Design a fillter with the following characteristics: Band-pass filter: Lower corner frequency fa=200 Hz, upper corner...
Fantastic news! We've Found the answer you've been seeking!
Question:
Transcribed Image Text:
Design a fillter with the following characteristics: Band-pass filter: Lower corner frequency fa=200 Hz, upper corner frequency fcH=2000 Hz, roll-off slope &±20 dB/ dec. passband gain 0 dB. When an input voltage with an amplitude of 1.5 V is applied to any filter, supplies a current no greater than 5 mA. 1.The filter you are designing for this project are to be used to process audio signals, which have a bandwidth from 20Hz to 20kHz. 2. For the filters, use only ONE op-amp in your design. 3. Use standard resistors, capacitors, inductors, and potentiometers in your design. The standard component values available are provided at the end of this document. 4. Use ± 15 V for + VCC. Design Procedures 1.Start the design by sketching the desired magnitude Bode plots for the three filters based on the given specifications. With the magnitude Bode plots, determine the corresponding transfer function H (s). Provide the Bode plots and the transfer functions below HBP (s)=¿ ¿ R1 C1 C2 www R2 With the circuit above, determine the component values in each circuit. With the components you pick, the circuits should have the desired H(s) and meet the requirement on the input current. Design a fillter with the following characteristics: Band-pass filter: Lower corner frequency fa=200 Hz, upper corner frequency fcH=2000 Hz, roll-off slope &±20 dB/ dec. passband gain 0 dB. When an input voltage with an amplitude of 1.5 V is applied to any filter, supplies a current no greater than 5 mA. 1.The filter you are designing for this project are to be used to process audio signals, which have a bandwidth from 20Hz to 20kHz. 2. For the filters, use only ONE op-amp in your design. 3. Use standard resistors, capacitors, inductors, and potentiometers in your design. The standard component values available are provided at the end of this document. 4. Use ± 15 V for + VCC. Design Procedures 1.Start the design by sketching the desired magnitude Bode plots for the three filters based on the given specifications. With the magnitude Bode plots, determine the corresponding transfer function H (s). Provide the Bode plots and the transfer functions below HBP (s)=¿ ¿ R1 C1 C2 www R2 With the circuit above, determine the component values in each circuit. With the components you pick, the circuits should have the desired H(s) and meet the requirement on the input current.
Expert Answer:
Answer rating: 100% (QA)
To design a filter with the following characteristics Bandpass filter Lower corner frequency fCL 200 ... View the full answer
Posted Date:
Students also viewed these chemical engineering questions
-
Carrie and Zachary, loan officers at OWell Fargo Bank, compare the interest rates for 48-month fixed-rate auto loans and 48-month variable-rate auto loans. They select two independent random samples...
-
Managing Scope Changes Case Study Scope changes on a project can occur regardless of how well the project is planned or executed. Scope changes can be the result of something that was omitted during...
-
Planning is one of the most important management functions in any business. A front office managers first step in planning should involve determine the departments goals. Planning also includes...
-
Not long ago, a conflict between a paper company and a coalition of environmental groups arose over the potential use of a Maine river for hydroelectric power generation. As one aspect of its case...
-
Distinguish among cost centers, profit centers, and investment centers.
-
The specific rotation of (S)-2-iodobutane is +15.90o. (a) Draw the structure of (S)-2-iodobutane. (b) Predict the specific rotation of (R)-2-iodobutane. (c) Determine the percentage composition of a...
-
Some corporate executives have reportedly attempted to manage their firms operating expenses through such actions as front-end loading or rear-end loading of their operating expenses. Explain the...
-
Refer to the data in Exercise 6-31. Compute the individual product costs per unit assuming that Tiger Furnishings uses direct labor costs to allocate overhead to the products.
-
Research the As , Bs , Cs , and Ds categories of Fintech players in today's digital era. Using that information: Define each player category, giving an example of a key company / institution in each...
-
David R. and Ella M. Cole (ages 39 and 38, respectively) are husband and wife who live at 1820 Elk Avenue, Denver, CO 80202. David is a self-employed consultant, specializing in retail management and...
-
Use the following information to answer the questions Property: Purchase Price $3,000,000 Holding period (years) 5 Property Appreciation Rate, % per year: 2.8% Selling Expenses in year 4: 7%...
-
Explain the importance and application of Peng-Robinson equation of state.
-
What is compressibility factor? Explain its necessity for showing the deviation from ideal gas behaviour for real gases.
-
Name some proposed model equations of state for real gases.
-
Write a short note on superheated vapour.
-
\(3 \mathrm{~kg}\) of air at \(45^{\circ} \mathrm{C}\) expands reversibly and adiabatically to 4 times its original volume. The initial pressure of the air mass was \(9 \mathrm{~atm}\). Determine the...
-
"Thirteen Ways of Looking at Henrietta Lacks" from Jack Lantos. From this four points explain why you agree or disagree with each point. The Only Thing Moving Can we judge the past by standards of...
-
An example of prescriptive analytics is when an action is recommended based on previously observed actions. For example, an analysis might help determine procedures to follow when new accounts are...
-
The diagram below represents the lubrication system of a machine; the lubricant flows from a source area at node 1 , through components \(2-6\), which require lubrication, and collects at node 7 ....
-
The graph of Exercise 15 of Section 1.2 modeling a forced-air heat distribution system is displayed again below, with one additional edge. This time we suppose the fully connected system exists and...
-
Let the intermediate nodes on the graph of Exercise 1 represent switching locations at a busy train station located at node 5 , to which trains are arriving from node 1. The edge capacities represent...
Study smarter with the SolutionInn App