| |
Main Boards |
|
| 1 |
Analog IC Trainer |
AIC100 |
| 2 |
Analog
Training Kit |
ANALOG100 |
| 3 |
Linear
IC Trainer |
LICDM100 |
| 4 |
Linear
IC Trainer |
LICDM101 |
| 5 |
Opamp
Trainer |
OPAMPDM100 |
| 6 |
Opamp Designer |
OPAMP101 |
| 7 |
Analog Computer Trainer |
ACOMP100 |
| 8 |
Analog Square & Square
Root Circuit |
ANSQ100 |
| 9 |
Simulation of Transfer
Function using Operation amplifier |
OPAMP100T |
| 10 |
Analog Signal Processing
Trainer |
ACOMP100 |
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Amplifiers |
|
| 11 |
Opamp
as Inverting & Non Inverting Amplifier |
OPA01 |
| 12 |
Opamp
as Inverting Amplifier |
OPA02 |
| 13 |
Opamp as Adder &
Subtractor |
OPA02A |
| 14 |
Opamp
as Adder |
OPA02B |
| 15 |
Opamp
as Non Inverting Amplifier |
OPA03 |
| 16 |
Opamp
as Summing & Difference amplifier |
OPA04 |
| 17 |
Opamp
as Summing amplifier |
OPA05 |
| 18 |
Opamp
as Difference amplifier |
OPA06 |
| 19 |
Opamp
as Differentiator & Integrator |
OPA07 |
| 20 |
Opamp as Differentiator |
OPA08 |
| 21 |
Opamp
as Integrator |
OPA09 |
| 22 |
Opamp
as Voltage Follower (Buffer)-unity gain |
OPA10 |
| 23 |
Opamp
as Log & Anti-log Amplifier |
OPA11 |
| 24 |
Opamp
as Logarithm Amplifier |
OPA12 |
| 25 |
Opamp
as Antilog Amplifier |
OPA13 |
| 26 |
Opamp
as Selective Amplifier |
OPA14 |
| 27 |
Opamp
as Scaling Amplifier |
OPA15 |
| 28 |
Opamp
as AC Coupled Amplifier |
OPA16 |
| 29 |
Opamp
as Inverting Amplifier with Single Supply |
OPA17 |
| 30 |
Opamp
as Audio Amplifier |
OPA18 |
| 31 |
Opamp
as Instrumentation Amplifier |
OPA19 |
| 32 |
Opamp
as Non Inverting Summing Amplifier |
OPA20 |
| 33 |
Opamp
as Inverting Summing Amplifier |
OPA21 |
| 34 |
IF
amplifier using IC CA3028 |
OPA22 |
| 35 |
IF
amplifier using IC CA3068 |
OPA23 |
| 36 |
Opamp as Scalar, Summer and
voltage follower |
OPA24 |
| 37 |
Opamp as Differential I/P
& Differential O/P |
OPA24A |
| 38 |
Diff. Amplifier Using Two
Opamp |
OPA25 |
| 39 |
Diff. Amplifier Using Three
Opamp |
OPA26 |
| 40 |
Diff. Amplifier Using Four
Opamp |
OPA27 |
| 41 |
Opamp as AC Amplifier |
OPA28 |
| 42 |
Opamp as DC Amplifier |
OPA29 |
| 43 |
OP-AMP as Current Amplifier |
OPA31 |
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| |
Comparators |
|
| 44 |
Opamp
as Comparator |
CMP01 |
| 45 |
Opamp
as Window Comparator (detector) |
CMP02 |
| 46 |
Opamp
as Schmitt trigger |
CMP03 |
| 47 |
Opamp
as Voltage limiter |
CMP04 |
| 48 |
Opamp
as Active limiter |
CMP05 |
| 49 |
Comparator
using IC 710 |
CMP06 |
| 50 |
Differential Comparator IC 741 |
CMP07 |
| |
|
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| |
Oscillators |
|
| 51 |
Opamp
as Wein Bridge Oscillator |
OPO01 |
| 52 |
Opamp
as Voltage Controlled Oscillator |
OPO02 |
| 53 |
Opamp
as Sine - Cosine Generator |
OPO03 |
| 54 |
Opamp
as Square wave generator |
OPO04 |
| 55 |
Opamp
as Pulse Generator |
OPO05 |
| 56 |
Opamp
as Triangular Wave generator |
OPO06 |
| 57 |
Opamp
as SAW-Tooth wave generator |
OPO07 |
| 58 |
Opamp
as Ramp generator |
OPO08 |
| 59 |
Opamp
as Sine/Square wave generator |
OPO09 |
| 60 |
Opamp
as Staircase Generator |
OPO10 |
| 61 |
Opamp
as R-Y-B signal Generator |
OPO11 |
| 62 |
Opamp
as Constant Current Source |
OPO12 |
| 63 |
Opamp
as Square and Triangle wave generator with -ve feedback |
OPO13 |
| 64 |
Voltage
Controlled Oscillator Using 566 |
OPO14 |
| 65 |
Opamp as RC Oscillator |
OPO15 |
| 66 |
(OP-AMP Hartley & Colpitt's
Oscillator) |
OPO21-22 |
| 67 |
To study RC phase shift and
Wein bridge oscillator using Opamp |
OPO01-15 |
| 68 |
Function
(Waveform) Generator using IC-566 |
SG12 |
| 69 |
Function
(Waveform) Generator using IC XR2206 |
SG13 |
| 70 |
Function
(Waveform) Generator using IC 8038 |
SG14 |
| 71 |
Function generator using OPAMP |
FGOP100 |
| |
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Converters |
|
| 72 |
Opamp
as Voltage to frequency converter |
CON01 |
| 73 |
Opamp
as Frequency to Voltage converter |
CON02 |
| 74 |
Opamp
as Voltage to current converter |
CON03 |
| 75 |
Opamp
as Current to Voltage converter |
CON04 |
| 76 |
Opamp
as Voltage to current and Current to voltage converter |
CON03-04 |
| 77 |
Opamp
as Resistance to Current converter |
CON05 |
| 78 |
Opamp
as Current to Resistance converter |
CON06 |
| 79 |
Opamp
as Analog to Digital converter |
CON09 |
| 80 |
Opamp
as Digital to Analog converter |
CON10 |
| 81 |
Opamp
as Sine wave to Square wave converter |
CON11 |
| 82 |
Opamp
as AC to DC converter |
CON12 |
| 83 |
Opamp
as DC to AC converter |
CON13 |
| 84 |
Opamp
as DC to DC converter |
CON14 |
| |
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| |
Active Filters |
|
| 85 |
Opamp
as I order Low pass Filter |
AF01 |
| 86 |
Butter-LPF -HPF |
AF01-04 |
| 87 |
Opamp
as II Order Low Pass Filter |
AF02 |
| 88 |
Opamp
as I order High Pass Filter |
AF03 |
| 89 |
Opamp
as II order High Pass Filter |
AF04 |
| 90 |
Opamp
as Band pass filter |
AF05 |
| 91 |
Opamp
as Band Reject filter |
AF06 |
| 92 |
Opamp
as Notch filter |
AF07 |
| 93 |
Opamp as Active State-Variable
(Universal) Filter |
AF08 |
| 94 |
Opamp
as Bi-quad filter |
AF09 |
| 95 |
Opamp
as Cavity filter |
AF10 |
| 96 |
Butter
Worth Low pass Filter -
I, II, III order |
AF11 |
| 97 |
Butter
Worth High pass Filter - I, II, III order |
AF12 |
| 98 |
Chebyshev
Filter - I, II, III order |
AF13 |
| 99 |
Digital
Comb filter |
AF14 |
| 100 |
Elliptic
Filter |
AF15 |
| 101 |
Opamp as All Pass Filter |
AF16 |
| 102 |
Active
Filters Trainer |
AFDM100 |
| |
|
|
| |
Voltage Regulators |
|
| 103 |
Opamp
as Precision Half and Full-Wave Rectifier |
OPR01 |
| 104 |
78XX
and 79XX Series Voltage regulator |
OPR02 |
| 105 |
VI characteristics of 7805 |
OPR02A |
| 106 |
RPS
using IC 723 (Low and High Voltage) |
RPS07 |
| 107 |
RPS
using IC 317 |
RPS08 |
| 108 |
RPS
using IC Opamp 741 |
RPS09 |
| 109 |
Under
voltage monitoring using Opamp |
OPR03 |
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Detectors |
|
| 110 |
Opamp
as Zero crossing detector |
DET01 |
| 111 |
Opamp
as Peak detector |
DET02 |
| 112 |
Opamp
as R.M.S. detector |
DET03 |
| 113 |
Opamp
as Smoke/Flame detector |
DET04 |
| 114 |
Opamp
as Radiation detector |
DET05 |
| 115 |
Opamp
as Gas/vaporous detector |
DET06 |
| 116 |
Opamp
as Liquid level detector |
DET07 |
| 117 |
Opamp
as Moisture / Rain detector |
DET08 |
| 118 |
Opamp
as Metal detector |
DET09 |
| 119 |
Opamp
as Product detector |
DET10 |
| 120 |
Opamp
as Diode detector |
DET11 |
| 121 |
Crystal
Detector |
DET12 |
| |
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| |
Characteristics & Other
Applications |
|
| 122 |
Opamp
Characteristics and Testing Methods |
OP01 |
| 123 |
OP-Amp Characteristics |
SG2322 |
| 124 |
JFET
Op-amp Characteristics |
OP02 |
| 125 |
Opamp
Closed Loop Response |
OP03 |
| 126 |
Norton
Opamp characteristics |
OP04 |
| 127 |
Opamp
as Adjustable phase shifter |
OP05 |
| 128 |
Opamp
as Sample an Hold circuit |
OP06 |
| 129 |
Opamp
as Gyrator (Synthetic Inductor) |
OP07 |
| 130 |
Opamp
as Capacitance multiplier |
OP08 |
| 131 |
Clamping
circuits using Opamp |
OP09 |
| 132 |
Clipping
circuits using Opamp |
OP10 |
| 133 |
Squelch circuits using Opamp |
OP11 |
| 134 |
Wide
Band Width Opamp |
OP12 |
| 135 |
Null
Balancing techniques of Opamp |
OP13 |
| 136 |
Mathematical
operations using Opamp |
OP14 |
| 137 |
Tone
control using Opamp |
OP15 |
| 138 |
Audio
amplifier using IC 810 |
OP16 |
| 139 |
Study of Opamp 725 |
OP17 |
| 140 |
Clipping
and Claming circuits Opamp |
OP18 |
| 141 |
Applications of Opamps - 1 |
OP19 |
| 142 |
Applications of Opamps - 2 |
OP20 |
| 143 |
Determine Slew Rate of Opamp |
OP21 |
| 144 |
Determine CMRR of Opamp |
OP22 |
| 145 |
OP-AMP Based Current Mirror
Circuit |
OP23 |
| 146 |
OPAMP Based Level Shifter
Circuit |
OP24 |
| 147 |
IC
741 Trainer |
DM741 |
| |
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| |
Timers |
|
| 148 |
Timer
using transistors |
TIM01 |
| 149 |
Counter
using 555 |
TIM02 |
| 150 |
Twilight
Relay using 555 and LDR |
TIM03 |
| 151 |
Burglar
Alarm using 555 and LDR |
TIM04 |
| 152 |
Touch
Switch using 555 |
TIM05 |
| 153 |
555
Timer as Monostable Multivibrator |
TIM06 |
| 154 |
Electronics timer using IC555 |
TIM06A |
| 155 |
Repetitive
Electronic Timer |
TIM06B |
| 156 |
555
Timer as Bistable Multivibrator |
TIM07 |
| 157 |
555
Timer as Astable Multivibrator |
TIM08 |
| 158 |
Audible
Logic Probe using 555 |
TIM09 |
| 159 |
Visual
Logic Probe using 555 |
TIM10 |
| 160 |
Continuity
tester using 555 |
TIM11 |
| 161 |
Timer
Circuit, Exciting a Time-delay Relay |
TIM12 |
| 162 |
Time
Delay Relay |
TIM13 |
| 163 |
Multivibrator using OPAMP |
TIM14 |
| 164 |
741 Timer |
TIM14 |
| 165 |
Sequential
Timer using 555 |
TIM15 |
| 166 |
Timer Application IC 555 No. 1 |
TIM16 |
| 167 |
Timer Application IC 555 No. 2 |
TIM17 |
| 168 |
Siren using timer IC |
TIM18 |
| 169 |
Multivibrator using IC 555 |
TIM19 |
| 170 |
Opamp as Astable Multivibrator |
TIM21 |
| 171 |
Opamp as Bistable
Multivibrator |
TIM22 |
| 172 |
Opamp as Monostable
Multivibrator |
TIM23 |
| 173 |
AC Timer Using IC 555 |
TIM24 |
| 174 |
DC Timer Using IC 555 |
TIM25 |
| 175 |
IC 555 as Frequency Divider |
TIM27 |
| 176 |
IC 555 as Water Level
Controller |
TIM28 |
| 177 |
IC 555 as Schmitt's Trigger |
TIM29 |
| 178 |
Temperature
control using 555 and LDR |
TIM30 |
| 179 |
555
Timer IC Trainer (555 Application) |
DM555 |
| 180 |
Monostable Multivibrator using
IC 74121 and 74123 |
TIM25 |
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Phase Lock Loop (PLL) |
|
| 181 |
Phase
lock loop (PLL) using 565 |
PLL01 |
| 182 |
PLL
as Frequency Multiplier & Synthesizer |
PLL02 |
| 183 |
PLL
as Voltage Controlled Oscillator (VCO) |
PLL03 |
| 184 |
Phase
Detection and Measurement using PLL |
PLL04 |
| 185 |
Frequency
demodulation using 565 |
PLL05 |
| 186 |
Frequency
modulation using 8038 and 566 |
PLL06 |
| 187 |
Speed Control Method using PLL |
PLL06 |
| 188 |
PLL as Phase Discriminator |
PLL07 |
| 189 |
Phase
Lock Loop (PLL) Trainer |
PLLDM100 |
| 190 |
Voltage
Controlled Oscillator Using 565 |
VCO565 |
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