Showing 17–32 of 61 results
PEDE-273 BATTERY CHARGING TECHNIQUE USING SCR
PEDE-273
PEDE-273 BATTERY CHARGING TECHNIQUE USING SCR
Experiment:
Battery Charging Technique Using SCR
PEDE-274 ZERO VOLTAGE SWITCHING USING SCR
PEDE-274
TECHNICAL SPECIFICATIONS: Power Supplies: Isolated AC Power Supply 0-15V, 250Ma Operated on Mains power 230V, 50Hz +10% Components are mounted on the panels are: Diode 1N4007 Transistor SL100 Load Resistor SCR TYN604 Capacitors and Resistors SALIENT FEATURES: Fuse for Short Circuit protection Front panel built with high class insulated Printed
PEDE-306 SINGLE PHASE HALF WAVE UNCONTROLLED RECTIFIER TRAINER
PEDE-306
TECHNICAL SPECIFICATIONS: Power Supplies: Isolated Supply 0-220V/110V/24V AT 1A. Operated on Mains power 230V, 50Hz +10% Digital Meters: Voltmeter 2000V AC Voltmeter 2000V DC Ammeter 2A DC Components are mounted on the panels are: POWER DIODE (2Nos.) LOAD: Rheostat as Resistive Load SALIENT FEATURES: Front panel built with high class
PEDE-307 SINGLE PHASE HALF-FULL WAVE UNCONTROLLED RECTIFIER TRAINER
PEDE-307
TECHNICAL SPECIFICATIONS: Power Supplies: Isolated Supply 0-220V/110VAT 2A. Operated on Mains power 230V, 50Hz +10% Digital Meters: Voltmeter 2000V AC Voltmeter 2000V DC Ammeter 2A DC Components are mounted on the panels are: POWER DIODE (4Nos.) LOAD: Rheostat as Resistive Load SALIENT FEATURES: Front panel built with high class insulated
PEDE-310 THREE PHASE HALF WAVE UNCONTROLLED RECTIFIER TRAINER
PEDE-310
TECHNICAL SPECIFICATIONS: Power Supplies: Isolated Supply 0-440V/110V AT 1A. Operated on Mains power 440V, 50Hz +10% Digital Meters: Voltmeter 2000V AC Voltmeter 2000V DC Ammeter 2A DC Components are mounted on the panels are: POWER DIODE (3Nos.) LOAD: Rheostat as Resistive Load SALIENT FEATURES: Front panel built with high class
PEDE-313 THREE PHASE HALF-FULL WAVE UNCONTROLLED RECTIFIER TRAINER
PEDE-313
PEDE-273 BATTERY CHARGING TECHNIQUE USING SCR
Experiment:
Battery Charging Technique Using SCR
PEDE-353 SCR COMMUTATION TECHNIQUES (CLASS A,B,C,D AND E)
PEDE-353
PEDE-353 SCR COMMUTATION TECHNIQUES (CLASS A,B,C,D AND E)
SCOPE OF LEARNING:
Experiment:
Commutation Techniques of SCR
PEDE-393A POWER ELECTRONICS TRAINER (PET-V2)
PEDE-393A
PEDE-393A POWER ELECTRONICS TRAINER (PET-V2)
SCOPE OF LEARNING:
To study the characteristics of SCR and plot it’s V-I Characteristics.
To study the Gate control characteristics of SCR and It's graph.
To study the characteristics of UJT
To study the characteristics of MOSFET.
To study the characteristics of IGBT.
To study the characteristics of DIAC and plot it’s
PEDE-393B POWER ELECTRONICS TRAINER
PEDE-393B
TECHNICAL SPECIFICATIONS Digital Meters: Voltmeter/Ammeter Dual Range 20V/20mA Ammeter Dual Range: 20mA/200mA Voltmeter Dual Range: 20V/200V DC Power Supply on Board: ± 12V at 250mA 0-15V at 250Ma 0-30V at 250mA AC Power Supply on Board : 15V – 0V – 15V at 250mA Power Devices: MOSFET-IRF540 UJT-2N2646 DIAC-DB3 TRIAC-BT136
PEDE-393D POWER ELECTRONICS TRAINER 6 APPL.
PEDE-393D
PEDE-273 BATTERY CHARGING TECHNIQUE USING SCR
Experiment:
Battery Charging Technique Using SCR
PEDE-393E POWER ELECTRONICS TRAINER (WITH 6 ON BOARD APPLICATIONS)
PEDE-393E
PEDE-393E POWER ELECTRONICS TRAINER (WITH 6 ON BOARD APPLICATIONS)
SCOPE OF LEARNING:
To study the Characteristics of Thyristor ( SCR, DIAC, TRIAC, UJT, MOSFET and FET)
To study the SCR based Alarm circuit
To study SCR as Lamp Flasher
To study UJT Relaxation Oscillator and Series Inverter
To study PWM Controlled MOSFET Inverter
PEDE-400 STEP DOWN CHOPPER
PEDE-400
PEDE-400 STEP DOWN CHOPPER
Experiment:
Step Down Chopper Using PWM Techniques.
PEDE-401A STEP UP CHOPPER (IGBT BASED)
PEDE-401A
PEDE-401A STEP UP CHOPPER (IGBT BASED)
SCOPE OF LEARNING:
Step Up Chopper IGBT Based Using PWM Techniques.
PEDE-403 SINGLE PHASE CYCLOCONVERTER TRAINER
PEDE-403
PEDE-403 SINGLE PHASE CYCLOCONVERTER TRAINER
SCOPE OF LEARNING:
Study of Single Phase Cycloconverter
PEDE-448 STEPPER MOTOR CONTROL TRAINER (Controller BASED)
PEDE-448
PEDE-448 STEPPER MOTOR CONTROL TRAINER (Controller BASED)
SCOPE OF LEARNING:
Study of Speed Control of Stepper Motor by Interfacing u Controller
Fast & slow by assembly language programming
Forward & reverse by assembly language programming
Free run & step by assembly language programming