RLC series and parallel Resonance trainer (Model: NT-01)

Objectives:

To verify that at resonance the current is maximum and is determined by the resistance of the Series Resonance.
? To verify that at resonance the current is minimum and is determined by the resistance of Parallel Resonance.

Specifications:

This consists of two types of networks with separate RLC components are given on board.

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity .

Set of 2mm Patch chords and user manual is accompanied with this kit.

Optional items required:
Dual trace CRO DC-30MHz.

Measurement of impedance for RL /Rl/RLC (Model: NT-02)

Objectives:
To study and Measure Impedance of RC/RL/RLC circuits.

Specifications:

Built in AC 0-10V power supply and square wave generator with variable amplitude 0-5V they are three different circuit designed for RC/RL/RLC .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.

All testing points are Provision with 2mm socket for proper connectivity Set of 2mm Patch chords and user manual is accompanied with this kit

Optional items required:

Dual trace CRO DC-30MHz.

Measurement Transient Response of RL /Rl/RLC (Model: NT-02A)

Objectives:
To study and Measure Transient Response of RC/RL/RLC circuits.

Specifications:
Built in AC 0-10V power supply and square wave generator with variable amplitude 0-5V they are three different circuit designed for RC/RL/RLC .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.

All testing points are Provision with 2mm socket for proper connectivity

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Dual trace CRO DC-30MHz.

Two port network trainer (Model: NT-03)

Objectives:
To verify Two port networks.

Specifications:
This unit consists of a variable power supply of 0-12V@250mA fixed DC supply 12V@250mA. The circuit designed with Resistive network .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity.

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Voltmeter/Ammeters.

Kirchhoff’s Laws trainer (Model: NT-11)

Objectives:
To construct and verify the Kirchhoff’s Voltage and current Laws using resistor network with Voltage and current sources.

Specifications:
Built in Variable voltage supply of 0 to 20V .

Different values of resistors are provided to observe different outputs .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity .
li>Set of 2mm Patch chords and user manual is accompanied with this kit .
Optional items required:
Voltmeter/Ammeter.

Attenuator circuit RC network trainer (Model: NT-12)

Objectives:
To study and verify the attenuation for Network.

Specifications:
Attenuation circuit is provided on board with different resistance. Different values of resistors provided to observe different outputs.

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity.

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Signal generator/Dual trace Cathode Ray Oscilloscope.

Frequency Response of LP and HP filters trainer (Model: NT-07)

Objectives:

To study and observe the LPF/HPF filter frequency Response.

Specifications:
this circuit consists of RC network with different values of Components are provided on the board.

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity.

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:

Signal generator/Dual trace Cathode Ray Oscilloscope .

Generation of Non-Linear Periodic wave form trainer (Model: NT-08)

Objectives:
To observe the reference voltage is used to control the clipping and clamping levels of output of the given input wave.

Specifications:
Built in power supply +12V & -12V@ 250Ma Sine wave generator with variable amplitude .

This circuit consists of DC source 0 to -3V, +3V .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity.

Set of 2mm Patch chords and user manual is accompanied with this kit..
Optional items required:
Dual trace Cathode Ray Oscilloscope. .

Band Pass and Band Stop Filters trainer (Model: NT-24)

Objectives:
To study and observe the frequency/Time Response of Band pass & Band stop Filters.

Specifications:
This unit consists of two different types of filters Band pass and Band stop circuits are given on the board .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity.

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Signal generator/Dual trace Cathode Ray Oscilloscope.

Super position theorem & Max. Power transfer theorem trainer (Model: NT-10)

Objectives:
To verify super position theorem and to demonstrate that maximum power is obtained from a power source when the resistance of the load is equal to the internal resistance of the power source, by drawing the maximum power transfer curve.

Specifications:
Built in fixed power supply of +5V@250mA.Built in variable power supply of 0-12V@250mA .

Super position and maximum power transfer circuits are in one board.

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity.

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Voltmeter/Ammeter.

Super position & Max. Power transfer theorem trainer (Model: NT-10M)

Objectives:
To verify super position theorem and to demonstrate that maximum power is obtained from a power source when the resistance of the load is equal to the internal resistance of the power source, by drawing the maximum power transfer curve.

Specifications:
Built in fixed power supply of +5V@250mA.Built in variable power supply of 0-12V@250mA .

Built inVoltneter @20V ,Ammter @200mA -2nos.

Super position and maximum power transfer circuits are in one board .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity.

Set of 2mm Patch chords and user manual is accompanied with this kit.

Verification of super position theorem and Reciprocity theorems trainer (Model: NT-04)

Objectives:
To study the Super position and Reciprocity theorems.

Specifications:
This circuit consists of a variable power supply of 0-15V@250mA. .

Fixed DC supply 15V@250mA. The circuit designed with Resistive network.

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity .

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Voltmeter-/Ammeters.

Verification of super position theorem and Reciprocity theorems trainer (Model: NT-04M)

Objectives:
To study the Super position and Reciprocity theorems.

Specifications:
This circuit consists of a variable power supply of 0-15V@250mA .

Fixed DC supply 15V@250mA. .

Built with Ammter 0-200ma -2 nos Voltmeter 0-20V .

The circuit designed with Resistive network. .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity .

Set of 2mm Patch chords and user manual is accompanied with this kit..

Verification of Max. Power Transfer theorem trainer (Model: NT-05)

Objectives:
To verify the Maximum power transfer theorem.

Specifications:
Built in variable power supply of 0-20V@250mA, .

The circuit is designed with Resistive network. .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity .

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Voltmeter-2no’s/Ammeters-1no.

The venin’s and Norton’s theorems trainer (Model: NT-06)

b>Objectives:
To verify the Thevenin’s and Norton’s Theorems.

Specifications:
Built in variable power supply of 0-20V@250mA@ fixed DC 15V.

The circuit designed with Resistive network .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity .

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Voltmeter/Ammeters.

Thevenin’s and Norton’s theorems trainer (Model: NT-06M)

Objectives:
To verify the Thevenin’s and Norton’s Theorems.

Specifications:
Built in variable power supply of 0-20V@250mA@ fixed DC 15V.

Built in Votmeters @20V and Ammters with 200mA .

The circuit designed with Resistive network .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.

All testing points are Provision with 2mm socket for proper connectivity .

Set of 2mm Patch chords and user manual is accompanied with this kit .

Milliman’s & Compensation Theorems trainer (Model: NT-09)

Objectives:
To verify the Milliman’s & Compensation Theorem.

Specifications:
Built in variable power supply of 0-20V, 0-20V, and 0-20V @250mA. .

The circuit designed with Resistive network each theorem consists of two networks i.e. Linear and Equivalent circuits. .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity .

Set of 2mm Patch chords and user manual is accompanied with this kit .
Optional items required:
Voltmeter/Ammeter.

Tellegen’s Theorem Demonstrator trainer (Model: NT-23)

Objectives:
To study and verify the Tellegen’s Theorem.

Specifications:
Built in variable power supply 0-20V@250mA .

Tellegen’s circuit is given on the board .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity.

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Digital multimeter.

Network theorem Demonstrator trainer (Model: NT-22M)

Objectives:
To study and verify the Norton’s/Thevenin’s/Super position/ Maximum power transfer/ Reciprocity/ Linear networks/equivalent.

Specifications:
Built in Two variable power supply of 0-15V@250mA.

All theorems circuits are given on the board with two digital panel meters.

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.

All testing points are Provision with 2mm socket for proper connectivity .

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Digital multimeter.

Maxwell’s Bridge Trainer (Model: NT-14)

Objectives:
To measure the unknown value of inductor for low ‘Q’ coils.

Specifications:
The unit consists of power supply Built in AF Oscillator with 1 KHz frequency and speaker with AF Detector outputs.

Different values of Inductors to observe different outputs.

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines .

All testing points are Provision with 2mm socket for proper connectivity.

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Digital multimeter / Oscilloscope..

Sensitivity of Galvanometer trainer (Model: NT-25)

Objectives:
To find Sensitivity of Galvanometer.

Specifications:
This unit consists of DC Variable voltage 0-5V .

Built in galvanometer the circuit is given on the board.

The Circuit layout is designed on FR-4 type Glass Epoxy PCB with masked copper track lines.

All testing points are Provision with 2mm socket for proper connectivity.

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Digital multimeter.

LCB Bridges Model No NT-27)

Objectives:
To determine the unknown values of Inductance L,C,R .

Specifications:
The unit consists of power supply +12V ,5V @300mA.

Built in AF Oscillator with 1KHzfrequency.

Built in speaker and detector outputs. Different values of InductanceResistance and Capacitance .

The Circuit layout is designed on FR-4 type Glass Epoxy PCB With masked copper track lines.

All testing points are Provision with 2mm socket for proper connectivity .

Set of 2mm Patch chords and user manual is accompanied with this kit.
Optional items required:
Digital multimeter / Oscilloscope.