A mold flow model with method of cells to better understand IC packaging

More wires in a package and smaller wire gaps are the trend in the integrated circuit (IC) packaging industry. The effect of wire density is becoming increasingly apparent, especially on the flow pattern of the epoxy molding compound during the molding process and, hence, on the amount of wire sweep. In most mold flow simulations, the wire density effect is ignored. In order to consider the wire density effect on the predicted amount of wire sweep in the analysis, several indirect approaches were used by researchers before. But those approaches were not general enough to be applied to all cases. This paper presents a more direct and convenient approach to consider wire density effect by including wires in the mesh model for three-dimensional (3D) mold-filling analysis. A thin small outline package (TSOP) with 53 wires is used as the demonstration example, and all the wires are modeled in the 3D mesh. By comparison with experimental results, it is shown that this approach can accurately describe the wire density effect. When the wires are included in the mesh model, the predicted wire sweep results are better than those without considering the wire density effect.

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OPTIMASI LETAK GATE DAN TEMPERATUR CETAKAN TERHADAP CACAT HASIL PRODUK OUTER SHELL HELMET: SEBUAH STUDI NUMERIK

Jurnal Konversi Energi dan Manufaktur ◽

10.21009/jkem.3.1.8 ◽

2016 ◽

Vol 3 (1) ◽

pp. 45-51

Author(s):

Agung Premono ◽

Ragil Sukarno ◽

Ihsan Muazam

Keyword(s):

Injection Moulding ◽

Flow Model ◽

Outer Shell ◽

Volumetric Shrinkage ◽

Short Shot ◽

Mold Flow ◽

Sink Mark

Helmet merupakan salah satu alat keselamatan yang wajib digunakan oleh pengendara sepeda motor yang dihasilkandari proses injection moulding. Banyak faktor yang mempengaruhi kualitas produk yang dihasilkan dari prosesinjection moulding, diantaranya adalah temperatur cetakan dan letak gate. Penelitian ini ditujukan untuk mengetahuiletak gate dan temperatur cetakan yang paling optimal dalam mereduksi cacat hasil produk outer shell helmet. Studiini dilakukan dengan simulasi menggunakan Autodesk Inventor Mold Flow. Model yang digunakan adalah outershell helmet dengan variasi tiga gate yang berbeda yaitu (1) gate didepan bagian bawah model, (2) gate disampingmodel, dan (3) gate dibelakang model. Dari setiap variasi gate diberikan tiga variasi temperatur yang berbeda yaitu500C, 600C, dan 700C. Dengan variasi tersebut maka terdapat sembilan model yang disimulasikan dalam penelitiantersebut. Simulasi dilakukan untuk menemukan tiga jenis cacat yang sering timbul akibat letak gate dan temperaturcetakan yaitu: (1) sink mark; (2) short shot; dan (3) volumetric shrinkage. Hasil simulasi menunjukkan bahwa variasiparameter yang menghasilkan cacat paling sedikit model dengan letak gate yang berada disamping model dengantemperatur cetakan 500C.

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Siphon Flows in Stratified Coronal Loops

International Astronomical Union Colloquium ◽

10.1017/s0252921100025288 ◽

1994 ◽

Vol 144 ◽

pp. 185-187

Author(s):

S. Orlando ◽

G. Peres ◽

S. Serio

Keyword(s):

Heat Flux ◽

Scaling Laws ◽

Flow Model ◽

Supersonic Flows ◽

Coronal Loops ◽

Characteristic Parameters

AbstractWe have developed a detailed siphon flow model for coronal loops. We find scaling laws relating the characteristic parameters of the loop, explore systematically the space of solutions and show that supersonic flows are impossible for realistic values of heat flux at the base of the upflowing leg.

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Acoustic microscopy techniques for the inspection of integrated circuit devices and packages

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100129462 ◽

1992 ◽

Vol 50 (2) ◽

pp. 966-967

Author(s):

Thomas M. Moore

Keyword(s):

Integrated Circuit ◽

Acoustic Microscopy ◽

Hybrid Technique ◽

Frequency Scanning ◽

Ic Packaging ◽

Ic Package ◽

Microscopy Techniques ◽

Ic Package Inspection ◽

Pulse Echo ◽

Scanning Acoustic Microscope

In the last decade, a variety of characterization techniques based on acoustic phenomena have come into widespread use. Characteristics of matter waves such as their ability to penetrate optically opaque solids and produce image contrast based on acoustic impedance differences have made these techniques attractive to semiconductor and integrated circuit (IC) packaging researchers.These techniques can be divided into two groups. The first group includes techniques primarily applied to IC package inspection which take advantage of the ability of ultrasound to penetrate deeply and nondestructively through optically opaque solids. C-mode Acoustic Microscopy (C-AM) is a recently developed hybrid technique which combines the narrow-band pulse-echo piezotransducers of conventional C-scan recording with the precision scanning and sophisticated signal analysis capabilities normally associated with the high frequency Scanning Acoustic Microscope (SAM). A single piezotransducer is scanned over the sample and both transmits acoustic pulses into the sample and receives acoustic echo signals from the sample.

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