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Name: Due date: Grade: ECE 2006 LABORATORY 1 – Rev 1.0 Jan, 2004DIGITAL MULTIMETERPre-lab Calculations: NoneObjectivesThe learning objectives for this laboratory are to give the student the ability to:- use the digital multimeter (DMM) for resistance, voltage, and current measurements.- determine circuit resistance from voltage and current measurements.- determine digital meter accuracy from tolerance specifications.- use the resistor color code chart.- use tables for data.References1. Alexander and Sadiku, Fundamentals of Electric Circuits – 2nd Edition, McGraw-Hill, 20042. Color Code Chart, available in Lab.BackgroundFigures. Each figure must have a descriptive title and a number. Units must be included for all numerical values. Figures must be neat and easy to read and understand.Data. Data is to be taken in ink. It must be clear as to what the data refers to. Do not forget units. The use of Tables is frequently convenient.Tables. Tables are used to present information. They must be neat and easy to read and understand. Each Table requires a number for reference, a descriptive title, and column headings that describe the data. Units must also be included.Sample calculations. Sample calculations are used to demonstrate how results were obtained. Label each sample calculation so that it is clear as to what it refers to. Each sample calculation should include a symbol equation, a set of numerical values, a result, and units, such asR = V/I = 10 Volts/2 Amps = 5 Ohms- 1 -Tolerance. Accuracy is often expressed as a tolerance. A tolerance can be expressed as a percent or in original units. For example, a -2% tolerance on 50 volts could also be expressed as -1 volt.DMM Accuracy. The accuracy is listed on the bottom of the meter. It is given as a reading percent + number of least significant digits, such as -(1% + 1 Digit). To use this accuracy description, take the following steps:1. Multiply the reading displayed on the meter by the Percent accuracy.2. Round the result to the same number of significant digits as the reading orginally had.3. Take the result of step 2 and add the Digit value in the least significant column.As an example, a meter that reads 0.505 and has a tolerance of -(3% + 2 Digits) actually has a tolerance of:0.505 * 0.03 = 0.01515  0.015 (after rounding)-(0.015 + .002) = -.O17 = 3.4% the actual value is between .483 and .517. Whatever the meter displays is a place of accuracy, even if the number displayed is Zero (e.g. a reading of 2.600 still has 4 places of accuracy, and a Digit value will be added in the thousandths column). It is always good lab practice to use the most accurate meter scale when making a measurement. Measuring a 10 Volt signal on the 20 Volt scale will be more accurate than measuring it on the 200 Voltscale.Division Tolerances. Assuming the tolerances are less than a few percent,V - V’ V V’ I’ V------ = --- - (--- + ---)---I - I’ I V I Iwhere V' and 1' are the tolerances on the original measurement and V’ I’ V (--- + ---)--- V I Iis the tolerance on V/I.Equipment:Digital Multimeter (DMM)DC Power SupplyResistor, 2200 -, 4700 -, 6800 -, 5%- 2 -Procedure1. Individual resistors.1.1 Nominal Resistance. Use the color code chart to select three 5% resistor with nominal values of 2200 ohms, 4700 ohms, and 6800 ohms. Calculate the resistor'stolerance (5%) and minimum and maximum resistance, and record in Table 1.TABLE 1: Nominal ResistanceAll Resistances in OhmsNominal  Minimum Maximum2200 Ohms 110 Ohms 2090 Ohms4700 Ohms6800 Ohms1.2 Ohmmeter Measurements. Measure each of these 3 resistors using the DMM as an ohmmeter. Record these resistance measurements in Table 2. Calculate the meter's tolerance for this measurement by following the example shown in DMM Accuracy above. Record the result in Table 2. Calculate the minimum and maximum circuit resistance for these ohmmeter measurements and record in Table 2.TABLE 2: Measured ResistanceAll Resistances in OhmsMeter (Measured)Minimum Maximum2200 ( )4700 ( )6800 ( )1.3 Resistance using Ohm’s Law. Set up the DMM as a voltmeter. Turn on the power supply and adjust the output to 10 volts, dc. Measure the output with the DMM and record this voltage in Table 3. Calculate the meter's tolerance for this voltage and record in Table 3. TABLE 3: Resistance by Ohm’s LawVoltage -V Current-mA Resistance - ohmsMeter  Meter  V/I  Min. Max.- 3 -1.4 Connect the circuit in Figure 1 for each resistor using the DMM as the ammeter (AM). Record the current in Table 3. Calculate the meter's tolerance for this current measurement and record in Table 3. From these voltage and current measurements and their tolerances, calculate the circuit's resistance as V/I. Also, using the formula from Division Tolerances, calculate the tolerance on this calculated resistance and the minimum and maximum circuit resistance for these meter readings and record in Table 3.FIGURE 1. Current Measurement2. Series Resistance Circuit2.1 Connect the circuit in Figure 2.FIGURE 2: Series Resistors2.2 From the color code on the resistors, calculate the circuit's nominal equivalent resistance, Req. Also calculate its tolerance at (5%), minimum and maximum circuit resistance and record in Table 4.TABLE 4: Series ResistanceAll Resistances in OhmsNominal - Req  Minimum MaximumMeasured - Req  Minimum Maximum- 4 -2.3 Measure the circuit's equivalent resistance using the DMM as an ohmmeter. Record this resistance measurement in Table 4. Calculate the meter's tolerance for this measurement and record in Table 4. Calculate the minimum and maximum circuit resistance for this ohmmeter measurements and record in Table 4.2.4 Using the DMM as a voltmeter, adjust the DC power supply to approximately 10 volts, measure the output and record this voltage in Table 5. Calculate the meter's tolerance for this voltage and record in Table 5. 2.5 Connect the circuit in Figure 1, BUT substitute the series circuit in Figure 2 for R.Use the DMM as the ammeter. Record the current in Table 5. Calculate the meter's tolerance for this current measurement and record in Table 5. From these voltage and current measurements and their tolerances, calculate the circuit's resistance, the tolerance on this calculated resistance, and the minimum and maximum circuit resistance for these


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