| Reference Sheets GL12-13 RS Flip-Flop Timing Diagram |
Homework
b
= beginning of class
period, e = end of class period
| Assign- ment No. |
Assign- ment Name |
Max. Pts. |
Date Assigned |
Date |
Reading-- starting page |
Reading-- sections |
Questions |
| (GA09-8) | HW 1 | 10 | 1-18 | 1-23 b | 315 321 |
32-1 33-1 through 33-3 |
32-1 #3; 33-1 #1, 3; 33-2 #1, 3; Problem #HW1-1: When is the output of an inverter high? |
| (GA23-12) | HW 2 | 10 | 1-23 | 1-29 b 1-30b |
323 | 33-4 through 33-7 | 33-4 #4, 5; 33-5 #4, 5; 33-6 #3, 5 |
| (GA24-12) | HW 3 | 0 | 1-24 | -- | -- | -- | Study the Boolean algebra identities, etc., from the Wikipedia article. Click here to bring up the page. |
| (GA25-13) | HW 4 | 10 | 1-25 | 2-1b | 330 | 34-1 | 34-1 #4 a, b, c |
| HW5 | 10 | 2-27 | 2-6b | 333 | 34-2, 35-1, 35-2 | P. 336 #3a, p. 345 #2 |
Lab
Work & Class Exercises
MS = MultiSim, RC = Real components,
PP = pencil
and paper, b =
beginning of class period, e = end of class period
Grayed-out assignments = handout sheets not found.
| Assign- ment No. |
Assignment Name |
Max. Pts. |
Date Assigned |
Date |
Description | |
| GA09-9 | Basic gates | 10 | 1-18 | 1-22 e | MS | Handout: AND gates, OR gates, and Inverters. Be sure to save your circuit--you'll need it for the next experiment. (Anything that's blue and underlined is a link, and you can click on it to bring up the page that's linked to it.) |
| GA18-13 | NAND, NOR, XOR | 10 | 1-18 | 1-23e | MS | Modify the circuit of GA09-9 so that it has the following two-input gates: NAND (7400), NOR (7402), XOR (7486) |
| GA22-16 | Combined Gates | 10 | 1-22 | 1-23e | MS | Handout sheet |
| GA23-15 | Template | 10 | 1-23 | 1-23e | MS | Handout sheet--template for three input switches |
| GA23-16 | NAND Gates | 10 | 1-23 | 1-23e | MS | Handout sheet |
| GA24-17 | De Morgan's Equivalents | 10 | 1-24 | MS | Handout sheet | |
| GC26-10 | Logic gates | 10 | MS | Handout | ||
| GA25-14 | Dome light | 20 | 1-25 | 1-29e | MS | Handout sheet. Click here to get the bitswitch template file. |
| Class exercise | 5 | 1-30 | 1-30 e | PP | Rules to truth table to equations to Veitch diagram to simplified equations. | |
| GA30-12 | PV Controller | 25 | 1-30 | 2-6 e | MS | Handout sheet. Cold, hot, battery-low sensors. |
| GB1-8 | PV Vent Motor Controller | 20 | 2-1 | 2-5 e | MS | Click here for directions. Click here for Multisim template. |
| GB1-15 | RS Flip-Flop | 10 | 2-1 | 2-5e | MS | Handout |
| GB15-15 | RS Flip-Flop (improved) | 10 | 2-15 | MS | Handout | |
| GB15-16 | JK Flip-Flop Counter | 10 | 2-15 | MS | Handout | |
| GB20-14 | Ckt 4 test | 5 | 2-20 | 2-20 | MS | Connect switches and indicators to the Ckt 4 Multisim block to test it. |
| GB20-16 | PV Door with Ckt4 Block | 15 | 2-20 | 2-20 | MS | Connect gates from GB1-8 to a Ckt 4 block. Use switches to provide the H and C signals. |
| GB22-14 | PV: Warning lights | 10 | 2-22 | 2-27 | MS | To the Multisim file from GB20-16, add the following lights: Battery Low, Extreme Temperature, and Freeze Danger. See GB1-8 handout, bottom of page 2. |
| GB22-15 | PV: Convert to NAND gates | 10 | 2-22 | 2-27 | MS | First, make a copy of the file for the entire PV controller (as it ended up after doing GB22-14). Convert the entire circuit to one that uses only NAND gates and inverters. |
| GB22-16 | PV: Real Components | 30 50 |
2-22 | 2-29 | MS, RC | First, make a copy of the file for the entire PV controller. Then, simulate the controller using the fewest ICs possible. Then, build the entire circuit using real components. |
| GB27-12 | Flip-flop timing diagrams | 10 | 2-27 | 2-27e | PP | Handout. Make timing diagrams for an RS flip-flop and a JK flip-flop. |
| GB27-16 | Counters, Binary and BCD | 20 | 2-27 | MS | Handout | |
| GC01-09 | Pulse generator for coil gun | 10 | 3-1 | MS | Handout | |
| GC01-14 | JK flip-flop using preset and clear inputs | 5 | 3-1 | MS | Handout | |
| GC08-13 | RS flip-flop using real components | 10 | 3-8 | RC | Handout | |
| GC06-14 | Forward/reverse control | 10 | 3-6 | PP | Handout | |
| GC13-13 | 74166 shift register | 10 | 3-13 | MS | Handout | |
| GC13-14 | Shift register using JK flip-flops | 3-13 | PP | Handout | ||
| GC15-15 | Five-pulse generator | 10 | 3-15 | MS | Handout | |
| GC18-14 | Forward/reverse control, simulated | 3-8 | MS | Handout | ||
| GC27-16 | Addition of two four-bit words | 3-16 | MS | Handout | ||
| GC29-14 | 3-bit counter using JK flip-flops | 10 | 3-29 | MS | Handout | |
| GC29-15 | Comparator | 10 | 3-29 | MS | Handout | |
| GC29-16 | Multiplexed data | 3-29 | MS | Handout | ||
| GD04-13 | Glitches from asynchronous counter | 10 | 4-5 | MS | Click here for Multisim file. Just fire it up and see how it works. | |
| GD05-16 | 7-segment display | 10 | 4-5 | MS | Handout | |
| GD10-14 | Noise eliminator | 4-10 | MS | Handout | ||
| GD12-11 | ADC using capacitor charging | 10 | 4-12 | MS | Get handout, then click here for Multisim file. | |
| GD16-10 | Parallel-to-serial-with-clock for PV system) | Click here for Multisim file. | ||||
| GD15-17 | Parallel to serial to parallel using SRs (for PV system) | Click here for Multisim file. Then, simply try it out. | ||||
| GD24-15 | Remote monitoring system for PV power system | 4-24 | MS | Handout | ||
| GE01-01 | Class exercise: review | 5-1 | PP | Handout |
Extra
Credit
MS = MultiSim, RC = Real components,
PP = pencil
and paper, b
= beginning
of class period, e = end of class period
| Assignment No. |
Date Assigned |
Date Due | Description | |
Reference
|
My
links to Web sites with
information about electronics and the electrical trades: mounttaylor.spaces.live.com
(Additions are frequently made to these links.) |
Boolean
Algebra Excerpt from Wikipedia article |
Karnaugh Maps Wikipedia article |
Device Numbers |
| Template with 12-bit counter | MultiSim Hierarchical Blocks | 7400 Series Datasheets |