Assemble The Circuit Of Figure 1 In Tinkercad The Output Of The Opamp Should Model The Following Equation Y 4x 2 Adder 1 (36.14 KiB) Viewed 18 times
Assemble The Circuit Of Figure 1 In Tinkercad The Output Of The Opamp Should Model The Following Equation Y 4x 2 Adder 2 (17.57 KiB) Viewed 18 times
Assemble The Circuit Of Figure 1 In Tinkercad The Output Of The Opamp Should Model The Following Equation Y 4x 2 Adder 3 (20.07 KiB) Viewed 18 times
Assemble the circuit of Figure 1 in Tinkercad the output of the OPAMP should model the following equation Y 4X-2 (Adder. Subtracter) Criteria for Design: V1= is the load Voltage RL V2 = is variable Bias of the Operational Amplifier V+ = +15V and V-=15V. V3, R3, R4, R5, RL at the discretion of the designer R1, R2, RF1, RF2. RX (if necessary), all these resistances are at the discretion of the designer, looking for the values that meet the expected output from the given equation The entire circuit operates with direct current (DC Voltage). For the output of the OPAMP they will have a margin of error between +-0.8. Example: Y = 4X-2, x=2 then Y = 6 Vout=4V2-2, if V2 = 2 then Vout= 5V. However, the result can be between 6.8 and 5.2. ww RF1 RS RI op-amp AW R2 RF2 Figure 1. Adder - Subtracter circuit.
They must fill in the following table of results for the different values of V2: 1 2 3 05 15 25 35 4 V2 Vout Note: Check presentation that is uploaded in Moodle, note that the equation that they asked us for that practice was an addition, in this case we need to operate as a subtraction, that is, how the adder-subtracter normally works
General equation Adder Subtracter Y=#x - # They ask us Y=2X+1.5 ....... Vout= 2V2 + V1 RF2 RF1 10K
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