| 1 |
Power
Electronics Trainer |
POWER100 |
| 2 |
Power
Electronics Lab |
SET-400 |
| 3 |
Power
Electronics Characteristics Trainer |
PEDM100 |
| 4 |
Thyristor Application Trainer |
THY100 |
| 5 |
IGBT
Trainer |
IGBT100 |
| 6 |
IGBT
MOSFET Trainer |
IGBTMOS100 |
| 7 |
SCR Applications Trainer |
SCR100 |
| 8 |
Industrial Electronics Trainer |
IEDM100 |
| 9 |
Power Project Board |
PPBB100 |
| 10 |
Power Electronic Lab |
ST 2712 |
| |
Ready to Use Boards |
|
| 11 |
UJT
characteristics |
PE-01 |
| 12 |
MOSFET
characteristics |
PE-02 |
| 13 |
SCR
characteristics |
PE-03 |
| 14 |
TRIAC
characteristics |
PE-04 |
| 15 |
DIAC
characteristics |
PE-05 |
| 16 |
IGBT Characteristics |
PE-06 |
| 17 |
PUT Characteristics |
PE-07 |
| 18 |
SCR Triggering Circuits |
PE-10 |
| 19 |
SCR Triggering (using UJT) |
PE-11 |
| 20 |
SCR Triggering (Using IC555) |
PE-12 |
| 21 |
SCR Triggering (Using IC74121) |
PE-13 |
| 22 |
Ramp and Pedestal Triggering |
PE-14 |
| 23 |
SCR Triggering by Op-Amp 74
tIC |
PE-15 |
| 24 |
SCR Triggering by PUT |
PE-16 |
| 25 |
SCR Triggered by LDR |
PE-17 |
| 26 |
SCR Lamp Flasher |
PE-40 |
| 27 |
SCR Alarm Circuit |
PE-41 |
| 28 |
Series Inverter |
PE-42 |
| 29 |
UJT Relaxation Oscillator |
PE-43 |
| 30 |
Single Phase PWM Inverter |
PE-44 |
| 31 |
Power Supply for Power
Electronics Boards ( + 35V, +15V 250mA) |
PD-01 |
| |
Characteristics |
|
| 32 |
Characteristics
of DIAC |
THY01 |
| 33 |
Characteristics
of TRIAC |
THY02 |
| 34 |
Characteristics
of DIAC & TRIAC |
THY03 |
| 35 |
Characteristics
of SCR |
THY04 |
| 36 |
Characteristics
of PNPN Switch |
THY05 |
| 37 |
Characteristics
of Uni Junction Transistor (UJT) |
THY06 |
| 38 |
Characteristics
of Programmable UJT (PUT) |
THY07 |
| 39 |
Characteristics
of Photo-Transistor |
THY08 |
| 40 |
Characteristics
of MOSFET |
THY09 |
| 41 |
Characteristics of CSD MOSFET |
THY10 |
| 42 |
Characteristics of CSE MOSFET |
THY11 |
| 43 |
Characteristics
of Power MOSFET |
THY12 |
| 44 |
Characteristics of GTO |
THY13 |
| 45 |
Characteristics
of IGBT |
THY14 |
| 46 |
IGBT characteristics |
SG2701 |
| 47 |
Characteristics of SUS |
THY15 |
| 48 |
Characteristics of SUB |
THY16 |
| |
|
|
| |
Thyristor Triggering/Firing |
|
| 49 |
SCR triggering using R Circuit |
SCR00 |
| 50 |
SCR triggering using R-C
Circuit |
SCR01 |
| 51 |
SCR
triggering using LDR |
SCR02 |
| 52 |
SCR
triggering using IC TCA 785 |
SCR03 |
| 53 |
SCR Triggering by IC74121 |
SG2704 |
| 54 |
SCR
triggering using UJT relaxation oscillator |
SCR04 |
| 55 |
UJT
& Pulse transformer trigger circuit for SCR |
SCR05 |
| 56 |
PUT
trigger circuit for SCR |
SCR06 |
| 57 |
SCR Turn On methods |
SCR07 |
| 58 |
SCR Triggering Circuits |
SCR08 |
| 59 |
SCR Triggering Circcuit |
SG2702 |
| 60 |
SCR Triggering Techniques |
SG2703 |
| 61 |
Forced
Commutation of SCR |
SCR09 |
| 62 |
SCR
Class - A Commutation |
SCR09A |
| 63 |
SCR
Class - B Commutation |
SCR09B |
| 64 |
SCR
Class - C Commutation |
SCR09C |
| 65 |
SCR
Class - D Commutation |
SCR09D |
| 66 |
SCR
Class - E Commutation |
SCR09E |
| 67 |
SCR
Class - F Commutation |
SCR09F |
| 68 |
DV/DT
limitation of SCR |
SCR10 |
| 69 |
Firing circuit using
cosine-wave |
SCR11 |
| 70 |
Firing
circuit using Opamp and gates |
SCR12 |
| 71 |
Triggering of Triac Using Diac |
SCR13 |
| 72 |
Triac Triggering Using R-C
Circuit |
SCR14 |
| 73 |
Line Synchronous UJT Firing
Circuit |
SCR15 |
| 74 |
Single
Phase Digital Firing Circuit |
SCR16 |
| 75 |
Single
Phase Photo Device Firing Circuit |
SCR17 |
| 76 |
Study of R, RC, UJT triggering |
SCR18 |
| 77 |
UJT Trigger Circuit Using DIAC |
SCR19 |
| 78 |
Line Synchronous UJT firing
circuit |
SCR20 |
| 79 |
Triggering circuit of three
phase half controlled bridge converter |
SCR21 |
| 80 |
Triggering circuit of
three-phase fully controlled bridge converter |
SCR22 |
| 81 |
Triggering of SCR using 7421IC |
SCR23 |
| 82 |
Firing
circuit using Ramp Comparator |
SCR11 |
| 83 |
Phase Shift Pulse Generator
For Phase Angle |
FIRE100 |
| |
|
|
| |
Rectifiers |
|
| 84 |
Single Phase Half Wave
Rectifier Trainer |
RECT01 |
| 85 |
Single
Phase Full Wave Rectifier Trainer |
RECT02 |
| 86 |
Single
Phase Full Wave Bridge Rectifier Trainer |
RECT03 |
| 87 |
Three Phase Half Wave
Rectifier Trainer |
RECT04 |
| 88 |
Three Phase Full Wave Bridge
Rectifier Trainer (Polyphase) |
RECT05 |
| 89 |
Single Phase Half Wave
Controlled Rectifier Trainer |
RECT11 |
| 90 |
Single Phase Full Wave
Controlled Rectifier Trainer |
RECT12 |
| 91 |
Single Phase Controlled
Rectifier with Ramp comparator Firing scheme |
SG2708 |
| 92 |
Single Phase Half Control
Bridge (Semi Converter) Rectifier Trainer |
RECT13 |
| 93 |
Single
Phase Full Controlled Bridge Rectifier Trainer |
RECT14 |
| 94 |
Three Phase Half Wave Controlled Rectifier Trainer |
RECT15 |
| 95 |
Three Phase Full Wave Controlled Rectifier Trainer |
RECT16 |
| 96 |
Three Phase Half/Full Wave Controlled Rectifier Trainer |
RECT15-16 |
| 97 |
Three Phase Half Control Bridge (Semi Converter) Rect. Trainer |
RECT17 |
| 98 |
Three Phase Full Controlled Bridge Rectifier Trainer |
RECT18 |
| 99 |
Single Phase half wave
controlled symmetrical and Asymmetrical Bridge converter |
RECT19 |
| 100 |
Six Phase Half Wave Rectifier
Trainer |
RECT20 |
| 101 |
Three Phase Dual Converter
Rectifier Trainer |
RECT21 |
| 102 |
Single Phase Dual Converter
Rectifier Trainer |
RECT21A |
| 103 |
SCR Converters and Reactive
Loads |
RECT22 |
| 104 |
Single Phase Controlled
Rectifier With RAMP Comparator Firing Scheme |
RECT23 |
| 105 |
Single Phase Controlled
Rectifier With Cosine Firing Scheme |
RECT24 |
| 106 |
Single Phase controlled
Rectifier with cosine firing scheme |
SG2709 |
| 107 |
Single Phase Converter Firing
Techniques |
RECT25 |
| 108 |
Single Phase converter firing
techniques |
SG2710 |
| |
Power
Control: |
|
| 109 |
Over
voltage Crowbar protection using SCR |
PWR01 |
| 110 |
AC
and DC Power control Trainer |
PWR02 |
| 111 |
AC
Phase control (Power Control) using SCR |
PWR03 |
| 112 |
AC
Phase control using Diac and Triac |
PWR04 |
| 113 |
DC
Regulated Power Supply using SCR |
PWR05 |
| 114 |
AC
Regulated Power Supply using Triac |
PWR06 |
| 115 |
Battery
charger using SCR |
PWR07 |
| 116 |
Fan
regulator using Diac and Triac |
PWR08 |
| 117 |
Lamp
control (Dimmer) using Diac and Triac |
PWR09 |
| 118 |
Triac
AC Line switching |
PWR10 |
| 119 |
Illumination Control Using SCR |
PWR11 |
| 120 |
AC Phase control using Diac
and Triac and UJT |
PWR12 |
| 121 |
Study of regulator using Triac,
anti parallel Thyristor and Triac & Diac |
PWR13 |
| 122 |
Phase
Shift Control RC Base Using SCR & Triac |
PWR14 |
| 123 |
AC Phase Control Trainer |
PWR100 |
| 124 |
Study of Single Phase AC
controller with R load |
ACREG100 |
| 125 |
Study of Three Phase AC
controller with R load |
ACREG300 |
| 126 |
SMPS Trainer |
SMPS100N |
| 127 |
Buck converter Trainer |
BUCK100 |
| 128 |
Boost converter Trainer |
BST100 |
| 129 |
Buck- Boost converter Trainer |
BUCKBST100 |
| 130 |
Slip Power Recovery System |
SLIP100 |
| |
Inverters: |
|
| 131 |
Inverter
using Transistors |
INV01 |
| 132 |
Inverter
using Power MOSFET |
INV02 |
| 133 |
Pulse
Width modulated Inverter using transistor |
INV03 |
| 134 |
DC
to DC Converter |
INV04 |
| 135 |
Series
Inverter using SCR |
INV05 |
| 136 |
Series Inverter |
SG2707 |
| 137 |
Parallel
Inverter using SCR |
INV06 |
| 138 |
SCR Bridge Inverter |
INV07 |
| 139 |
Mc-Murray Half Bridge Inverter |
INV08 |
| 140 |
Single phase full bridge
inverter |
INV09 |
| 141 |
Single phase half bridge
inverter |
INV10 |
| 142 |
Single Phase Transistorized
Bridge Inverter Trainer |
INV11 |
| 143 |
Single phase Bridge Inverter
using IGBT |
INV12 |
| 144 |
DC to AC Inverter with Power
Supply |
INV12 |
| 145 |
Inverters and Converters
Trainer |
INV200 |
| 146 |
Study of 3 Phase Bridge
inverter |
INV300 |
| 147 |
Single-phase Voltage Source
Inverter |
INV100N |
| 148 |
Three-phase Voltage Source
Inverter |
INV300N |
| 149 |
Single
phase PWM Converter with Power Supply |
SPET422 |
| |
|
|
| |
Choppers And Cycloconverters |
|
| 150 |
Chopper
using SCR |
CHOP01 |
| 151 |
DC Chopper Trainer |
CHOP01 |
| 152 |
Morgan Chopper |
CHOP02 |
| 153 |
Jones Chopper |
CHOP03 |
| 154 |
Step-Up Chopper Trainer |
CHOP04 |
| 155 |
Step- down Chopper Trainer |
CHOP05 |
| 156 |
Step
down & Step up transistor chopper |
SPET448 |
| 157 |
MOSFET Chopper |
CHOP06 |
| 158 |
IGBT
Chopper |
CHOP07 |
| 159 |
Voltage commutated
thyristorised chopper |
CHOP08 |
| 160 |
Voltage commutated chopper
with 0.1 HP motor |
CHOP09M |
| 161 |
Current Commutated Thyristor
chopper |
CHOP10 |
| 162 |
Series commutated
thyristorised chopper |
CHOP09 |
| 163 |
DC to DC Chopper using Triac
Trainer |
CHOP11 |
| 164 |
4-Quaderent Chopper |
CHOP12 |
| 165 |
Step up & down DC to DC
Converter using SCR |
CHOP13 |
| 166 |
Trainer kit for Chopper drive |
CHOP100 |
| 167 |
Single Phase to Single Phase
Cycloconverter Trainer |
CYCLO100 |
| 168 |
Three Phase Cycloconverter
Trainer |
CYCLO300 |
| 169 |
Star-delta transformation |
STARDELTA100 |
| 170 |
Three phase measurement system
(star & delta) |
STARDELTA101 |
| |
|
|
| |
Speed Control Of Motors -
(AC-DC Drives) |
|
| 171 |
Stepper
Motor Controller- with 3.5 kg.cm torque motor |
SCM01 |
| 172 |
Stepper
Motor controller using IC SAA-1027 |
SPET450 |
| 173 |
Study
of Micro-Controller based Stepper motor controller |
SCM02 |
| 174 |
Thyristor Drive Trainer (1HP
With Tachogenerator) |
SCM02T |
| 175 |
SCR Motor Control Demo With
Fractional HP AC/DC |
SCM03 |
| 176 |
D.C.
Position Servo system Trainer |
SCM04 |
| 177 |
A.C.
Position Servo system Trainer - (Servo stabilizer) |
SCM05 |
| 178 |
D.C. Servo Motor Trainer
-(Speed-Torque characteristics) |
SCM06 |
