| 1 | - | Analog oscilloscopes |
| 2 | - | Digital storage oscilloscopes |
| 3 | - | Spectrum analyzers |
| 4 | - | Logic analyser (PC based) |
| 5 | - | Function generator / frequency counter |
| 6 | - | Soldering stations |
| 7 | - | DC regulated power supplies signal channel |
| 8 | - | Multimeter / clamp meter |
| 9 | - | Decade capacitance box |
| 10 | - | Decade inductance box |
| 11 | - | Decade resistance box |
| 12 | DE-001 | PN Junction Diode Characteristics |
| 13 | DE-002 | Zener Diode Characteristics |
| 14 | DE-003 | Experimental Set-Up For Plotting CB Characteristics |
| 15 | DE-004 | Zener Diode As A Shunt Regulator |
| 16 | DE-006 | Voltage Regulator using IC LM 317 |
| 17 | DE-007 | Characteristics of Diode & LED |
| 18 | DE-012 | JFET Characteristics |
| 19 | DE-045 | MOSFET Characteristics |
| 20 | DE-046 | IGBT Characteristics |
| 21 | DE-051 | SCR Characteristics |
| 22 | DE-052 | DIAC Characteristics |
| 23 | DE-053 | TRIAC Characteristics |
| 24 | DE-054 | UJT Characteristics |
| 25 | DE-055 | Transistor as a Switch |
| 26 | DE-056 | Study of Half - Wave Rectifier |
| 27 | DE-057 | Centre -Tapped Fullwave Rectifier |
| 28 | DE-058 | Bridge Type Fullwave Rectifier |
| 29 | DE-065 | Operational Amplifier using ICs |
| 30 | DE-077 | Binary To Gray Code Converter |
| 31 | DE-100 | Basic Logic Gates using Diode & Transistors |
| 32 | DE-101 | Gray To Binary Code Converter |
| 33 | DE-102 | Half Adder Using Logic Gates |
| 34 | DE-103 | Half Subtractor Using Logic Gates |
| 35 | DE-104 | Full Subtractor Using Logic Gates |
| 36 | DE-105 | Full Adder Using Logic Gates |
| 37 | DE-106 | Demorgan’s Theorem |
| 38 | DE-107 | Boolean Expression Using Logic Gates |
| 39 | DE-108 | BCD to 7 Segment Decoder using IC 7447 |
| 40 | DE-109 | BCD to Decimal Decoder using IC 7442 |
| 40 | DE-110 | Decimal to BCD Encode using IC 74147 |
| 41 | DE-111 | Bidirectional Buffer Using IC 74245 |
| 42 | DE-112 | NAND & NOR as a Universal Gate |
| 43 | DE-113 | 4:1 Multiplexer Using IC 74153 |
| 44 | DE-114 | 8:1 Mux Using IC 74151 |
| 45 | DE-115 | 1:4 Demultiplexer Using IC 74154 |
| 46 | DE-121 | 1:4 Demultiplexer Using IC 74138 |
| 47 | DE-122 | 1:3 Demultiplexer Using IC 74139 |
| 48 | DE-123 | 1:16 Demultiplexer Using IC 74154 |
| 49 | DE-124 | RS Flip-Flop Using NAND & NOR Gate |
| 50 | DE-125 | D & T Flip-Flop |
| 51 | DE-126 | J-K Master Slave Flip-Flop |
| 52 | DE-131 | J-K Flip-Flop Using NAND Gate |
| 53 | DE-134 | Controlled Inverter Using Ex-OR Gate |
| 54 | DE-135 | Decade Counter Using IC 7490 |
| 55 | DE-138 | Up-Down Counter using IC 7476 |
| 56 | DE-139 | Mod N (2 to 9) Counter using IC 74390 |
| 57 | DE-155 | 4 Bit Shift Register Using IC74194 |
| 58 | DE-156 | Arithmetic Logic Unit Using IC 74181 |
| 59 | DE-157 | Study Of Kirchhoff’s Law (KCL & KVL) |
| 60 | DE-158 | Superposition Theorem |
| 61 | DE-201 | Norton’s Theorem |
| 62 | DE-202 | Thevenin’s Theorem |
| 63 | DE-203 | Maximum Power Transfer Theorem |
| 64 | DE-204 | Reciprocity Theorem |
| 65 | DE-205 | Tellegen’s Theorem |
| 66 | DE-206 | Millman’s Theorem |
| 67 | DE-207 | RLC Series Resonance Circuit |
| 68 | DE-208 | RLC Parallel Resonance Circuit |
| 69 | DE-209 | Two Port Network Parameter |
| 70 | DE-210 | Charging & Discharging of Capacitor |
| 71 | DE-211 | Bridge Circuits |
| 72 | DE-252 | Wheatstone Bridge |
| 73 | DE-300 | Non-Inverting Op-Amp using IC 741 |
| 74 | DE-301 | Inverting Op-Amp using IC 741 |
| 75 | DE-302 | Op-Amp Parameter & Application Trainer |
| 76 | DE-303 | Inverting/Non-Inverting Op-Amp using 741 |
| 77 | DE-304 | Op-Amp as Adder using IC 741 |
| 78 | DE-305 | Op-Amp Buffer Using IC 741 |
| 79 | DE-307 | Op-Amp Subtractor Using IC 741 |
| 80 | DE-308 | Op-Amp Comparator Using IC 741 |
| 81 | DE-309 | Integrator Using Op-Amp IC 741 |
| 82 | DE-310 | Differentiator Using OP-AMP IC741 |
| 83 | DE-312 | I to V & V to I Converter |
| 84 | DE-313 | Op-Amp Schmitt Trigger Using IC 741 |
| 85 | DE-314 | Zero Crossing Detector |
| 86 | DE-315 | Active Peak Detector |
| 87 | DE-316 | IC 555 Astable Multivibrator |
| 88 | DE-317 | IC 555 Monostable Multivibrator |
| 89 | DE-318 | Second Order Low-Pass Butterworth Filter |
| 90 | DE-319 | Second Order High-Pass Butterworth Filter |
| 91 | DE-320 | Wide Band Pass Filter |
| 92 | DE-321 | Op-Amp as Clamper |
| 93 | DE-322 | Op-Amp as Clipper |
| 94 | DE-323 | Op-Amp Sine Wave Generator |
| 95 | DE-324 | Square Wave Generator using Op-Amp 741 |
| 96 | DE-325 | Instrumentation Amplifier using Op-Amp 741 |
| 97 | DE-326 | Astable Multivibrator using Op-Amp 741 |
| 98 | DE-327 | Monostable Multivibrator using Op-Amp 741 |
| 99 | DE-328 | Bistable Multivibrator using Op-Amp 741 |
| 100 | DE-329 | Phase Shift Oscillator using Op-Amp 741 |
| 101 | DE-330 | Triangular Generator using Op-Amp 741 |
| 102 | DE-331 | VCO using 555 |
| 103 | DE-332 | Sample & Hold Circuit |
| 104 | DE-400 | Single Stage CE Amplifier |
| 105 | DE-401 | Single Stage CB Amplifier |
| 106 | DE-402 | Two Stage RC Coupled Amplifier |
| 107 | DE-404 | FET Amplifier |
| 108 | DE-405 | Single Tuned Amplifier |
| 109 | DE-500 | Analog to Digital / Digital to Analog Converter |
| 110 | DE-501 | Astable Multivibrator using Transistor |
| 111 | DE-502 | Monostable Multivibrator using Transistor |
| 112 | DE-503 | Bistable Multivibrator using Transistor |
| 113 | DE-504 | RC Integrator & Differentiator |
| 114 | DE-505 | UJT as Relaxation Oscillator |
| 115 | DE-507 | Digital to Analog Converter |
| 116 | DE-508 | RC Phase Shift Oscillator |
| 117 | DE-511 | Colpitt Oscillator |
| 118 | DE-512 | Hartley Oscillator using Transistor |
| 119 | DE-551 | Study of RAM |
| 120 | DE-600 | Solar Cell Characteristics Apparatus |
| 121 | DE-601 | Energy Band Gap Apparatus |
| 122 | DE-602 | Ohm’s Law Apparatus |
| 123 | DE-603 | Thermister Characteristics Apparatus |
| 124 | RPS 501F | DC Power Supply 5V, 1A |
| 125 | RPS 101F | DC Power Supply - 12V, 1A |
| 126 | RPS 1501F | DC Power Supply - 15V, 1A |
| 127 | RPS 1501R | DC Regulated Power Supply 0-15V, 1A |