Key Facts from Reading: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
Line 20: | Line 20: | ||
<math>G=(A_v)^2\frac{R_{i}}{R_{L}}</math> |
<math>G=(A_v)^2\frac{R_{i}}{R_{L}}</math> |
||
<math>\ |
<math>\ G_{db}=10 log{A_{v}}^2+10 log R_i - 10 log R_L</math> |
||
<math>\ |
<math>\ G_{db}=10 log |A_v|+10 log R_i - 10 log R_L</math> |
||
*By the equation above, we can say voltage gain in decibels is <math>\ A_{v dB}=20 log |A_v|</math> |
|||
Revision as of 16:14, 24 January 2010
The following facts are not profound and are possibly very obvious. Nonetheless, they might help cement certain concepts. Please add things you think would be helpful.
Transistors
- Conduction in n-type material is from free electrons.
- Conduction in p-type material is from holes (positive particles).
- The function of metal-oxide-semiconductor field-effect transistors (MOSFETs) depends on the voltage applied to the gate.
- Certain ranges of voltage allow no current to flow between the drain and the source. In this way, the MOSFET acts like an open switch.
- Another particular range of voltage allows current to easily flow from the source to the drain.
- When the voltage is in between the ranges of open and closed switch, the MOSFET can smoothly control the amount of current flowing.
- Bipolar Junction Transistors (BJTs) can act as either switches or current controls as well.
Amplifiers
- An inverting amplifier has a negative voltage gain, .
- A noninverting amplifier has a positive voltage gain, . (If you get this, you deserve a cookie)
- The power gain,, is the ration of the output power to the input power
-
- is the amplifier's input resistance and is the amplifier's output resistance.
-
Decibel Conversion
- Power gain, , can be converted to decibels:
- By the equation above, we can say voltage gain in decibels is
References
<references/>