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PRODUCT GUIDE
ENGINEERING,
POLYTECHNIC
& ITI's
Total Lab Solution For Education
BASIC & ADVANCE COMMUNICATION LAB
AT 100AT 101AT 102AT 103AT 104AT 105AT 106
AT 107
AT 108
AT 109AT 110AT 111AT 112AT 113AT 114
AT 115AT 116
Amplitude Modulation & DemodulationFrequency Modulation and DemodulationPulse Amplitude Modulation & DemodulationPulse Width Modulation & DemodulationPulse Position Modulation & DemodulationPAM/ PPM/ PWM Modulation & DemodulationFrequency Shift Keying (FSK) Modulation &Demodulation. Amplitude Shift Keying (ASK) Modulation &DemodulationPhase Shift Keying (PSK) Modulation &DemodulationPulse Code Modulation and DemodulationAnalog Signal Sampling & Reconstruction Delta Modulation and DemodulationAdaptive Delta Modulation and DemodulationSingle Side Band Modulation & DemodulationDouble Side Band (DSB-SC) Modulation &DemodulationFrequency Division Multiplexer & DemultiplexerQuadrature Amplitude (QAM) Modulation &Demodulation
AT 117AT 118AT 119
AT 120AT 121AT 130
AT 131
AT 132AT 133AT 134AT 135AT 136
AT 137
AT 138AT 139AT 141
Phase Modulation TrainerTime Division Multiplexer TrainerTDM PAM Modulation & DemodulationFiber Optic Trainer (Analog and Digital linkwith inbuilt Oscillator)Transmission Line Trainer (RLC BASED)Frequency Modulation & Demodulation Trainer(Advanced Model)Delta, Adaptive Delta & Delta Sigma ModulationDemodulation Trainer.TDM Pulse Code Modulation Transmitter TDM Pulse Code Modulation Receiver Hamming Code TrainerData Formatting & Carrier Modulation Transmitter Carrier Demodulation & Data ReformattingReceiver TDM Pulse Amplitude Modulation &DemodulationDSB/SSB AM Transmitter DSB/SSB AM Receiver Transmission Line Trainer(ADVANCED VERSION)
AT 181
AT 182AT 183AT 184AT 185AT 186AT 187AT 188AT 189AT 190AT 191AT 192
16 to 1 line Multiplexer & 1 to 16 LineDemultiplexer4:1 Line Multiplexer1:4 Line DemultiplexerRAM Circuit using IC 7489Parity Generator/Checker4 Bit Digital Comparator4 Bit Analog to Digital Converter4 Bit Digital to Analog ConverterTTL-CMOS, CMOS-TTL InterfacingArithmatic/Logic Unit (ALU)TTL IC Characteristics Apparatus CMOS IC Characteristics Apparatus
AT 170AT 171
AT 172
AT 173AT 174AT 175
AT 176AT 177AT 178AT 179AT 180
Basic Logic Gate Digital Logic Trainer (Logic Gates, BooleonIdentities & Demorgan's Theorems)Verification of truth tables of Logic Gates usingNAND & NOR Gates Pulse/ Clock Generator using NAND Gate 4 Bit Adder & Subtractor Circuits using IC 7483 Digital Full Adders & Subtractors usingNAND GatesFlip Flops using NAND Gates & TTL IC's Decade Counter 4 Bit Counters (Synchronous & Asynchronous) 4 Bit Shift Registers Encoder & Decoder Circuits
DIGITAL ELECTRONICS LAB
Energy Band Gap ApparatusThermistor Characteristics ApparatusOpto Electronic Devices Characteristics(LED, LDR, Photo Transistor & Photo Diode)Verification of KCL & KVLResistance in Series & Parallel ApparatusOhm's Law Apparatus with 2 round meters but(Without Power Supply)Charging & Discharging of CondensorFlashing & Quenching of Neon BulbB.H. Curve ApparatusConversion of Galvanometer into VoltmeterConversion of Galvanometer into Ammeter LCR Resonance ApparatusLCR Impedance ApparatusClipping & Clamping Circuit ApparatusHalf wave, Full wave & Bridge rectifier ApparatusVoltage Regulation using IC 317Voltage Regulation using Zener Diode & TransistorsVoltage Regulation using Three TerminalVoltage RegulatorRipple Factor Apparatus(Half Wave, Full Wave & Bridge Rectifier)Transistor Tester (NPN & PNP)
AT 320AT 322AT 323
AT 325AT 326AT 327
AT 328AT 329AT 330AT 331AT 332AT 334AT 335AT 336AT 337AT 338AT 339AT 340
AT 341
AT 342
CHARACTERISTICS AND APPLICATIONPN Junction Diode Characteristics ApparatusZener Diode V-I Characteristics Apparatus(Forward & Reverse)Voltage Stabilization Characteristics ofZener Diode ApparatusTransistor Characteristics ApparatusH' Parameter of PNP Transistor in CommonEmitter Mode ApparatusSCR Characteristics ApparatusFET Characteristics ApparatusUJT Charcteristics ApparatusMosfet Characteristics ApparatusDiac Characteristics Apparatus Triac Characteristics Apparatus Opto Coupler Characteristics ApparatusLDR Characteristics ApparatusLED Characteristics ApparatusPhoto Cell Characteristics ApparatusSolar Cell Characteristics ApparatusPhoto Diode Characteristics ApparatusPhoto Transistor Characteristics ApparatusTunnel Diode Characteristics Apparatus
AT 300AT 301
AT 302
AT 303AT 304
AT 305AT 306AT 307AT 308AT 309AT 310AT 311AT 312AT 313AT 314AT 315AT 316AT 317AT 318
ELECTRONIC LAB
PAM-PPM-PWM Modulationand Demodulation
Pulse Code Modulationand Demodulation
Encoder&
DecoderCircuits
16 to 1 lineMultiplexer &
1 to 16Line Demultiplexer
FETCharacteristics
Apparatus
SCRCharacteristics
Apparatus
TransistorCharacteristics
Apparatus
2
AT 525AT 526AT 527AT 528AT 529AT 530AT 531AT 532
Application of IC 555Astable Multivibrator (IC 555)Bistable Multivibrator (IC 555)Monostable Multivibrator (IC 555)Astable Multivibrator (using Transistors)Bistable Multivibrator (using Transistors)Monostable Multivibrator (using Transistors)Hartley Oscillator
AT 390
AT 391AT 392AT 393
Network Theorems (Norton's, Thevinin's, Superposition & Maximum Power Transfer)Superposition TheoremNorton's TheoremThevinin's Theorem
AT 550AT 551AT 552AT 553
AT 553A
AT 554
AT 555AT 556
AT 557AT 558AT 559AT 560AT 561AT 562AT 563AT 564AT 565AT 566AT 567AT 568AT 569AT 570AT 571AT 572AT 573AT 574AT 575AT 576AT 577
IGBT Characteristics ApparatusTriac Phase ControlSCR Phase Control SCR Single Phase Half / Full Controlled BridgeRectifier (Basic Model)SCR Single Phase Half / Full Controlled BridgeRectifier (Advd. Model)SCR Single Phase Half / Full ControlledBridge ConverterSingle Phase Dual Converter(Cont - Discont Mode) 3 Phase Half / Full Controlled BridgeConverter/ Rectifier DC Motor Speed Controller SCR John Chopper SCR Morgan Chopper AC Chopper Four Quadrent Chopper Mosfet Chopper (Motor Speed Controller) IGBT Chopper (Motor Speed Controller) SCR DC Motor Speed Controller By Chopper Universal Motor Speed Control AC Motor Speed Control by Varying VoltageAC Motor Speed Control by Varying Frequency AC Motor Speed Control in Close Loop Single Phase Midpoint Cycloconverter Single Phase Bridge Cycloconverter SCR Series Commutated Inverter Series Resonate Mosfet Inverter Series Resonate IGBT Inverter SCR Parallel Commutated InverterMosfet Based Parallel (Push - Pull) Inverter SCR Bridge Inverter Mosfet/ IGBT Bridge Inverter
AT 578AT 579AT 580AT 581AT 582AT 583AT 584AT 585AT 586AT 587
AT 588AT 589AT 590AT 591AT 592AT 593AT 594AT 595AT 596AT 597AT 597AAT 598AT 598AAT 599AT 599AAT 600AT 600AAT 601AT 601AAT 602
AT 603
Mcmurray Full (or Half ) Bridge InverterSCR R & R - C Triggering CircuitsSCR Triggering Circuits SCR Lamp Flasher SCR Ring Counter Thyristor (SCR) Circuit BreakerSCR Commutation Circuits (A - E) UJT Trigger Circuits (Half - Full) Thyristor Cirucit Breaker (AC / DC) Gate Trigger Circuits for IGBT, MOSFETand Power Trigger Buck - Boost Converter (CUK )DC to DC Converter (Up or Down) Thyristor Over Voltage Protection dV/dt Limitation of SCREffect of Freewheeling Diode in Controlled RectifierCurrent Commutated ChopperVoltage Commutated ChopperStudy of Pulse TransformerPWM Controlled Inverter Class "A" Chopper Class "A" Chopper Without Motor Class "B" Chopper With Motor Class "B" Chopper Without Motor Class "C" Chopper With Motor Class "C" Chopper Without Motor Class "D" Chopper With Motor Class "D" Chopper Without Motor Class "E" Chopper With Motor Class "E" Chopper Without Motor Three-Phase Fully/ Half Controlled BridgeRectifier with Resistive and Inductive LoadsPower Electronics Trainer
NETWORK THEOREM'S VERIFICATIONS (IN DC CIRCUITS)
AT 394AT 395AT 396AT 397
Maximum Power Transfer TheoremReciprocity TheoremTellegan’s Theorem Millman's Theorem
MULTIVIBRATOR & OSCILLATOR
AT 533AT 534AT 535
AT 536AT 537AT 538AT 540
Colpitt OscillatorPhase Shift OscillatorWein Bridge Oscillator using OperationalAmplifier IC 741Wein Bridge Oscillator using TransistorRelaxation Oscillator using UJTCrystal OscillatorClapp Oscillator
POWER ELECTRONICS LAB
FILTER CIRCUITS LAB
AT 400
AT 401
AT 402
AT 403
AT 404
'T' type Passive Low Pass, High Pass, BandPass & Band Stop filtersM-Derived 'T' type Passive Low Pass &High Pass Filters"pi" type Passive Low Pass High Pass,Band Pass & Band Stop filterTwin-T Active Notch Filter using OperationalAmplifierActive Filters using Operational Amplifier
AT 405AT 406AT 407AT 408
AT 409AT 410AT 412
Transient Response of RLC CircuitCascaded Two Port Network "T", "pi" & "Bridge T" Type Attenuators RC, Low Pass, High Pass, Band Pass &Band Stop FiltersTo measure the Characteristic Impedance ofSymmetrical T & Л NetworksTo measure the Characteristic Impedance ofAsymmetrical T & Л Networks Constant "K" Filters
NetworkTheorem
Monostable Multivibrator
DC Chopper
SCR John Chopper
SCR Series Inverter
Asymetrical Tand
Pai Network
Symmetrical Tand
Pai Network
3
AT 451
AT 452AT 453AT 454AT 455AT 456AT 458AT 459AT 460AT 461AT 463AT 464AT 465AT 467
Common Collector (Emitter Follower)Transistor AmplifierCommon Base Transistor AmplifierCommon Emitter Transistor Amplifier Two Stage RC Coupled AmplifierDarlington Pair Amplifier FET Common Source AmplifierAudio Power Amplifier using IC TBA 810 Transistor Push Pull AmplifierComplementary Symmetry AmplifierClass 'A', 'B', 'AB' & Push Pull AmplifierBiasing Techniques of Transistor (BJT)Class "A" AmplifierClass "B" AmplifierClass "AB" Amplifier
AT 470AT 500
AT 501AT 502
AT 504
AT 505AT 506AT 508AT 509AT 510AT 512
Differential Amplifier using TransistorOperational Amplifier as Inverting &Non-Inverting AmplifierApplications of Operational Amplifiers(Discrete Component Trainer)Charactersitics of Operational Amplifier(Discrete Component Trainer)Operational Amplifier as Adder & SubtractorOperational Amplifier as Differentiator & IntegratorOperational Amplifier as Schmitt TriggerOperational Amplifier as Voltage ComparatorOperational Amplifier as Differential AmplifierOperational Amplifier as V-I & I-V ConvertorOperational Amplifier as Voltage &Current Feedback Amplifier
INSTRUMENTATION LAB
AT 650
AT 651AT 652
AT 653AT 654AT 655AT 656AT 657
AT 658AT 659
AT 660
AT 661AT 662AT 663
LVDT (Linear Variable Differential Transformer)TrainerMeasurement of Force by Load CellMeasurement of Force by Strain Gaugeusing Cantilever BeamPressure Measurement TrainerMeasurement of Temperature by Thermistor Measurement of Temperature by Thermocouple Measurement of Temperature by RTD Measurement of Speed by PhotoElectric Pick-up Measurement of Speed by Magnetic Pick-upMeasurement of Speed by Proximity Type Sensor Measurement of Length by LDR(Light Dependent Resistor)Measurement of Light by Photo Voltic Cell Measurement of Light by Photo DiodeMeasurement of Distance by ServoPotentiometer (Angular Displacement Trainer)
AT 664
AT 665AT 666AT 667AT 668AT 669AT 670AT 671AT 672AT 673AT 674AT 675AT 676AT 677AT 678
AT 679
Measurement of Distance by InductiveTransducer Measurement of Distance by Capacitive Transducer Study of Piezo Electric TransducerMeasurement of Power by Inductive Pick-UpMeasurement of Power by Capactive Pick-UpMeasurement of Torque by Torque TransducerLoading Effect on Potentiometer Measurement of Length by Capcitive Transducer Measurement of Length by LVDTMeasurement of Velocity by Turbine Transducer Measurement of Distance by LDRVibration by AccelometerMeasurement of Length by Strain Gauge Load CellMeasurement of Distance by Strain GaugeMeasurement of Temperature by Transducer,RTD, Thermistor, ThermocoupleSensor Trainer (Lvdt, RTD, Thermocouple,Thermistor, Load cell, Strain Guage,Speed Sensor, Smoke Sensor)
CONTROL LAB
AT 700AT 701AT 702AT 703AT 704AT 705AT 706AT 707AT 708
AT 709AT 710AT 711AT 712
PID Controller (Simulated System)PID Controller (Water Level Simulation) PID Controller (Model Process) Digital PID Controller with Microprocessor Trainer Linear System Simulator Potentiometer as Error DetectorCompensators (Analog Phase Meter) Synchro Transmitter & Receiver PairStepper Motor (with uP Interface)With Microprocessor Trainer DC Motor Speed Controller DC Motor Position Controller AC Motor Position Controller AC Servomotor Torque/ SpeedCharacteristics Trainer
AT 713
AT 714AT 715AT 716
AT 717AT 718AT 719AT 720AT 721AT 722AT 723
DC Servomotor Torque/ SpeedCharacteristics Trainer Magnetic Amp (Meg Amp.) Magnetic Amp (Series & Parallel) Magnetic Amp(Negative & Positive Feedback) Light Intensity Controller Stroboscope (LED) Control Transformer Servo Stablizer Relay Control System (Simulated) Analog Computer PID Temperature Controllerwith ON/ OFFController, (Solid State Sensor)
AMPLIFIER'S & OPERATIONAL AMPLIFIER'S
BREAD BOARD TRAINERSAT 800
AT 801 AT 802 AT 803 AT 804
Bread Board Trainer(General Purpose with Power Supplies)Linear IC Trainer (Regular Model)Descrete Component Trainer (Regular Model)Digital IC Trainer (Regular Model)Linear IC Trainer (PCB MODEL)
AT 805 AT 806 AT 807 AT 808 AT 809
Descrete Component Trainer (PCB MODEL)Digital IC Trainer (PCB MODEL)Analog Lab Trainer (with Breadboard)Digital Lab Trainer (with Breadboard)Analog & Digital Lab Trainer (Breadboard Model)
Common CollectorAmplifier
Two Stage RCCoupled Amplifier
Angular DisplacementMeasurement by Servopot
LVDT Trainer
AC MotorPosition Control
PID Controller
SynchroTransmitter
& Receiver
Bread Board
4
ELECTRICAL LAB
AT 1522
AT 1523AT 1524
AT 1525
AT 1526
AT 1527
AT 1528AT 1529
AT 1530
AT 1531
AT 1532
AT 1533
AT 1534
AT 1535
AT 1536AT 1537AT 1538AT 1539
AT 1540
Measurement of Power in Single Phase Circuitby CT, PT & Single Phase WattmeterPanel for Load Test of DC Series MotorStar/Delta Connection of 3 Identical SinglePhase Transformers To Obtain Efficiency of DC Shunt Motorby Swinburne's TestTo Obtain Losses & Efficiency of DC Machineby Hopkinson's TestPanel For Study of Different Type of Fuses,MCBs & ELCBsTo Connect, Start & Reverse the Direction ofRotation of a Single Phase Induction Motor To Connect, Start & Reverse the Direction ofRotation of a 3 Phase Induction Motor To Proform the Block Rotar Test of3 Phase Induction Motor Motor Generator Set to plot OCC and LoadCharacteristics of DC Shunt GeneratorMotor Generator Set to plot Load Characteristicsof DC Series GeneratorMotor Generator Set to plot Load Characteristics of DC Compound GeneratorControl Panel to perform Characteristicsof an Alternator Speed control of DC Shunt Motor byWard Leonard Method Domestic Home Wiring Demonstration Panel Electrical Machine Trainer (Complete Setup)Electrical Machine Trainer Three Phase Slip Ring InductionMotor Wound Rotor Type Transformer Oil Testing kit
AT 1500
AT 1501AT 1502
AT 1503
AT 1504
AT 1505
AT 1506AT 1507
AT 1508
AT 1509AT 1510
AT 1511
AT 1512AT 1513
AT 1514
AT 1515AT 1516AT 1517
AT 1518
AT 1519
AT 1520
AT 1521
Panel for Measurement of Power in ThreePhase Circuit by Three Wattmeter Method.Measurement of Power in 3 Phase Circuitby Two Wattmeter MethodMeasurement of efficiency of Single PhaseTransformer (Direct Loading) Determination ofParameter & Losses in a SinglePhase Transformer by OC & SC TestStudy of Single Phase Energy MeterEarth Resistance by Fall of Potential Method(Complete Setup)Calibration of Wattmeter by DC Potentiometer Calibration of Voltmeter & Ammeterby DC Potentiometer Single Phase Energy Meterwith Phantom LoadingStarting and Reversing of DC Shunt MotorSpeed Control of DC Shunt Motor(By Voltage Control Method)Sumpner's Test (Back to Back)Test on Single Phase TransformerParallel Operation Single Phase TransformerVoltage Relationship of Three PhaseTransformer in Various ConnectionsSpeed Control of D.C. Shunt Motor(By Armature and Field Current Control Method)To Study Scott Connection of a Transformer Load Test of DC Shunt MotorTo Plot Magnetizing Curve of aDC Series Generator Different Type of Contactor Control Circuit(4 Types)Angular Displacement Measurementof Synchronous MotorMeasurement of Power & Power Factor inSingle Phase CircuitMeasurement of Power in 3 Phase Circuitby CT, PT & 3 Phase Wattmeter
Experimental Setups For Electrical Lab
8085 Microprocessor Training Kit
UPS Trainer
LED TV Trainer
3 PhaseTransformer Trainer
Load Test 3 PhaseInduction Motor
AT 950
AT 951
AT 952
8031/8051 Microcontroller Training Kitwith Inbuilt Power Supply8085 Microprocessor Training Kitwith Inbuilt Power Supply8086 Microprocessor Training Kitwith Inbuilt Power Supply
TRAINERS
MICROPROCESSOR & MICRO CONTROLLER
AT 953
AT 954
AT 955
8051 Micro controller Training(LCD Display)8085 Microprocessor Training Kit(LCD Display)8086 Microprocessor Training Kit With(LCD Display)
AUDIO VISUAL LAB DEMONSTRATORS & TRAINERS
AT 902 AT 903 AT 905 AT 906 AT 907 AT 909 AT 911 AT 912AT 913 AT 914
Color TV Demonstrator (with 14" CRT)DVD/VCD/CD Disc Player DemonstratorStereo Tape Recorder DemostratorCRO Demonstrator (20MHz Dual Channel)Function Generator Demonstrator (200 KHZ)Telephone TrainerUPS DemonstratorVideo Cassette Recorder DemonstratorEPABX DemonstratorFAX Demonstrator
AT 918 AT 920
AT 921
AT 921
AT 922 AT 923
Microwave Oven DemonstratorAM / FM Radio ReceiverDemonstrator LED TV Trainer
LCD TV Trainer
Basic Mobile TrainerAdvanced GSM MobileTrainer
Power Measurementby Watt Meter
AC Machine ControllerLab Trainer
Distribution and TransmissionLine Trainer
DC Machine ControllerLab Trainer
5
AT 1602
AT 1603
EXPERIMENTS : - To Measure Dielectric Constant of Solids.- To Measure Dielectric Constant of Liquids.- To Measure Phase Shift- To Measure ‘Q’ of a Cavity- Universal Microwave BenchEXPERIMENTS :- To study the characteristics of reflex klystron, To study frequency, guide wave length & free space wave length, To measure SWR & reflection coefficient,- To measure impedance of a load, To study thecharacteristics of gunn diode, To measure thepolar pattern & gain of horn antennas,
- To study magic tee, E & H Plane Tees,directional coupler, Isolators & Circulators
AT 1600
AT 1601
EXPERIMENTS : - To study the Characteristics of Reflex Klystron- To study the Frequency, Guide Wavelength
& Free Space Wavelength- To measure the SWR & Reflection Coefficient- To measure Impedance of a Load- Experiments on Gunn DiodeEXPERIMENTS :- To study the Characteristics of Gunn Diode- To study the Frequency, Guide Wavelength
& Free Space Wavelength- To measure the SWR & Reflection Coefficient- To measure Impedance of a Load- Experiment to measure Dielectric Constant of
Solids & Liquid and to measure Phase Shift& 'Q' of a Cavity.
Experiments of Reflex Klystron
ELECTRICAL BRIDGE'S LAB
AT 1300
AT 1301
AT 1302AT 1303
AT 1304
AT 1305
AT 1306
AT 1307
AT 1308AT 1309
AT 1310AT 1312
Desauty Bridge (With Digital Null Detector &Audio Oscillator 1Khz)Hay's Bridge (With Digital Null Detector &Audio Oscillator 1Khz)Religh Bridge Complete SetupOwen's Bridge (With Digital Null Detector &Audio Oscillator 1Khz)Crompton PotentiometerWeins Bridge (Capacitance Measurement)(With Digital Null Detector & Audio Oscillator 1Khz)
Anderson Bridge (With Digital Null Detector &Audio Oscillator 1Khz)Schering Bridge (With Digital Null Detector &Audio Oscillator 1Khz)Kelvin Bridge (Student) Complete Setup Maxwell Inductance Bridge (With Digital NullDetector & Audio Oscillator 1Khz)Weins Bridge (Frequency Measurement)(With Digital Null Detector & Audio Oscillator 1Khz)Wheatstone Bridge (Portable)
AT 1356AT 1357AT 1358AT 1359AT 1360
Dual Output 30-0-30VDC/ 1 Amps Dual Output 30-0-30VDC/ 2 Amps Dual Output 30-0-30VDC/ 5Amps Dual Output 30-0-30VDC/ 10 Amps Multi Output Power Supply(0-30V / 2Amp., + 15V / 1Amp., + 5V / 5Amp.)
DC REGULATED POWER SUPPLIES SINGLE/DUAL CHANNEL
AT 1350AT 1351AT 1352AT 1353AT 1354AT 1355
Single Output 0 - 30VDC/ 2 Amps Single Output 0 - 30VDC/ 5 AmpsSingle Output 0 - 30VDC/10 AmpsSingle Output 0 - 30VDC/ 20 AmpsSingle Output 0 - 30VDC/30 AmpsSingle Output 0 - 24VDC/1 Amps
AT 1615AT 1616AT 1617AT 1618AT 1619
Function Generator 0.1Hz~5MHz (Digital)Function Generator 0.1Hz~10MHz (Digital)Function Generator 0.1Hz~20MHz (Digital)8 Digit Frequency Counter 10Hz~2.4 GHzFunction Generator 0.1Hz~2MHz (Digital)with inbuilt AM, FM
FUNCTION GENERATORS
AT 1610AT 1611
AT 1612AT 1613AT 1614
Analog Function Generator 1Hz to 200KHzFixed Frequency Sine Wave Oscillator(1KHz)AF/RF Signal Generator 30Mhz (Digital)Function Generator 0.1Hz~1MHz (Digital)Function Generator 0.1Hz~2MHz (Digital)
METERS (PORTABLE & PANEL MOUNTED)
PANEL MOUNTED (ANALOG)AT 1650AT 1651AT 1652AT 1653AT 1654AT 1655AT 1656AT 1657
Watt meter 1P 1E (96 x 96) Watt meter 1P 1E (144 x 144) KW 3P 3E, 5A/440V (96 x 96)KW 3P 3E, 5A/440V (144 x 144)Power Factor Meter 1P 1E (96 x 96)Power Factor Meter 1P 1E (144 x 144)Power Factor Meter 3P 3E,5A/440V (96 x 96)Power Factor Meter 3P 3E,5A/440V (144 x 144)
MICROWAVE LAB
PORTABLE METERS
AT 1692
AT 1693
AT 1694
AT 1695
AT 1696AT 1697
AT 1698
AT 1699
AT 1690
AT 1691
Wattmeter 1 PH, 1E, 0.5/1A, 1/2A, 2.5/5A, 75/150V,125/250V, 150/300V, 250/500V, 300/600V Wattmeter 1 PH, 1E, 0.5/1A, 1/2A, 2.5/5A,75/150/300V, 125/250/500V, 150/300/600VWattmeter 3P 2E, 0.5/1A, 1/2A, 2.5/5A,125/250V, 110/220V,250/500VWattmeter 3P 3E, 0.5/1A,1/2A,2.5/5A,5/10A,10/20A,110V/125V,250V,440V,500VPower Factor Meter 1E 1PH, 5A/250VPower Factor Meter 1E 1PH, 0.5/1A, 1/2A, 2.5/5A, 5/10A,10/20A, 75/150/300V, 125/250/500V, 150/300/600VPower Factor Meter 3PH, 2E, 0.5/1A, 1/2A, 2.5/5A,5/10A, 10/20A, 62.5/125V, 125/250V, 250/500VPower Factor Meter 3PH, 3E, 1A, 2.5A, 5A, 10A,110V, 125V, 250V/440V/500V
Wattmeter 1 PH, 1E, 0.5A to 20 AmpVoltage Range 50 to 600 VWattmeter 1 PH, 1E, 0.5A to 20 Amp TwoVoltage range 150/300V, 300/600V, 250/500V
DC Regulated Power Supply
Function Generator
Microwave Tesh Bench
AndersonBridge
MaxwellBridge
6
METERS (PORTABLE & PANEL MOUNTED)
Panel Mounted (digital)
AT 1680
AT 1681
AT 1682
AT 1683
Digital Watt Meter 1E 1PH,0/200W or2000W (96 x 96)Digital KW Watt Meter5A/415V,3E 3P/ 4 wire (96 x 96)Digital Power Factor Meter5A/250V (96 x 96)Digital Power Factor Meter 5A/415V,3E 3P/ 4 wire (96 x 96)
Moving Iron AC/ DC Voltmeters And Ampere Meters
AT 1710AT 1711AT 1712AT 1713AT 1714AT 1715AT 1716
Voltmeters M.I. (Single Range) 10, 20, 25, 30, 50, 60, 100, 120, 300, 600 VoltVoltmeters M.I. (Double Range) 10/20, 15/30, 150/300, 300/600 VoltVoltmeters M.I. (Tripple Range)150/300/600 VoltAmpere Meter M.I. (Single Range) 5, 10, 20, 25, 30, 50 AmpAmpere Meter M.I. (Double Range) 10/20, 15/30, 25/50 AmpMilli Ampere Meter M.I. (Single Range) 500mAMilli Ampere Meter M.I. (Double Range) 500/1000mA
Moving Coil DC Voltmeters and Ampere Meters
AT 1725
AT 1726
AT 1727
Volt Meters (Single Range)5, 10, 20, 30, 50, 60, 100, 120, 300, 600 VoltVolt Meters (Double Range)5/10, 15/30, 25/50, 150/300, 300/600Volt Meters (Tripple Range)25/50/100, 50/100/200, 125/250/500 Volt
AT 1728
AT 1729
AT 1730
Ampere Meters (Single Range)5, 10, 20, 25 AmpAmpere Meters (Double Range)15/30, 25/50, 30/60 AmpMilli Volt Meter (Single Range)10, 20, 30, 60, 100, 500Volt
Single Phase Chopper ControlledDC Series Motor Drive
Single Phase Full ControlledDC Series Motor Drive Three Phase Fully Controlled
Bridge Rectifier Drive
3 Phase Cyclo Converter FedSynchronous Motor Drive
VSI Controlled SynchronousMotor Drive
DRIVE LAB
AT 1746
AT 1747
AT 1748
AT 1749
AT 1750
AT 1751
AT 1752
AT 1753
AT 1735
AT 1736
AT 1737
AT 1738
AT 1739
AT 1740
AT 1741
AT 1742
AT 1743
AT 1744
AT 1745
AC DYNAMIC BRAKING (RHEOSTATIC) OF3-PHASE INDUCTION MOTORSPEED TORQUE CHARACTERISTICS OFDC SERIES MOTOR USING CHOPPERHALF WAVE CYCLOCONVERTER FED3 PHASE INDUCTION MOTOR DRIVESPEED CONTROL OF UNIVERSAL MOTORUSING MICROCONTROLLERREGENERATING AND BREAKING OF DCMOTOR USING TWO QUADRANT CHOPPERSINGLE PHASE AC MOTOR CONTROL DRIVEBY ANTI PARALLEL SCR & DIAC,TRIACSINGLE PHASE CYCLOCONVERTER PMSYNCHRONOUS MOTORSINGLE PHASE CSI INVERTER FED FHPINDUCTION MOTOR DRIVESINGLE PHASE HALF-FULL CONTROLLEDBRIDGE CONVERTER DRIVESINGLE PHASE VSI INVERTER FED FHPINDUCTION MOTOR DRIVESPEED CONTROL OF FHP SYNCHRONOUSMOTOR USING THREE PHASE VSI INVERTER
SPEED TORQUE CHARACTERISTICS OFDC SERIES MOTOR IN OPEN CLOSE LOOPUSING IGBT-MOSFETSPEED TORQUE CHARACTERISTICS OFTHREE PHASE CSI INVERTER FED FHPINDUCTION MOTOR DRIVESPEED TORQUE CHARACTERISTICS OFTHREE PHASE VSI INVERTER FED FHPINDUCTION MOTOR DRIVESPEED-TORQUE CHARACTERISTICS OF THREEPHASE FULLY CONTROLLED RECTIFIER FEDSEPARATELY EXCITED DC MOTORTHREE PHASE CSI INVERTER FEDSYNCHRONOUS MOTOR TO CONTROL SPEED OF FHP SYNCHRONOUSMOTOR USING 3 PHASE CYCLOCONVERTERSINGLE PHASE FULL CONTROLLED BRIDGECONVERTER DRIVESPEED TORQUE CHAR. OF DC SERIES MOTORIN OPEN-CLOSE LOOP USING SINGLE PHASECONVERTER
CSI Fed ThreePhase Induction Motor
METERS (PORTABLE & PANEL MOUNTED)
Panel Mounted (digital)
AT 1680
AT 1681
AT 1682
AT 1683
Digital Watt Meter 1E 1PH,0/200W or2000W (96 x 96)Digital KW Watt Meter5A/415V,3E 3P/ 4 wire (96 x 96)Digital Power Factor Meter5A/250V (96 x 96)Digital Power Factor Meter 5A/415V,3E 3P/ 4 wire (96 x 96)
Moving Iron AC/ DC Voltmeters And Ampere Meters
AT 1710AT 1711AT 1712AT 1713AT 1714AT 1715AT 1716
Voltmeters M.I. (Single Range) 10, 20, 25, 30, 50, 60, 100, 120, 300, 600 VoltVoltmeters M.I. (Double Range) 10/20, 15/30, 150/300, 300/600 VoltVoltmeters M.I. (Tripple Range)150/300/600 VoltAmpere Meter M.I. (Single Range) 5, 10, 20, 25, 30, 50 AmpAmpere Meter M.I. (Double Range) 10/20, 15/30, 25/50 AmpMilli Ampere Meter M.I. (Single Range) 500mAMilli Ampere Meter M.I. (Double Range) 500/1000mA
Moving Coil DC Voltmeters and Ampere Meters
AT 1725
AT 1726
AT 1727
Volt Meters (Single Range)5, 10, 20, 30, 50, 60, 100, 120, 300, 600 VoltVolt Meters (Double Range)5/10, 15/30, 25/50, 150/300, 300/600Volt Meters (Tripple Range)25/50/100, 50/100/200, 125/250/500 Volt
AT 1728
AT 1729
AT 1730
Ampere Meters (Single Range)5, 10, 20, 25 AmpAmpere Meters (Double Range)15/30, 25/50, 30/60 AmpMilli Volt Meter (Single Range)10, 20, 30, 60, 100, 500Volt
Single Phase Chopper ControlledDC Series Motor Drive
Single Phase Full ControlledDC Series Motor Drive Three Phase Fully Controlled
Bridge Rectifier Drive
3 Phase Cyclo Converter FedSynchronous Motor Drive
VSI Controlled SynchronousMotor Drive
DRIVE LAB
AT 1746
AT 1747
AT 1748
AT 1749
AT 1750
AT 1751
AT 1752
AT 1753
AT 1735
AT 1736
AT 1737
AT 1738
AT 1739
AT 1740
AT 1741
AT 1742
AT 1743
AT 1744
AT 1745
AC DYNAMIC BRAKING (RHEOSTATIC) OF3-PHASE INDUCTION MOTORSPEED TORQUE CHARACTERISTICS OFDC SERIES MOTOR USING CHOPPERHALF WAVE CYCLOCONVERTER FED3 PHASE INDUCTION MOTOR DRIVESPEED CONTROL OF UNIVERSAL MOTORUSING MICROCONTROLLERREGENERATING AND BREAKING OF DCMOTOR USING TWO QUADRANT CHOPPERSINGLE PHASE AC MOTOR CONTROL DRIVEBY ANTI PARALLEL SCR & DIAC,TRIACSINGLE PHASE CYCLOCONVERTER PMSYNCHRONOUS MOTORSINGLE PHASE CSI INVERTER FED FHPINDUCTION MOTOR DRIVESINGLE PHASE HALF-FULL CONTROLLEDBRIDGE CONVERTER DRIVESINGLE PHASE VSI INVERTER FED FHPINDUCTION MOTOR DRIVESPEED CONTROL OF FHP SYNCHRONOUSMOTOR USING THREE PHASE VSI INVERTER
SPEED TORQUE CHARACTERISTICS OFDC SERIES MOTOR IN OPEN CLOSE LOOPUSING IGBT-MOSFETSPEED TORQUE CHARACTERISTICS OFTHREE PHASE CSI INVERTER FED FHPINDUCTION MOTOR DRIVESPEED TORQUE CHARACTERISTICS OFTHREE PHASE VSI INVERTER FED FHPINDUCTION MOTOR DRIVESPEED-TORQUE CHARACTERISTICS OF THREEPHASE FULLY CONTROLLED RECTIFIER FEDSEPARATELY EXCITED DC MOTORTHREE PHASE CSI INVERTER FEDSYNCHRONOUS MOTOR TO CONTROL SPEED OF FHP SYNCHRONOUSMOTOR USING 3 PHASE CYCLOCONVERTERSINGLE PHASE FULL CONTROLLED BRIDGECONVERTER DRIVESPEED TORQUE CHAR. OF DC SERIES MOTORIN OPEN-CLOSE LOOP USING SINGLE PHASECONVERTER
CSI Fed ThreePhase Induction Motor
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PHYSICS LAB EXPERIMENTAL SETUPSAT 1800AT 1801AT 1802AT 1803
AT 1804
AT 1805AT 1806AT 1807
AT 1808AT 1809AT 1810
AT 1811AT 1812AT 1813
AT 1814
AT 1815AT 1816
AT 1817
AT 1818
AT 1819
AT 1820
AT 1821
AT 1822
AT 1823
Planck's Cpnstant Appartus Using Photo CellPlanck's Cpnstant Appartus Using LEDEnergy Band Gap by Four Probe MethodEnergy Band Gap by Four Probe Methodwith PC InterfaceMeasurement of High Resistance usingSubstitution MethodLissajous Figure ApparatusStefan Constant ApparatusDielectric Constant Apparatus(Solid & Liquid)Hall Effect ExperimentFourier Analysis KitMeasurement of susceptibility of ParamagneticSolution by Quinck's Tube MethodHeat Efficiency of an Electric KattelChoke Charateristics ApparatusInductance Measurement(Impedance at Different Freq)Determine the Hight of Tower Withthe Help of SextantGM Counter Experimental SetupDetermine the Ballistic Constant of aBallistic GalavanometerThe ECE of Copper using TangentGalvanometerDetermine the Wavelength of Sodium Lightby Fresnel's Biprism KitDetermine the Focal Length of Two lensesby Nodal Slide and Locate the Position ofCardinal PointsDetermine of the Specific Rotation of the caneSugar Solution with the Help of PolarimeterDetermine the Wavelength of Spectral LinesUsing Plane Transmission GratingDetermine the Viscosity of a Liquidby stroke's MethodDetermine the Frequency of AC Mainsby Electrical Vibrator
Tranmission Line trainder (ABCD, T & PiParameters, Ferranti Effect Load test)IDMT Over Current Relay Testing Kit (Electromechanical Type)Earth Fault Relay Testing Kit(Electromechanical Type)Percentage Bias Differential Relay Testing Kit(Electomechanical Type With Rheostat)Transformer Proctection using PercentageBiased Diffrential Relay (Static Type)Transformer Proctection using PercentageBiased Diffrential Relay (Microprocessor Type)Thermal Over Load Relay Testing KitBucholz Relay Test Setup(with compressor & Oil)CT Test Set (with Reference CT & CT under Test)Resistive Lamp Load 1000W in 5 StepsWithout LampUnder Voltage / Over Voltage Relay Testing Kit(Static Type)
Instantaneous Earth Fault Relay Testing Kit(Electomechanical Type)Under / Over Frequency Relay Testing Kit(With MG Set DC Shunt Motor 1 HO Coupledwith 0.5KVA Altenator) For Frequency VariationOver Voltage Relay Testing Kit(Electromechanical Type)Under Voltage Relay Testing Kit(Electromechanical Type)Over Current & Earth Fault Relay Testing Kit(Three Phase Static Type)Over Current Relay (Directional Type) Testing Kit(Electomechanical Type With Rheostat)Over Current Relay Testing Kit (Static Type)Negative Sequence Relay Testing Kit(With Three Phase 3 HP Induction Motor)Reverse Power Relay Testing Kit (Static Type)Oil Testing KitCurrent Injector 100A
AT 1911
AT 1912
AT 1913
AT 1914
AT 1915
AT 1916
AT 1917AT 1918
AT 1919AT 1920AT 1921
POWER SYSTEM / RELAY LAB
AT 1824
AT 1825
AT 1826
AT 1827AT 1828AT 1829AT 1830
AT 1831AT 1832
AT 1833
AT 1834
AT 1835
AT 1836AT 1837
AT 1838
AT 1839AT 1840AT 1841
AT 1842AT 1843AT 1844
AT 1845
AT 1846
Determine the Wave Length of Sodium Lampby Newton Ring MethodDetermine Magnetic Field using Stewartand Gee's ApparatusDetermine the Velocity of Ultrasonic wavesby using a crystalLaser Experimental Setup with Diode LaserLaser Experimental Setup with He-Ne LaserHigh Resistance by Leakage MethodThermo electric e.m.f with temperature for a cooperiron thermo couple, by means of a potentiometerCalibration of Voltmeter using PotentiometerDetermine Young's modulu's, modulus of rigidityand poisson's ratio of the material of a given wireby searle's dynamical methodDetermine the Frequency of a Tunning Forkwith the help of SonometerDetermine the Frequency of A.C. mainsby means of a SonometerDetermine the Dispersive Power of the Material of thePrism for Violet & Yellow Colors of Mercury Lightwith the Help of SpectrometerDetermine the Resolving Power of TelescopeDetermine the Wave length of Sodium Lampby Michelson InterferometerDetermine the Refractive Index ofLiquid Using Diode LaserDetermine the Malus Law Using Diode LaserDetermine the Brewster Angle using Diode LaserDetermine the Refractive Index of Prism usingwhite Light & SpectrometerCarrey Foster Bridge With Four GapDetermine Thermal Conductivity using Lee's DiscSodium Vapour Lamp 35 Watt Fittedin Box with TransformerSodium Vapour Lamp 55 Watt Fittedin Box with TransformerMercury Vapour Lamp 80 Watt fittedin Box with Choke
AT 1900
AT 1901
AT 1902
AT 1903
AT 1904
AT 1905
AT 1906AT 1907
AT 1908AT 1909
AT 1910
Fourier Analysis Kit
Dielectric ConstantApparatus
GM Counter
Hall Effect Experiment
IDMT Over CurrentRelay Trainer
Percentage DifferentialRelay Trainer
Thermal OverloadRelay Trainer
TransmissionLine
Trainer
UndervoltageRelay
Trainer
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