Using a Taguchi Quality Loss Function (QLF) to Determine Tolerance The desired distancefor Flextronchip customers is 0.2 mm between two adjacent pins. Any deviation from this valuecauses interference. The process of handling complaints costs the firm at approximately $40.00 perchip. The engineers of the firm expect the average customer will be likely to complain when thedistance is off target by at least 0.0001 mm. At the factory, the adjustment can be made at a cost of$1.60, which includes the labor to make the adjustment and additional testing.Required1. What is the value of k, the cost coefficient, in the Taguchi quality loss function (QLF) based on theabove data?2. Based on a Taguchi quality loss function (QLF), what should the tolerance be (to 5 decimal places)before an adjustment is made at the factory?3. Based on your answer to requirement 2 above, what are the specification limits (upper and lower, to fivedecimal places) for the production of the product in question?
Using a Taguchi Quality Loss Function (QLF) to Determine Tolerance The desired distance
for Flextronchip customers is 0.2 mm between two adjacent pins. Any deviation from this value
causes interference. The process of handling complaints costs the firm at approximately $40.00 per
chip. The engineers of the firm expect the average customer will be likely to complain when the
distance is off target by at least 0.0001 mm. At the factory, the adjustment can be made at a cost of
$1.60, which includes the labor to make the adjustment and additional testing.
Required
1. What is the value of k, the cost coefficient, in the Taguchi quality loss function (QLF) based on the
above data?
2. Based on a Taguchi quality loss function (QLF), what should the tolerance be (to 5 decimal places)
before an adjustment is made at the factory?
3. Based on your answer to requirement 2 above, what are the specification limits (upper and lower, to five
decimal places) for the production of the product in question?
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