Lab. No. 1 1 9/8/08 DEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE MASSACHUSETTS INSTITUTE OF TECHNOLOGY CAMBRIDGE, MASSACHUSETTS 02139 Fall Term 2008 6.101 Introductory Analog Electronics Laboratory Laboratory No. 1 READING ASSIGNMENT: Review 6.002 notes on resonance, and read the text in this lab. You should read the handout Using Your Oscilloscope Probe [available at the Stockroom window] and The XYZ‟s of Oscilloscopes, handed out on the first day of class. Most of you will be using our new Tektronix TDS30XXB Oscilloscopes. These „scopes come with mini-manuals, and a full manual is located in the 38-601 lab space, on the windowsill. OVERVIEW This is the first of six labs that will occupy you for the first half of the term. This one is probably the longest, but it is also the most “cookbook”-like of all the labs. You will normally receive a new lab on Friday at 2:00 pm in class; because this lab is longer, and you have received it on Wednesday, you have an extra couple of days to complete it. Each subsequent lab will deal with topics that will be presented in class and each lab will become more design-oriented and less “cookbooky” as time passes. In other words, we want to take you from training wheels to bicycle racing! In Experiment 1, we start out to examine the effects of resonance, especially bandwidth, using just a 455kHz transformer with built-in parallel capacitor, the function generator, and resistors. One resistor will transform our function generator into a current source; the other resistor will be used to control the bandwidth of the parallel tuned circuit. Then we progress, in Experiment 2, to driving the transformer using a more real world source, a transistor, which has its own unique value of source resistance and is a real current source, rather than a voltage source. We are still using a simple load resistor on the transformer secondary in order to control bandwidth; the trick here is that the source resistance of the transistor is a new factor that also affects bandwidth, along with the load resistor on the secondary. Then in Experiment 3, we replace the load resistor with the diode detector/RF filter/load resistor combination, and we study how the diode changes the effective value of the load resistor and we study how the capacitor can affect the high frequency audio response around 5 kHz, as well as how the bandwidth adjustment can affect the high frequency audio response around 5 kHz, [due to changing the value of the load resistor], which should be the main "adjustor" of the audio bandwidth. In Experiment 4, we take a look at a simple method of transmitting AM modulation that also gives us a chance to study series resonant circuit behavior. The bandwidth of the series resonant circuit can also have an effect on the high frequency audio response of the complete transmit-receive system.Lab. No. 1 2 9/8/08 Then, we go on in Experiment 5 to substitute a receiving antenna for the function generator, which also adds a second tuned circuit, which if it is tuned to the same center frequency as the transformer is tuned, will give us a two-resonant circuit receiver and the combined bandwidth of the two resonant circuits will reduce the audio response around 5kHz even more [the Q of the ferrite rod/coil/trimmer cap arrangement is not as high as the Q of the transformer, therefore the two resonance curves are not the same shape]. The idea is to measure a few high audio frequencies in Experiment 3, say 400, 1000, 3000, 5000 Hz, and then repeat those measurements in Experiment 5 and compare them to see how the addition of the second tuned circuit affects the audio response. [AM broadcasting in the USA is limited to 5 kHz due to our 10 kHz station spacing, in many other parts of the world the high frequency limit is 4.5 kHz and the station spacing on the dial is 9 kHz.] OBJECTIVE In this laboratory you will transmit an AM radio signal to a rudimentary AM receiver that you will build. This is one of many ways to achieve wireless communication and this experience will help you make a decision on what kind of design project to undertake during the second half of the term. The objective of this laboratory is to gain familiarity with practical series and parallel resonant circuits [tuned circuits], and with RF transmission and demodulation of amplitude-modulated AM signals. You will also learn to use the Tektronix 2445 and TDS 30XXB series oscilloscopes and the Hewlett-Packard 33120A Function Generator/AM-FM Modulator or the Agilent 33220A Function Generator/AM-FM Modulator. Note that although we have attempted to be relatively thorough in this write-up, there will certainly be things that you may have to figure out for yourself. If you don't know how to do something, you would probably benefit from playing around a bit to see if you can figure it out. There is very little that you can do with the equipment required for this laboratory that can damage it, provided you use common sense. However, if you are having trouble, don't hesitate to ask for help. Please DO NOT USE INDIVIDUAL single-conductor banana plug-to-alligator clip leads to connect from the function generator to your circuits. These wires are unshielded and unpaired and will pick up stray signals and have uncontrolled stray capacitance and inductance. DO USE the BNC [bayonet nut connector]-to-EZ-Hook or BNC-to-alligator shielded cables that are available at the stockroom windows. Insist on them, they were purchased for 6.101 student use. Be sure to retune your IF transformer coil slug every time you make a change to the circuit elements and/or the signal level. The large signal levels we are using tend to saturate the adjustable core in the IF transformer, and this causes the inductance to change. Thus you may have tuned the transformer to resonance at one frequency and voltage level, but at the same frequency with a different voltage level, the circuit may no longer be tuned to resonance. Check it every time!Lab. No. 1 3 9/8/08 Experiment 1: Q and bandwidth of Parallel tuned circuits. NOTE: THIS LAB REQUIRES A CHECKOFF FOR EXPERIMENT ONE on Monday Sept 12. Sign up for your checkoff time on the list posted on the lab door [38-601]. A FEW LINES ABOUT LAYOUT: Layout on