物寬度W在約3 nm至約10 nm之範圍中。在一些實施例中,自鰭狀物304之頂部至閘極結構308之頂部所量測之閘極結構308之閘極高度H
G在約50 nm至約80 nm之範圍中。在一些實施例中,自隔離結構306之表面至鰭狀物304之頂部所量測之鰭狀物304之鰭狀物高度H
F在約25 nm至約35 nm之範圍中。 基板302可為一矽基板。替代地,基板302可包括:另一元素半導體,諸如鍺;一化合物半導體,其包含碳化矽、砷化鎵、磷化鎵、磷化銦、砷化銦及/或銻化銦;一合金半導體,其包含SiGe、GaAsP、AlInAs、AlGaAs、GaInAs、GaInP及/或GaInAsP;或其組合。在一實施例中,基板302係一絕緣體上半導體(SOI)。 隔離結構306由一介電材料製成且可由氧化矽、氮化矽、氮氧化矽、摻氟矽酸鹽玻璃(FSG)、一低介電係數材料及/或其他適合絕緣材料形成。隔離結構306可為淺溝槽隔離(STI)結構。在一實施例中,隔離結構係STI結構且藉由蝕刻基板302中之溝槽而形成。接著,可用絕緣材料填充溝槽,接著進行一化學機械拋光(CMP)。用於隔離結構306及/或鰭狀物304之其他製造技術係可行的。隔離結構306可包含舉例而言具有一或多個線性層之一多層結構。 鰭狀物304係其中形成一或多個電晶體之主動區。鰭狀物304可包括:矽或另一元素半導體,諸如鍺;一化合物半導體,其包含碳化矽、砷化鎵、磷化鎵、磷化銦、砷化銦及/或銻化銦;一合金半導體,其包含SiGe、GaAsP、AlInAs、AlGaAs、GaInAs、GaInP及/或GaInAsP;或其組合。可使用包含光微影及蝕刻製程之適合製程來製造鰭狀物304。光微影製程可包含:形成上覆於基板(例如,在一矽層上)之一光阻劑層(光阻);將光阻曝光於一圖案;執行曝光後烘烤製程;及使光阻顯影以形成包含光阻之一遮罩元件。接著,可使用遮罩元件來保護基板之區同時一蝕刻製程將凹槽形成至隔離結構306中,從而留下突出鰭狀物。可使用反應性離子蝕刻(RIE)及/或其他適合製程來蝕刻凹槽。在基板302上形成鰭狀物304之眾多其他方法可為適合的。 閘極結構308可包含一閘極介電層315、一閘極電極層317、一間隔層316及/或一或多個額外層。為便於描述,圖3中未展示間隔層316。在一實施例中,閘極結構308使用多晶矽作為閘極電極層317。在圖3中亦展示放置於閘極電極層317之一頂部表面上之一硬遮罩320。硬遮罩320用於圖案化(諸如藉由蝕刻)閘極結構308。在一些實施例中,硬遮罩320由一介電材料(諸如氧化矽)製成。 儘管圖3之透視圖展示使用多晶矽作為閘極電極層317之閘極結構308,然而熟習此項技術者將理解,閘極結構308可為諸如在用於形成一金屬閘極結構之一替換閘極製程中形成之一犧牲閘極結構。替換閘極製程及許多其他步驟可經執行且未在此等圖中展示。金屬閘極結構可包含(若干)介面層、(若干)閘極介電層、(若干)功函數層、(若干)填充金屬層及/或用於一金屬閘極結構之其他適合材料。在其他實施例中,金屬閘極結構可進一步包含罩蓋層、蝕刻停止層及/或其他適合材料。介面層可包含一介電材料,諸如氧化矽層(SiO
2)或氮氧化矽(SiON)。可藉由化學氧化、熱氧化、ALD、CVD、PVD及/或其他適合形成製程而形成介面介電層。 如上文中提及,可包含於金屬閘極結構中之例示性p型功函數金屬包含TiN、TaN、Ru、Mo、Al、WN、ZrSi
2、MoSi
2、TaSi
2、NiSi
2、WN、其他適合p型功函數材料或其組合。可包含於金屬閘極結構中之例示性n型功函數金屬包含Ti、Ag、TaAl、TaAlC、TiAlN、TaC、TaCN、TaSiN、Mn、Zr、其他適合n型功函數材料或其組合。可藉由CVD、PVD及/或其他適合製程沈積(若干)功函數層。 填充金屬層可包含Al、W或Cu及/或其他適合材料。可藉由CVD、PVD、鍍覆及/或其他適合製程形成填充金屬。填充金屬可經沈積於(若干)功函數層上方,且藉此填充在藉由移除犧牲閘極結構而形成之溝槽或開口之剩餘部分中。 如上文中提及,藉由調整電晶體M1及M2之有效閘極寬度W
E及長度L,可達成具有隨溫度之線性輸出電壓變化之一標稱溫度係數。為更好圖解說明,裝置尺寸比率定義為W
E與L之間之比率,因此針對電晶體M1及M2之裝置尺寸比率分別定義為
及
。在尺寸比率調整之效應下,將一新的項加至方程式1以反映CTAT單元200之輸出電壓V
C:
係熱電壓,其中k係玻爾茲曼常數,T係絕對溫度,且q係電子電荷(1.6×10
-19庫侖)。η係次臨限斜率且通常係一常數。電壓參考電路之溫度係數定義為相對於溫度T所繪製之V
C之斜率。如方程式2中展示且關於圖4進一步論述,可依M1及M2之尺寸比率P/Q調整溫度係數。在P及Q經設計為相等之境況下,則方程式1及2相同。電晶體之尺寸及類型可經選擇使得CTAT單元200能夠提供寬電流範圍,舉例而言,10 nA至50 μA。 圖4描繪依據溫度而變化之CTAT單元200之輸出電壓V
C之一例示性圖表。如圖4中展示,曲線401、403、405及407經選取以在此處展示於複數個曲線圖當中,其中分別針對2、1、0.5及0.25之尺寸比率P/Q相對於溫度繪製V
C之曲線。應注意,此等輸出電壓、尺寸比率及所得曲線僅選擇為實例且不應視為限制。使用曲線401、403、405及407作為實例,尺寸比率P/Q之變動相應地改變曲線之斜率,其中曲線401展現具有最低絕對值之一負溫度係數或斜率,且曲線407展現具有最大絕對值之一負溫度係數或斜率。因此,可藉由選擇一特定尺寸比率而達成一標稱負溫度係數。舉例而言,P/Q可經調整為低於或高於1以分別增大或減小溫度係數。此外,由於曲線401、403、405及407展現V
C與寬溫度範圍之間之線性關係,故可可靠地判定且設定一特定溫度下之一標稱V
C。 圖5A至圖5C描繪根據本揭露之各種例示性實施例CTAT單元200。在此等實施例中,電晶體M1及M2利用不同功函數層來達成不同臨限電壓。且尺寸比率可經選擇以達成一標稱負溫度係數。關於圖5A至圖5C揭露之各種實施例係上文中關於圖3揭露之CTAT單元電路之變動,且電晶體M1利用一n型功函數層而電晶體M2利用一p型功函數層。 類似地,各種功函數層可經預定且儲存為CAD區塊,因此n型功函數層可藉由將n型功函數金屬CAD區塊置放至佈局設計中而併入至電晶體M1佈局設計中。p型功函數層可藉由使用電晶體M1佈局設計且用一p型功函數金屬CAD區塊替換n型功函數金屬CAD區塊而併入至電晶體M2佈局設計中。CTAT單元200之輸出電壓V
C遵循上文中之方程式1及2。如關於圖5A及圖5C之各種實施例中展示,電晶體M1及M2可為p通道電晶體。 圖6係用於產生CTAT單元佈局之一闡釋性方法600之一流程圖。可在方法600之各種操作之間執行其他操作。 方法600以操作602開始,其中針對CTAT單元佈局判定一效能規範且基於該效能規範判定基本電晶體尺寸。舉例而言,基於特定電流或電壓輸出需求判定CTAT單元規範。CTAT單元可包括複數個電晶體,舉例而言,一第一FET及一第二FET。藉由調整基本電晶體尺寸(諸如第一FET及第二FET之有效閘極寬度W
E及長度L),可達成具有隨溫度之線性輸出電壓變化之一標稱溫度係數。 方法600繼續操作604,其中分別調整第一FET及第二FET之尺寸比率P及Q以達成一標稱負溫度係數。舉例而言,P/Q可經調整為低於或高於1以分別增大或減小溫度係數。因此,可針對應包含於CTAT單元佈局中之第一FET及第二FET提供關於CTAT單元之溫度係數之一效能規範。使用自動化軟體工具將規範變換成一特定電路結構,舉例而言,如在一接線對照表中提供。藉由調整第一FET及第二FET之尺寸比率,可達成具有隨溫度之線性輸出電壓變化之一標稱溫度係數。 方法600繼續操作606,其中產生CTAT單元之佈局。使用工具(CAD工具)將接線對照表轉換成FET之一佈局。可以GDS Ⅱ格式或此項技術中已知之任何佈局格式提供佈局。在一實施例中,可自(舉例而言)實施一預定n型功函數層之一預定接線對照表或庫產生第一FET之佈局。然而,與習知方法相比,考量第一FET之佈局而執行第二FET之佈局。 方法600繼續操作608,其中使用排出CAD區塊排出第一FET及第二FET之佈局中之一或多個CAD功能區塊。舉例而言,使用排出CAD區塊排出第一FET及第二FET之佈局中之功函數金屬CAD區塊。替代地,僅針對選定裝置佈局排出功函數金屬CAD區塊。 方法600繼續操作610,其中針對選定裝置實施功函數金屬CAD區塊。可自庫匯入選定裝置之一特定層之佈局。舉例而言,藉由用一p型功函數金屬CAD區塊替換假想視圖中之n型功函數金屬CAD區塊而形成第二FET之功函數金屬CAD區塊。藉由首先自假想視圖移除n型功函數金屬CAD區塊且接著將來自接線對照表或庫之p型功函數金屬CAD區塊匯入至經移除n型功函數金屬CAD區塊之位置中而完成此操作以產生第二FET之一佈局。替代地,可首先產生複數個第一裝置佈局,第一裝置及第二裝置兩者經設計以置放於該等第一裝置佈局中。接著使用一排出CAD區塊排出第一裝置佈局中之一或多個CAD功能區塊。其他CAD功能區塊視效能規範之需要而自庫提取且置放在排出CAD功能區塊之位置處。由於可預定CAD功能區塊,故無需新層或區塊。可使用功函數金屬層之任何適當功函數金屬CAD區塊,諸如(但不限於)標準臨限電壓(SVT)層、超低臨限電壓(uLVT)層、低臨限電壓(LVT)層或高臨限電壓(HVT)層。此等製程提供CTAT單元對製程變動不敏感之益處,此係因為無需額外或新裝置/製程層。 圖7至圖8F圖解說明一典型金屬閘極替換FinFET製程中之一CTAT單元之一例示性製程流程及結構。僅出於闡釋性目的,可取決於特定應用而依一不同順序產生或不產生圖7至圖8F中圖解說明之製造結構。應注意,部分製造之FinFET 700不表示一完整CTAT單元。其他製造結構可針對FinFET 700包含或省略,且此處僅為了清楚起見未描述。 圖7係形成於基板302上之部分製造FinFET 700之群組 (包含n通道FinFET 701至703)之一透視圖。FinFET 700亦可包含p通道FinFET。FinFET 700係上文中參考圖3描述之半導體裝置結構300之變動。圖案化多晶矽結構650及間隔件120形成於鰭狀物304.1至304.3上。圖案化多晶矽結構650及間隔件120經形成以捲繞STI區306上方之鰭狀物結構之部分。鰭狀物304.1至304.3之通道區下伏於多晶矽結構650。如圖7中展示,多晶矽閘極結構650具有一閘極長度L,及一有效閘極寬度W
E=2×H
F+W。藉由(若干)任何適合製程形成圖案化多晶矽結構650。舉例而言,可藉由包含沈積、光微影圖案化及蝕刻製程之一程序形成圖案化多晶矽結構650。沈積製程包含CVD、PVD、ALD、其他適合方法及/或其組合。光微影圖案化製程包含光阻劑塗佈(例如,旋轉塗佈)、軟烘烤、遮罩對準、曝光、曝光後烘烤、光阻劑顯影、沖洗、乾燥(例如,硬烘烤)、其他適合製程及/或其組合。蝕刻製程包含乾式蝕刻、濕式蝕刻及/或其他蝕刻方法(例如,反應性離子蝕刻)。間隔件120可包含介電材料,諸如氧化矽、碳化矽、氮化矽、氮氧化矽或其他適合材料。間隔件120可包括一單一層或多層結構。一介電材料之一毯覆層可藉由CVD、PVD、ALD或其他適合技術形成在圖案化多晶矽結構650上方,接著對介電材料進行各向異性蝕刻以在圖案化多晶矽結構650之兩側上形成間隔件120。 圖8A係圖7中之部分製造FinFET 700之群組沿著線A-A之一剖面圖。如圖8A中圖解說明,圖案化多晶矽結構650經放置在STI區306之頂部表面上且捲繞突出於STI區306上方之鰭狀物304.1至304.3之部分。如圖8A中展示,鰭狀物具有一有效閘極寬度W
E=2×H
F+W。 圖8B至圖8F展示用於FinFET 700之群組之一例示性雙功函數閘極替換製程之各個階段。圖8B展示根據一些實施例之在移除圖案化多晶矽結構650之一部分接著沈積介電層116之後FinFET 700沿著線A-A之一剖面圖。可藉由一乾式蝕刻製程(諸如反應性離子蝕刻(RIE))移除圖案化多晶矽結構650。在蝕刻多晶矽650時所使用之氣體蝕刻劑可包含氯、氟、溴及/或其組合。圖8B圖解說明介電層116經放置在STI區306之頂部表面上且捲繞鰭狀物304.1至304.3之上部。介電層116可包含氧化矽、氮化矽、氮氧化矽或高介電係數材料(諸如氧化鉿(HfO
2)、TiO
2、HfZrO、Ta
2O
3、HfSiO
4、ZrO
2、ZrSiO
2)或其組合之一或多個層。可藉由CVD、ALD、PVD、電子束蒸鍍或其他適合製程形成介電層116。替代地,高介電係數材料可包括金屬氧化物。用於高介電係數材料之金屬氧化物之實例包含Li、Be、Mg、Ca、Sr、Sc、Y、Zr、Hf、Al、La、Ce、Pr、Nd、Sm、Eu、Gd、Tb、Dy、Ho、Er、Tm、Yb、Lu及/或其混合物之氧化物。可藉由ALD及/或其他適合方法形成高介電係數層。 圖8C展示在沈積p型閘極功函數層222p之後之圖8B之結構之一剖面圖。p型閘極功函數層222p跨鰭狀物304.1至304.3放置在介電層116上。例示性p型功函數材料包含(但不限於) TiN、TaN、Ru、Mo、WN、ZrSi
2、MoSi
2、TaSi
2、NiSi
2、WN。可使用一適合製程(諸如ALD、CVD、PVD、鍍覆或其組合)來形成包含於閘極功函數層222p中之一或多個材料。 圖8D展示在移除p型閘極功函數層222p之一部分之後之圖8C之結構之一剖面圖。使用一遮罩元件(圖中未展示)來圖案化p型閘極功函數層222p,使得在蝕刻製程期間由遮罩元件保護放置在FinFET 701及702上方之p型閘極功函數層222p之部分,而曝光FinFET 703上方之p型閘極功函數層222p之部分。 遮罩元件可包含光阻劑、硬遮罩及/或其他適合材料。一例示性硬遮罩材料係旋塗玻璃(SOG)。在實施例中,遮罩元件可包含陶瓷、旋塗或化學/物理沈積聚合物、低熔點陶瓷。可藉由光阻劑之沈積(例如,旋塗)及光微影製程而形成遮罩元件以圖案化經沈積之光阻劑,包含曝光、烘烤、顯影及進一步烘烤及清潔製程。 可藉由乾式蝕刻及/或濕式蝕刻製程移除p型閘極功函數層222p。例示性蝕刻包含基於氟/氯之乾式蝕刻、HCl濕式蝕刻、NH
4OH溶液濕式蝕刻及/或其他適合蝕刻劑。 接著,可在蝕刻功函數層之後藉由適合製程移除遮罩元件。移除製程包含濕式蝕刻、乾式蝕刻、剝離及/或其他適合製程。 圖8E展示在沈積n型閘極功函數層222n之後之圖8D中之結構之一剖面圖。n型閘極功函數層222n跨FinFET 703放置在介電層116上,且亦放置在剩餘p型閘極功函數層222p上。替代地,n型閘極功函數層222n可僅形成在曝光之介電層上,而非形成在剩餘p型閘極功函數層222p上。如上文中論述,例示性n型功函數金屬包含(但不限於) Ti、Ag、Al、TaAl、TaAlC、TiAlN、TaC、TaCN、TaSiN、Mn、Zr。可使用一適合製程(諸如ALD、CVD、PVD、鍍覆或其組合)來形成包含於閘極功函數層222n中之一或多個材料。 圖8F展示在沈積閘極金屬填充層224之後之圖8E中之結構之剖面圖。閘極金屬填充層224經放置在n型閘極功函數層222n上且可包含一單一金屬層或一金屬層堆疊。金屬層堆疊可包含彼此不同之金屬。在一些實施例中,閘極金屬填充層224包含任何適合導電材料,諸如Ti、Ag、Al、TiAlN、TaC、TaCN、TaSiN、Mn、Zr、TiN、TaN、Ru、Mo、WN、Cu、W、Co、Ni、TiC、TiAlC、TaAlC、金屬合金及/或其組合。可藉由ALD、PVD、CVD或其他適合導電材料沈積製程形成閘極金屬填充層224。在一實施例中,閘極金屬填充層224包含藉由ALD或CVD形成之W膜。W膜可包含呈自在W膜沈積製程期間所使用之氟基前驅體(例如,六氟化鎢(WF
6))引入之氟離子之形式之氟。在另一實施例中,閘極金屬填充層224包含藉由ALD或CVD形成之Al或Co膜。接著,可藉由化學機械拋光(CMP)平坦化閘極金屬填充層224。 圖9係使用FinFET結構作為一實例以產生具有雙功函數層之CTAT單元之闡釋性方法900之一流程圖。僅出於闡釋性目的,將參考圖7至圖8F中圖解說明之例示性製造結構來描述圖9中圖解說明之操作。可取決於特定應用而依一不同順序執行或不執行操作。應注意,方法900不產生一完整CTAT單元。其他製造步驟可在方法900之各個步驟之間執行或省略,且此處僅為了清楚起見未描述。 方法900以操作902開始,圖案化一半導體基板以形成鰭狀物,形成犧牲閘極電極及側壁間隔件。鰭狀物係垂直的,即,標稱垂直於基板之一表面,且可為矩形或梯形。可使用各種乾式蝕刻技術(諸如反應性離子蝕刻或感應耦合電漿蝕刻)形成鰭狀物。 一犧牲閘極電極形成於鰭狀物上,該犧牲閘極電極可為多晶矽。形成犧牲閘極電極包含透過光微影製程沈積且圖案化一多晶矽結構使得圖案化之多晶矽結構形成在指定鰭狀物表面上方。閘極電極亦可包含各種金屬或金屬合金層之一堆疊。 側壁間隔件經形成鄰近閘極堆疊之兩個側壁。通常藉由一回蝕製程同時形成側壁間隔件。在替代實施例中,側壁間隔件可由兩個或兩個以上材料層形成。 方法900繼續操作904,移除圖案化之多晶矽結構之一部分且將一介電層至少放置在區域之一部分中,已自其移除圖案化之多晶矽結構之部分(即,犧牲閘極電極)。鰭狀物之上部將被曝光在其中移除圖案化之多晶矽結構之位置處。曝光鰭狀物之尺寸判定隨後形成之FinFET中之通道區之有效閘極寬度W
E。如上文中論述,藉由選擇電晶體尺寸,可達成具有隨溫度之線性輸出電壓變化之一標稱溫度係數。 介電層經放置在STI區之頂部表面上且放置在鰭狀物之突出上部上。介電層可包含氧化矽、氮化矽、氮氧化矽或高介電係數介電材料(諸如氧化鉿(HfO
2)、TiO
2、HfZrO、Ta
2O
3、HfSiO
4、ZrO
2、ZrSiO
2)或其組合之一或多個層。可藉由CVD、ALD、PVD、電子束蒸鍍或其他適合製程形成介電層116。替代地,高介電係數介電材料可包括金屬氧化物。用於高介電係數介電質之金屬氧化物之實例包含Li、Be、Mg、Ca、Sr、Sc、Y、Zr、Hf、Al、La、Ce、Pr、Nd、Sm、Eu、Gd、Tb、Dy、Ho、Er、Tm、Yb、Lu及/或其混合物之氧化物。可藉由ALD及/或其他適合方法形成高介電係數介電層。 方法900繼續操作906,將一第一閘極功函數層沈積在介電層上方。可使用一適合製程(諸如ALD、CVD、PVD、鍍覆或其組合)來形成包含於第一閘極功函數層中之一或多個材料。 方法900繼續操作908,移除第一閘極功函數層之一部分。使用一遮罩元件來圖案化第一閘極功函數層,使得保護第一閘極功函數層之一部分且曝光剩餘部分。第一閘極功函數層之受保護部分經選擇以變成具有一第一臨限電壓之FinFET之一結構部分。遮罩元件可包含光阻劑、硬遮罩及/或其他適合材料。遮罩元件可藉由沈積形成且使用光微影製程(包含曝光、烘烤、顯影及進一步烘烤及清潔製程)圖案化。可藉由乾式蝕刻及/或濕式蝕刻製程移除曝光之第一閘極功函數層。接著,可在蝕刻功函數層之後藉由適合製程移除遮罩元件。 方法900繼續操作910,在介電層上及剩餘第一閘極功函數層上沈積一第二閘極功函數層。替代地,第二閘極功函數層可僅形成在曝光之介電層上,而非形成在剩餘第一閘極功函數層上。此可藉由使用光微影及蝕刻製程處理沈積之第二閘極功函數金屬而達成。第一閘極功函數層及第二閘極功函數層之導電類型彼此相反,舉例而言,第一閘極功函數層及第二閘極功函數層之導電類型分別係n型及p型。第二閘極功函數層經選擇以變成具有一第二臨限電壓之FinFET之一結構部分。第一臨限電壓及第二臨限電壓彼此不同。可使用一適合製程(諸如ALD、CVD、PVD、鍍覆或其組合)來形成包含於閘極功函數層中之一或多個材料。 方法900繼續操作912,沈積且平坦化一閘極金屬填充層。一閘極金屬填充層經沈積在全部曝光閘極功函數層上。取決於在操作908中形成第二閘極功函數層之位置,閘極金屬填充層可僅形成在第二閘極功函數層上或形成在第一閘極功函數層及第二閘極功函數層兩者上。閘極金屬填充層可包含一單一金屬層或一金屬層堆疊且藉由ALD、PVD、CVD或其他適合導電材料沈積製程形成。在一實施例中,閘極金屬填充層包含藉由ALD或CVD形成之W膜。接著,可藉由化學機械拋光(CMP)平坦化閘極金屬填充層。 圖10至圖11係例示性雙功函數層閘極替換結構之替代實施例之剖面圖。 圖10係僅在曝光之介電層116上沈積n型閘極功函數層222n之後之圖8D中之結構之一剖面圖。如上文中參考圖8E描述,n型閘極功函數層222n可僅形成在曝光之介電層上,而非形成在剩餘p型閘極功函數層222p上。可經由微影及回蝕製程移除形成在剩餘p型閘極功函數層222p上之n型功函數層222n。 圖11係CTAT單元中使用之雙功函數FinFET之另一實例之一剖面圖。使用類似於如參考圖8A至圖8F描述之例示性雙功函數閘極替換製程之一製程,n型功函數層222n及p型功函數層222p經沈積在FinFET 700之群組上。然而,如圖11中展示,首先沈積n型功函數層222n且在曝光之介電層116上形成p型功函數層222p。因此,FinFET 701及702將包括雙功函數層,而FinFET 703將包括一p型功函數層但不包含一n型功函數層。 根據本揭露之各種實施例大體上係關於積體電路,且更明確言之提供產生用於低電壓應用之製程不變且溫度獨立電壓參考電路之電路及裝置的電路設計及製程。 根據本揭露之例示性電路將雙功函數層併入至FET閘極堆疊中以設定其等臨限電壓。併入雙功函數層之一個益處係用此等FET製成之一電壓參考電路能夠產生具有一寬電流範圍之高度精確且溫度獨立輸出電壓。根據本揭露之電壓參考電路之一益處係該等電壓參考電路可用於低電壓應用(諸如(但不限於)低於0.5 V偏壓電壓電路或熱感測器)中。此外,將雙功函數層併入至用於電壓參考電路中之FET中具成本效率,且此等電路展現對製程變動之降低之敏感度。 在一項實施例中,一種電壓參考電路包括至少一第一電路及一第二電路。第一電路經組態以產生量值隨溫度之增大而增大之一第一輸出電壓且一第二電路包含各自具有一不同臨限電壓且經組態以產生量值隨溫度之增大而減小之一第二輸出電壓之至少兩個電晶體。至少兩個電晶體之一第一電晶體包括具有一第一功函數材料之一第一閘極堆疊,且至少兩個電晶體之一第二電晶體包括具有不同於第一功函數材料之一第二功函數材料之一第二閘極堆疊。 在另一實施例中,一種電路包括:一第一場效電晶體,其具有一第一臨限電壓,其中該第一場效電晶體包括具有一第一導電類型之一第一功函數材料之一第一閘極電極;及一第二場效電晶體,其耦合至該第一場效電晶體而具有不同於第一臨限電壓之一第二臨限電壓。第二場效電晶體包括具有與第一導電類型相反之一第二導電類型之一第二功函數材料之一第二閘極電極,且第一場效電晶體及第二場效電晶體係相同通道類型裝置。 在一進一步實施例中,一種形成一半導體結構之方法包括在一基板上形成複數個鰭狀物,其中該複數個鰭狀物之各鰭狀物具有一相同導電類型。在該複數個鰭狀物之各鰭狀物上方形成一多晶矽閘極結構且用一金屬閘極結構替換至少一個多晶矽閘極結構。移除至少一個多晶矽閘極結構且在具有相同導電類型之複數個鰭狀物之各鰭狀物上方沈積一第一功函數層。自具有相同導電類型之複數個鰭狀物之至少一個鰭狀物移除第一功函數層,且放置一第二功函數層。接著,在第二功函數層上方沈積一金屬層。 應瞭解,實施方式章節而非發明內容或摘要章節旨在用於解釋發明申請專利範圍。發明內容及摘要章節可陳述預期之一或多個但非全部實施例且因此並非旨在限於附加之發明申請專利範圍。 前述揭露略述數項實施例之特徵使得熟習此項技術者可更好地理解本揭露之態樣。熟習此項技術者將瞭解,其等可容易地使用本揭露作為用於設計或修改其他製程及結構之一基礎以實行相同目的及/或達成本文中介紹之實施例之相同優點。熟習此項技術者亦將瞭解,此等等效構造不背離本揭露之精神及範疇,且其等可在不背離附加之發明申請專利範圍之精神及範疇之情況下在本文中作出各種改變、置換及更改。
100 電壓參考電路 101 第一電壓源 103 第二電壓源 105 電壓輸出子電路/電壓輸出模組 116 介電層 120 間隔件 200 與絕對溫度互補(CTAT)單元 222n n型閘極功函數層 222p p型閘極功函數層 224 閘極金屬填充層 300 半導體裝置結構 302 基板 304 鰭狀物 304.1 鰭狀物 304.2 鰭狀物 304.3 鰭狀物 306 隔離結構/淺溝槽隔離(STI)區 308 閘極結構 310
S源極區 310
D汲極區 312 通道區 315 閘極介電層 317 閘極電極層 320 硬遮罩 401 曲線 403 曲線 405 曲線 407 曲線 600 方法 602 操作 604 操作 606 操作 608 操作 610 操作 650 圖案化多晶矽結構 700 FinFET 701 n通道FinFET 702 n通道FinFET 703 n通道FinFET 900 方法 902 操作 904 操作 906 操作 908 操作 910 操作 912 操作 H
G閘極高度 H
F鰭狀物高度 W 鰭狀物寬度 L 閘極長度 M1 NMOS電晶體/第一電晶體 M2 NMOS電晶體 I
IN輸入電流源 V
P輸出電壓 I
P輸出電流 V
C輸出電壓 I
C輸出電流 V
REF參考電壓
當結合附圖閱讀時,從以下詳細描述最佳理解本揭露之態樣。應注意,根據產業中之一般實踐,各種構件未按比例繪製。事實上,為了清楚圖解說明及論述可任意增大或減小各種構件之尺寸。 圖1係根據一些實施例之一例示性電壓參考電路之一方塊圖。 圖2係根據一些實施例之一例示性CTAT電路之一示意性電路圖。 圖3係根據一些實施例之包含FinFET裝置結構之一半導體裝置結構之一透視圖。 圖4係根據一些實施例之關於溫度繪製之例示性CTAT單元輸出電壓V
C之一圖表。 圖5A至圖5C描繪根據本揭露之例示性CTAT單元之各種實施例。 圖6係根據一些實施例之用於產生CTAT單元佈局設計之一闡釋性方法之一流程圖。 圖7係形成於一基板上之一部分製造FinFET群組之一透視圖。 圖8A至圖8F展示一例示性雙功函數層閘極替換製程之各個階段。 圖9係用於產生具有雙功函數層之CTAT單元之一闡釋性方法之一流程圖。 圖10係例示性雙功函數層閘極替換結構之一替代實施例之一剖面圖。 圖11係例示性雙功函數層閘極替換結構之一進一步替代實施例之一剖面圖。
Claims (10)
- 一種電壓參考電路,其包括:一第一電路,其經組態以產生量值隨溫度之一增大而增大之一第一輸出電壓;及一第二電路,其包含各自具有一不同臨限電壓且經組態以產生量值隨溫度之該增大而減小之一第二輸出電壓之至少兩個電晶體;其中該至少兩個電晶體之一第一電晶體包括具有一第一功函數材料之一第一閘極堆疊,且該至少兩個電晶體之一第二電晶體包括具有不同於該第一功函數材料之一第二功函數材料之一第二閘極堆疊。
- 如請求項1之電壓參考電路,其中該第一電路係一與絕對溫度成比例電路。
- 如請求項1之電壓參考電路,其中該第一電晶體及該第二電晶體係相同通道類型裝置。
- 如請求項1之電壓參考電路,其中:(1)該第一電晶體及該第二電晶體係n通道場效電晶體,且該第一功函數材料及該第二功函數材料分別係n型功函數材料及p型功函數材料;或是(2)該第一電晶體及該第二電晶體係p通道場效電晶體,且該第一功函數材料及該第二功函數材料分別係n型功函數材料及p型功函數材料。
- 如請求項1之電壓參考電路,其中該第一功函數材料及該第二功函數材料經選擇使得該第二輸出電壓隨溫度之該增大而標稱線性減小。
- 如請求項1之電壓參考電路,其中該第一電晶體及該第二電晶體具有各自第一臨限電壓及第二臨限電壓,且該第一臨限電壓低於該第二臨限電壓。
- 如請求項1之電壓參考電路,其中該第一電晶體及該第二電晶體包括各自第一閘極電極及第二閘極電極,且該第一閘極電極與該第二閘極電極之間之尺寸比率經組態以提供該第二電路之一負溫度係數。
- 如請求項1之電壓參考電路,其中該第一閘極堆疊進一步包括該第二功函數材料。
- 一種溫度相依電路,其包括:一第一場效電晶體,其具有一第一臨限電壓,其中該第一場效電晶體包括具有一第一導電類型之一第一功函數材料之一第一閘極電極;及一第二場效電晶體,其耦合至該第一場效電晶體而具有不同於該第一臨限電壓之一第二臨限電壓,其中該第二場效電晶體包括具有與該第一導電類型相反之一第二導電類型之一第二功函數材料之一第二閘極電極,且該第一場效電晶體及該第二場效電晶體係相同通道類型裝置。
- 一種形成一半導體結構之方法,其包括:在一基板上形成複數個鰭狀物,該複數個鰭狀物之各鰭狀物具有一相同導電類型;選定具有一第一導電性之一第一功函數層及具有一第二導電性之一第二功函數層,且該第一導電性與該第二導電性相異;在具有該相同導電類型之該複數個鰭狀物之各鰭狀物上方沈積一第一功函數層;自具有該相同導電類型之該複數個鰭狀物之至少一個鰭狀物移除該第一功函數層;沈積一第二功函數層,並藉由該第一功函數層與第二功函數層之功函數之間之一標稱差異使該複數個鰭狀物具有相異之二標稱臨限電壓;及在該第二功函數層上方沈積一金屬層。
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US10163899B2 (en) | 2018-12-25 |
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KR102008572B1 (ko) | 2019-10-21 |
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