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Network Theorems Trainer SB-929
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Product Category : Electrical Network Circuits and Bridges Lab Trainer (Series : 600)Product Name : Network Theorem Trainer (Thevenin, Norton, Millman, Superposition, Reciprocity, Maximum Power Transfer Theorem)Model No. : SB-929Product Details : This has Built-In DC +12V/500mA variable Power supply, Separate module of all theorems. Facility to change the Resistors components bank, Input voltage and current source, load resistor. Thevenin's theorem uses resistive network of six fixed resistors and variable 10K load resistor wired as to verify the Thevenin's theorem for the applied variable DC input voltage source to a resistive circuit, facility to select resistors bank, facility to set an equivalent Thevenins Network using variable voltage source VTH source and variable RTH for a given selected network and load. Norton's theorem uses resistive network of eight fixed resistors and variable 10K load resistor wired as to verify the Norton's theorem for the applied variable DC input voltage source to a resistive circuit, facility to select resistors bank, facility to set an equivalent Norton's Network using variable current source IN source and variable RTH for a given selected network and load. Millman's theorem uses resistive network of fixed resistors and 10K load resistor wired as to verify the Millman's theorem for the applied variable two DC input voltage sources to a resistive circuit and to determine the Millman's Voltage and Current through load. Superposition Theorem- circuit uses resistive network of six fixed resistors connected with two variable DC input sources wired as to verify the Superposition theorem for the applied variable DC input voltage source to a resistive circuit. Reciprocity Theorem- the circuit uses resistive network of fixed resistors and load resistors connected with interchangeable variable DC input sources wired as to verify the Reciprocity theorem for the applied variable DC input voltage source to a resistive circuit. Maximum Power Transfer- circuit uses resistive network of four fixed resistors and variable 10K load resistor wired as to verify the Maximum Power Transfer theorem for the applied variable DC I/P voltage source to a resistive circuit. Objectives : To study the Thevenin’s Theorem. To Determine VTH & RTH for the different Values of Vi. To study the Norton’s Theorem. To Determine the Value of Norton's current IN & Norton's Resistors RTH for the different Values of Vi To study the Millman's Theorem. To Determine the Value of Millman's Voltage V' & Millman's Resistance R' and current through load RL for the applied inputs. To study the Superposition Theorem. To Determine the Value of Current & Voltage across R2 for the different values of V1 & V2. To study the Reciprocity Theorem. To Determine the Current & Voltage through RL for the different values of Vi To study the Maximum Power Transfer Theorem. To Determine value of current, voltage, source impedance & Power delivered to resistive load for the different Values of applied DC input Vi. Accessories Included : Set of Patch Cords, Operating Manual In Built Digital Meters options are also available on demand.
