Question 1 In the IC world, there's a always a cost for designing chips for different types of performance. If Company A is working on designing an IC chip and the sole concern is to make it very fast and do it at a cheaper price than their competition, what will most likely be the sacrifice the design will have to make? O It will consume a lot of power to get those kinds of speed at that price O Use rubber-encased leads to create enough friction O Using CIA-grade copper for solder O All the internal angles won't add up to 240 degrees Question 2 Based on the Ch 9 Transfer Curve lab, what kind of IC inverter would you use if it was important for the transfer transitions (to "square up" the

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Question 1 In the IC world, there's a always a cost for designing chips for different types of performance. If Company A is working on designing an IC chip and the sole concern is to make it very fast and do it at a cheaper price than their competition, what will most likely be the sacrifice the design will have to make? It will consume a lot of power to get those kinds of speed at that price Use rubber-encased leads to create enough friction O Using CIA-grade copper for solder O All the internal angles won't add up to 240 degrees Question 2 Based on the Ch 9 Transfer Curve lab, what kind of IC inverter would you use if it was important for the transfer curve to have nice crisp transitions (to "square up" the transitions) from high to low and low to high? Schmitt Trigger TTL TTL LS series O CMOS HC series ECL Question 3 What do you need to interface between a TTL output and a CMOS input to allow the chips to work together? Pull-up Resistor A pull-down transistor which sinks the current to ground Buffer O A pull-up transistor which sources the current towards the CMOS Question 4 What do you need to interface between a CMOS output and a TTL input O INB4U TTL Buffer O4050B CMOS Buffer Pull-Up Resistor Pull-Down Resistor Question 5 Why can't a TTL output be hooked straight into a CMOS input? O The output current of the TTL will overload and destroy the CMOS The output transistor of a TTL sourcing a current is always reverse-biased O An output of 2.4 V (TTL High) falls into the uncertain region of a CMOS chip O The sinking current of the CMOS will overload and destroy the TTL