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0-12V DC POWER SUPPLY KIT
To use the o-12 VDC variable power supply trainer, first turn the part P1 to the 0V setting. Now connect the output leads, observing polarity, to the item to be powered with a Voltmeter across the output leads, which are already connected to the item to be powered, slowly increase the voltage by adjusting p1 until the correct operation voltage is indicated on the voltmeter. The voltmeter can be disconnected as long as you do not change the setting of P1. The power supply will stay on the correct voltage each time you use it to the power that item. If you want to power a different item, repeat the above process.
CONSTANT AND VARIABLE CURRENT REGULATORS IC BASED
Objectives of this experiment:
To construct constant current regulator and variable current regulator and measure the load current and calculate % of regulation.
Built in regulated power supply 0 + 15V/300mA; -15V/300mA
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
D.C. - D.C. CONVERTER
Objectives of this experiment:
To convert DC into AC, to convert positive voltage to AC, negative voltage to AC voltage & step up mode.
Built in regulated power supply: + (1.2V-15)V/300mA
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
D.C.-A.C. INVERTER
Objectives of this experiment:
To convert DC into AC, to convert positive voltage to AC, negative voltage to AC step up mode.
Built in regulated power supply: + (1.2V-15)V/300mA
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
HALF-WAVE, FULL WAVE & BRIDGE RECTIFIERS & FILTER CIRCUITS
Objectives of this experiment:
1. To determine the characteristics of HALF-WAVE RECTIFIER.
2. To determine the characteristics of FULL-WAVE RECTIFIER.
3. To determine the characteristics of a BRIDGE RECTIFIER.
4. To investigate how the size of the filter capacitor affects the ripple amplitude and the output voltage.
5. To demonstrate the operation of a full-wave voltage doubler. An unregulated power supply consists of a rectifier and a filter. This is used in applications where the DC voltage is not critical, in respect of regulation and ripple contents, like radio receivers, audio amplifiers, etc.
Built in power supply: (15-0-15)VAC/300mA
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
HIGH VOLTAGE REGULATED POWER SUPPLY USING IC 723
Objectives of this experiment:
1. To construct a high voltage power supply (7-28), using IC-723 regulator.
2. To determine load regulation.
3. To observe and measure ripple factor.
4. To demonstrate the principles of short circuit protection.
Built in unregulated power supply +35V DC
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
IC REGULATED POWER SUPPLIES (POSITIVE & NEGATIVE VOLTAGE TYPES)
Objectives of this experiment:
1. To investigate the operation and characteristics of the fixed positive and negative voltage regulator, using IC-regulator.
2. In these experiments, you will use modern voltage regulators. You will be surprised to find little or no ripple present on the output; which is a real advantage of voltage regulators. They can compensate for poorly filtered power supplies.
Built in power supply: (15-0-15) VAC/300mA
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
LOW VOLTAGE REGULATED POWER SUPPLY USING IC 723 & FOLD BACK CURRENT LIMITING REGULATOR.
1. To construct a low voltage regulated power supply (2-7V), using an IC-723 regulator.
2. To observe & measure ripple factor.
3. To calculate load regulation.
4. To demonstrate the principles of short -circuit protection.
Built in unregulated power supply: + 15V DC
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
SERIES TYPE DC VOLTAGE REGULATOR
To verify that this regulator maintains constant output voltage despite variations in input load.
Built in power supply: (0- 18) VAC/1A
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
SHUNT TYPE DC VOLTAGE REGULATOR
1. To demonstrate the operation of shunt type DC voltage regulation.
2. To study how the zener diode (which acts as bias reference for the regulator) regulates the output.
3. To demonstrate that in spite of load variation (provided) the voltage remains constant.
Built in power supply: (15-0-15) VAC/1 A
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
STABILIZED POWER SUPPLY, USING ZENER DIODE & EMITTER- FOLLOWER PASS TRANSISTOR
Objectives of this experiment:-
1. To investigate the operation of a zener diode, as a shunt regulator. This is useful in low-current applications.
2. To demonstrate the operation of an emitter-follower regulator, In conjunction with zener diode. This type is useful in fixed voltage and higher current applications.
Built in power supply: (0-12) VAC/300mA
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
SWITCH-MODE POWER SUPPLY (SMPS)
1. To construct & demonstrate a switch mode power supply and verify step-up; step down; inverse mode.
2. To determine load regulation.
3. To observe the waveform and frequency of switching circuit.
Built in regulated power supply: +(1.2V to 12V) DC/300mA
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
VARIABLE TRANSISTORIZED REGULATED POWER SUPPLY WITH SHORT-CIRCUIT PROTECTION
Objectives of this experiment:
Study the % of regulation. The output voltage varies from 4V-12V
% Regulation = No load - Full load / No load x 100
Built in power supply: (0 - 18) VAC/300mA
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
VARIABLE VOLTAGE IC-REGULATOR
1. To demonstrate the operation of an adjustable voltage regulator, using LM 317 IC.
2. To demonstrate how ripple can be reduced considerably.
Built in regulated power supply: +15V/150mA.
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
VARIABLE VOLTAGE, CURRENT LIMITING IC-REGULATOR
Objectives of this experiment:
To construct variable voltage regulator under different load with current limiting. i) To check the output current. ii) Load regulation. iii) Input regulation.
Built in power supply: (0-40) V
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
VOLTAGE MULTIPLIERS (DOUBLER, TRIPLER & QUADRUPLER)
Objectives of this experiment:
This experiment is to construct voltage doubler, tripler, quadrupler, using diodes, resistors and capacitors.
Built in power supply (6-0-6) VAC/300mA
Input Supply: 230 VAC/50Hz mains operated.
Dimension: 27cms x 17cms x 10cms.
Weight: 500gms
