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Disney Characters A timeline of character debuts Before Mickey 1924 Alice (of The Alice Comedies, a series of 56 silent cartoons) 1927 Oswald the Lucky Rabbit (star of 26 silent cartoons) Recurring Characters: Mickey and Friends 1928 Mickey Mouse and Minnie Mouse, in Steamboat Willie 1929 Peg-Leg Pete, in The Barn Dance 1929 Clarabelle Cow and Horace Horsecollar, in The Plow Boy 1930 Pluto (AKA "Rover"), in The Chain Gang 1932 Goofy (AKA "Dippy Dawg,""George Geef"), in Mickey's Revue 1934 Donald Fauntleroy Duck, in The Wise Little Hen 1937 Huey, Dewey, and Louie Duck, in the Donald Duck Sunday comics 1937 Daisy Duck (AKA "Donna Duck"), in Don Donald 1943 Chip 'n' Dale, in Private Pluto Stars of Disney Feature Films 1937 Snow White, in Snow White and the Seven Dwarfs 1940 Pinocchio and Jiminy Cricket, in Pinocchio 1941 Dumbo, in Dumbo 1942 Bambi, in Bambi 1950 Cinderella, in Cinderella 1951 Alice and the White Rabbit, in Alice in Wonderland 1953 Peter Pan and Tinkerbell, in Peter Pan 1955 Lady and Tramp, in Lady and the Tramp 1959 Aurora, in Sleeping Beauty 1961 Pongo, Perdita, and the pups, in 101 Dalmatians 1967 Mowgli and Baloo, in The Jungle Book 1974 Robin Hood and Maid Marian, in Robin Hood 1986 Basil, in The Great Mouse Detective 1989 Ariel, in The Little Mermaid 1991 Belle and Beast, in Beauty and the Beast 1992 Jasmine and Aladdin, in Aladdin 1994 Simba, Timon, and Pumbaa, in The Lion King 1995 Buzz Lightyear and Woody, in Toy Story 1995 Pocahontas, in Pocahontas 1996 Esmerelda, in The Hunchback of Notre Dame 1998 Hercules and Megara, in Hercules 1998 Mulan and Mushu, in Mulan 2001 Milo Thatch, in Atlantis: The Lost Empire 2001 Lilo and Stitch, in Lilo And Stitch 2002 Sulley, in Monsters, Inc.

狄斯耐人物一个个性初次登场的时间期限在米奇之前 1924 爱丽丝(爱丽丝喜剧，一系列的 56幅沈默的卡通) 1927 奥斯瓦德幸运的兔子(26幅沈默的卡通的星)回到个性：米奇和朋友 1928 米老鼠和米妮老鼠，在汽船威利 1929 钉-腿的彼得，在谷仓跳舞方面 1929 Clarabelle 母牛和贺瑞斯 Horsecollar，在犁男孩中 1930 冥王星，在链组织中 1932 古菲(AKA"脑筋不正常的 Dawg，""乔治 Geef")，在米奇的讽刺时事的滑稽剧 1934 唐纳德 Fauntleroy 鸭子，在明智的小母鸡中 1937 Huey ，杜威和中尉鸭子，在唐纳德鸭子星期日连环图画中 1937 黛西没入水中(AKA"堂娜鸭子")，在君唐纳德 1943 削'n'山谷，在私人的冥王星狄斯耐特征电影的星 1937 下雪水于白色，在雪白色的和七个矮子 1940 童话中的主角和表示温和的惊讶蟋蟀，在童话中的主角 1941 Dumbo，在 Dumbo 1942 Bambi，在 Bambi 1950 灰姑娘，在灰姑娘 1951 爱丽丝和白色的兔子，在奇境的爱丽丝 1953 彼得平锅和 Tinkerbell，在彼得平锅 1955 淑女和重步声，在淑女和重步声中 1959 奥罗拉，在睡着的美人 1961 在 101只大麦町中的 Pongo ， Perdita，和学生 1967 Mowgli 和 Baloo，在丛林中订购 1974 罗宾头巾和少女圣母玛利亚崇拜者，在罗宾头巾 1986 罗勒，在伟大的老鼠侦探中 1989 瞪羚，在小的美人鱼中 1991 美女和畜牲，在美人和畜牲中 1992 茉莉属植物和安拉丁，在安拉丁 1994 Simba ， Timon 和 Pumbaa，在狮子星国王中 1995 发出嗡嗡声 Lightyear 和多树木的，在供玩耍的故事中 1995 风中奇缘，在风中奇缘 1996 Esmerelda，在 Notre 夫人的驼背中 1998 大力英雄和 Megara，在大力英雄 1998 Mulan 和 Mushu，在 Mulan 2001 Milo 盖屋顶的材料，在阿特兰提斯：失去的帝国 2001 Lilo 和一针，在 Lilo 和一针 2002 Sulley，在怪物，公司 2003 奈莫舰长，在发现奈莫舰长方面 2004 幼鲑，在难以置信人中

PART 1 UNIT 1 B Electrical and Electronic Engineering Basics A Electrical Networks ———————————— 3 Three-phase Circuits A The Operational Amplifier ——————————— 5 UNIT 2 B Transistors A Logical Variables and Flip-flop —————————— 8 UNIT 3 B Binary Number System A Power Semiconductor Devices —————————— 11 UNIT 4 B Power Electronic Converters A Types of DC Motors —————————————15 UNIT 5 B Closed-loop Control of DC Drivers A AC Machines ———————————————19 UNIT 6 B Induction Motor Drive A Electric Power System ————————————22 UNIT 7 B PART 2 UNIT 1 B Power System Automation Control Theory A The World of Control ————————————27 —————29 The Transfer Function and the Laplace Transformation UNIT 2 B A Stability and the Time Response ————————— 30 Steady State————————————————— 31 A The Root Locus ————————————— 32 ————— 33 UNIT 3 B The Frequency Response Methods: Nyquist Diagrams UNIT 4 A The Frequency Response Methods: Bode Piots ————— 34 B Nonlinear Control System 37 UNIT 5 A Introduction to Modern Control Theory B State Equations 40 38 UNIT 6 A Controllability, Observability, and Stability B Optimum Control Systems UNIT 7 A Conventional and Intelligent Control B Artificial Neural Network Computer Control Technology A Computer Structure and Function 42 B Fundamentals of Computer and Networks 43 44 PART 3 UNIT 1 UNIT 2 A Interfaces to External Signals and Devices B The Applications of Computers 46 UNIT 3 A PLC Overview B PACs for Industrial Control, the Future of Control UNIT 4 A Fundamentals of Single-chip Microcomputer 49 B Understanding DSP and Its Uses 1 UNIT 5 A A First Look at Embedded Systems B Embedded Systems Design Process Control A A Process Control System B 50 PART 4 UNIT 1 Fundamentals of Process Control 52 53 UNIT 2 A Sensors and Transmitters B Final Control Elements and Controllers UNIT 3 A P Controllers and PI Controllers B PID Controllers and Other Controllers UNIT 4 A Indicating Instruments B Control Panels Control Based on Network and Information A Automation Networking Application Areas B Evolution of Control System Architecture PART 5 UNIT 1 UNIT 2 A Fundamental Issues in Networked Control Systems B Stability of NCSs with Network-induced Delay UNIT 3 A Fundamentals of the Database System B Virtual Manufacturing—A Growing Trend in Automation UNIT 4 A Concepts of Computer Integrated Manufacturing B Enterprise Resources Planning and Beyond Synthetic Applications of Automatic Technology A Recent Advances and Future Trends in Electrical Machine Drivers B System Evolution in Intelligent Buildings PART 6 UNIT 1 UNIT 2 A Industrial Robot B A General Introduction to Pattern Recognition UNIT 3 A Renewable Energy B Electric Vehicles UNIT 1 A

电路 2 电路或电网络由以某种方式连接的电阻器，电感器和电容器等元件组成。如果网络不包含能源，如电池或发电机，那么就被称作无源网络。换句话说，如果存在一个或多个能源，那么组合的结果为有源网络。在研究电网络的特性时，我们感兴趣的是确定电路中的电压和电流。因为网络由无源电路元件组成，所以必须首先定义这些元件的电特性。就电阻来说，电压-电流的关系由欧姆定律给出，欧姆定律指出：电阻两端的电压等于电阻上流过的电流乘以电阻值。在数学上表达为： u=iR (1-1A-1)式中 u=电压，伏特；i =电流，安培；R =电阻，欧姆。纯电感电压由法拉第定律定义，法拉第定律指出：电感两端的电压正比于流过电感的电流随时间的变化率。因此可得到：U=Ldi/dt 式中 di/dt =电流变化率，安培/秒； L =感应系数，享利。电容两端建立的电压正比于电容两极板上积累的电荷 q 。因为电荷的积累可表示为电荷增量 dq 的和或积分，因此得到的等式为 u=，式中电容量 C 是与电压和电荷相关的比例常数。由定义可知，电流等于电荷随时间的变化率，可表示为 i = dq/dt。因此电荷增量 dq 等于电流乘以相应的时间增量，或 dq = i dt，那么等式(1-1A-3)可写为式中 C =电容量，法拉。

PART 1 Electrical and Electronic Engineering Basics UNIT 1 A Electrical Networks B Three-phase Circuits UNIT 2 A The Operational Amplifier ——————————— 5 B Transistors UNIT 3 A Logical Variables and Flip-flop —————————— 8 ———————————— 3 B Binary Number System UNIT 4 A Power Semiconductor Devices —————————— 11 B Power Electronic Converters UNIT 5 A Types of DC Motors —————————————15 B Closed-loop Control of DC Drivers UNIT 6 A AC Machines ———————————————19 B Induction Motor Drive UNIT 7 A Electric Power System ————————————22 B Power System Automation PART 2 Control Theory UNIT 1 A The World of Control ————————————27 B The Transfer Function and the Laplace Transformation UNIT 2 A B —————29 Stability and the Time Response ————————— 30 ————————————— 32 Steady State————————————————— 31 UNIT 3 A The Root Locus B The Frequency Response Methods: Nyquist Diagrams ————— 33 UNIT 4 A The Frequency Response Methods: Bode Piots ————— 34 B Nonlinear Control System 37 UNIT 5 A Introduction to Modern Control Theory B UNIT 6 State Equations 40 38 A Controllability, Observability, and Stability B Optimum Control Systems UNIT 7 A Conventional and Intelligent Control B Artificial Neural Network PART 3 UNIT 1 Computer Control Technology A Computer Structure and Function B 42 43 44 Fundamentals of Computer and Networks UNIT 2 A Interfaces to External Signals and Devices B The Applications of Computers 46 UNIT 3 A PLC Overview B PACs for Industrial Control, the Future of Control 1 UNIT 4 A Fundamentals of Single-chip Microcomputer B Understanding DSP and Its Uses 49 UNIT 5 A A First Look at Embedded Systems B Embedded Systems Design PART 4 UNIT 1 Process Control A A Process Control System 50 B Fundamentals of Process Control 53 52 UNIT 2 A Sensors and Transmitters B Final Control Elements and Controllers UNIT 3 A P Controllers and PI Controllers B PID Controllers and Other Controllers UNIT 4 A Indicating Instruments B Control Panels PART 5 UNIT 1 Control Based on Network and Information A Automation Networking Application Areas B Evolution of Control System Architecture UNIT 2 A Fundamental Issues in Networked Control Systems B Stability of NCSs with Network-induced Delay UNIT 3 A Fundamentals of the Database System B Virtual Manufacturing—A Growing Trend in Automation UNIT 4 A Concepts of Computer Integrated Manufacturing B Enterprise Resources Planning and Beyond PART 6 UNIT 1 Synthetic Applications of Automatic Technology A Recent Advances and Future Trends in Electrical Machine Drivers B System Evolution in Intelligent Buildings UNIT 2 A Industrial Robot B A General Introduction to Pattern Recognition UNIT 3 A Renewable Energy B Electric Vehicles 2 UNIT 1 A

电路 电路或电网络由以某种方式连接的电阻器，电感器和电容器等元件组成。如果网络不包含能源，如电池或发电机，那么就被称作无源网络。换句话说，如果存在一个或多个能源，那么组合的结果为有源网络。在研究电网络的特性时，我们感兴趣的是确定电路中的电压和电流。因为网络由无源电路元件组成，所以必须首先定义这些元件的电特性。就电阻来说，电压-电流的关系由欧姆定律给出，欧姆定律指出：电阻两端的电压等于电阻上流过的电流乘以电阻值。在数学上表达为： u=iR (1-1A-1)式中 u=电压，伏特；i =电流，安培；R =电阻，欧姆。纯电感电压由法拉第定律定义，法拉第定律指出：电感两端的电压正比于流过电感的电流随时间的变化率。因此可得到：U=Ldi/dt 式中 di/dt =电流变化率，安培/秒； L =感应系数，享利。电容两端建立的电压正比于电容两极板上积累的电荷 q 。因为电荷的积累可表示为电荷增量 dq 的和或积分，因此得到的等式为 u=，式中电容量 C 是与电压和电荷相关的比例常数。由定义可知，电流等于电荷随时间的变化率，可表示为 i = dq/dt。因此电荷增量 dq 等于电流乘以相应的时间增量，或 dq = i dt，那么等式(1-1A-3)可写为式中 C =电容量，法拉。

PART 1 Electrical and Electronic Engineering Basics UNIT 1 A UNIT 2 A UNIT 3 A UNIT 4 A UNIT 5 A UNIT 6 A UNIT 7 A Electrical Networks ———————————— 3 B Three-phase Circuits The Operational Amplifier ——————————— 5 Logical Variables and Flip-flop —————————— 8 Power Semiconductor Devices —————————— 11 Types of DC Motors —————————————15 AC Machines ———————————————19 Electric Power System ————————————22 B Transistors B Binary Number System B Power Electronic Converters B Closed-loop Control of DC Drivers B Induction Motor Drive B Power System Automation PART 2 Control Theory UNIT 1 A B UNIT 2 A UNIT 3 A UNIT 4 A The World of Control ————————————27 Stability and the Time Response ————————— 30 The Root Locus ————————————— 32 The Transfer Function and the Laplace Transformation —————29 B Steady State————————————————— 31 B The Frequency Response Methods: Nyquist Diagrams ————— 33 The Frequency Response Methods: Bode Piots ————— 34 B Nonlinear Control System 37 UNIT 5 A Introduction to Modern Control Theory B B B PART 3 B B B State Equations Optimum Control Systems Artificial Neural Network Computer Control Technology 42 43 44 Fundamentals of Computer and Networks The Applications of Computers 46 40 38 UNIT 6 A Controllability, Observability, and Stability UNIT 7 A Conventional and Intelligent Control UNIT 1 A Computer Structure and Function UNIT 2 A Interfaces to External Signals and Devices UNIT 3 A PLC Overview PACs for Industrial Control, the Future of Control 1 UNIT 4 A Fundamentals of Single-chip Microcomputer 49 B B PART 4 B B B B PART 5 B B B B PART 6 Understanding DSP and Its Uses Embedded Systems Design Process Control 50 52 53 Fundamentals of Process Control UNIT 5 A A First Look at Embedded Systems UNIT 1 A A Process Control System UNIT 2 A Sensors and Transmitters Final Control Elements and Controllers PID Controllers and Other Controllers Control Panels Control Based on Network and Information Evolution of Control System Architecture Stability of NCSs with Network-induced Delay Virtual Manufacturing—A Growing Trend in Automation Enterprise Resources Planning and Beyond Synthetic Applications of Automatic Technology UNIT 3 A P Controllers and PI Controllers UNIT 4 A Indicating Instruments UNIT 1 A Automation Networking Application Areas UNIT 2 A Fundamental Issues in Networked Control Systems UNIT 3 A Fundamentals of the Database System UNIT 4 A Concepts of Computer Integrated Manufacturing UNIT 1 A Recent Advances and Future Trends in Electrical Machine Drivers B B B System Evolution in Intelligent Buildings A General Introduction to Pattern Recognition Electric Vehicles UNIT 2 A Industrial Robot UNIT 3 A Renewable Energy 2 UNIT 1 A

电路 电路或电网络由以某种方式连接的电阻器，电感器和电容器等元件组成。如果网络不包含能源，如电池或发电机，那么就被称作无源网络。换句话说，如果存在一个或多个能源，那么组合的结果为有源网络。在研究电网络的特性时，我们感兴趣的是确定电路中的电压和电流。因为网络由无源电路元件组成，所以必须首先定义这些元件的电特性。就电阻来说，电压-电流的关系由欧姆定律给出，欧姆定律指出：电阻两端的电压等于电阻上流过的电流乘以电阻值。在数学上表达为： u=iR (1-1A-1)式中 u=电压，伏特；i =电流，安培；R =电阻，欧姆。纯电感电压由法拉第定律定义，法拉第定律指出：电感两端的电压正比于流过电感的电流随时间的变化率。因此可得到：U=Ldi/dt 式中 di/dt =电流变化率，安培/秒； L =感应系数，享利。电容两端建立的电压正比于电容两极板上积累的电荷 q 。因为电荷的积累可表示为电荷增量 dq 的和或积分，因此得到的等式为 u=，式中电容量 C 是与电压和电荷相关的比例常数。由定义可知，电流等于电荷随时间的变化率，可表示为 i = dq/dt。因此电荷增量 dq 等于电流乘以相应的时间增量，或 dq = i dt，那么等式(1-1A-3)可写为式中 C =电容量，法拉。

A novel layout of IC transformer is proposed to achieve both high turn ratio and coupling coefficient in this paper. In order to discuss the coupling coefficient, the layouts are designed with different turn ratio. The thesis is mainly includes of three experiment topics. The multi-stack structure is proposed to achieve prior goal in first topic. Two groups of proposed devices are designed to maintain identical self- inductances in transformer's primary and secondary coils. Total six devices are fabricated in foundry 90-nm CMOS technology. Using the 9 and 5 metal layers in primary and secondary coils in a specific layout, measurement results show that the transformer has the largest benefit using the bottommost return layer in layout design. In one word, the adoption of more metal layers to construct different turn ratio transformer shows not only improving the N value but also saving the chip area in this experiment.

中文摘要本文是针对不同圈数比变压器探讨其耦合量的变化，并且期望其变压器能同时达到高圈数比及高耦合系数的特性，本论文主要可分为三个实验主题，首先第一个主题提出以90nm CMOS制程技术实现的多层金属层的布局方式，并以相同的一、二次侧自感值分为两组，利用不同返回层来达到不同的圈数比，且从量测结果可以得知，在变压器布局设计上使用最底金属层来作返回层会得到较好的特性，最后从此实验得知一结论，利用合适的多层金属架构达到不同的圈数比，不仅可以改善圈数比，还可以缩小晶片面积。

According to the demand of high magnetic field power supply, reference is increased with a set ramp rate and stops at a set stable value, so reference system is composed of digital setting and digit to analog converting circuit. But the stability of reference is mostly guaranteed by the performance of D/A circuit, so D/A circuit is particularly studied in reference system. The scheme of D/A circuit, the selection of DAC and its voltage reference, hardware anti-jamming design and PCB design are discussed in detail, and software of remote control and PLC are discussed in brief. Zero-flux DC current transformer well satisfies the demands of the high stability of Load current detection unit, so the principle of zero-flux DC current transformer is analyzed; in the mean time a project which detects the long term stability is designed. During 8 hours, analog signal which is detected with high precision digit multimeter is recorded in computer at 1HZ frequency by GPIB communication. The drift error source and related parameters are explained in the compare-amplify part. Detailed subtraction circuit is designed; also amplifier chip and periphery components are selected and verified according to the theory of error analysis.

根据强磁场电源的需求，参考源应按照软件设定的斜率逐渐上升到设定稳态值，则参考源系统应由数字给定和数模转换电路两大部分组成，而参考源的稳定度主要依靠完成数模转换功能的模拟电路的性能来保证，因此本文对参考源系统的研究以数模转换电路为重点，分别从电路方案的确定、数模转换芯片及其基准电压源的选取和验证、电路板硬件抗干扰和PCB设计几方面进行了论述，然后对数字给定部分的远控组态和PLC程序设计作了简要介绍；采用零磁通原理的直流电流转换器很好地满足了对负载电流检测单元高稳定度的需求，本文详细分析了零磁通检测的原理，并在选定此种类型电流转换器的基础上设计了一套检测长期稳定度的方案，8小时内以1秒为采样周期，通过计算机Labview程序和高精度数字电压表的GPIB通讯，将被高精度数字电压表数字化后的模拟信号采样值连续记录至计算机中；比较放大环节简要阐述了漂移产生的原因和相关参数指标，确定了具体的减法电路形式，并根据误差分析理论对运算放大器和外围元器件进行了选取和验证。

Disney Characters A timeline of character debuts Before Mickey 1924 Alice (of The Alice Comedies, a series of 56 silent cartoons) 1927 Oswald the Lucky Rabbit (star of 26 silent cartoons) Recurring Characters: Mickey and Friends 1928 Mickey Mouse and Minnie Mouse, in Steamboat Willie 1929 Peg-Leg Pete, in The Barn Dance 1929 Clarabelle Cow and Horace Horsecollar, in The Plow Boy 1930 Pluto (AKA "Rover"), in The Chain Gang 1932 Goofy (AKA "Dippy Dawg,""George Geef"), in Mickey's Revue 1934 Donald Fauntleroy Duck, in The Wise Little Hen 1937 Huey, Dewey, and Louie Duck, in the Donald Duck Sunday comics 1937 Daisy Duck (AKA "Donna Duck"), in Don Donald 1943 Chip 'n' Dale, in Private Pluto Stars of Disney Feature Films 1937 Snow White, in Snow White and the Seven Dwarfs 1940 Pinocchio and Jiminy Cricket, in Pinocchio 1941 Dumbo, in Dumbo 1942 Bambi, in Bambi 1950 Cinderella, in Cinderella 1951 Alice and the White Rabbit, in Alice in Wonderland 1953 Peter Pan and Tinkerbell, in Peter Pan 1955 Lady and Tramp, in Lady and the Tramp 1959 Aurora, in Sleeping Beauty 1961 Pongo, Perdita, and the pups, in 101 Dalmatians 1967 Mowgli and Baloo, in The Jungle Book 1974 Robin Hood and Maid Marian, in Robin Hood 1986 Basil, in The Great Mouse Detective 1989 Ariel, in The Little Mermaid 1991 Belle and Beast, in Beauty and the Beast 1992 Jasmine and Aladdin, in Aladdin 1994 Simba, Timon, and Pumbaa, in The Lion King 1995 Buzz Lightyear and Woody, in Toy Story 1995 Pocahontas, in Pocahontas 1996 Esmerelda, in The Hunchback of Notre Dame 1998 Hercules and Megara, in Hercules 1998 Mulan and Mushu, in Mulan 2001 Milo Thatch, in Atlantis: The Lost Empire 2001 Lilo and Stitch, in Lilo And Stitch 2002 Sulley, in Monsters, Inc.

狄斯耐人物一个个性初次登场的时间期限在米奇之前 1924 爱丽丝(爱丽丝喜剧，一系列的 56幅沈默的卡通) 1927 奥斯瓦德幸运的兔子(26幅沈默的卡通的星)回到个性：米奇和朋友 1928 米老鼠和米妮老鼠，在汽船威利 1929 钉-腿的彼得，在谷仓跳舞方面 1929 Clarabelle 母牛和贺瑞斯 Horsecollar，在犁男孩中 1930 冥王星，在链组织中 1932 古菲(AKA&脑筋不正常的 Dawg，&&乔治 Geef&)，在米奇的讽刺时事的滑稽剧 1934 唐纳德 Fauntleroy 鸭子，在明智的小母鸡中 1937 Huey ，杜威和中尉鸭子，在唐纳德鸭子星期日连环图画中 1937 黛西没入水中(AKA&堂娜鸭子&)，在君唐纳德 1943 削'n'山谷，在私人的冥王星狄斯耐特征电影的星 1937 下雪水于白色，在雪白色的和七个矮子 1940 童话中的主角和表示温和的惊讶蟋蟀，在童话中的主角 1941 Dumbo，在 Dumbo 1942 Bambi，在 Bambi 1950 灰姑娘，在灰姑娘 1951 爱丽丝和白色的兔子，在奇境的爱丽丝 1953 彼得平锅和 Tinkerbell，在彼得平锅 1955 淑女和重步声，在淑女和重步声中 1959 奥罗拉，在睡着的美人 1961 在 101只大麦町中的 Pongo ， Perdita，和学生 1967 Mowgli 和 Baloo，在丛林中订购 1974 罗宾头巾和少女圣母玛利亚崇拜者，在罗宾头巾 1986 罗勒，在伟大的老鼠侦探中 1989 瞪羚，在小的美人鱼中 1991 美女和畜牲，在美人和畜牲中 1992 茉莉属植物和安拉丁，在安拉丁 1994 Simba ， Timon 和 Pumbaa，在狮子星国王中 1995 发出嗡嗡声 Lightyear 和多树木的，在供玩耍的故事中 1995 风中奇缘，在风中奇缘 1996 Esmerelda，在 Notre 夫人的驼背中 1998 大力英雄和 Megara，在大力英雄 1998 Mulan 和 Mushu，在 Mulan 2001 Milo 盖屋顶的材料，在阿特兰提斯：失去的帝国 2001 Lilo 和一针，在 Lilo 和一针 2002 Sulley，在怪物，公司 2003 奈莫舰长，在发现奈莫舰长方面 2004 幼鲑，在难以置信人中

Had deep technology to accumulate what go up with technical research and development to be thrown energetically just about, many industries and country " the first " in the sea the letter is born, multinomial core technology and sophisticated technology are captured by sea letter him person and master. 1996, air conditioning of the first frequency conversion of Chinese gets offline in sea letter; 2001, mobile phone of screen of color of the first CDMA of Chinese is born in sea letter; In June 2005, the video of the first own intellectual property treats field of Chinese sound video chip " letter core " in the sea the letter is born; In September 2007, product line of group of model of the first liquid crystal is in course of study of Chinese color television sea letter builds and put into production; In July 2008, TV of liquid crystal of illuminant of back of the first LED of the thinnest, China is in the whole world sea letter is born... some closer year come, because the sea believes these to hold to the ceaseless effort of own innovation enterprise, the home appliance trade that allows China was taken off " fruit dealer " cap, course of study of the state-owend enterprise in making tycoon of foreign home appliance right be filled with deep esteem, from " look down upon " mix to admiring look in succession and the olive that come.

正是有了深厚的技术积累和技术研发上的大力投入，多个行业和国家&第一&在海信诞生，多项核心技术和尖端技术被海信人自己攻克和掌握。1996年，中国第一台变频空调在海信下线；2001年，中国第一部CDMA彩屏手机在海信诞生；2005年6月，中国音视频领域第一块自主知识产权的视频处理芯片&信芯&在海信诞生；2007年9月，中国彩电业第一条液晶模组生产线在海信建成并投产；2008年7月，全球最薄、中国第一台LED背光源液晶电视在海信诞生……近些年来，因为海信这些坚持自主创新企业的不断努力，让中国的家电业脱掉了&水果贩子&的帽子，让国外家电巨头对中国企业肃然起敬，从&瞧不起&到钦佩的目光和纷纷而来的橄榄枝。

In the GPS L5 system, the chip rate is 10.23 MHz it is much higher than the existing L1 system. The larger chip rate indicates that more code phases need to be searched. The efficiency of conventional code acquisition methods will degrade further more.

在GPS L5接收系统里，所使用的码切片率为10.23 MHz；它高出现有的L1讯号系统甚多，而较大的切片率即表示有较多的码相位将可能被搜寻，因此传统的码撷取方法的效能将相对的变得更低。

On the other hand, the more important thing is because the urban housing is a kind of heterogeneity products.

另一方面，更重要的是由于城市住房是一种异质性产品。

Climate histogram is the fall that collects place measure calm value, cent serves as cross axle for a few equal interval, the area that the frequency that the value appears according to place is accumulated and becomes will be determined inside each interval, discharge the graph that rise with post, also be called histogram.

气候直方图是将所收集的降水量测定值，分为几个相等的区间作为横轴，并将各区间内所测定值依所出现的次数累积而成的面积，用柱子排起来的图形，也叫做柱状图。