# Intro to Electronics November 2010

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*** Whatever voltage is in the circuit that is greater than Vf is dropped by the resistor. (In that simple circuit.) | *** Whatever voltage is in the circuit that is greater than Vf is dropped by the resistor. (In that simple circuit.) | ||

*** LEDs in parallel need separate resistors due to manufacturing variability. | *** LEDs in parallel need separate resistors due to manufacturing variability. | ||

+ | |||

+ | [[File:Intro_elec_nov_2010_homework_1.png]] | ||

+ | |||

+ | For homework_1, calculate: | ||

+ | |||

+ | #) The current through the entire circuit | ||

+ | #) The voltage at the upper right corner of the circuit | ||

+ | #) The power dissipated in R1 | ||

+ | #) The power dissipated in R2 | ||

+ | |||

+ | [[File:Intro_elec_nov_2010_homework_2.png]] | ||

+ | |||

+ | For homework_2, calculate: | ||

+ | |||

+ | #) The equivalent resistance of R6, R8, and R9 combined. Trick: I only showed you how to combine two resistors in parallel, but that's all you need. Try to figure it out without asking me. :-) | ||

+ | #) The current through the entire circuit | ||

+ | #) The voltage at the upper right corner of the circuit | ||

+ | #) The current through R6 | ||

+ | #) The current through R8 | ||

+ | |||

+ | [[File:Intro_elec_nov_2010_homework_3.png]] | ||

+ | |||

+ | For homework_3, calculate: | ||

+ | |||

+ | #) The equivalent resistance of R11 and R12 combined | ||

+ | #) The current through the entire circuit | ||

+ | #) The power dissipated in R12 | ||

+ | |||

+ | [[Category: Classes]] | ||

+ | [[Category: Electronics and Robotics]] | ||

+ | |||

[[First homework for Intro to Electronics November 2010]] | [[First homework for Intro to Electronics November 2010]] |

## Revision as of 12:34, 18 September 2015

First class: Monday, November 8, 2010 7-9 PM

Concepts discussed:

- Current (Measured in Amps, usually represented with I)
- Voltage (Measured in Volts, usually represented with V)
- Power (Measured in Watts, usually represented with P)

- Nets, also known as nodes. Can be thought of as wires.
- Voltages must always add up when you go around the circuit
- Currents must add up in/out of a node. (Water in pipes analogy.)

Components covered:

- Batteries
- Battery as a voltage source
- Total power (mAh) supplied by a battery - varies but can be calculated.
- Battery parasitic (internal) resistance (LED powered by coin cell with no series resistor)

- Resistors
- Series combination of resistors: R(total) = R1 + R2
- Parallel combination of resistors: R(total) = 1/(1/R1 + 1/R2)
- Calculating current through a resistor given voltage and resistance: I = V/R
- Calculating voltage across resistor given current through it: V = I*R
- Calculating resistance required to produce a chosen current given the voltage across the resistor: R = V/I

- Diodes
- Discussion of forward voltage of a diode, finding it on a datasheet
- Diodes in a circuit are either on (voltage drop is equal to forward voltage) or off (voltage drop must be less than forward voltage for this to happen).
- LEDs: Higher Vf than regular diodes - see datasheet
- Look up Vf and If of LED from datasheet
- Design to never run quite at If (Component tolerances etc.)
- Use resistor in series to prevent burnout of LED
- Whatever voltage is in the circuit that is greater than Vf is dropped by the resistor. (In that simple circuit.)
- LEDs in parallel need separate resistors due to manufacturing variability.

For homework_1, calculate:

- ) The current through the entire circuit
- ) The voltage at the upper right corner of the circuit
- ) The power dissipated in R1
- ) The power dissipated in R2

For homework_2, calculate:

- ) The equivalent resistance of R6, R8, and R9 combined. Trick: I only showed you how to combine two resistors in parallel, but that's all you need. Try to figure it out without asking me. :-)
- ) The current through the entire circuit
- ) The voltage at the upper right corner of the circuit
- ) The current through R6
- ) The current through R8

For homework_3, calculate:

- ) The equivalent resistance of R11 and R12 combined
- ) The current through the entire circuit
- ) The power dissipated in R12First homework for Intro to Electronics November 2010