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Tekmos' Blog

Tekmos' Blog

Tekmos Logos & New Look

Along with the move to our new facilities, Tekmos is getting a new logo.

So how did this happen? 

Our current logo is just our name in the common Ariel font.  We stepped out of the box when we added a maroon underline.  It worked, but it was pretty bland. 

The act of moving into a new building means that we have to pay for a sign.  Our artist suggested that it was a good time for a new logo, so I turned him loose.  What I got back was our name in all caps, a more distinctive font, and a stylized chip.

Many companies pay staggering amounts of money for a graphic symbol that is to represent their company.  AT&T has a stylized globe.  Mercedes has their three point star.  McDonalds has its golden arches.  And Tekmos now has a chip.  And I love it. 

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New Product Development in Packaging

The guts of most durable products today contain a lot of electronics. The external package, whether an iPhone, a TV, or even a washing machine, is usually just the outermost package of multiple layers of packaging. In this article, we will look at innermost package type, the packaging that protects the IC (Integrated Circuit, sometimes called a computer chip.)

Today, silicon chips are made with a very large number of transistors arranged to make digital logic. The transistors are very small, allowing hundreds of thousands, sometimes millions, of transistors, to be made on a thumbnail-sized piece of silicon. A major problem is how to connect signal lines and how to protect the IC from damage. Special electronic packages have been developed to accomplish these tasks.

Advances in chip processing techniques have allowed for larger chips with smaller transistors. As this trend toward higher levels of integration (the inclusion of more circuitry onto a piece of silicon) continues, the number of signal lines has also increased. The package size has grown to accommodate the larger number of signal lines.

The demand for the packages with low pin-count has declined significantly. As the volume falls, the economy of scale goes away. The volume decrease causes the unit cost to increase, putting additional downward pressure on its usage. Then another factor comes into play. The tools to produce any given package type are expensive. A plastic package requires not only a mold and a small piece of metal called a lead frame, it also requires tooling for finishing. As these expensive tools wear out, a choice must be made whether to replace them. The manufacturer must decide if possible future revenue justifies the expenditure for the replacement tooling. Often, it is not practical to continue making some package types.

What do you do if you have a product that has a PCB (Printed Circuit Board) designed for a certain package type? If your PCB has a footprint that exactly matches the placement of connections on a particular package type, how do you proceed if nobody makes a package that fits that footprint? One costly approach is to design a new printed circuit board with a footprint for a similar device in a package that is available. The cost to design the new PCB, debug and test it, and update the documentation can be prohibitive. If the PCB was designed a long time ago, the designers may have moved on leaving incomplete documentation. Often manufacturing does not have a budget for design work. Solutions are even more costly when a new design requires a lot of testing such as for FDA approval.

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Jumping Through Hoops

A normal gate array prototype cycle takes about 8 weeks.  There is a week to make masks, 3 weeks for wafer processing, another 2 weeks for assembly, a week for test and bake, and a final week that taken by shipping between the various stages.

Sometimes, 8 weeks is too long, particularly if a customer faces a lines-down situation.  In these cases, expedites can help to reduce the total cycle to under 3 weeks.

The first part of an expedite is to pay the wafer fab to turn the lot into a hot lot (or bullet lot).  This will reduce the fab and mask time from 4 weeks to about 10 days.

Expediting the assembly is more complicated.  Most overseas manufacturers are pretty efficient, and an expedite will reduce their cycle time from two weeks to about 1 week.  This is dependent on their capacity at any given time.

 Domestic assemblers are an option, but they must have the tooling for the specific package you need.  With expedites, that can usually turn a package in 2 to 3 days.  And there is an additional time savings to be had from the reduced shipping times.

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