| FlipChips DOT COM Tutorials
|
Web-Site |
Description: A fantastic collection of over five dozen tutorials on flip chip and micropackaging topics. AAA+
[show less...]
Author(s): Various
License: Commercial
Format: HTML
Price: free
URL: http://www.flipchips.com/
ReviewText: Here's a full list of the tutorials available as of the posting date of this topic:
- Introduction to Flip Chip
- Solder Bump Flip Chip
- Stud Bump Flip Chip
- Polymer Bump Flip Chip
- Anisotropic Conductive Film (ACF)Flip Chip
- A Brief History of Flipped Chips
- Electroless Nickel-Gold Flip Chip
- Reworking Underfilled Flip Chip
- Thermosonic Flip Chip Assembly
- Flip Chip Interconnection for Detector Arrays
- Under Bump Metallization (UBM)
- Solder Bumping Step by Step
- Bonding Edge Emitting Laser Diodes Using Gold/Tin Preforms
- Substrates for Flip Chip
- Packaging, Handling, and Storing of Solder Spheres
- SOC, SOP, and WLSCP
- Fluxing for Flip Chip
- Understanding Reliability Criteria for Solder Bumped Devices
- Causes of Misalignment
- Probing Bumped Flip Chips
- Controlling Stress in Thin Films
- Reworking Anisotropic Conductive Film (ACF) Flip Chip Assemblies
- Gold Stud Bump Applications
- Low Temperature Flip Chip for Flexible Displays
- The Coming of Copper UBM
- Shaping Gold Ball Bumps
- Copper Bumps for Flip Chip Assembly
- Micro-Posts: Tall, Slender, Stud Bumps
- Measuring thin films by spectral reflectance, Part 1
- Wafer level hermetic cavity chip scale packages for RF
- Gold Stud Bumping - the Other Flip-Chip Process
- Conductive Polymer Assembly of High Pin Count Flip Chip
- Sputtered nickel UBM for lead-free solder bumping
- Measuring thin films by spectral reflectance, Part 2
- MEMS Special Packaging Needs
- Too much gold can be a bad thing
- Evaporated Indium Bumps for Flip Chip
- Electromigration and Thermomigration in Flip Chip Solder Joints
- Nano-embossing reaches production
- Hermeticity: much to do about nothing
- Evaluating Wafer Level Solder Reflow Options to Maximize Yield
- Wafer-level Hermetic Cavity Packaging
- Advanced Wafer-level Cleaning Method
- Lead-Free Facts and Myths
- Alloy Electroplating: The best solution for Au-Sn solder?
- Flip Chip Bonder for Assembling 3D MEMS
- Drop-in Lead-free solder
- Wafer-level Nano-optics
- Gold Stud Bump Update
- Solder Bumping Single Die
- New Generation Nano-Imprint Lithography System
- Probe testing differences in lead-free bumps
- Nano Particle Adhesives
- The Promise of C4NP
- Injection Molding Solder Bumps
- Thermosonic Bonding of 1,000-bump Flip Chips
- Nanosoldering electronic components at room temperature
- Lower temperature lead-free flip chip
- Nanotube Heat Sinks
- Lead-Free Solder Bumping Methods
- Vapor Jet Deposition of Multi-Metal Films
- C4NP Test Data
- Silver Nano-platelet Precursors for Ultra-Thin Conductors
- Cleaning microelectronic devices by Vacuum Cavitational Streaming
- Underfilling Processes
Keywords: SoC
, MEMS
, nanotechnology
, flip chip
, solder bump
, stud bump
, ball bumps
, solder sphere
, SoP
, WLSCP
, thin films
, solder reflow
, lead-free
, injection molding
Submitter: EE HomePage Editorial Staff
Affiliation: None
xml_ID: 1159634003 ( single entry page)
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| A Radically Modern Approach to Introductory Physics
|
Book |
Description: This online textbook covers a broad range of topics in modern physics.
[show less...]
Author(s): Raymond, David J.
License: Some Restrictions (includes GNU)
Format: Video
Price: Free
URL: http://kestrel.nmt.edu/ ~raymond/ classes/ ph13xbook/ index.html
ReviewText: Contents include:
- Waves in One Dimension
- Transverse and Longitudinal Waves
- Sine Waves
- Types of Waves
- Superposition Principle
- Beats
- Interferometers
- Thin Films
- Math Tutorial -- Derivatives
- Group Velocity
- Waves in Two and Three Dimensions
- Math Tutorial -- Vectors
- Plane Waves
- Superposition of Plane Waves
- Diffraction Through a Single Slit
- Two Slits
- Diffraction Gratings
- Geometrical Optics
- Reflection and Refraction
- Total Internal Reflection
- Anisotropic Media
- Thin Lens Formula and Optical Instruments
- Fermat's Principle
- Kinematics of Special Relativity
- Galilean Spacetime Thinking
- Spacetime Thinking in Special Relativity
- Postulates of Special Relativity
- Time Dilation
- Lorentz Contraction
- Twin Paradox
- Applications of Special Relativity
- Waves in Spacetime
- Math Tutorial - Four-Vectors
- Principle of Relativity Applied
- Characteristics of Relativistic Waves
- The Doppler Effect
- Addition of Velocities
- Acceleration and General Relativity
- Acceleration
- Circular Motion
- Acceleration in Special Relativity
- Acceleration, Force, and Mass
- Accelerated Reference Frames
- Gravitational Red Shift
- Event Horizons
- Matter Waves
- Bragg's Law
- X-Ray Diffraction Techniques
- Meaning of Quantum Wave Function
- Sense and Nonsense in Quantum Mechanics
- Mass, Momentum, and Energy
- Heisenberg Uncertainty Principle
- Geometrical Optics and Newton's Laws
- Fundamental Principles of Dynamics
- One-Dimensional Non-Relativistic Case
- Potential Energy
-
Work and Power
-
Math Tutorial - Partial Derivatives
-
Motion in Two and Three Dimensions
-
Kinetic and Potential Momentum
-
Wave Mechanics
-
Math Tutorial -- Complex Waves
-
Free Particle Wave Function
-
Effects of Varying Potential Energy
-
Confined Particles
-
Dynamics of Multiple Particles
-
Momentum and Newton's Second Law
-
Newton's Third Law
-
Conservation of Momentum
-
Collisions
-
Rockets and Conveyor Belts
-
Rotational Dynamics
-
Math Tutorial -- Cross Product
-
Torque and Angular Momentum
-
The Uneven Dumbbell
-
Two Particles in General
-
Many Particles
-
Rigid Bodies
-
Statics
-
Harmonic Oscillator
-
Energy Analysis
-
Analysis Using Newton's Laws
-
Forced Oscillator
-
Quantum Mechanical Harmonic Oscillator
-
Newton's Law of Gravitation
-
The Law of Gravitation
-
Gravitational Field
-
Gravitational Flux
-
Flux from Multiple Masses
-
Effects of Relativity
-
Kepler's Laws
-
Use of Conservation Laws
-
Forces in Relativity
-
Potential Momentum
-
Aharonov-Bohm Effect
-
Forces from Potential Momentum
-
Lorentz Condition
-
Gauge Theories and Other Theories
-
Conservation of Four-Momentum Again
-
Virtual Particles
-
Virtual Particles and Gauge Theory
-
Negative Energies and Antiparticles
-
Electromagnetic Forces
-
Electromagnetic Four-Potential
-
Electric and Magnetic Fields and Forces
-
A Note on Units
-
Charged Particle Motion
-
Forces on Currents in Conductors
-
Torque on a Magnetic Dipole and Electric Motors
-
Electric Generators and Faraday's Law
-
EMF and Scalar Potential
-
Generation of Electromagnetic Fields
-
Coulomb's Law and the Electric Field
-
Gauss's Law for Electricity
-
Gauss's Law for Magnetism
-
Coulomb's Law and Relativity
-
Moving Charge and Magnetic Fields
-
Electromagnetic Radiation
-
The Lorentz Condition
-
Capacitors, Inductors, and Resistors
-
The Capacitor and Ampere's Law
-
The Capacitor
-
Circulation of a Vector Field
-
Ampere's Law
-
Magnetic Induction and Inductors
-
Resistance and Resistors
-
Energy of Electric and Magnetic Fields
-
Kirchhoff's Laws
-
Measuring the Very Small
-
Continuous Matter or Atoms?
-
The Ring Around the Moon
-
The Geiger-Marsden Experiment
-
Cosmic Rays and Accelerator Experiments
-
Commentary
-
Atoms
-
Fermions and Bosons
-
The Hydrogen Atom
-
The Periodic Table of the Elements
-
Atomic Spectra
-
The Standard Model
-
Quarks and Leptons
-
Quantum Chromodynamics
-
The Electroweak Theory
-
Grand Unification?
-
Atomic Nuclei
-
Molecules -- an Analogy
-
Nuclear Binding Energies
-
Radioactivity
-
Nuclear Fusion and Fission
-
Heat, Temperature, and Friction
-
Temperature
-
Heat
-
Specific Heat
-
First Law of Thermodynamics
-
Heat Conduction
-
Thermal Radiation
-
Friction
-
Entropy
-
States of a Brick
-
Second Law of Thermodynamics
-
Two Bricks in Thermal Contact
-
Thermodynamic Temperature
-
Specific Heat
-
Entropy and Heat Conduction
-
The Ideal Gas and Heat Engines
-
Ideal Gas
-
Slow and Fast Expansions
-
Heat Engines
-
Perpetual Motion Machines
-
Constants
-
Constants of Nature
-
Properties of Stable Particles
-
Properties of Solar System Objects
-
Miscellaneous Conversions
Keywords: reflection
, Kirchhoff's Laws
, quantum mechanics
, derivatives
, Newton's Laws
, acceleration
, thermodynamics
, Doppler Effect
, fusion
, optics
, refraction
, diffraction
, relativity
, thermal radiation
, capacitors
, oscillator
, Faraday's Law
, thin films
, inductors
, resistors
, electric motors
, Superposition Principle
, interferometers
, group velocity
, plane waves
, Fermat's Principle
, Special Relativity
, time dilation
, Lorentz Contraction
, General Relativity
, red shift
, matter waves
, Bragg's Law
, X-ray diffraction
, Heisenberg Uncertainty Principle
, Kepler's Laws
, Aharonov-Bohm Effect
, Lorentz Condition
, magnetic dipole
, EMF
, Coulomb's Law
, Gauss's Laws
, electromagnetic radiation
, cosmic rays
, quarks
, leptons
, radioactivity
, fission
, entropy
, heat conduction
Submitter: EE HomePage Editorial Staff
Affiliation: None
xml_ID: 1175387352 ( single entry page)
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