Heat transfer- determine heat of chip using convection

In summary, at a steady state, the chip has an electrical power input of 0.3W. The top surface of the chip is exposed to a coolant whose temperature is 20°C. The heat transfer coefficient for convection between the chip and the coolant is 150W/(m^2.k). If the heat transfer by conduction between the chip and the substrate is negligible, the surface temperature of the chip is 20°C.
  • #1
andyb1990
34
0

Homework Statement



A silicon chip measuring 5mm by 6mm and of thickness 1mm is embedded in a ceramic substrate. At a steady state, the chip has an electrical power input of 0.3W. The top surface of the chip is exposed to a coolant whose temperature is 20°C. The heat transfer coefficient for convection between the chip and the coolant is 150W/(m^2.k). If the heat transfer by conduction between the chip and the substrate is negligible, determine the surface temperature of the chip



Homework Equations





The Attempt at a Solution



my attempt at this question is using the formula:

Q= h(c)A (ΔT)

where h(c) is the heat transfer coefficient

I am unsure what to do with the electrical power that has been put in the question?
 
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  • #2
The unit of power is the watt. A watt has the unit of work/second. What are the units of work and how do these units compare with Q in your equation above?

Since there is negligible heat being conducted to the substrate, all must leave by convection.
 
  • #3
work = joules?
 
  • #4
Yes, work is joules which is also a unit of energy. Power is work/second or energy/second. So, electrically, you are inputting energy per second into the wafer. Since the problem indicates the situation is steady state, all that comes in MUST leave. So what does this tell you to do?
 
  • #5
would you divide the heat transfer coefficient by the power input?
 
  • #6
No you would not do that.

What are the units of Q? What does Q represent?
 
  • #7
Q represents the amount of heat loss?

and units are watts?
 
  • #8
Yes, that is correct. So you have a steady state situation here. All the power that comes into the chip via electricity must leave via heat transfer. Equate them.

Q= h(c)A (ΔT)

You have Q, you have h, you have A, and you have the coolant temperature. The only part of the above equation you don't have is the surface temperature. That is what you solve for.
 
  • #9
so would it be

0.3= 150*(5mm*6mm)(T-293)
 
  • #10
and also what is the best/easiest way to re arrange for T?
 
  • #11
Whenever you use an equation you must insure that the units match. Look at the film coefficient of 150 watts/m^2-K. But you are plugging millimeters into the equation.

You can use the 20 C directly because 1 degree change in C is 1 degree change in K.
 
  • #12
What class are you taking?
 
  • #13
Thank you, and also what is the best/easiest way to re arrange for T? I always struggle trying to figure this out!
 
  • #14
You have

A = B*(C*D)*(X - E) where A,B,C,D, and E are constants.

X = A/(B*C*D) + E

You should know this. If you plan to continue in the sciences, you will certainly see much more of this and other equations that are considerably more complicated. This is trivial.
 

1. What is heat transfer?

Heat transfer is the movement of thermal energy from one object or substance to another. It occurs when there is a difference in temperature between the two objects and continues until thermal equilibrium is reached.

2. What is convection?

Convection is a type of heat transfer that occurs in fluids, such as liquids or gases. It involves the movement of hot particles from one place to another, carrying thermal energy with them.

3. How is the heat of a chip determined using convection?

The heat of a chip can be determined using convection by measuring the temperature difference between the chip and its surroundings, and calculating the rate of heat transfer through the fluid surrounding the chip. This can be done using mathematical equations or experimental methods.

4. What factors affect heat transfer through convection?

The rate of heat transfer through convection can be affected by the properties of the fluid, such as its density and viscosity, as well as the temperature difference between the objects and the surface area of the objects.

5. Why is determining the heat of a chip important?

Determining the heat of a chip is important for understanding the performance and efficiency of electronic devices. It can also help in designing more efficient cooling systems to prevent overheating and damage to the chip.

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