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Wire bonding is the method of making interconnections between an
integrated circuit An integrated circuit or monolithic integrated circuit (also referred to as an IC, a chip, or a microchip) is a set of electronic circuits on one small flat piece (or "chip") of semiconductor material, usually silicon. Large numbers of tiny ...
(IC) or other
semiconductor device A semiconductor device is an electronic component that relies on the electronic properties of a semiconductor material (primarily silicon, germanium, and gallium arsenide, as well as organic semiconductors) for its function. Its conductivity li ...
and its
packaging Packaging is the science, art and technology of enclosing or protecting products for distribution, storage, sale, and use. Packaging also refers to the process of designing, evaluating, and producing packages. Packaging can be described as a co ...
during semiconductor device fabrication. Although less common, wire bonding can be used to connect an IC to other electronics or to connect from one
printed circuit board A printed circuit board (PCB; also printed wiring board or PWB) is a medium used in Electrical engineering, electrical and electronic engineering to connect electronic components to one another in a controlled manner. It takes the form of a L ...
(PCB) to another. Wire bonding is generally considered the most cost-effective and flexible interconnect technology and is used to assemble the vast majority of semiconductor packages. Wire bonding can be used at frequencies above 100 GHz.V. Valenta et al., "Design and experimental evaluation of compensated bondwire interconnects above 100 GHz", International Journal of Microwave and Wireless Technologies, 2015


Materials

Bondwires usually consist of one of the following materials: * Aluminum * Copper * Silver * Gold Wire diameters start from under 10
μm The micrometre ( international spelling as used by the International Bureau of Weights and Measures; SI symbol: μm) or micrometer (American spelling), also commonly known as a micron, is a unit of length in the International System of Unit ...
and can be up to several hundred micrometres for high-powered applications. The wire bonding industry is transitioning from gold to copper. This change has been instigated by the rising cost of gold and the comparatively stable, and much lower, cost of copper. While possessing higher thermal and electrical conductivity than gold, copper had previously been seen as less reliable due to its hardness and susceptibility to corrosion. By 2015, it is expected that more than a third of all wire bonding machines in use will be set up for copper. Copper wire has become one of the preferred materials for wire bonding interconnects in many semiconductor and microelectronic applications. Copper is used for fine wire ball bonding in sizes from up to . Copper wire has the ability of being used at smaller diameters providing the same performance as gold without the high material cost. Copper wire up to can be successfully wedge bonded. Large diameter copper wire can and does replace aluminum wire where high current carrying capacity is needed or where there are problems with complex geometry. Annealing and process steps used by manufacturers enhance the ability to use large diameter copper wire to wedge bond to silicon without damage occurring to the die. Copper wire does pose some challenges in that it is harder than both gold and aluminum, so bonding parameters must be kept under tight control. The formation of oxides is inherent with this material, so storage and shelf life are issues that must be considered. Special packaging is required in order to protect copper wire and achieve a longer shelf life. Palladium coated copper wire is a common alternative which has shown significant resistance to corrosion, albeit at a higher hardness than pure copper and a greater price, though still less than gold. During the fabrication of wire bonds, copper wire, as well as its plated varieties, must be worked in the presence of forming gas 5% nitrogen and 5% hydrogenor a similar anoxic gas in order to prevent corrosion. A method for coping with copper's relative hardness is the use of high purity N+varieties. Pure gold wire doped with controlled amounts of beryllium and other elements is normally used for ball bonding. This process brings together the two materials that are to be bonded using heat, pressure and ultrasonic energy referred to as thermosonic bonding. The most common approach in thermosonic bonding is to ball-bond to the chip, then stitch-bond to the
substrate Substrate may refer to: Physical layers *Substrate (biology), the natural environment in which an organism lives, or the surface or medium on which an organism grows or is attached ** Substrate (locomotion), the surface over which an organism lo ...
. Very tight controls during processing enhance looping characteristics and eliminate sagging. Junction size, bond strength and conductivity requirements typically determine the most suitable wire size for a specific wire bonding application. Typical manufacturers make gold wire in diameters from and larger. Production tolerance on gold wire diameter is +/-3%. Alloyed aluminum wires are generally preferred to pure aluminum wire except in high-current devices because of greater drawing ease to fine sizes and higher pull-test strengths in finished devices. Pure aluminum and 0.5% magnesium-aluminum are most commonly used in sizes larger than . All-aluminum systems in semiconductor fabrication eliminate the " purple plague" (brittle gold-aluminum intermetallic compound) sometimes associated with pure gold bonding wire. Aluminum is particularly suitable for thermosonic bonding. In order to assure that high quality bonds can be obtained at high production speeds, special controls are used in the manufacture of 1% silicon-aluminum wire. One of the most important characteristics of high grade bonding wire of this type is homogeneity of the alloy system. Homogeneity is given special attention during the manufacturing process. Microscopic checks of the alloy structure of finished lots of 1% silicon-aluminum wire are performed routinely. Processing also is carried out under conditions which yield the ultimate in surface cleanliness and smooth finish and permits entirely snag-free de-reeling.


Attachment techniques

The main classes of wire bonding: * Ball bonding *
Wedge bonding Wedge bonding is a kind of wire bonding which relies by the application of ultrasonic power and force to form bonds. It is a popular method and is commonly used in the semiconductor A semiconductor is a material which has an electrical con ...
*
Compliant bonding Compliant bonding is used to connect gold wires to electrical components such as integrated circuit "chips". It was invented by Alexander Coucoulas in the 1960s.Alexander Coucoula"Bonding With A Compliant Medium" . October 13, 1970. Filed July 6, ...
Ball bonding usually is restricted to gold and copper wire and usually requires heat. For wedge bonding, only gold wire requires heat. Wedge bonding can use large diameter wires or wire ribbons for power electronics application. Ball bonding is limited to small diameter wires, suitable for interconnect application. In either type of wire bonding, the wire is attached at both ends using a combination of downward pressure, ultrasonic energy, and in some cases heat, to make a weld. Heat is used to make the metal softer. The correct combination of temperature and ultrasonic energy is used in order to maximize the reliability and strength of a wire bond. If heat and ultrasonic energy is used, the process is called thermosonic bonding. In wedge bonding, the wire must be drawn in a straight line according to the first bond. This slows down the process due to time needed for tool alignment. Ball bonding, however, creates its first bond in a ball shape with the wire sticking out at the top, having no directional preference. Thus, the wire can be drawn in any direction, making it a faster process. Compliant bondingA.Coucoulas, "Compliant Bonding" Proceedings 1970 IEEE 20th Electronic Components Conference, pp. 380-89, 1970. http://commons.wikimedia.org/wiki/File:CompliantBondingPublic_1-10.pdf https://www.researchgate.net/publication/225284187_Compliant_Bonding_Alexander_Coucoulas_1970_Proceeding_Electronic_Components_Conference_Awarded_Best_Paper transmits heat and pressure through a compliant or indentable aluminum tape and therefore is applicable in bonding gold wires and the beam leads that have been electroformed to the silicon integrated circuit (known as the beam leaded integrated circuit).


Manufacturing and reliability challenges

There are multiple challenges when it comes to wire bond manufacturing and reliability. These challenges tend of be a function of several parameters such as the material systems, bonding parameters, and use environment. Different wire bond-
bond pad Contact pads or bond pads are designated surface areas of a printed circuit board (PCB) or die of an integrated circuit. Possibilities to contact to pads include soldering, wirebonding, flip chip Flip chip, also known as controlled collapse ...
metal systems such as Aluminum-Aluminum (Al-Al), Gold-Aluminum (Au-Al), and Copper-Aluminum (Cu-Al) require different manufacturing parameters and behave differently under the same use environments.


Wire bond manufacturing

Much work has been done to characterize various metal systems, review critical manufacturing parameters, and identify typical reliability issues that occur in wire bonding. When it comes to material selection, the application and use environment will dictate the metal system. Often the electrical properties, mechanical properties, and cost are taken into account when making a decision. For example, a high current device for a space application might require a large diameter aluminum wire bond in a hermetically sealed ceramic package. If cost is a large constraint, then avoiding gold wire bonds may be a necessity. Some recent work has been done to look at copper wire bonds in automotive applications. This is only a small sampling, as there is a vast body of work reviewing and testing what material systems work best in different applications. From a manufacturing perspective, the bonding parameters play a critical role in bond formation and bond quality. Parameters such bond force, ultrasonic energy, temperature, and loop geometry, to name a few, can have a significant effect on bond quality. There are various wire bonding techniques ( thermosonic bonding, ultrasonic bonding, thermocompression bonding) and types of wire bonds ( ball bonding,
wedge bonding Wedge bonding is a kind of wire bonding which relies by the application of ultrasonic power and force to form bonds. It is a popular method and is commonly used in the semiconductor A semiconductor is a material which has an electrical con ...
) that affect susceptibility to manufacturing defects and reliability issues. Certain materials and wire diameters are more practical for fine pitch or complex layouts. The bond pad also plays an important role as the metallization and barrier layer(s) stackup will impact the bond formation. Typical failure modes that result from poor bond quality and manufacturing defects include: fracture at the ball bond neck, heel cracking (wedge bonds), pad liftoff, pad peel, overcompression, and improper intermetallic formation. A combination of wire bond pull/shear testing,
nondestructive testing Nondestructive testing (NDT) is any of a wide group of analysis techniques used in science and technology industry to evaluate the properties of a material, component or system without causing damage. The terms nondestructive examination (NDE), n ...
, and destructive physical analysis (DPA) can be used to screen manufacturing and quality issues.


Wire bond reliability

While wirebond manufacturing tends to focus on bond quality, it often does not account for wearout mechanisms related to wire bond reliability. In this case, an understanding of the application and use environment can help prevent reliability issues. Common examples of environments that lead to wire bond failures include elevated temperature, humidity, and temperature cycling. Under elevated temperatures, excessive intermetallics (IMC) growth can create brittle points of fracture. Much work that has been done to characterize the intermetallic formation and aging for various metal systems. This not a problem in metal systems where the wire bond and bond pad are the same material such as Al-Al. This does become a concern in dissimilar metal systems. One of the most well known examples is the brittle intermetallics formed in gold-aluminum IMCs such as purple plague. Additionally, diffusion related issues, such as Kirkendall voiding and Horsting voiding, can also lead to wire bond failures. Under elevated temperature and humidity environments, corrosion can be a concern. This is most common in Au-Al metal systems and is driven by
galvanic corrosion Galvanic corrosion (also called bimetallic corrosion or dissimilar metal corrosion) is an electrochemical process in which one metal corrodes preferentially when it is in electrical contact with another, in the presence of an electrolyte. A sim ...
. The presence of halides such as chlorine can accelerate this behavior. This Au-Al corrosion is often characterized with Peck's law for temperature and humidity. This is not as common in other metal systems. Under temperature cycling, thermomechanical stress is generated in the wire bond as a result of coefficient of thermal expansion (CTE) mismatch between the epoxy molding compound (EMC), the
leadframe A lead frame (pronounced ) is the metal structure inside a chip package that carries signals from the die to the outside. The lead frame consists of a central die pad, where the die is placed, surrounded by leads, metal conductors leading away ...
, the die, the die adhesive, and the wire bond. This leads to
low cycle fatigue Low cycle fatigue (LCF) has two fundamental characteristics: plastic deformation in each cycle; and low cycle phenomenon, in which the materials have finite endurance for this type of load. The term ''cycle'' refers to repeated applications of stre ...
due to shear or tensile stresses in the wire bond. Various
fatigue Fatigue describes a state of tiredness that does not resolve with rest or sleep. In general usage, fatigue is synonymous with extreme tiredness or exhaustion that normally follows prolonged physical or mental activity. When it does not resolve ...
models have been used to predict the fatigue life of wire bonds under such conditions. Proper understanding of the use environment and metal systems are often the most important factors for increasing wire bond reliability.


Testing

While there are some wire bond pull and shear testing techniques,JESD22-B116: Wire Bond Shear Test Method these tend to be applicable for manufacturing quality rather than reliability. They are often monotonic overstress techniques, where peak force and fracture location are the critical outputs. In this case the damage is plasticity dominated, and does not reflect some wearout mechanisms that might be seen under environmental conditions. Wire pull testing applies an upward force under the wire, effectively pulling it away from the substrate or die.How to test bonds: How to Wire Pull?
April 2016.
The purpose of the test is as MIL-STD-883 2011.9 describes it: "To measure bond strengths, evaluate bond strength distributions, or determine compliance with specified bond strength requirements". A wire can be pulled to destruction, but there are also non-destructive variants whereby one tests whether the wire can withstand a certain force. Non-destructive test methods are typically used for 100% testing of safety critical, high quality and high cost products, avoiding damage to the acceptable wired bonds tested. The term wire pull usually refers to the act of pulling a wire with a hook mounted on a pull sensor on a
bond tester A bond tester is a scientific instrument used to measure the mechanical strength of bonds, evaluate bond strength distributions or determine compliance with specified bond strength requirements of the applicable acquisition document. Typically a loa ...
. However, to promote certain failure modes, wires can be cut and then pulled by tweezers, also mounted on a pull sensor on a bond tester. Usually wires up to 75 Î¼m diameter (3 mil) are classified as thin wire. Beyond that size, we speak about thick wire testing.


See also

*
Purple plague (intermetallic) Purple is any of a variety of colors with hue between red and blue. In the RGB color model used in computer and television screens, purples are produced by mixing red and blue light. In the RYB color model historically used by painters, p ...
* Kirkendall effect * Ball Bonding *
Wedge bonding Wedge bonding is a kind of wire bonding which relies by the application of ultrasonic power and force to form bonds. It is a popular method and is commonly used in the semiconductor A semiconductor is a material which has an electrical con ...
* Thermosonic Bonding * Pull off test


References


Resources


Amkor Copper (Cu) WirebondingJ-Devices Copper (Cu) Wirebonding

Amkor Silver (Ag) Wirebonding
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