Category Archives: Electronics

Little Stories from the History of Science and Technology

Posted on 27-December-2010 by mathscinotes

Introduction I have always been interested in the connectedness of people. The theory that each of us is separated by only six degrees from anyone else is a theory I like to test. If you examine things carefully, you may … Continue reading

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Test Time and Estimating Bit Error Rate

Posted on 26-December-2010 by mathscinotes

Test time is expensive. Since our products need to conform to industry standards for Bit Error Rate (BER), we need to test for BER. It is important that we test long enough to ensure that we meet the requirements, yet not so long as to spend more money than we need to. Continue reading

Posted in Electronics, Fiber Optics | Tagged , , | 11 Comments

Power Dissipated in a Maximum Phone Load During Ringing

Posted on 10-December-2010 by mathscinotes

I am writing a specification this morning and I realized that I have never calculated the maximum power drawn by a phone during ringing. I was surprised by the number – 3 W. This is a lot for unit that … Continue reading

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Thermal Runaway Model of Lead-Acid Battery (Part 2)

Posted on 10-December-2010 by mathscinotes

Derivation of the Output Power Equation The output power equation (Equation 3) is really a restatement of Newton's law of cooling. Equation 3 states the battery's steady-state power dissipation is a linear function of the battery's temperature and the ambient … Continue reading

Posted in Batteries, Electronics | Tagged , , , | 3 Comments

Thermal Runaway Model of a Lead-Acid Battery (Part 1)

Posted on 9-December-2010 by mathscinotes

Introduction Very nearly every product we make ships with one or more lead-acid batteries. Since we have built hundreds of thousands of units, that is a lot of batteries. While most people encounter batteries everyday, few really understand the problems … Continue reading

Posted in Batteries, Electronics | 4 Comments

Laser Failure Rate Estimate Example

Posted on 5-December-2010 by mathscinotes

I have spent some time lately talking to people about laser failure characteristics. Most electronic component reliability modeling is done using the exponential probability distribution, which assumes the components have a constant failure rate and there is no wear-out mechanism. It turns out that lasers have a wear-out mechanism, which means the exponential probability distribution is not appropriate. Laser failure rates are usually modeled by a lognormal probability distribution, as are the failure rates of brakes (Figure 1) and incandescent light bulbs. These components have reliabilities that are dominated by wear-out mechanisms that accelerate when damage to a small region grows exponentially. A good example would be a hard spot on a brake pad that becomes hot during braking relative to the rest of the pad. This hard spot tends grow quickly because the heat generated during braking concentrates there. Continue reading

Posted in Electronics, Fiber Optics | Tagged , , | 3 Comments

The Case of the Mysterious Radio Interference

Posted on 13-November-2010 by mathscinotes

Quote of the Day I mean the word proof not in the sense of the lawyers, who set two half proofs equal to a whole one, but in the sense of a mathematician, where half a proof is zero, and … Continue reading

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Measuring the Ring Voltage on a Telephone

Posted on 8-November-2010 by mathscinotes

Quote of the Day Money can't buy happiness, but it can make you awfully comfortable while you're being miserable. — Clare Boothe Luce Introduction I received an email yesterday from a sales engineer who was having difficulty measuring the ring … Continue reading

Posted in Electronics | Tagged , , | 15 Comments