AM FM RADIO TAPE TRAINER
IPC-24-B
SPECIFICATION:
Model IPC-24-B is a conventional super heterodyne type radio receiver, suitable for comprehensive training in Radio mechanic, the trainer represents a fully operational AM & FM Radio set and demonstrate principals and operating characteristics of AM Radio receiver, it is possible to simulate typical fault by means of dip switches. Test points are clearly arranged for use of measuring instruments. AM frequency 53 to 160 KHz, FM Frequency 88 to 108 MHz operate on 220 V 50 Hz.


AM RADIO TRAINER
IPC-22-B
SPECIFICATION:
Model IPC-22-B is a conventional super heterodyne type radio receiver, suitable for comprehensive training in Radio mechanic, the trainer represents a fully operational AM Radio set and demonstrate principals and operating characteristics of AM Radio receiver, it is possible to simulate typical fault by means of dip switches. Test points are clearly arranged for use of measuring instruments. AM frequency 540 to 1640 KHz, operate on 220 V 50Hz.


ANALOG / DIGITAL TRAINER
IPC-122-AD
SPECIFICATION:
  • DC FIXED & VARIABLE POWER SUPPLY
  • ±5 Volts @ 1.0A Variable 0±20 Volts @ 1.0A
  • Function Generator:
  • 1Hz to 100 KHz continuously variable over 5 decade ranges. Sine wave, square wave, triangle wave.
  • 3 state logic probe.
  • Seven segment display
  • Two single shot pulse generator, 80 µs.
  • 2 inch 8Ω, 1 w loud speaker.
  • Two logic switches ±5 V/0V with current limit.
  • 8 data switch +5V/0V.
  • Potentiometer 1K, 100K, 1M
  • Double size bread board.


ANALOG TRAINER MODEL
IPC-122-AD
SPECIFICATION:
DC FIXED & VARIABLE POWER SUPPLY ±5 Volts @ 1.0A ±12 Volts @ 1.0A Variable 0±20 Volts @ 1.0A
Function Generator:
  • 1Hz to 100 KHz continuously variable over 5 decade ranges. Sine wave, square wave, triangle wave.
  • Analog current meter 0 to 100µA..
  • Analog Volt meter 0 to 30VDC..
  • Variable Resistor 5K, 10K, 100K..
  • 2 ¼ inch 8Ω, 1 w loud speaker..
  • Input / output connectors, BNC and banana..
  • Double size bread board..
  • User Manual..
  • Connecting Leads. .
List of Experiments:
  • The Superposition Theorem
  • Capacitor in Voltage - divider networks
  • Operational Amplifier - The Inverting Amplifier
  • Operational Amplifier - The Non-inverting Amplifier
  • Operational - The Comparator
  • Operational Amplifier - The Summing Amplifier
  • The Common-Base Amplifier Structure
  • The Common-Emitter Amplifier Structure
  • The Common-Collector Amplifier Structure
  • The Op Amp Differentiator
  • The Op Amp Integrator
  • The RC Phase Shift Oscillator
  • The Astable Multivibrator- 555 Timer
  • The Schmitt Trigger
  • The Astable Multivibrator
  • The D/A Converter
  • The A/D Converter


BASIC DIGITAL LOGIC TRAINER MODEL
IPC - 180 - DL
SPECIFICATION:-
Operating Voltage 220-230 Volts 50Hz Board Size 10" x 12" Fixed in rugged carrying case.
Potentiometer: Variable Resistor 5K(B). Variable Resistor 10K(B). Variable Resistor 100K(B).
ON BOARD FACILITES
Fixed DC Output Power supply.DC +5 Volts 200mAmps.DC +12 Volts 200mAmps.DC -12 Volts 200mAmps.Double Size solder less Breadboard. Main ON / OFF Switch with light indicator.Logic Switches 8Nos.Lamp Monitor L.E.D 8Nos. Seven Segment Decoder display. Debounce Switches 2Nos. Pulse Catcher / Logic Probe.Clock Timer.Connecting Leads.User Manual.
The following types of experimental circuit can be connected and studied.Combinational logic circuit experiment.
           C. .Arithmetic circuit experiment.
1)DL circuit experiment 1) ALU experiment.
2) RTL circuit experiment 2) Serial adder experiment
3) DTL circuit experiment 3) Parallel adder experiment
4) TTL circuit characteristics experiment D. Memory experiment.
5)C-Mos circuit characteristics experiment 1) RAM experiment.
6) TTL -> C-Mos interface circuit experiment 2) ROM experiment.
7) C-Mos -> TTL interface circuit experiment 3) EPROM experiment.
8) Basic logic function E. A/D, D/A Conversion experiment.
9) Exclusive OR gate experiment 1) A/D conversion circuit experiment.
10)TTL,C-MOS half adder & full adder experiments 2) D/A conversion circuit experiment.
11)TTL,CMOS half subtract & full subtract experiments F. Logic circuit application experiment.
12) Open collector gate experiment 1) Digital Voltage meter experiment.
13) Open drain gate experiment 2) Advertising light experiment.
14) Encode and decode experiment 3) Digital capacitance meter experiment.
15) Multiplexer or de multiplexer 4) Electronic metronome meter experiment.
16) Comparator experiment 5) Music IC application experiment.
B. Sequential Logic Experiment. 6) Electronic stop watch experiment.
1) RS Flip flop experiment 7) Electronic dice experiment.
2) T Flip flop experiment 8) Frequency counter experiment.
3) JK Flip flop experiment 9) Electronic clock experiment.
4) Master/Slave JK Flip flop experiment G. Timing & Pulse generating circuit.
5) Edge-triggered JK Flip flop experiment 1) Pulse generating circuit experiment.
6) D Flip flop experiment
2) Non-re triggable monostable multivibrator.
7) Asynchronous binary counter experiment 3) Retriggable monostable multivibrator.
8) Synchronous binary counter experiment 4) Quartz crystal oscillator experiment.
9) BCD counter experiment 5) Schmitt trigger circuit experiment.
10) Up/ down counter experiment 6) 555 circuit experiment.
11) Divide by N circuit experiment
12) Serial in-serial out shift register experiment
13) Serial in-parallel out shift register experiment
14) Parallel in-serial out shift register experiment
15) Parallel in-parallel out shift register experiment
16) Left / right shift register experiment


BASIC ELECTRONICS TRAINER
IPC-102
SPECIFICATION:
  • Fixed DC Output +5Volts 200mAmps.
  • Fixed AC +5V through center tap transformer.
  • Variable DC output ±20Volts 200mAmps.Ripple less then 20mV.
  • Digital multimeter.
  • Speaker with 0.25 Watts amplifier.
  • Two Nos of relays
  • BNC type connectors for connecting instruments such as an oscilloscope, function generator, etc.
  • Clock Pulse 7Hz to 50Hz.
  • Lamp monitors five Nos.
  • Variable Resistor 5k, 10k, 100k
  • Double size bread board (350mm x 134mm x 8mm)
  • Operating voltage 220Volts 50Hz.
This trainer will covers the experiments for ELT-264.

-Diodes
  • Rectifier diodes
  • Zener Diodes
  • Diodes circuits
  • Photo diode relays
  • Super position & AC resistance
-Amplifiers
  • The CE amplifier.
  • Class A amplifier.
  • The class B push-pull amplifier
  • The silicon controlled rectifier.


COLOR T.V TRAINER MODEL
IPC-104-B
SPECIFICATION:
IPC-104-B is suitable for theoretical and practical study of color TV. The main PCB is mounted in the specially designed cabinet. The complete block diagram is distributed on panel. i.e. antenna cum tuner, IF amplifier cum detector, FM detector and audio output, Video amplifier, sync. Separator, Horizontal Oscillator, Vertical oscillator and vertical output, power supply. PAL decoder system. Infra red remote control receiver with hand held remote controller.
The provision is available to insert faults that commonly occur in various stages can be simulated individually or combined with each other, through the faults simulation panel.Channel system: 100 channels, Hyper Band Tuner, and 24 Hours Programmable TV ON /OFF. A/V In/Out, auto voltage regulator, convenient sleep timer, and remote control, high power Audio Output, 10 Watts, picture tube 14 inches. Operate on 220 V 50Hz.


DIGITAL ELECTRONICSTRAINER MODEL
IPC-185-AD
SPECIFICATION:
The IPC-185-AD Digital Electronics Trainer is a comprehensive and self contained system. It is an idea to learn or experience the basic features of digital & logic concepts with IPC-185-AD in a very short time. The whole system is consists of PCB designed with thirty different experimental modules. Onboard power supply of +5 Volts, timer clock, PUSH ON & PUSH OFF switches, LED display for clock pulse.
This trainer will perform the following practical.
- AND GATE OPERATION - SHIFT REGISTERS
- OR GATE OPERATION - 4 BIT COMPARATORS
- NAND GATE OPERATION - 4 BIT FULL ADDER
- XOR GATE OPERATION - MULTIPLEXER
- NOR GATE OPERATION - DEMULTIPLEXER
- INVERTER - MONOSTABLE
- TTL & CMOS LOGIC FAMILIES - 9 BIT PARTIY GENEARTOR
- TRI STATE BUFFER - BCD-DECIMAL DECODER
D FLIP FLOP - BCD-7 SEGMENT DECODER DRIVER
- JK FLIP FLOP - 7 SEGMENT LED DISPLAY
- R-S LATCHES - DECIMAL-BCD CODER
- BCD, BINARY, UP/DOWN COUNTER - BCD SELECTOR


PROGRAMMABLE LOGIC CONTROLLER TRAINER MODEL
IPC-24-16 (Digital)
SPECIFICATION:
This trainer covers the following topics: Relays vs. programmable logic controller, how PLC functions, ladder diagram, ladder logic applications, program basis, programming the PLC, Editing program mistakes, series & parallel logics, Timer circuits, Counters, Sequencer circuits, Master control, Start/Reset, Shift register, Special scan timer logic circuit, High speed counter, Audio cassette program loading & down loading.
TECHNICAL SPECIFICATION: Power 230V 50Hz Approx.35w DC Supplies +5V,.08A A.10 mV Ripple, 3.5 regulation, with no load on ±15VAC, 0.8A each load on +5supply (1A each at ±10V), LED power supply indicator (3), 5VAC, 0.1A (20 primary 230V 50H, power supplies are short circuit protected, power supply terminal for measuring voltages. 15 pin Winchester socket provided for connection ,accessory panel bas. PLC SPECIFICATION: Operating temperature: 0-60 degree celcius (32-140F) available user power (DC) 24Volts @ 0.1A max. battery life:-2 to 5 years, Memory size 16-bit words,700 words COMS EPROM. Scan Rate:12ms for 250 words.40 ms. For 700 words I/O points, 8 inputs, 6 outputs.


FUNCTION GENERATOR MODEL
IPC-FG-219
SPECIFICATION:
Description:- The unit is versatile and compact Function Generator capable of generating high quality sine triangle and square waveforms of high stability and accuracy.The sine and triangle waveforms can be amplitude and frequency modulated by applying external voltages at the VCA (Voltage-Controlled Amplitude) and the VCF (Voltage-Controlled Frequency) inputs. With these two inputs, the unit can easily produce amplitude modulated, frequency sweep, ASK (Amplitude-Shift Keying), or FSK (Frequency-Shift Keying) signal.Output frequency is adjustable from 0.5Hz to 500 KHz in 6 ranges. The DC offset of all waveforms can be adjusted between + and -10 Voltsby a front panel adjustment.
Specification:-
  • Frequency Range - 0.5Hz to 500 KHz (6 Ranges)
  • Wave Forms - Sine, Triangle & Square
  • Amplitude - Not over 20Vpp open circuit, Not over 10Vpp into 50 ohm.
  • Attenuation - 1/100
  • Frequency Accuracy - ±5% of full scale
  • DC Offset - Variable +10 to -10V open circuit,+5 to -5V into to ohm.
  • Sine Wave Distortion - 1% typical at 1 KHz.
  • Square Wave - Rise time 500ms typical.
  • VCF - Liner frequency sweep for controlVoltage from -2 to +2, input impedance 10K ohm.
  • VCA - Linear amplitude modulation approx. 10 to 1 variations for sine and triangle wave output,impedance 10K ohm.


Micro Controller Trainer Model
IPC-8605-MC
SPECIFICATION:
Model: IPC-8605-MC is user friendly Programmer and trainer base on 89c51 / 89s52 microcontroller. The system consists of,
SPECIFICATIONS:-
  • IR Transmitter
  • Built in in-Circuit Programming
  • IR Receiver
  • 4 Nos. Seven segment Display
  • ADC Interfacing
  • Serial Communication port
  • Liquid crystal Display
  • 10 pins Interface Data Connector 2Nos.
  • EEPROM 24CXX
  • Real Time clock DS 1307
  • Temperature sensor LM 35
  • 16 LED Displays
  • Key Pad Matrix
  • Solder Less bread board
  • Built in Power supply +5 VDC, ±12 Volt DC
  • Operate on 220 Volts 50 Hz AC
  • User Manual.
  • Software CD.
  • Connecting Leads.
Trainer is capable of performing different exercises on board.
  • Study of Single Bit Port Programming.
  • Study of Byte Writing.
  • Study of BIT Rotation.
  • Study of Arithmetic Instruction.
  • Study of Logic Instruction.
  • Study of LCD Interface.
  • Study of Serial Communication.
  • Study of Seven Segment Drive.
  • Study of Key Pad Interface.
  • Study of Traffic Light Signal


MICROPROCESSOR TRAINER MODEL
IPC-8603
SPECIFICATION:
SPECIFICATION: Based on Intel 8086/8088 CPU operating at 220V/50Hz. 8086 Processor can be replaced by 8088 processor. Onboard sockets provided to facilitate the use of 8087 Co-processor & 8089 I/O processor. 16K bytes of RAM available to user using 6264. 16K bytes of EPROM loaded with powerful monitor program (2764/27128). Total on board memory capacity of 128K bytes of RAM & 12K bytes of EPROM.
Battery back up provided for RAM area. 72 I/O line through 3 nos. of 8255. 16 bit timer / counter through 8253. RS-232 for CRT terminal through 8251. Baud rate selection through DIP switches from 110-19 baud. Provision for EPROM programmer for 2732/27256 with 28 pin ZIF with facility to program verify, list & blank check for even odd & continuous bytes. 28 Keys hexadecimal keyboard and eight seven segment display. Resident mode. Serial mode. POWERFUL SOFTWARE COMMAND LIKE GO, EXAMINE/MODIFY, REGISTER, SINGLE STEPPING, BLOCK MOVE, FILL, INSERT, DELETE, INPUT BYTE & WORD. Facility for uploading control signals, are buffered and available at the FRC connector. Power supply requirements: +5V/1.6A, +12V/250mA, +21V/24V. User manual, cables, connectors. Optional: A/D converter, D/A converter.


OPERATIONAL AMPLIFIER MODEL IPC
IPC-105-OP
SPECIFICATION:
This trainer covers the following subject with experiments ELT-214, ELT-243
SPECIFICATION :
  • -Operating Voltage 220-230Volts 50Hz -Variable 10K
  • -Fixed DC output Power Supply -Variable 50K
  • -DC ±5 Volts -Variable 100K
  • -DC ±12 Volts -Digital Multi meter
  • -Function Generator (Sine, Square, Triangle) -Frequency Counter
EXPERIMENTS:
  • Op-Amp characteristics Summing Amplifiers
  • The Differential Amplifier Measuring Amplifier
  • Inverting Amplifiers Responses
  • Non inverting Amplifiers Comparators
  • Amplifier Band width& Roll Off Rates Op-Amp Voltage
  • Op-Amp Slew Rates Followers
  • The Discrete Tuned Amplifier Op-Amp Feed Back


PROGRAMMABLE LOGIC CONTROLLER TRAINER MODEL
- IPC-14-FXIS U (Universal)
SPECIFICATION:
This trainer covers the following topics: Relays vs. programmable logic controller, how PLC functions, ladder diagram, ladder logic applications, program basis, programming the PLC, Editing program mistakes, series & parallel logics, Timer circuits, Counters, Sequencer circuits, Master control, Start/Reset, Shift register, Special scan timer logic circuit, High speed counter, Audio cassette program loading & down loading.
TECHNICAL SPECIFICATION: Power 230V 50Hz Approx.35w DC Supplies +5V,.08A A.10 mV Ripple, 3.5 regulation, with no load on ±15VAC, 0.8A each load on +5supply (1A each at ±10V), LED power supply indicator (3), 5VAC, 0.1A (20 primary 230V 50H, power supplies are short circuit protected, power supply terminal for measuring voltages. 15 pin Winchester socket provided for connection , accessory panel bas.
PLC SPECIFICATION: Operating temperature: 0-60 degrees celsius (32-140F) available user power (DC) 24Volts @ 0.1A max. battery life:- 25 years, Memory size 16-bit words,700 words COMS EPROM. Scan Rate:12ms for 250 words.40 ms. For 700 words I/O points, Digital 8 inputs, 6 outputs, analog 4input, 2outputs.


PROJECT BOARD TRAINER MODEL
IPC-72-PB
SPECIFICATION:
  • Fixed + 5 Volts DC.
  • Variable +20 Volts DC
  • Variable -20 Volts DC
  • Fuse Protection
  • Bread Board size 7" x 6.75"
  • Operate on 220 Volts, 50Hz
  • Size Of Trainer 12" x 14"
RELAY LOGIC TRAINER
IPC-5500-RLT
     
SPECIFICATION :
 FIXED 24VDC POWER SUPPLY.
 24VDC REALYS 6NOS.
 24VCD INDICATION LAMPS 4NOS.
 PUSH SWITCHES 4NOS.
 24VDC BUZZER 
 24VDC FAN
LIST OF EXPERIMENTS:
 INTRODUCTION TO LOGIC SYMBOLS.
 TO PERFROM  AND / NAND FUNCTIONS BY USING RELAYS.
 TO PERFROM  OR / NOR FUNCTIONS BY USING REALYS.
 COMBINED OR / NOR CIRCUITS.
 LOGIC CIRCUITS FROM A TRUTH TABLE.
 EXOR CIRCUITS.
 IDENTITY CIRCUITS.
 RELAY DECORDER.
 COUNTER USING RELAYS.
 ADDER CIRCUITS.


AC DC MOTOR GENERATOR SET MODEL
IPC - 2300 - MG
SPECIFICATION:
  • Range of products to allow students to study different electrical machines.
  • Works with the needs of your training course.
  • Ideal for academic courses and vocational training.
  • Includes manually controlled tests, with standard instruments.
  • Shows student the advantages and disadvantages of different electrical machines.
  • Includes user guides with suggested experiments.
  • Shows why different machines do different jobs.
Description:- IPC electrical machine teaching system meets the needs of many colleges and training courses. It gives practical support for teaching electrical machines technology at all academic levels. The electrical machines teaching system starts with the test bed and an optional selection of electrical machines. It includes a wide variety of instruments and motor drives. The instruments and motor drives are fitted into the instrument frame.


AC POWER GENERATION TRAINER
IPC - 2300 - MG
SPECIFICATION:
POWER SUPPLIES:
AC SECTION
1.Three phase main power supply siemens rated
Value current rating (18A-24A) with protection.

Indication light.
 Emergency OFF Push Switch.
 Power requirement 380V/50 Hz.
      
2.Three phase main power supply siemens rated
current rating (2.4A-4A) with protection.

 Indication light.
 Power requirement 380V/50 Hz.
 Fixed in front panel.
  
3. Single phase AC Supply unit 230V,6A,50Hz, with fuse protection.

 ON/OFF Switch.
 Indication Light.
 Output with safety socket (4mm)
4.Single Phase variable supply unit 230V,6A,50Hz with fuse protection.

 ON/OFF Switch.
 Indication Light.
 Output with safety socket (4mm)
5.Three phase separate output supply with ON/OFF switch
Supply terminals with 4mm banana socket L1, L2, L3, N,E.

6.Three Phase separate output supply for three phase motor
run with star delta connection.

 ON/OFF Switch.
 380V, 50Hz.
METERS FOR MEASURMENTS:
 AC VOLT METER (4Nos.)
Range 0-----500V accuracy class 1.5, 
connection available 4mm safety socket panel mount (96x96)

 AC AMPARE METER (4Nos.)

Range 0-----10A accuracy class 1.5, 
connection available 4mm safety socket panel mount (96x96)

 POWER METER

Range 0-----2Kw accuracy class 1.5, 
connection available 4mm safety socket panel mount
(96x96) Three phase.

 POWER FACTOR METER

Power factor 0-----1-----0
Phase angle -90 degrees (cap)-----0-----+90 degrees  (ind)
Accuracy class 1.5

 FREQUENCY METER

Range 47Hz----55Hz 
Panel mount (96x96).

 DIGITAL RPM METER

Range 0-----9999. Size (48x96) with sensor panel mounted.

 CONNECTION LEADS

4mm safety connection lead one set.
AC DRIVE Variable Frequency Inverter:
Three phase variable frequency output from single-phase fixed frequency supply.
SYNCHRONOSCOPE
Rotating light meter with 28LED on a circular scale and zero Voltage differential indication with 2 LED.
Technical Features:
 	Operating voltage: 380V (120Vmin)
 	Operating frequency: 40 to 60 Hz
Motor:
 	Synchronous Generator
 	Prime Mover
OPTIONAL Loading modules:
 	Resistive load, 
 	Capacitive Load
 	Inductive Load
 	Mechanical Break Load
BASIC ELECTRICITY TRAINER MODEL
IPC-222-BET
SPECIFICATION:
The model Basic Electricity Lab Trainer is a versatile training kit, for a laboratory. It is designed such that all the basic electrical circuits can be tested with the help of this trainer kit.The experiments given with training system develop mental starting from an introduction to the circuit, basic fundamental and complete circuits like series and parallel circuits, electromagnetic induction, coil behavior with AC and DC circuits diode and transistor characteristics etc. This simple training kit provides a strong foundation for future studies in electrical or electronics.
This takes students from the basics of Ohm Law, through simple series and parallel circuit analysis and into same elementary aspects of electronics where they will build circuits using capacitors, transistors and diodes. Student can study how the resistance of a light bulb filaments changes as it heat up. With this system a set of coils and cores are provided. These high quality coils and laminated iron cores provides an effective introduction to electromagnetic theory. Each coil is labeled with numbers of turns. These can be used in study of 1. Electromagnetism: It shows how the magnetic field can be increased by increasing the current, by adding an iron core or by using coil with more turns. 2. Induction: We can pass a magnetic through a coil and detect the resulting electromotive force with galvanometer. So it shows how the E.M.F depends on number of turns in the coil and on the relative velocity of the magnet and coil. 3. Transformers: We can mount coil on the U or E-shaped iron cores to demonstrate mutual induction. Then connect a load to investigate power transfer and basic transformers theory with an AC power supply. These are not ideal transformer. As true for any transformer using separate coil, the flux linkage between coils is very less. The voltage transformation ratio are therefore proportionately below the ideal values based on the number of turns per coil with in this limitation, effective quantitative investigation can be connected using these coils and cores set. TECHNICAL SPECIFICATION:
  • DC Power Supply :5V, 200mA
  • AC Power Supply :6V, 1A
  • Relay : 5V
  • Galvanometer : 30-0-30
  • Galvanometer Resistance : 80-125 ohms
  • Light Bulbs : 6V
  • Potentiometer : 25 ohms, 1W,10 Kilo-ohms, 1W
  • Switch : 1 Pole, 2 Way Toggle Type
  • Core Types : E, I, U
Coil :
No. of Turns Wire Dimension(mm) Maximum Current (Amp.) Inductanc e (approx)
200 0.818 1.46 590µH
400 0.573 0.728 2.3µH
800 0.404 0.363 9.2µH
1600 0.251 0.144 34.2µH
3200 0.170 0.072 134µH
  • Fuse : 1Amp.
  • Main Voltage : 220V AC ±10%, 50Hz
LIST OF EXPERIMENTS:
Experiment 1
  • To study the Resistances individually, as well as in series and in parallel connections.

  • Experiment 2
  • To study the ohm’s law mathematical relation ship between three variables voltage (V), current (I) and resistance (R).

  • Experiment 3
  • To study the voltage and current flowing into the circuit.

  • Experiment 4
  • To study the behavior of current when light bulbs are Connected in series/parallel circuit.

  • Experiment 5
  • To study the Kirchoff's Law for electrical circuits.

  • Experiment 6
  • To study the R-C circuit and find out the behavior of capacitor in a R-C network and study the phase shift due to capacitor.

  • Experiment 7
  • To study the L-C circuit and its oscillations.

  • Experiment 8
  • To study the characteristics of a semiconductor diode.

  • Experiment 9
  • To study the characteristics of a transistor.

  • Experiment 10
  • To understand the Faraday's Law of electromagnetic induction.

  • Experiment 11
  • To study the behavior of current when inductance is introduce In the circuit.

  • Experiment 12
  • To study the Lenz's Law and effect of eddy current.

  • Experiment 13
  • To study the relay and construct a switching circuit by using relay.

  • Experiment 14
  • To study the Oersted experiment.

  • Experiment 15
  • To study the phenomenon of mutual induction.

  • Experiment 16
  • To construct and study the step down transformer with the help of given coils and cores.

  • Experiment 17
  • To construct and study of step up transformer.

  • Experiment 18
  • To study the effect of moving I core on a step up transformer.

  • Experiment 19
  • To convert a galvanometer into voltmeter.

  • Experiment 20
  • To convert a galvanometer into ammeter.
List of Accessories:
  • 1. Patch cord 2mm to 2mm (8")
  • 2. Parch cord 2mm to 2mm (10")
  • 3. Coil 200, 800, 1600, 3200 turn
  • 4. 400 turn coil
  • 5. Bar magnet
  • 6. Magnetic compass
  • 7. Plastic U shaped object for I core experiment
  • 8. U, E, I core
  • 9. I core with long screw
Component Box Resistances:
  • 100 ohms
  • 200 ohms
  • 220 ohms
  • 332 ohms
  • 1K ohms
  • 100K ohms
  • 220K ohms
  • 5K ohms
  • Potentiometer 10K
  • 10. Electrolytic capacitor 100µf
  • 11. Metalized poly. Capacitor 0.1µf
  • 12. Diode (1N4007)
  • 13. Transistor (BC547)
  • 14. Multimeter
  • 15. Connecting Leads
  • 16. User Manual


CIRCUIT BREAKER TRAINER MODEL
IPC-1800-CBT
DESCRIPTION:- The main contact in the IPC-1800-CBT is protected by means of an automatic shut-off against an overload. The three magnet relays and their contacts are easily accessible through the input / output terminals. This feature makes it possible to operate the circuit breaker with heavy loads. Another area application using this method is experiment the start/stop characteristics of an induction motor with three phase along with a Ү, ∆ transformation.
SPECIFICATION:
  • Main Circuit Breaker ------------------- Load Current 20A, 3Phase.
  • Magnet Contact ------------------- 9A x 3 way & aux- contact (1-Make, 1-Break)
    (2, 3) 13A x 3 way & aux contact 1-Make
  • Overload Protection ------------------- current controlled (magnet contact 1,2,3)
  • Terminals ------------------- 20A Binding post (2 colors)
  • Indicators ------------------- lamp indications
  • Input power ------------------- 380V 3 Phase or 220V Single Phase.
  • Connecting Leads
  • User Manual.


Domestic Wiring Trainer Model
IPC-589-DWT
SPECIFICATION:
Sr.# Components Description Qty
01 ON/OFF Switches With 1 Hole Plate & Junction Box 4
02 Two Way Switches With 1 Hole Plate & Junction Box 2
03 Multi Circuit Switch - 2
04 Two Nos, Two Switches With 1 Hole Plate & Junction Box4
05 Socket With Plate & Junction Box 2
06 Lamp/Holder Junction Box With Single Hole Plate 4
07 Lamp Two(100W), Two(60W) 2each
08 Choke 4 x 6 Big Junction Box 1
09 Left Side Holder With Stator With 1 Hole Plate & Junction Box 1
10 Right Side Holder With Plate & Junction Box 1
11 Junction Box 4 x 4 With Backlit Plate 4
12 Wire Coil 1/0.044 1
13 Screw Box - 1
14 NUT/Washer 4mm Box With Washer With Screw 1
15 Terminal Plates - 2
16 Terminal Plates With Banana - 1
17 Volt meter 0-500V 1
18 Circuit breaker - 1
19 Main lead - 1
20 On/Off Switch - 1
21 Tube rod - 1
22 User manual - 1


Experiments can be preformed on trainer
  • 1. Handling of wire (straight Line)
  • 2. Handling of wire (Z-Type)
  • 3. Handling of wire (L-Type)
  • 4. Handling of wire (I-Type)
  • 5. Handling of cable (straight Line)
  • 6. Handling of cable (Z-Type)
  • 7. Types of Diagram
  • 8. Graphical symbols (for different diagrams)
  • 9. Lay out plane
  • 10. Installation of socket circuit diagram.
  • 11. Lamp single pole switch
  • 12. Single pole switch socket
  • 13. Lamp socket
  • 14. Single pole switch lamp socket
  • 15. Single pole switch-lamp circuit & socket circuit
  • 16. Single pole switch circuit direct socket circuit
  • 17. Lamp single pole switch socket
  • 18. Lamp single pole switch socket (2 lamps)
  • 19. Single pole switch - lamp circuit & single pole switch - socket circuit
  • 20. Two lamps multi circuit switch (Wire)
  • 21. Two lamps multi circuit switch (Pipe)
  • 22. Multi circuit switch - switch circuit
  • 23. Multi circuit lamp - multi circuit socket
  • 24. Multi circuit switch circuit + socket circuit
  • 25. Multi circuit switch - lamps and single pole switch - socket switch
  • 26. Multi circuit switch circuit
  • 27. Two way circuit (wire)
  • 28. Two way circuit (Cable)
  • 29. Lamp two way switch (socket)
  • 30. Lamp two way switch
  • 31. Lamp two way switch (socket)
  • 32. Two way switch circuit
  • 33. Lamp single pole and two way switches
  • 34. Lamp two way and intermediate switch
  • 35. Intermediate switch circuit
  • 36. Lamp two way & intermediate switch circuit (cable)
  • 37. Intermediate switch circuit & socket circuit
  • 38. Fluorescent lamp on single phase supply


BASIC ELECTRICITY TRAINING KIT
IPC - 555-PH
SPECIFICATION:
The kit is composed of a set of components and devices which allow a practical demon - stration of the most important laws of electricity & electro physics. All the components and devices are mounted on metallic base complete with terminals for an easy connection of the test circuit. The kit is supplied with a comprehensive manual which outlines the different subjects of the practical exercises in a simple and progressive way. Due to the simplicity of its components and to the guided testing procedures contained in the manual, this kit is suitable for courses both in electro physics and electrotechnics The tests can be carried out by the student under full safety conditions.
Regulated power Supply:
  • power Supply with short circuit protections that provides +5V, +12V and -12V Power Supply. Fuse protected.
  • Variable DC Power Supply:
  • Dual Variable Power Supply that provides 0 to +30V and 0 to - 30V powers. Fuse protected.
    AC Power Supply:
  • Power Supply that provides 9V, 15V, 18V & 30VAC supplies.
    AC, DC Voltmeter , Ammeters:
  • Voltmeters and Ampere Meters with AC, DC ranges that provides 0 - 30 VAC 0 - 30 VDC
  • 0-1 Amp. AC, 0-500 mAmp. DC with protection fuse.
    Galvanometer:
  • Galvanometer for current deflection with protection fuse.
    Function Generator:
  • Sine, Square, Triangular Wave Frequency all adjustable. 0.5Hz to 500Khz.six ranges.
    FREQUENCY COUNTER
  • Two Digit operate on 220VAC 50Hz.
RESISTANCE
  • 5K ohm, 10 Kohm, 100K ohm Variable carbon type General Features:
  • Double Pole Double Throw Switch
  • Eight Single Pole Single Throw Switch
  • Four Push Pull or Press Switches
  • Four +12V DC Bulbs
  • Resistance Bank
  • Capacitance Bank
  • Inductance Bank
  • NPN, PNP Transistors
  • Diodes, Bridges
  • Regulator
  • Zener Diodes
  • LED
  • Double size Breadboard
ADDITIONAL FEATURES:
  • Digital Multi-Meter
  • Analog Multi-Meter
GENERAL :
  • Power Requirements: 220 VAC 50Hz.
STANDARD ACCESSORIES:
  • Connecting Leads
  • Jumping Wires
  • Experimental Manual
OPTIONAL MODULES:-
MODULE-IPC-SN-1
  • 1. Measuring Exercise with capacitors.
  • 2. Measuring Exercise with coils.
  • 3. Measuring Exercise for series circuit of active resistance & reactance.
  • 4. Measuring Exercise for parallel circuit of active resistance & reactance.
  • 5. Measuring Exercise for RCL circuits.
  • 6. Measuring Exercise for quadruples.
MODULE-IPC-SN-2
  • 1. To study different type of semi conductor diodes.
  • 1.1. Rectifier diodes.
  • 1.2. Half wave rectifier circuit with various charging capacitors.
  • 1.3. Half wave rectifier circuit with various load resistance.
  • 1.4. Full wave rectifier circuit with various load resistor.
  • 1.5. Full wave rectifier circuit with various charging capacitors.
  • 2. Mode of operation of RC filters circuits.
  • 3. Voltage-Doublers & Voltage-Multiplier circuits.
  • 3.1. Mode of operation of a full wave Multiplier circuits.
  • 3.2. Mode of operation of a half wave voltage doubling circuits.
  • 3.3. Mode of operation of a half wave voltage multiplier circuits.
MODULE-IPC-SN-3
  • 1. To study different types of semi conductor diodes.
  • 2. Voltage stabilization using Zener diodes.
  • 3. Voltage stabilization using variable load current IL.
  • 4. Determination of the dynamic internal resistance ri of voltage stabilization circuits.
  • 5. Mode of operation of filter circuits with Zener diodes.
  • 6. Voltage limitation with zener diodes.
  • 7. Voltage stabilization using variable input Uin.
  • 8. Determination of dynamic internal resistances ri of voltage stabilization circuits.
MODULE-IPC-SN-4
  • 1. To study different types of Semi conductor diodes.
  • 2. To study Bipolar Transistors.
  • 3. To study Sensors.
MODULE-IPC-SN-5
  • 1. Operational Amplifiers.
  • 2. Basic circuits with operational amplifiers.
  • 3. Compensation of Offset voltage amplifiers.
  • 4. Inverting amplifier for OP-709.
  • 5. Inverting amplifier for OP-741.
  • 6. Non-Inverting amplifier for OP-741.
  • 7. Elector meter amplifier-impedance converter.
  • 8. Operational amplifier as comparator.
  • 9. Adder.
  • 10. Sub tractor.
  • 11. Integrator.
  • 12. Differentiator.
  • 13. AC amplifier with frequency-dependent negative feedback.
MODULE-IPC-SN-6
  • 1. Thyristors.
  • 2. Triggering.
  • 3. Determination of triggering voltage UJT & holding current IH.
  • 4. Mode of operation in full wave mode.
  • 5. Pulse triggering with integrated circuits.
  • 6. Phase control with thyristors.
  • 7. Mode of operation of phase control.
  • 8. Effect of load resistance on the current flow angle.
  • 9. Control of anti parallel switched thyristors with pulse transformer.
  • 10. Mode of operation of phase control with triac.
MODULE-IPC-SN-7
  • 1. Power supply unit with transistors.
  • 2. Power supply unit with regulating amplifier without constant current source.
  • 3. Generation of the supply voltage by half wave rectification.
  • 4. Generation of the supply voltage with bridge rectification.
  • 5. Power supply unit with regulated amplifier & constant-current source
  • 6. Basic setting within the working range.
  • 7. Determination of the internal resistance.
  • 8. Analysis of the constant current behavior.
  • 9. Electronic current limitation.
MODULE-IPC-SN-8
  • 1. Function generator.
  • 2. Square wave generator.
  • 3. Determination of the possible adjustment.
  • 4. Determination of the frequency range.
  • 5. Determination of the pulse no-pulse ratio.
  • 6. Triangular wave generator.
  • 7. Determination of the rise time & full time.
  • 8. Sine wave generator.
  • 9. Setting of the wave form.
MODULE-IPC-SN-9
  • 1. To study different type of Bipolar transistors.
  • 2. To study different type field effect transistors.
  • 3. Setting the work point of depletion layer FETs (JFETs)
  • 4. Determination of voltage gain.
  • 5. Determination of R in & R out.
  • 6. Determination of cutoff frequency.
  • 7. Bipolar transistor / Field effect transistor.
  • 8. Determination of characteristics values of the base circuit.
  • 9. Determination of characteristics values of a two stage LF amplifiers.
  • 10. Determination of characteristics values of the first stage.
  • 11. Determination of characteristics values of the 2nd stage.
  • 12. Comparison of characteristic data of the two amplifier stages.
  • 13. Determination of the total gain Au total.
  • 14. Determination of the upper & lower cutoff frequency.
MODULE-IPC-SN-10
  • 1. Multivibrator.
  • 2. Monostable multivibrator.
  • 3. Multivibrator with module 555.
  • 4. Measuring the input signal.
  • 5. Behavior of the module 555 as monostable multivibrator.
  • 6. Monostable multivibrator with mode 74123.
  • 7. Schmitt trigger.
  • 8. Schmitt trigger with module TCA 845A.
  • 9. Schmitt trigger with operational amplifier 741.
  • 10. Astable multivibrator.
  • 11. Astable multivibrator with module 555.
  • 12. Frequency ranges of the astable multivibrator.
  • 13. Working principle of the astable multivibrator.
  • 14. Square wave generator with monostable multivibrator.
  • 15. Astable multivibrator with module 74123.


AC DC MOTOR GENERATOR SET MODEL
IPC-2100 - MG
SPECIFICATION:
POWER SUPPLIES:-AC SECTION.
  • 1. Three phase main power supply siemens rated Value current rating (18A-24A) with protection.
  • Indication light.
  • Emergency OFF Push Switch.
  • Power requirement 380V/50 Hz.
  • 2. Three phase main power supply siemens rated current rating (2.4A-4A) with protection.
  • Indication light.
  • Power requirement 380V/50 Hz.
  • Fixed in front panel.
  • 3. Single phase AC Supply unit 230V,6A,50Hz, with fuse protection.
  • ON/OFF Switch.
  • Indication Light.
  • Output with safety socket (4mm)
  • 4. Single Phase variable supply unit 230V,6A,50Hz with fuse protection.
  • ON/OFF Switch.
  • Indication Light.
  • Output with safety socket (4mm)
  • 5. Three phase separate output supply with ON/OFF switch Supply terminals with 4mm banana socket L1, L2, L3, N,E.
  • 6. Three Phase separate output supply for three phase motor run with star delta connection.
  • ON/OFF Switch.
  • 380V, 50Hz.
DC SECTION:
  • 1. DC Power supply 230V, 6A, fixed ON/OFF Switch with fuse
    Protection.
  • 2. DC Variable power supply 0-230V, 6A ON/OFF Switch with
    Fuse protection. 2 x 0-----230V DC.
    For Motor/Generator field excitation and armature
    Supply for Motor.
  • 3. DC Variable drive rated 220V, 7A, ON/OFF Switch, Fuse Protection external, internal 6A, with indication light.
METERS FOR MEASURMENTS.
  • AC VOLT METER. (4Nos.) Range 0-----500V accuracy class 1.5,
    connection available 4mm safety socket panel mount (96x96).
  • AC AMPARE METER. (4Nos.) Range 0-----10A accuracy class 1.5,
    connection available 4mm safety socket panel mount (96x96).
  • DC VOLT METER. Range 0-----500V accuracy class 1.5,
    connection available 4mm safety socket panel mount (96x96).
  • DC AMPARE METER. Range 0-----10A accuracy class 1.5,
    connection available 4mm safety socket panel mount (96x96).
  • POWER METER. Range 0-----2Kw accuracy class 1.5,
    connection available 4mm safety socket panel mount (96x96) Three phase.
  • POWER FACTOR METER. Power factor 0-----1-----0
    Phase angle -90 Degrees (cap)-----0-----+90 Degrees (ind)
    Accuracy class 1.5
  • FREQUENCY METER. Range 47Hz----55Hz
    Panel mount (96x96).
  • DIGITAL RPM METER. Range 0-----9999. Size (48x96) with sensor panel mounted.
  • Connection Leads. 4mm safety connection lead one set.
OPTIONAL Motor:-
  • DC Machine
  • 3 phase Induction Motor
  • Synchronous Motor
DC DRIVE Thyristor Drive System: - An electronic drive that shows how to use thyristor circuits to drive D.C. machines.
AC DRIVE Variable Frequency Inverter: - Three phase variable frequency output from single-phase fixed frequency supply.
OPTIONAL:- Loading modules: - Variable loads of resistance, capacitance and inductance.
Break Control Unit:-
LIST EXPERIMENTS:-
  • Study of DC Separately Excited Shunt Generator.
  • Load Characteristics of the DC Shunt Generator.
  • Magnetic Characteristics of the Separately Excited DC Generator.
  • Component of Voltage Drop in DC Shunt Generator.
  • Load Characteristics of the DC Series Generator.
  • The DC Compound Generator.
  • DC Shunt Motor.
  • To Study the torque VS Speed characteristics
    and calculate the efficiency of DC Shunt Wound Motor.
  • Performance test of Shunt Motor using Swinburne Test.
  • Load Characteristics of the DC Series Motor.
  • Speed Control of the DC Motor.
LIST OF EXPERIMENTS:-Study of Three Phase Synchronous Generator.
  • The Resistance Test.
  • Open Circuit Test.
  • Short Circuit Test.
  • Voltage Regulation.
  • Load Test.
  • Per-Phase Impedance.
  • Load Test of a Three Phase Induction Motor.


POWER ELECTRONICS LAB UNIT MODEL
IPC- 550- PE
SPECIFICATION:
EXPALNATION OF THE POWER ELECTRONICS TRAINER
The Power Electronics Trainer IPC-550-PE has been specially developed for the measuring exercises in course. It form the basis for all basic circuits in the field of D.C and A.C power controllers as well as the 1-. 2-, 3- and 6-pulse power converter circuits in rectifier mode and inverter mode. It can be used not only for the passive loads but also for active loads.The unit is designed for the operation on the 3 x 38 / 22V mains, the connection being made via laboratory leads to the 4-mm plugs.
Care should be taken that, for reasons of the synchronization of trigger pulses, the unit is to be connected to the three outer conductors and the neutral conductor for all exercises. By virtue of the transparent front panel, the construction of the technical equipment can easily be seen and the arrangement of the plugs is the basis for each connection layout of all experiment circuits the printed symbols shall guarantee a quicker circuit construction without any problems.
Power Electronics Trainer Model:- IPC-550-PE
The conductor L1, L2 and L3 are applied to input of the communication chokes (Lk = 2mH; 10A) via fine wire fuses (4Aff) and the main switch. The control lamps H1-H3 indicate the function of the fuses and are lit in the case of a blown fuse. The limiting values for controlled valves V1-V6 are
URRN = UDRM = 1000V; ITAVM = 10A
And for uncontrolled valves V10-V60
URRM = 1000V; IFAVM = 10A
The AHS circuits consists, together for all twelve valves, of an RC element with the following data
RTSE = 100 ohms, 5W; CTSE = 0,047μF, 400V
The main currents, the valve currents and the load currents can be converted into a proportional measuring voltage by means of the built-in precision resistor 1 ohms. Since the voltage supply of the controlled unit is protected via fuse F4, switch S is used for pulse enabling and pulse inhibit.The twelve trigger-pulse outputs are electrically isolated from each other and are divided into three pulse groups. For example, pulse group U1 is assigned to phase voltage UL1N. The two upper pulses being in phase used to control the negative half-wave of the voltage. The plugs marked with "G" are provided for the gate terminal and the plugs marked with the "K" for the terminal at the cathode-side of the thyristor.The potentiometer R serves for the adjustment of the control angle of the phase voltages ranging from 0° ≤α ≤ 180.The two other potentiometers are provided for the matching of the control range to respective switching situation. Potentiometer α GR (GR = Rectifier) is used to adjust the pulse-finish position at the beginning whereas the pulse-finish position at the end is set by operating potentiometer α WR (WR = Inverter).
NOTES ON THE FURTHER TECHNICAL EQUIPMENT
The essential part of the circuits of exercises and test in course "Power Electronics" can be constructed using converter-Rectifier Trainer IPC-550-PE. For a number of additional exercises a modern laboratory with some additional power - converter equipment must be available.
Explanations for the Worksheets of Course IV:
The worksheets for the 16 practice circuits are given in the order of the circuit code numbers. The worksheets belonging to a circuit for exercise consists of two general pages with the proper worksheets.The general pages consist of a circuit diagram, a component layout or a terminal connection diagram, the specification of the equipment necessary for the exercises and a short description of the circuit and the exercises.The following worksheets consist of - divided into subsection - the respective task including the necessary technical information and the corresponding tables, diagrams or equation. The determined measured values and results have to be inserted there.The given exercises to the particular circuits are rather suggestion for the systematic procedure for exercises.It is not intend that each student should perform every single experiment in course. It is left to the instructor to select optimum number of exercises according to the method of teaching. These exercises can be carried out by the student in groups. Of course it is possible that each group of students does a different exercise. In any case the result of the exercise should be compared and discussed by the students among themselves.
Course: PE POWER ELECTRONICS Circuit:
Page :1
ToMeas
Notes on the Measuring Methods Meas
Notes on the Measuring Method "Power Electronics" is designed so that the exercises are carried out - according to later practice - directly on the 38/22V mains voltage. To avoid the dangers of electric current, the teacher and in particular have to follow strictly VDE specification. At the beginning of the practical exercises, it is necessary to explain in detail the dangers of measurements techniques in power electronics. When measuring with oscilloscope, special problems may occur. Since different oscilloscopes are used in the training center as well as in practice, we intend to point out the possible disadvantageous effects in the following for examples. In addition, it is necessary that all voltage measurements with the oscilloscope are executed using probe with a divider ratio 10: 1. The input circuit of the oscilloscope is consequently loaded at a minimum and also the amplitudes of high voltage can be displayed on the screen of the oscilloscope. It is must also be demanded from the students that each circuit construction and each change in the configuration have to be carried out in disconnected state. Any connection of the mains voltage calls for a preceding check of the circuit and the permission of the teacher to begin with the measurements.
LIST OF EXPERIMENTS: -
  • 1- Half-wave centre - tap circuits M1U
  • 2- Full-wave bridge circuits B2U
  • 3- Three-pulse centre-tap circuit M3U
  • 4- Six-pulse bridge circuit B2U
  • 5- Half-wave power converter M1C
  • 6- Fully-controlled bridge circuit B2C
  • 7- Controlled three-pulse power converter M3C
  • 8- Symmetrical half-controlled bridge circuit B2HK
  • 9- Asymmetrical half-controlled bridge circuit B2HZ
  • 10- Half-controlled three-phase bridge circuit B6H
  • 11- Fully-controlled three-phase bridge circuit B6C with active load
  • 12- Rotational-speed controlled D.C. motor
  • 13- Half-Controlled A.C. power controller W1H
  • 14- Fully-Controlled A.C. power controller W1C
  • 15- Half-Controlled three phase power controller W3H
  • 16- Fully-Controlled three phase power controller W3C


STAR DELTA STARTER TRAINER MODEL
IPC-68-SDST
SPECIFICATION:
The IPC Star Delta Starter Trainer is consists of two separate circuit diagrams; one is for control circuit diagram & second is for power circuit diagram with real simulation. In control & power circuit diagram there are different test points for measuring and testing of circuitry.
SPECIFICATION:-
ON Board Facilities
  • Safety test sockets.
  • Motor protection switch.
  • Thermal breaker.
  • Digital Multi meter.
  • Contactor rating 380V/25A, Coil 220V.
  • Over load 16A/22A Adjustable
  • Three phase main power Breaker.
    18A/25A Adjustable
OPTIONAL:-
3-Phase Induction Motor 380V Δ


TRANSFORMER TRAINER

SPECIFICATION:
List of Experiments:-
  • 1- To find the transformation ratio of a transformer by watt meter method.
  • 2- To find the transformation ratio of a transformer on load by the ampere meter method.
  • 3- Polarity test of transformer.
  • 4- To determine the iron loss current, no-load current, power factor on no-load & magnetizing current.
  • 5- Study of transformer on no-load & on load conditions.
  • 6- To find the current losses of a transformer by sort circuit test.
  • 7- To find the iron losses of a transformer.
  • 8- To find the efficiency of a transformer by direct loading (Resistive).
  • 9- To determine the efficiency of a transformer by direct loading (Inductive load)
  • 10- To determine the efficiency of a transformer by back to back test.
  • 11- To determine the regulation of a transformer with resistive load.
  • 12- To determine the regulation of a transformer having inductive load.
  • 13- To use three single phase transformer as star to star connected three phase transformer.
  • 14- To use three single phase transformer as star to delta connected three phase transformer.
  • 15- To use three single phase transformer as delta to delta connected three phase transformer.
  • 16- To use three single phase transformer as delta to star connected three phase transformer.
  • 17- To use two single phase transformer as V-connected three phase transformer (open delta connection).
Optional Load Banks
  • 1- Resistive load bank
  • 2- Inductive load bank



POWER DISTRIBUTION TRAINER
IPC-314-T
SPECIFICATION:
Single Phase Transformer:
Single phase isolating transformer when off-load, loaded and with a short-circuit. Off-load and on-load voltages. Short circuit voltage, sustained short circuit current. Power, iron and copper losses and efficiency. Switch on-current transients (Rush effect). Measurement on a single phase auto transformer and there differences to an isolating transformer.
Three Phase Transformer & Circuit Groups:
Construction and notation of three phase transformers. Magnetizing current magnetic asymmetry. Consumed and delivered power and efficiency. Switch-On current transient (Rush effect). Transformation ratio. Phase relationship between input and output of the transformer. Load applied between one line and neutral in following circuit group: Yy0 (Star-Star), Yd5 (Star-Delta), Yz5 (Star-Zigzag), Dy5 (Delta-Star).
SPECIFICATION:
Single Phase Variable / Isolating Transformer: Single Phase variable transformer and isolating transformer, with protective winding for producing various exercise voltages. All outputs can be connected in series.
Output: 		2 x ...¦3V/6A 
	  		2 x ...¦12V/3A
Can be connected in Parallel.
			1 x 42V/0.7A
			1 x 230V/0.2A
Single Phase Exercise Transformer:
Input:			2 x 12V/1.2A
Output 1:		12V/1.5A
Output 2:		12V/1.5A
Input :			230V
Output 1:		230V
Output 2:		230V	
Three Phase Transformer:
Three phase transformer and three phase rectifier. To protect against high body contact voltages, the main supply voltage of 230/400 V is stepped down to 23/40V.
Input:			3 x 400V
Output:		        23/40 V, 1.2A	
Three Phase Exercise Transformer:
Three leg exercise transformer for basic exercises. Output for Star, Delta and circuit groups including a Zig-Zag circuit.
Input:			3 x 23/40V (Star or Delta)
Output:		        3 x 2 x 11V
Phase Current:		4 A max
Regulating Isolation Transformer:
Isolating Transformer, suitable for exercises with off load, loaded and short circuit conditions
Output Voltage:	
Auto transformer:	2 x 0-12V/3A
Exercise transformer: 	Primary 2 x 12V/1A
			Secondary 2 x 12V/1A
Power requirements:	230 V/50Hz
LIST OF EXPERIMENTS:
STUDY OF SINGLE PHASE TRANSFORMER &RECTIFIER CIRCUITS:
 	Single Phase Transformer OFF Load, Loaded and Short Circuit.
 	Single Phase Transformer Losses, Efficiency, and Rush-Effect.
 	Single Phase Transformer, Auto Transformer.
 	Rectifier Circuit (Half-wave Rectifier) (M1)
 	Rectifier Circuit (Full-wave Rectifier) (M2)
 	Rectifier Circuit (Bridge Rectifier) (B2)
STUDY OF THREE PHASE CIRCUIT:
 	Three Phase Main Supply.
 	Star Circuit.
 	Delta Circuit.

STUDY OF THREE PHASE TRNASFORMER:
 	Three Phase Transformer.

CIRCUITS USING THREE PHASE TRANSFORMER:
a	Circuit groups Yy0 (Stat   -  Star)
b	Circuit groups Yd5 (Star   -  Delta)
c	Circuit groups Yz5 (Star   -  Zig-Zag)
d	Circuit groups Dy5 (Delta   -  Star)

STUDY OF THREE PHASE RECTIFIER CIRCUITS:
 	Star Circuit.
 	Bridge Circuit.
 	Double   -  Star Circuit.



DC Machine Sectioned Model
IPC-01-DMS


ANTENNA TRAINER (6.GHz Frequency)
IPC-3600
Antenna Trainer comprises of following instruments / components.
No. Description Qty.
1 C-Band Transmitter with mounted Horn Antenna 1
2 C-Band Receiver cum power meter mounted on turntable 1
3 Dipole Antenna 1
4 Pyramidal Horn Antenna 2
5 Yagi-Uda Antenna 1
6 Helical Antenna 1
7 Microstrip Patch Antenna 1
8 Parabolic Reflector Antenna with dipole disk feed 1
9 Rhombic Antenna
10 Folded Dipole Antenna
11 4 Element Patch Antenna Array 1
12 Double Dipole Array 1
13 Cables SMA(m) to SMA(m) 2
All of the antennas are fed by panel mount SMA (f) connector to attach with transmitter and receiver. An operating manual which contains the comprehensive information about all items will be provided. It also describes how to use the apparatus and perform the experiments adequately.


ANALOG AND DIGITAL COMMUNICATION TRAINER
IPC-786
Communication Trainer IPC-786 is low cost high performance communication teaching system. It is design to provide all the basic tools necessary to conduct experiments in the field of digital and analog communication engineering, it can also be used for R&D projects in communication. The IPC-786 has been designed to act as basic tool for carrying out experiments in the field of communication for technical colleges & universities undergraduate and graduate courses. IPC-AM-3000 has built in RF crystal oscillator, AF oscillator and regulated ±12Volts and +5Volts power supplies.
In addition there is a wide variety of plug in modules available for different types of experiments to be performed. This trainer is intended as a supplement to the textbook for communication course at junior, senior and graduate level student for electrical, electronics, computer engineering and computer science, in addition, it can also be very useful for engineers from the industry who design and apply communication system in their products. IPC-786 communication trainer comprises of a base unit, set of 19 modules and necessary interconnecting leads to carry out about twelve experiments in the field of analog & digital communication a comprehensive manual is also provided along with the trainer. On the request more experiments can be added in the trainer.
FEATURES:
- Input voltage 220V 50 Hz AC
- 10.24 MHz crystal controlled RF signal source
- Low distortion 500Hz/1KHz AF signal source
- Clock with variable frequency 7Hz to 6 KHz.
- 2 Breadboards
- DC Supply voltage +12V, -12V and +5V at 100mA
- 7 sockets for modules.

SPECIFICATION:
Data Generator Module
NRZ1 11010100
NRZ2 011111111
NZR3 10101111
CLK 32KHz
4Phase Clock Module:
this module outputs pulse trains of phases 0°, 90°, 180°, & 270°, at J2, J3, J4 & J5 respectively when clock signal is input at terminal J1.
FM Module:
This module generates frequency modulated carrier of center frequency about 88KHz at terminal J2 when AF modulating signal is applied at terminal J1.
Clock to Sine Converter Module:
This module generates synchronous sine and square wave output signal with controllable amplitude and frequency 1/8th of input clock.
Sample & Hold Module:
This module samples AF signal applied with sampling signal and outputs sampled signal.
Balanced Modulator:
The balanced modulator multiplies two input signals. It is used in synchronous demod of PSK & AMSC signals.
Low Pass Filter Module:
This module two 2nd order active LPF with cutoff frequencies of 500HZ and 1KHz.
FM Carrier Synchronizer Module:
This module generates AF signal phased locked with FM carrier signal input. The simultaneous display of AF and FM signals on scope results in stable waveforms on scope.
Pulse Time Modulation Module:
This module generates PWM and PPM signal when sample - and-Hold AF signal and sampling signal reapplies.
List of Experiment
- Familiarization with IPC-786.
- To study the sampling theorem.
- To study line coding & decoding techniques.
- To demonstrate the clock Gen. from Manchester code data.
- To study pulse time Modulation.
- To study two channel TDM system.
- To study FSK modulation.
- To study the PSK & ASK Modulation.
- To study PCM.
- To study AM.
- To study of Envelope Detector.
- To study SSB Modulation.
- To study FM.
ADD ON MODULES (OPTIONAL).
- AM/SSB Modulation/Demodulation.
- NZR Data Generator.
- Manchester & RZ Encoder/Decoder.
- Clock & Data recovery Modules.
- PCM.
- Quadature amplitude Modulation/Demodulation.
- Delta Modulation.

DIGITAL EXCHANGE TRAINER
MODEL: - IPC-72-DE
SPECIFICATION:-.
  • Based on 89c51 CPU fault simulation system
  • Provision 2 trunks, 8 Extension lines
  • Block diagram of PABAX is on board
  • Working in 2 modes:
  • i. Trainer Mode
    ii. PABAX Mode
  • 70dbm cross attenuator
Experiments perform on the trainer are:
a. Redial
b. Extension to extension
c. To hold a line
d. Call parking
e. Talk trunk to extension
f. Call pickup
g. Call Transfer
h. Locking / Unlocking
MICRO STRIP TRAINER (Microwave)
IPC-4800

DESCRIPTION:-
The increase use of microwaves, in application ranging from satellite and terrestrial communication to high speed computing and data transmission, has resulted in short-fall of appropriately trained engineers and technicians.Over three quarters of all microwave circuits are now non-waveguide. The swing towards micro strip technology must be reflected in the courses offered in engineering education institutes
BE: recognizing the urgent need for suitable training equipment, have developed a micro strip trainer which will provide the means to investigate the technology and techniques used in this important subject area.
IPC-4800 Micro Strip Trainer comprises 18 passive circuit components, 2 active circuits and all the leads and connectors required to construct a verity of commonly used configurations, many of which incorporate microwave integrated circuits (MICs).The instruction manual supplied with IPC-4800 provides a comprehensive introduction to the subject in a manner which avoids unnecessary mathematical analysis and provides series of structured practical assignments.The only items of test equipment required are a digital multi meter and a 0-20V DC power supply.
IPC-4800 covers the training requirements for most courses in microwave engineering at undergraduate level courses.
FEATURES:
  • Latest Microwave technology.
  • 2.0-3.5 GHz VCO.
  • 2.4GHz RF Bridge.
  • No costly test equipment required.
  • Safe low power output.
  • Conveniently packed for inventory control.
THE COMPLETE IPC-MS-3000 MICRO STRIP TRAINER CONSISTS OF:
PASSIVE COMPONENTS: 2 Patch antenna
1 DC Biasing unit
1 Three-port circulator
1 Hybrid ring (rat-race) coupler
1 Ring resonator
1 RF bridge
1 Quadrate coupler
1 Unmatched load
1 Directional coupler
1 Wilkinson power divider
3 50 ohms loads
1 Short-circuit termination
1 20dB attenuator
1 Crystal detector
1 Low-pass filter
1 Matched load
ACTIVE COMPONENTS:
1 Voltage controlled oscillator (VCO)
1 S-band MMIC amplifier
MISCELLANEOUS:
8 SMA plug-plug connector
1 BNC - dual banana pins
1 DB(9) circular lead
2 4mm banana leads
1 Spanner
- VCO and detector calibration curves
Most of the components are packed in bright aluminum enclosures and their interconnection is by standard SMA coupling; providing secure but easily made joints. The trainer is designed to be used with basic test equipment: a DC power supply and a digital multi meter; in conjunction with the calibration curves supplied with each VCO and detector. Realistic quantitative results can easily be achieved with this simple set-up;however the quality of construction allows IPC-4800 to be used with more sophisticated microwave test instruments if these are available.
THE ASSIGNMENTS:
The manual provides a series of structured and stand alone assignments; using mostly the passive components: introduction to micro strip, microwave integrated circuit (MIC) technology and microwave measurement techniques. Further assignments encourage the student to build up complete systems incorporating the active circuits.The individual units of both active and passive components are designed for compatibility and easy interconnections, thus ensuring that circuits such as a line-of-sight link or simple frequency modulated continuous wave (FMCW) can be built and tested with minimum difficulty.
The basic principles and techniques of microwave signal processing using micro strip are simply and comprehensively presented, so that the trainer is ideal for use by engineers and technicians working in a variety of different areas of application, including:
  • Satellite communication
  • Radar
  • Surveillance-Security system
  • Instrumentation
  • Medical electronics
  • Data transmission
The practical work is presented under the following general headings:
  • Power source and detector action.
  • Action of a 3-port circulator.
  • Insertion loss measurement on a low-pass filter.
  • Measurement of return loss, reflection coefficient and VSWR of a filter, micro strip and commercial matched loads.
  • Matching investigations: reflection coefficient of unknown resistive load and its matching b ¼ λ g transformers and shunt stub.
  • Properties of power divider and retrace coupler.
  • Measurement of effective dielectric constant and line loss using a ring resonator.
  • DC biasing and MMIC amplifier investigations.
  • Quadrate coupler investigations.
  • RF bridge investigation.
  • Microwave radio link and antenna investigations.
IPC-4800 trainer complete experimental workstation is also available comprising the supply and a digital multi meter.
TECHNICAL SPECFICATION:
  • Patch Antenna
  • Two micro strip patch antenna supplied
  • Centre frequency: 2.7 +0.05GHz
  • Gain: 6dBi (typical)
  • Return loss: -17dB
  • Impedance: 50 ohm
Bias network
These components consists of three types of bias lines. Two a.c and one d.c all utilization the quarter wavelength transformer.
Bias line type Insertion loss (dB)
Butterfly
Pad
Direct d.c short 2.7GHz 0.02 0.02 0.02 Full band (2-4 GHz) 0.12 0.11 0.08
Three-port circulator
Insertion loss: 0.4dB (max at 3GHz)
Insertion loss: 0.5dB (max 2.5 - 2.9GHz)
Isolation : 16 - 24dB (full band 2.5 -2.9GHz)

Hybrid ring (Rat - race) Filter
This is a standard hybrid-ring (or rat-race) coupler
Centre Frequency : 2.7 +0.1GHz
Insertion loss (at center frequency):-3.2dB
Bandwidth: 400MHz
Isolation: 25dB (typical)
Impedance: 50

Ring Resonator

A looses-coupled resonant ring designed to resonate at a fundamental frequency of approximately 2.7GHz in its n = 2 mode. This component is used to measure the dielectric constant of the printed board.

Low Pass Filter

A 5-section, L-C type micro strip low pass filter.
Pass band (Nominal): DC- 2.7GHz
Stop Band: 3dB point at 3GHz (approx) rising to 20dB at 20% above cut-off.
Impedance: 50 ohm

Matched Load
A quarter wavelength long termination in a standard, 50, thick film, chip resistance. Centre frequency
Return loss:
Input impedance:

Unmatched Load
Three 50 input lines terminated in unknown resistive loads. One incorporate a λ/4 transformer with a centre frequency = 3GHz, and one uses an open-circulated shunt stub element.

Wilkinson Power Divider
Centre Frequency: 2.7 GHz
Operating band: 2-4GHz
Insertion loss: 3.5 +0.25dB
Tracking: 20dB (typical)
Impedance: 0.15dB (typical over full band 50 ohm)

Voltage Controlled Oscillator
The VCO is supplied with its own calibration curve and amplifier
Frequency range: 2.0 - 3.5 GHz
Tuning voltage: 1 - 20V
Power output: 10dBm (typical into 50 ohm)
Modulation output frequency: 1kHz (variable 900-1100Hz)
Modulation waveform: square wave
Modulator indicator: 2Hz flashing LED
DC supply voltage: 15V fix (fully protected)
DC supply current: 50mA (maximum)
Supply connector: 4mm sockets

S-band MMIC Amplifier
Gain: +15dB (typical)
Compression point: +12dBm (typical)
Frequency range: 1.5 - 4GHz
Input impedance: 50 ohm
Output impedance: 50 ohm
Supply voltage: 15V (fully protected)
Supply current: 40mA (typical)
Supply connector: 4mm sockets

RF Bridge
Frequency range: 2 - 4GHz
Built in diode detector:
Impedance: 50 ohm

Ancillary equipment
Power supply: 15V DC
0-20V DC variable
1.5A
Regulated DC power supply PS-3000 is recommended

Power Requirements
Power supplies: 15VDC 1.5A
VCO tuning voltage: 0 - 30VDC 1.2.5A

Dimension & Weight (in protective case) Width: 430mm (17in)
Height: 310mm (12in)
Depth: 89mm (3.5in)
Weight: 4.5Kg (9.92lbs)

Tender Specification
A microwave integrated circuit trainer using micro strip components and operating in the 2 - 4GHz band. To contain 18 passive components. 3 active components and all necessary connectors and leads. Complete with instruction manual providing at least 11 assignment.


TELEPHONE TRAINER
IPC-182-C

  • Based on basic telephone instrument circuits.
  • 8 Faults creating switches for different sections.
  • Circuit diagram on board describing different sections in telephone like
  • (a) Line Protector.
    (b) Voltage Dropper
    (c) Ringer.
    (d) Dialer.
    (e) Key Matrix.
    (f) Sound Amplifier.
    Test points to measure the signals in different sections. Can be use as normal telephone instrument. User's manual with fault finding.
WATER COOLER FAULT TRAINER
IPC-72-RAC
SPECIFICATION:
The Water Cooler Fault Trainer Model: IPC-72-RAC is an ideal study Unit. Running Capacity 30 Liters, with R134a Gas, Water Tap, Drain Tray, Operates on 220Volts 50 Hz with complete accessories, wiring diagram and warranty card and operational manual.


CHILLER FAULT TRAINER
IPC-57-RAC
SPECIFICATION:
Study unit capacity 2.5 to 4 Tons 3 Phase 380-400V, AV 50Hz with complete accessories wiring diagram and warranty card, complete operation manual, Installation and commissioning of the said unit by the supplier.
SPLIT AIR CONDITIONER FAULT TRAINER
IPC-55-RAC
SPECIFICATION:
The trainer model: IPC-55-RAC is wall mounted type, 1.5 Tons/18000BTU/hour capacities, Reverse cycle system, Remote control, Single Phase, Supplied with complete accessories along with fittings, Faults in form of Electrical and Mechanical, Instructional manual, wiring diagram, and warranty card. The system operates on 220-230 Volts AC
HERMATIC REFRIGERRATION SYSTEM
IPC-BR-54
SPECIFICATION:
Model: IPC-BR-54 is a basic Hermatic refrigeration system, trainer. It guides student engineers in detecting faults and repair of: Domestic refrigerators, domestic freezers, bottle coolers and domestic air conditioners. The Model: IPC_BR-54 consists of Hermatic condensing unit with fan cooled condenser, front mounted evaporator with suction accumulator, liquid line drier, compound gauge,
pressure gauge, suction & discharge service valves. Model: IPC-BR-54 has electronic digital temperature readout to measure the condenser outlet temperature, evaporator-inlet temperature and evaporator-outlet temperature. It can simulate five different kinds of faults in the system i.e., excess discharge pressure, faulty compressor, blocked capillary, overcharged system and undercharged system. Also have control switches with indicator lights for faults selection. The system operates on 220V 50Hz & refrigerant R-134a.L x W x H 40 x 30 x 30 inches.
DEEP FREEZER FAULT TRAINER
IPC-66-RAC
SPECIFICATION:
Trainer unit model: IPC-66-RAC is suitable for training / demonstration of deep freezer with R134a gas components, capacity 12-13 cubic feet triplet type, operates on 220V, 50Hz with complete accessories, instruction manual and wiring diagram, warranty card. Mounted on angle iron stand 1�� x 1�� x 3/16�.
BASIC REFRIGERATION DEMOSTRATION CYCLE
IPC-55-BR
SPECIFICATION:
The Basic refrigeration cycle demonstrator trainer is fully equipped to under stand the principals of refrigeration cycle; the refrigeration demonstrator puts four main parts of refrigeration system into the hands of student, i.e. condenser, compressor, evaporator and control device. Components are arranged to clearly illustrate the cycle nature of refrigeration. Sight glass allows to monitor the gas circulation by 1/5 HP hermetic compressor through capillary tube refrigerant control device. Before and after sight glasses,
high / low pressure gauges permits continued observation as vapor moves through compressor and onto air-cooled condenser. Refrigerant is again visible through a sight glass as it passes to filter dryer prior to recycling.The trainer is completely assembled with safety protection switch, main power switch, volt meter, ampere meter, indication lamps, temperature indicator, condenser, evaporator, compressor, sight glasses, capillary tube, high/low pressure gauges, charged with refrigerant 134A, along with refrigeration cycle block diagram. User manual, Operates on 220Volt 50Hz.
AIR HANDLING FAULT TRAINER
IPC-27-RAC
SPECIFICATION:
The Air Handling Fault Trainer Model: IPC-27-RAC is an ideal study Unit. 1.5 Tons, operates on 380-400 V, AC 50 Hz with complete accessories, wiring diagram and warranty card, operational manual.
ABSORPTION REFRIGERATION DEMONSTRATION
IPC-612
Specification:
The principal of the absorption refrigeration demonstrator is often difficult to understand as this principle is not at the first sight like the refrigeration system with a built-in compressor. This impression is intensified by the fact that the unit is built in to the refrigerator it self so it is almost impossible to get a general view of the flow and the piping.The Model: IPC-612 demonstrator,
the insides have been removed from an absorption unit and placed in such a way that it can immediately be compared with the enclosed flow diagram. The warm side is separated from the cold side. The system can function both with 12V and 220V. Heat Source �.. 220V and 12V heater, 85W Working fluids �.. Ammonia / Water Dimension �.. 700* 550 1500mm (L*W*H).
2strokegasolineengine 2 STROKE GASOLINE ENGINE STRUCTURE
IPC-9500-SGE
SPECIFICATION:
The IPC-9500-SGE is an educational training demonstrator to understand the internal structure and operating principle of 2 stroke 1 cylinder air cooled gasoline engine by precisely cross-sectioning components such as cylinder, cylinder head, fuel tank, intake and exhaust manifolds, carburetor, muffler, alternator, etc. Mounted on stainless steel base frame. Size. 40 x 30 x 40cm (L x W x H).


AIR CLEANER STRUCTURE EDUCATIONAL SYSTEM
IPC-2200-AC
SPECIFICATION:
The IPC-2200-AC is an educational training demonstrator to understand the internal structure and operating principle of air cleaner by cross-sectioning components. Mounted on stainless steel base frame. Size. 30 x 20 x 25cm (L x W x H).


CAMSHAFT & VALVE STRUCTURE EDUCATIONAL SYSTEM
IPC-2500-CV
SPECIFICATION:
The IPC-2500-CV is an educational training demonstrator to understand the internal structures and functions of camshaft & valve by cross-sectioning components. Mounted on stainless steel base frame.Size. 57 x 40 x 20cm (L x W x H).


CARBURETOR STRUCTURE EDUCATIONAL SYSTEM
IPC-6300-CS
SPECIFICATION:
The IPC-6300-CS is an educational training system for understanding internal structure and operating principle of carburetor by precisely cross-sectioning components such as choke, venture, float, throttle body, and diaphragm.Mounted on stainless steel base frame.Size 30 x 20 x 20cm (L x W x H).


CRANKSHAFT STRUCTURE EDUCATIONAL SYSTEM
IPC-2400-CV
SPECIFICATION:
The IPC-2400-CS is an educational training demonstrator to understand the internal structures of in-line 4 cylinder crankshaft, whose components are crank journal, pin, arm, and balance weight. Mounted on stainless steel base frame. Size 57 x 40 x 20cm (L x W x H).


EFI STRUCTURE EDUCATIONAL SYSTEM
IPC-6200-EFI
SPECIFICATION:
The IPC-6200-EFI is an educational Training system for understanding Internal structure and operating principle of electronic controlled fuel injection by precisely cross-sectioning components such as throttle body, surge tank, and injector.Mounted on stainless steel base frame.Size 49 x 40 x 32 (L x W x H).


MECHANICAL FUEL PUMP STRUCTURE EDUCATIONAL SYSTEM
IPC-2700-FP
SPECIFICATION:
The IPC-2700-FP is an educational training system for understanding internal structure and operating principle of mechanical type fuel pump by precisely cross-sectioning components such as suction valve, chamber, diaphragm, return spring, discharge valve, and rocker arm.Mounted on stainless steel base frame. Size 30 x 20 x 15cm (L x W x H).


LUBRICATION SYSTEM STRUCTURE EDUCATIONAL SYSTEM
IPC-9600-CV
SPECIFICATION:
The IPC-9600-LS is an educational training demonstrator to understand the internal structure and operating principle of lubricating system in gasoline engine by cross-sectioning components such as oil pan, oil gage, oil strainer, oil pump, relief valve, oil filter, crankshaft, connecting rod, cylinder head, camshaft, cam and rocker arm.The cross-sectioning of cylinder block, cylinder head, and flywheel enables the education of engine structure, too. The lubricating parts are painted by different colors and name of parts printed on the base frame. The system is manually operated. Mounted on trolley made of angle iron and powder coated, can be easily moved and stopped by 4 wheals.Size. 30 x 20 x 15cm (L x W x H).


MUFFLER STRUCTURE EDUCATIONAL SYSTEM
IPC-8200-MS
SPECIFICATION:
The IPC-8200-WP is an educational training demonstrator to understand the internal structure and operating principle of muffler by cross-sectioning components. Mounted on stainless steel base frame. Size. 49 x 40 x 20cm (L x W x H).


PISTON STRUCTURE EDUCATIONAL SYSTEM
IPC-2600-PS
SPECIFICATION:
The IPC-2600-PS is an educational training demonstrator to understand the internal structures and functions of compression ring, oil ring, connecting rod, journal bearing in piston. Mounted on stainless steel base frame. Size 40 x 30 x 15cm (L x W x H).


SHOCK ABSORBER STRUCTURE EDUCATIONAL SYSTEM
IPC-2500-SA
SPECIFICATION:
The IPC-2500-SA is an educational training demonstrator to understand the internal structure and operating principle of twin tube type oil shock absorber and coil spring by cross-sectioning components. Mounted on stainless steel base frame. Size. 57 x 40 x 15cm (L x W x H)


WATER PUMP STRUCTURE EDUCATIONAL SYSTEM
IPC-2300-WP
SPECIFICATION:
The IPC-2300-WP is an educational training demonstrator to understand the internal structure and operating principle of water pump by cross-sectioning components. Mounted on stainless steel base frame.Size 30 x 20 x 15cm (L x W x H)


Piston and Cylinder head



Piston and Cylinder head



Piston and Cylinder head



Piston and Cylinder head



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2 stroke engine educational system



carburator educational system