Showing 33–48 of 164 results
PEDE-155 AUTOMATIC VOLTAGE REGULATOR (STABILIZER)
PEDE-155
TECHNICAL SPECIFICATION : INPUT VOLTAGE: 160V-250V AC WITH OVERLOAD PROTECTION OUTPUT VOLTAGE: 220VAC+8% DIGITAL DISPLAY OF OUTPUT LOAD CURRENT:1KVA
PEDE-193 THYRISTOR CHARACTERISTICS TRAINER
PEDE-193
PEDE-193 THYRISTOR CHARACTERISTICS TRAINER
SCOPE OF LEARNING:
Diac Characteristics
TRIAC Characteristics
SCR Characteristics
UJT Characteristics
Power Diode
Power Transistor
MCT Characteristics
FET Characteristics
Mosfet Characteristics
IGBT Characteristics
PEDE-196 COSINE FIRING TECHNIQUE CIRCUIT TRAINER
PEDE-196
PEDE-196 COSINE FIRING TECHNIQUE CIRCUIT TRAINER
SCOPE OF LEARNING:
COSINE FIRING TECHNIQUE
PEDE-199 SCR THREE PHASE HALF CONTROLLED BRIDGE CONVERTER TRAINER
PEDE-199
PEDE-199 SCR THREE PHASE HALF CONTROLLED BRIDGE CONVERTER TRAINER
SCOPE OF LEARNING:
SCR Three Phase Half Controlled Bridge Converters Using Firing Techniques with R Load.
PEDE-200 SCR THREE PHASE HALF-FULL CONTROLLED BRIDGE CONVERTER TRAINER
PEDE-200
PEDE-200 SCR THREE PHASE HALF-FULL CONTROLLED BRIDGE CONVERTER TRAINER
Experiment:
SCR Three Phase Half-Full Controlled Bridge Converters Using Firing Techniques with R Load.
PEDE-208 SCR SINGLE AND THREE PHASE HALF-FULL CONTROLLED BRIDGE CONVERTER
PEDE-208
PEDE-208 SCR SINGLE AND THREE PHASE HALF-FULL CONTROLLED BRIDGE CONVERTER
SCOPE OF LEARNING:
SCR Single and Three Phase Half-Full Controlled Bridge Converters Using Firing Techniques with R Load.
PEDE-269 CIRCUIT BREAKER USING SCR
PEDE-269
PEDE-269 CIRCUIT BREAKER USING SCR
SCOPE OF LEARNING:
CIRCUIT BREAKER USING SCR
PEDE-272 SINGLE PHASE SERIES INVERTER USING SCR
PEDE-272
PEDE-272 SINGLE PHASE SERIES INVERTER USING SCR
SCOPE OF LEARNING:
Single Phase Series Inverter Using Scar
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