<p> CS4141 Digital Systems Lab Report Cover Sheet</p><p>Experiment:</p><p>Name:</p><p>NetID:</p><p>Partner:</p><p>Date of Experiment:</p><p>Date of Report Submission: 1. Experiment Goal: Perform a quick experiment to become familiar with the IDL-800. The goal is to prototype and verify that a TTL IC for a Boolean NAND yields the correct truth table gate. </p><p>2. Changes: No changes were necessary.</p><p>3. Answers: to all questions in the laboratory procedure sheets. Answers should be stated clearly and illustrated by expressions, tables, or diagrams as required.</p><p>4. Diagrams: _____ Boolean equation: Y= A • B </p><p>Truth Table: A B | Y 0 0 | 1 0 1 | 1 1 0 | 1 1 1 | 0</p><p>Logic diagram: A Y B</p><p>IC Circuit design wiring diagram: </p><p>Switch 1 (A) 1 14 Vcc (+5V.) connection Switch 2 (B) 2 13 LED (Y.) 3 12 connection 4 11 5 10 6 9 Ground (0V.) 8 connection 7</p><p>5. Statements of Results: I was able to successfully wire the breadboard and run tests for the SN74LS00 Quad gate NAND IC. I then tested the four possible results by watching the LED display as I entered each set of test values on the data switches. There were no problems with the hardware. 6. Discussion of Results: I was able to verify that the truth table obtained in test of my logic circuit showed below agreed with the predicted NAND truth table described in section 4 above. </p><p>Truth Table Test: Sw1 Sw2 |_Led1 Gnd Gnd | On Gnd Vcc | On Vcc Gnd | On Vcc Vcc | Off</p><p>7. Summary and Conclusions: I was able to create an actual working circuit that operated as expected from the Boolean equation for a NAND operator. This was my first hands on experience with mapping 0V and +5V to the Boolean values of 0 and 1, true and false. </p><p>Acknowledgment: Prof. Herman Harrison</p>