OFFICE OF THE DEAN,FACULTY OF ENGINEERING , University of

OFFICE OF THE DEAN,FACULTY OF ENGINEERING , University of
OFFICE OF THE DEAN,FACULTY OF ENGINEERING ,
University of Kashmir, Hazratbal, Srinagar
No.F(Tender-lab-equip)DFE/KU/2016
Date:30/06/2016
DETAILED TENDER NOTICE
Tenders are invited under two-Bid system, from eligible tenderers for supply and installation of lab
equipment with detailed specifications as provided in Annexure -A, attached herewith. The Tenders shall
be submitted under 2-Bid system as detailed below:
1. Envelope- A: (Technical Bid) quotation under sealed envelope and containing the following
documents:
(a) Authorization /Dealership/Manufacturer certificate.
(b) Valid Tax clearance certificate for bidders from J&K State.
(c) Technical specification Schedule as per Annexure-C
(d) Technical Literature, if any, related to the goods/Equipment.
(d) CDR for an amount equal to 5% of cost of quotation, in favour of Registrar, University of Kashmir.
(e) Demand Draft, for an amount of Rs.1500., favouring Dean Faculty of Engineering, University of
Kashmir, as cost of the Tender Document.
(f) Bid Form in the format given in Annexure-B
(g) Certificate providing After Sale Service, wherever necessary.
2
3. Envelope-B: (Price Bid) Containing the following documents under sealed cover:
(a) Price Bid Schedule in the format enclosed in Annexure-D
(b) Bid prices (in Indian Rupees).
(b) Bid price should be valid for the bid validity period (120 says).
(c) All duties, taxes and levies (CST/GST/VAT or other taxes) payable, must be quoted
separately.
(d) The rate quoted should be FOR College of Engineering, Zakura Campus, Hazratbal Srinagar.
(e) Bid price should be without over writing.
(f) The rates quoted should be covered with transparent tape.
3. Validity of Bids
Bids shall remain valid for at least 120 days from the date of opening.
4. Evaluation of Bids.
(a) The College shall open and evaluate the Technical Bids first and compare the bids which are
found substantially responsive, i.e. which are:
(i) Properly signed
(ii) Conform to terms and conditions and technical specifications.
(iii) Accompanied with Bid security (CDR) and all other documents.
(iv) Conform to maximum period for supply and installation of goods upto 4-weeks after placing the
Supply Order.
(b) Bids shall be evaluated separately for each item.
5. Award of contract
(a) Contract shall be awarded to the bidder whose bid is commercially & technically upto the mark and
offering competitive rates.
(b) Successful bidder shall be notified about the award of the contract where in terms and conditions of
the supply shall be incorporated.
6. Payment: 100% payment shall be made after supply and successful installation of items,
conforming the specifications.
7. Warranty:
(a) All items shall carry comprehensive standard warranty of at least one year.
8. Penalty for delay.
A penalty of 0.25% (twenty five paisa per hundred) per day shall be imposed if the supply
is made beyond the prescribed period mentioned in supply order.
9. Settlement of disputes.
Settlement of any dispute will be made under the jurisdiction of Srinagar Court.
10. Liquidated Damages.
If the bidder after accepting the purchase order of goods/equipments or services, fails to
deliver any or all of the goods/equipments or to perform the services within the specified
period, a penalty of 25 paisa per hundred per day shall be charged. However, if the supplier
fails to supply and install the items beyond 20 days of the last date accepted, the College can
proceed on its own to consider termination of the Supply Order and/or charging a penalty of
upto 15% of the cost of the concerned Supply Order.
11.
(a)
(b)
(e)
Submission of Bids.
The last date for submission of bids will be notified seperately .
Bids should be properly sealed.
The two sealed envelopes A & B should be kept in a separate single and sealed outer envelope
and addressed to Dean Faculty of Engineering, College of Engineering, Zakura Campus,
University of Kashmir, Hazratbal, Srinagar-190006, with Tender Notice No. written on the
envelope. The Bids should be delivered personally or through registered post at the Office of
the addressee.
(f) Bids dispatched through registered post, should be sent sufficiently well in advance so as to
reach the destination one day prior to Bid opening.
12. Bid opening
(a) The Technical Bid (Envelope- A) will be opened first and Price Bid (Envelope-B) of the
bidder will be opened if the bidder qualifies with regard to the Technical Bid (Envelope-A).
(b) Interested bidders can attend the Bid opening on (to be notified seperately in the Office
Chamber of the Registrar, University of Kashmir, Hazratbal, Srinagar.
13. Not withstanding above the purchaser reserves the right to reject any or all the bids.
Sd/.
(Prof. M Arif Wani)
Dean
Faculty of Engineering
University of Kashmir
Supply of Equipment to College of Engineering
University of Kashmir
Tender Opening Format
(To be kept in outer Envelope)
Name of the firm:-
Tender for supply of
Tender Notice No. & Date:Technical specification/ Literature attached:-
Yes/No
Valid Tax clearance certificate attached:-
Yes/ No
Registration/ Authorization Dealership/
manufacturer Certificate attached:-
Yes/ No
Revenue stamp affixed.
Yes/ No
Rates covered with transparent tape:-
Yes/ No
Call Deposit Receipt (CDR) enclosed:-
Yes/ No.
Bid price in Indian Rupees:-
Yes/ No
Bid Price FOR College of Engineering, K.U., Srinagar:-
Yes/ No
Bid without correction/overwriting:-
Yes/ No
DD for Rs. 1500 as cost of Tender Document:-
Yes/No
(Seal & Signature of the Supplier)
ANNEXURE -A
MECHANICAL
ENGINEERING
LABS
List and specifications of lab equipments for Applied Thermodynamics
S.No.
Name of
Equipment
Refrigeration Test
Rig with
computerised
control and
instrumentation.
01
Specifications
Compressor:- ISI hermitically sealed.
Condenser:- Air cooled condenser.
Water pump:- Provided to equalize the water temperature
Evaporator:- The evaporator provided in this unit should
be of Calorimeter type. The inner chamber of the
calorimeter should be made of stainless steel. It should be
duly thermally insulated. The immersion type cooling coil
should be provided inside the calorimeter chamber. A dip
type electrical immersion heater should be provided to vary
the initial temperature of the water for balancing the
refrigeration effects. The outer chamber of the calorimeter
should be fabricated out of stainless steel sheet.
Control panel:- Following controls and components
should be provided on dull sun-mica board:- glass tube
rotameter to measure the flow of refrigerant, expansion
device, drier, thermostat for heating and cooling, pressure
gauges. Main switch, digital type voltmeter/Amp meter (2
nos.- one for compressor and second for heater input),
energy meter for compressor and heater, dimmer stat for
heater, switches, indication lights, high pressure cut out.
Digital temperature indicator:- One no. digital
temperature indicator provided with RTD thermocouples
for various temperature applications.
Voltage:- Single phase, 220 Volts, 50 Hz and AC supply.
Refrigerant:- Any environment friendly refrigerant.
Manual:- Operation and maintenance manual shall be
provided along with the supplied equipment.
Objectives:
•
•
1
Quantity
Determination of COP of a refrigeration system.
Tonnage of refrigeration.
2
List and specifications of lab equipments for Applied Thermodynamics
1
Miniature steam
power plant (1KW)
02
SPECIFICATIONS
 Steam Turbine ( 1 KW ) Coupled With Eddy Current
Dynamometer, Separating & Throttling Calorimeter, Steam
Condensers & Condensers Cooling Water Pump
Arrangement.
 Oil Fired Fully Automatic IBR 300 Kg/hr Boiler (With
Chimney) Working At 10 Kg/Cm2 along with Water
Softener Combined Steam Piping With Aluminum Foil
Covered Glass wool Insulation
TECHNICAL SPECIFICATIONS
STEAM LAB PACKAGE [1 KW CAPACITY]
BRIEF DESCRIPTION –
The package will contain an IBR boiler, separating and
throttling calorimeter, steam turbine coupled with Eddy
Current dynamometer, chimney and Turbine control panel,
condenser (shell & tube type).
STEAM BOILER :
TYPE : 3 Pass, Forced circulation, Coil type, Water tube,
fully automatic, oil fired.
Capacity F & A 100 deg.C
: 300kg/hr
Maximum working pressure: 10.54 kg/cm2 (150 psi)
Fuel
: L.D.O/H.S.D.
Fuel consumption
: 18 Kg/hr
Electrical Load:
2
Feed Pump Motor
: 0.5 HP
Blower Motor
: 0.75 HP
Oil Pump Motor
: 0.5 HP
Flue gas outlet
: 168 mm
List and specifications of lab equipments for Applied Thermodynamics
STEAM BOILER CONSTRUCTION:
It should be designed on forced circulation Heat Exchange
principle fabricated out of high temperature resistant seamless
tubes, once through spiral coil nest is arranged to give 3 clear
passes of flue gases forms combustion zone. It ensures for
optimum rate of heat release and maximum heat transfer and
low stack temperature. It should be ultimately placed in double
shell with Aluminum heat retarded mounted on study steel
frame for quick and easy installation
SHELL AND COIL ASSEMBLY:
Inner & Outer shell, Aluminum foil in between two shells to
act as heat retarder, Nest of once through spiral coil to give 3
clear pass and Top & Bottom refractory block.
BURNER, BLOWER &OIL PUMP ASSEMBLY:
Centrifugal Blower coupled with motor, Vertically downward
position placed burner complete with nozzle, nozzle holder,
diffuser plate, ignition electrodes, photocell, sight glass &
solenoid valve. Gear oil pump coupled with motor, Oil filter
and pressure gauge.
FEED WATER ASSEMBLY
Positive displacement type piston pump coupled with motor,
Pulley, V Belt, Pump safety valve, Non-return valve &
Strainer.
MOUNTINGS, FITTINGS & INSTRUMENTATION:
 Main steam stop valve
 Steam Auxiliary valve
 Safety valve
 Blow down valve
 Steam trap
 Non return valve
 Strainer
 Oil, water & steam pressure gauge with
isolating valves
 Temperature Indicator cum controller
 Flue gas controller
 Steam pressure switch
 Audio Alarm
3
List and specifications of lab equipments for Applied Thermodynamics
 Oil filter
 Ignition Transformer
 Cooling Towers
ELECTRICAL PANEL
Mounted on the front side of the boiler at a convenient height,
pre wired and complete with starters, push buttons indicating
lamps all duly labeled, fuses, O/L relays, contactors and
sequence controller.
ACCESSORIES
Air Blower
: 0.75 HP
Water Pump (Feed water)
0.5 HP
: High Head, Triplex pump
Fuel pump
: With filters, Valve – 0.5 HP
Pressure control
: Through HP/ LP cutout,
Solenoids, pressure switches
SOFTENER
Water softener suitable for softening raw water up to 200 PPM
of CaCo 3 complete with inter connection piping, valves, Filter,
Resin, Pressure Gauge, Ejector & brine tank.
CHIMNEY
Flanged ends, 5 m high
STEAM TURBINE
 Single Stage, Horizontal shaft, Two nozzle impulse
type 1 KW
 Inlet steam pressure 5 to 7 bar
 Speed 3000 RPM
 Inlet flange 3/4”NB flange (one)
 Outlet flange 3” NB flange (one)
 Steam control – hand operated valve
 Pressure gauges – 0 – 10 kg/cm² (inlet) compound
gauge at out let
 Temperature measurement – thermocouples at inlet and
outlet
 Bearing with cooling arrangement
4
List and specifications of lab equipments for Applied Thermodynamics
EDDY CURRENT DYNAMOMETER WITH LOADING
ARRANGEMENT
Capacity – 1KW
Speed 3000 RPM
SPEED MEASUREMENT
Digital Indicator with Proximity sensor (mounted on
control panel).
CONTROL PANEL
 Switch – mains ON/OFF – 20 Amps
 RPM indicator – digital, 0 – 9999 RPM with facility to
set up any value, tripping relay connection between
solenoid valve and controller
 Indicator lamps
 Temperature Indicator – digital, 0-999 degree
centigrade, and thermocouple type calibrated with sixchannel selector switch.
 Starters – 1 Nos. for water circulation pump.
SURFACE CONDENSER
 Shell and Tube type
 Horizontal type
 One pass of steam in shell
 One pass of water in tubes
 Flanged and dished ends with steam gaskets.
 Vacuum gauge at shell outlet
 Temperature Measurement: 4 Nos. thermocouples at
inlet and outlet of shell and tube.
 By pass arrangement: Experiments should be
conducted either with condenser or without by using
Control valves.
5
List and specifications of lab equipments for Applied Thermodynamics
COOLING WATER PUMP
3.0 HP Centrifugal mono block pump set
CONDENSATE COLLECTION
2 Liter Measuring Jar for condensate measurement
COMBINED SEPARATING AND THROTTLING
CALORIMETER
Separating and throttling calorimeter is lagged in glass wool,
encased in stainless steel lagging covers. Water gauge glass
(10 kg/sq.cm) steam pressure gauge cock and drain with
measuring jar. Throttling calorimeter is lagged in glass wool,
encased in chromium plated lagging covers. Stainless steel
orifice, dial thermometer through a gland direct into steam.
Manometer and connection.
05
Model of
Lancashire boiler
6
The model should consist of a steel shell of length
75 cm and diameter 20 cm with two large tubes
passing from end to end. Fire grating at front end
of each tube and a door hinged. Brick work seating
and flue gas path shown in wooden work complete
with all mountings like safety valve, check valve,
manhole, high steam and low water safety valve,
steam and water gauges, regulating draught doors,
dampers with counter weights and chimney.
Model may be specially dissectible for
demonstration purposes.
1
List and Specifications of Equipments for Heat Transfer Lab
S.no. Instrument
1
Heat Transfer
Through a Metal Rod
Specifications
Metal Rod: Mild Steel Rod, Diameter 25 mm,
Length of rod 300 mm
Insulation Jacket: Made in Mild Steel, Mild
Steel Rod is insulated by Asbestos powder
Electric Heater: Clamp Heater, Capacity 200
W, Supply 230 V AC
Dimmer: Range 0-250 V AC, 2 A
Digital Voltmeter: Range 0-500 V AC
Digital Ammeter: Range 0-2 A AC
Temperature Sensors: Type ‘K’
Thermocouples – 12 Nos
Temperature Indicator: 12 Channel Indicator
with Selector Switch, Range 0-199.9°
Frame: Made of M.S. Square Tubes & Sheets,
Welded & Powder coated
Qty
1
Price
2
Heat Transfer
Through a
Composite Wall
Slab Material:
Cast Iron (250mm dia , 20mm thick)
Bakelite (250 mm dia, 15mm thick)
Press wood (250mm dia, 12mm thick)
Heater- Nichrome wire
Voltmeter- 0-300V
Ammeter- 0-2 Amp
Variac- 0-230V, 0-2 Amp
Temperature Indicator- 0 – 200 C
Temperature Sensors: RTD PT 100 type
1
Rs. 70000
3
Heat Pipe
Test Pipe: 28mm ID, 32 mm OD, 300 mm
long, Copper & Stainless steel
Heater: Band type, Nichrome, 250 W
Voltmeter: 0-300V
Ammeter: 0 -20A
Temperature Indicator: 0-400C
Thermocouples: Cr-Al (K-type)- 12 Nos. ;
Teflon coated
Variac: Electronic Dimmer 1.5 kW
Thermometers: Glass tube, stick type 0-100C,
3 Nos.
Heat sink tank: 0.5 l
1
Rs. 75000
4
Thermal
Conductivity of
Insulating powder
Copper Sphere: Concentric Copper Spheres,
Inner Sphere Heated by a concealed Electric
Heater,
Insulating Powder: Asbestos Powder
Electric Heater: Coil Type Heater, Capacity
300 W, Supply 230 V AC
Dimmer: Range 0-250 V AC, 2 A
Digital Voltmeter: Range 0-500 V AC
Digital Ammeter: Range 0-2 A AC
Temperature Sensors: Type ‘K’
1
Rs. 60000
1
List and Specifications of Equipments for Heat Transfer Lab
Thermocouples – 12 Nos
Temperature Indicator: 12 Channel Indicator
with Selector Switch, Range 0-400 °C
Frame: Made of M.S. Square Tubes & Sheets,
Welded & Powder coated
5
Forced Convection
Apparatus
6
Natural Convection
Heat Transfer
7
Heat Exchanger
2
Test Section: Copper Tube Of 25mm Id,
1
32mm Od And 400 Mm Long (Optional:
Stainless Steel Or Brass)
Manometer: U-tube With Mercury As
Working Fluid
Blower: Centrifugal ½ Hp, 220 Vac
Variac: Electronic Dimmer 1.5kw.
Heater: Externally Heated, Nichrome Band
Type (250w)
Voltmeter: Digital Voltmeter Of Range 0-300v
Ac
Ammeter: Digital Ammeter Of Range 0-5a Ac.
Temperature Indicator: Digital Temperature
Indicator Of Range 0-400°c With Tss
Thermocouples: Teflon Coated Cr –al (K- type)7 No.
Test Pipe: Copper Pipe, Diameter 30 mm,
1
Length of Pipe 500 mm
Wooden Cabinet: Cabinet with glass door on
front side for housing the pipe
Heater: Rod Type Heater, Capacity 300 W,
Supply 230 V AC
Dimmer: Range 0-250 V AC, 2 A
Digital Voltmeter: 0 – 500 V AC for Heater
Load
Digital Ammeter: 0 – 2 A AC for Heater Load
Temperature Sensor: Type ‘K’
Thermocouples – 12 Nos.
Temperature Indicator: 12 Channel Indicator
with Selector Switch, Range 0-199.9 °
Base Frame: Made of M.S. Square Tubes &
Sheets, welded & powder coated for long life
System: Water to Water. (1–2 shell & tube
type)
Shell: Material Stainless steel. Insulated with
ceramic wool and cladded with aluminum
foil. Dia. 220 mm, Length 500 mm
(Approx.)25% cut baffles at 100 mm distance
4 Nos
Tube: OD 16mm approx., Length 500mm (24
Nos.)
Water Flow Measurement: Rotameters
(2Nos.) one each for cold & hot fluid
Hot Water Tank: Made of Stainless steel
1
List and Specifications of Equipments for Heat Transfer Lab
Insulated with ceramic fibre wool
Hot Water Circulation: Magnetic Pump
Heaters: Nichrome wire heater (2 Nos.)
Digital Temp. Controller: 0-199.90C, (For Hot
Water Tank)
Digital Temp. Indicator: 0-199.90C, with
multi-channel switch
Temperature sensors: RTD PT-100 type
A good quality painted rigid MS Structure is
provided to support all the parts
Total
3
Rs
205,000
List and Specifications of Equipments for IC Engine Lab
Name of
S.no Equipment
Specifications
Requirement
Test rigs should be used to find out the
performance of an IC engine. It should consist
of an IC Engine, dynamometer, fuel
measuring, air intake measuring and various
other arrangements.
SINGLE CYLINDER
01
1
4 STROKE WATER
COOLED DIESEL
ENGINE TEST RIG
WITH ROPE BRAKE
DYANAMOMETER
Scope of Apparatus
should be as
follows:
1. To determine specific fuel consumption.
2. To determine Brake Horse Power.
3. To determine Brake Thermal Efficiency.
4. To determine volumetric efficiency.
1
List and Specifications of Equipments for IC Engine Lab
Specifications:
1. Utility Requirement:
a. Electric Supply: Single Phase, 220 V,
10Amp.
b. Continuous Water Supply: 10 LPM
Approx. at ½ kg/cm2
c. Pressure for Engine cooling and 10 LPM
at 2 kg/cm2
d. Pressure for Hydraulic Brake
Dynamometer
e. Floor Area : 3m X 2m
f. Tachometer : For RPM measurement
2 Technical Requirement :
a. Type of Engine : Single cylinder, four
stroke, vertical water cooled, crank start,
b. Diesel engine developing 5 HP at 1500
c. Type of Loading: TD-104A - Rope Brake
Dynamometer.
d. Electric Brake Dynamometer
e. Hydraulic Brake Dynamometer
f. Eddy Current Dynamometer
g. Fuel Measuring System: Fuel measuring
system consists of a fuel tank, a burette
and a three way cock arrangement.
h. Air Intake Measuring System: Air tank
fitted with orifice and water manometer.
i. Measurement of Heat Carried: It consists
of inlet outlet piping with flow control
valve, water Away by Cooling Water
meter and temperature sensor.
j. Temperature Measurement : Digital
Temperature Indicator with multi-channel
switch
k. Temperature Sensors : RTD PT-100 type
l. The whole setup should be well designed
and supported by a good quality painted
rigid M.S. Structure
2
List and Specifications of Equipments for IC Engine Lab
Test rigs Should use to find out the performance
of an IC engine. It Should consist of an IC
Engine, dynamometer, fuel measuring, air
intake measuring and various other
arrangements.
Scope of Apparatus should be as follows:
02
Two Cylinder 4 Stroke
Water Cooled Diesel
Engine Test Rig With
Electric Brake
Dynamometer
1.
2.
3.
4.
To determine specific fuel consumption.
To determine Brake Horse Power.
To determine Brake Thermal Efficiency.
To determine volumetric efficiency.
1
Specifications:
1. Utility Requirement:
a. Electricity Supply: Single Phase, 220V
AC, 50 Hz, 5-15 amp. Combined socket
with earth Connection.
b. Water Supply: Continuous @10LPM at 1
Bar Pressure for Engine & exhaust gas
calorimeter cooling and @10LPM at 2
Bar Pressure
c. Hydraulic Brake Dynamometer.
d. Floor Drain Required
e. Engine Oil : Multigame 20W40
f. Exhaust Emission
g. Floor Area : 3 m X 2 m
h. Tachometer : For RPM measurement
3
List and Specifications of Equipments for IC Engine Lab
2. Technical Requirement:
a. Type of Engine : Twin cylinder, four
stroke, vertical water cooled, crank start,
diesel engine developing 10 HP
@1500RPM.(Kirlosker New)
b. Type of Loading : TD-105A - Rope
Brake Dynamometer
c. Torque Measurement: By Brake Drum
and spring balances
d. TD-105C – Hydraulic Brake
Dynamometer
e. Torque Measurement: By Load Cell and
Load Indicator
f. TD-105D –Eddy Current Dynamometer
g. Torque Measurement: By spring balance
h. Fuel Measuring System: Fuel measuring
system should consist of a fuel tank, a
burette and a three way cock arrangement.
i. Air Intake Measuring System: Air tank
fitted with orifice and water manometer.
j. Temperature Measurement : Digital
Temperature Indicator with multi-channel
switch
k. Temperature Sensors: Thermocouple (6
nos.)
l. The whole setup should be well designed
and supported by a good quality painted
rigid M.S. Structure.
4
List and Specifications of Equipments for IC Engine Lab
03
5
Model of cut sectioned
diesel CRDI engine
assembly with clutch and
five speed gear
box(working)
Four Stroke , four cylinder, clutch, Gear box
etc.
The engine should be fitted with the
CRDI system and the entire system
should be controlled electronically by
the electronic control unit through its
supporting sensors.
Maximum parts and accessories of the
engine like four cylinder block, cylinder
heads, valve ports, piston, connecting
rod, inlet and exhaust manifolds, throttle
body, distributor ECU, canister purge
valve, carbon canister, thermostat
housing, diesel fuel injector, water
pump, oil pump, oil pan, air filter, selfstarter, alternator clutch, gear box etc.
are to be sectioned to
clearly
demonstrate the internal constructional
details.
This complete sectioned model should
be coupled with ¼ HP 220/230 AC
single phase motor through a reduction
drive unit. So by running the motor the
complete working details of the
individual parts, different mechanisms
can be demonstrated as the model is
running at a low very speed (about 15-20
rpm).
Transmission system
It should consist of a clutch and gearbox
assembly, the casing of which should be
suitably cut to demonstrate its operation.
Fuel system
The fuel tank should be cut to expose the
mounting of the level sensor and the
position of the fuel section. The system
is complete with mechanical fuel pump.
Exhaust system
It consists of exhaust manifold and
silenser in cut section to explain internal
construction.
Lubrication system
It consists of the engine lubrication
system along with the lubrication oil
pump.
1
List and Specifications of Equipments for IC Engine Lab
Electrical system
The electrical system should give a
complete idea of the electrical system
and the circuit of the engine. It should be
provided with sectioned battery and
terminals should be provided to connect
another working battery to show the
working of the individual parts and
accessories of the engine.
04
6
Model of cut sectioned
Petrol MPFI Engine
assembly with Clutch
and five speed gear
box(working)
Four Stroke , four cylinder, clutch, Gear box
etc.
1. The engine should be fitted with the
MPFI system and the entire system
should be controlled electronically by
the electronic control unit through its
supporting sensors.
2. Maximum parts and accessories of the
engine like four cylinder block, cylinder
heads, valve ports, piston, connecting
rod, inlet and exhaust manifolds, throttle
body, distributor ECU, canister purge
valve, carbon canister, thermostat
housing, petrol injector, water pump, oil
pump, oil pan, air filter, self-starter,
alternator clutch, gear box etc. are to be
sectioned to clearly demonstrate the
internal constructional details.
This complete sectioned model should
be coupled with ¼ HP 220/230 AC
single phase motor through a reduction
drive unit. So by running the motor the
complete working details of the
individual parts, different mechanisms
can be demonstrated as the model is
running at a low very speed (about 15-20
rpm).
List and Specifications of Equipments for IC Engine Lab
Transmission system
It should consist of a clutch and gearbox
assembly, the casing of which should be
suitably cut to demonstrate its operation
Fuel system
The fuel tank should be cut to expose the
mounting of the level sensor and the
position of the fuel section. The system
is complete with mechanical fuel pump.
Exhaust system
It consists of exhaust manifold and
silencer in cut section to explain internal
construction.
Lubrication system
It consists of the engine lubrication
system along with the lubrication oil
pump.
Electrical system
The electrical system should give a complete
idea of the electrical system and the circuit of
the engine. It should be provided with sectioned
battery and terminals should be provided to
connect another working battery to show the
working of the individual parts and accessories
of the engine.
7
List and Specifications of Equipments for Manufacturing Technology Lab
Name of
Equipment
S.No.
01
Hydraulic Press
02
Arc Welding
Equipment set DC
type with all
accessories
03
Spot Welding
Equipment with all
accessories
1
Specifications
15 Ton configuration
Max height (at handle) and width: 610x310 mm,
lower piston stroke: 25.4mm Max width of sampling:
Area (side to side) = 134mm and max. depth of sampling:
area (back to front) = 141mm
Adjustable upper bolster Adjustable pressure control
valve Pressure release valve
INPUT: Primary voltage 380/415 V/3- Phase,
Frequency – 50Hz,
Input Power @ 100% duty cycle 15-25 KVA
OUTPUT: Output Characteristic CC, OCV 50-90V,s
Operating arc voltage 20-40 V,
Welding current range 50-400 A,
Maximum continuous hand welding current @ 60%
duty cycle 200-400 A,
Maximum continuous automatic welding current @
100% duty cycle 150-250 A.
Work Capacity - 6.3 mm with timer control
Input 50/60 Hz
230 V/AC, 90 Amps or 460 V/AC, 45 Amps
Rated Output
20 kVA at 40% Duty Cycle
Max. Open- Circuit Voltage 3-5 V
Quantity
1
1
1
List and Specifications of Equipments for Manufacturing Technology Lab
04
Single Phase
Welding Machine
Semi- Automatic
Production Grade
Lath Machine
05
Input Voltage : 220 V / 1Phase / 50 to 60 Hz
2. Duty Cycle : 200 A @ 40%
3. Current Range : 20 – 200 A
4. Insulation : H Class
5. Weight : 10 to 15 kg
Description:
All geared type, 20 cm centre height,120cm between
centre ,gap bed machine to be motorized and supplied
with cooled installation, 4 jaw independent chuck 300
mm. 3 jaw self centred chuck 200 mm fixed steady,
travelling steady, face plate, driving plate, 4 way tool
post, quick change gear box for metric and british threads,
live and dead centres with taper attachments.
Specification:
Pioneer GHL series all geared head lath machine with
flame hardened and grounded bed ways, cam-lock spindle
size D1-4 , Universal gear box with standard accessories .
2
1
1
List and Specifications of Equipments for Mechatronics Lab
S.no.
1
2
3
4
1
Instrument
Specifications
Qty
Advance Sensor
Trainer Kit
On board test &
measuring point in
each sect ion.
• On Board +5V,
+12V, -5V power
• Digital voltmeter.
• On Board circuit
block
• On Board LCD to
check the Motor RP
M
• On Board Relay
• Amplifier for
various voltage
amplifier
1
ION BOARD
SECTIONS
LVDT SENSOR
TEMPERATURE
MEASUREMENT
STRAIN GAUGE
SENSOR
1
•On Board I/P DB9
socket for LVDT
Cell. On board
function generator.
Test points to
measure LVDT O/P
with or without
amplifier.
Range -:20 mm (-10
to +10)
1
•Various temp
sensors like
Thermocouple,
Thermistor, RTD,
LM35. I/p & O/P on
banana socket,
Amplifier for RTD
and Thermocouple.
On Board I/P banana
Socket, Cantilever
Beam type I/P
method by hanging
weight. Ha-lf bridge
circuit, -op amp
based two different
amplifiers, with each
testing & measuring
point. O/P is
1
List and Specifications of Equipments for Mechatronics Lab
connected to
voltmeter through
banana socket
5
SMOKE SENSOR
6
PROXIMITY
BASED SPEED
MEASUREMENT
2
+12V operated
smoke sensor,
Buzzer alarm for
indication.
Provision to measure
O/P on banana
sockets.
1
1
Measurement of
motor speed by
proximity sensor.
Variable
potentiometer to vary
speed. LCD display
to show speed in
RPM.
List and specifications of lab equipment for theory of machines
S.no
01
1
Name of
Equipment
UNIVERSAL
VIBRATION
APPARATUS
Specifications
The apparatus should provide comprehensive
unit to perform the Vibration experiments. A
universal frame should be provided upon which
Quick and easy assembly of various
experiments can be done.
The unit should be self-contained to safely
store spares. The students should be able easily
to assemble the experiments and study the
theory of Vibrations practically.
Scope of Apparatusshould be as
follows:
1.
To verify the relation simple
pendulum.
2. To verify the relation of compound
pendulum & to determine the radius
of gyration.
3. To study radius of gyration of bi-filer
suspension.
4. To study the un-damped free
vibration of spring mass system.
5. To study the longitudinal vibration of
helical coiled spring.
6. To study the forced vibration of
simply supported beam for different
damping.
7. Un-damped tensional vibrations of
single rotor system.
8. Un-damped torsion vibrations of
double rotor system.
9. To study the damped torsional
vibration of single rotor system and to
determine the damping coefficient.
10. Verification of Dunker ley's Rule.
11. To study the forced damped
vibration of spring mass system.
Requirement
1
List and specifications of lab equipment for theory of machines
Specifications:
1. Utility Requirement:
a. Floor Space: 2.5 m x 2 m approx.
b. Power Supply: 230V AC, 5
Amps. With earth.
2
Technical Requirement :
a. Exciter Unit : With FHP DC Motor
with Speed Control Facility
b. RPM measurement: Digital RPM
Indicator with Proximity sensor.
c. Ordinary Chart recorder: For
recording Frequency and
Amplitude of Vibration
d. Stop Watch: Electronic Stop
Watch.
02
2
JOURNAL
BEARNING
APPARATUS
The apparatus Should Consist of a plain steel
shaft excavated in a bearing and Directly driven
by a FHP Motor. The bearing should be freely
supported on the shaft and sealed at the motor
end. The speed of the motor controlled by the
speed control unit. One compound pressure
gauge mounted on bearing to measure the
pressure at different position around the
circumference. Bearing Should be free to rotate
and can be adjusted at any position The bearing
can be loaded by attaching weights to the arm
supported beneath it.
1
List and specifications of lab equipment for theory of machines
Scope of Apparatusshould be as
follows:
1. To study the pressure profile of
lubricating oil at various conditions
0f load and speed.
2. Plotting the Cartesian polar pressure
Curves.
Specifications:
1. Utility Requirement:
a. Electricity supply: 230 V AC,
Single Phase, 0.5 kW
b. Area : 1.5 x 1.5 m2
c. Digital Tachometer
d. Oil SAE 40 about 5 Litres\
2. Technical Requirement:
a.
b.
c.
d.
e.
Journal : Diameter 50 mm
Bearing : Diameter 55 mm
Weights: 4 weights.
Motor : Variable speed FHP
Control Panel: For speed control
of motor.
f. Oil recommended : SAE 40
g. Pressure Gauge : Compound
Pressure gauge(-1 to 1)kg/cm2
h. Digital Tachometer
3
List and specifications of lab equipment for theory of machines
Cam analysis
apparatus
03
Motorized unit should consist of a camshaft driven by a
variable speed motor. The shaft should run in a double
bearing. The free end of the camshaft should have a facility
to mount the cam easily.
2
The follower should be properly guided in gunmetal bushes
and the type of follower can be changed according to the
cam under test. Graduated circular protractor fitted co-axial
with the shaft. And a Dial Gauge fitted on the follower shaft
used to note the follower displacement for the angle of cam
rotation. A spring is used to provide controlling force to the
follower system. Weights on the follower shaft can be
adjusted as per the requirement. An arrangement is provided
to regulate the speed. The apparatus should be useful for
testing the cam performance for jump phenomenon during
operation. On this apparatus the effect of change of inertia
forces on jump action of cam-follower during operation can
be observed. It is useful for testing various cam & follower
pairs. Three cams and three followers will be supplied with
the apparatus. These are already hardened to reduce the
wear.
Specifications of apparatus:
Cam
Shaft:
Material
Stainless
Steel
Cams: Tangent,
Eccentric,
Circular
Arc
type.
Followers:
Roller,
Knife
edge,
Mushroom
Compression Spring: Provided, Weights1 kg., 500gm, 200
gm.
&
100gm
Motor: Variable speed, ½ HP., 0-1500 RPM with speed
controller
Dial
Gauge
Baker & Mercer/Standard Make
Gyroscope
04
[1] Demonstration and student experiments on the moments
generated on a gyroscope
[2] Adjustable gyroscope speed
[3] Adjustable gyroscope frame speed
[4] Mass of the gyroscope body: 65g
[5] Two independently controllable electric motors
[6] Transparent protective cover made of plastic
4
1
List and specifications of lab equipment for theory of machines
Gyroscope rotational speed:
1000...6000rpm
Gyroscope frame rotational speed:
5...63rpm
Gyroscope weight: 65g
Radius range of the weight: 0...95mm
L x W x H : 420 x 400 x 310 mm
Weight: approx. 22 kg
230V , ~50Hz
Crank And
Connecting Rod
Apparatus
05
[1] experimental unit on harmonic reciprocating motion
[2] aluminum crank disc, anodized, 3 different crank radii
[3] anodized slider crank with 3 different output strokes
[4] integrated angle measuring scale and ruler
2
Crank radius-25mm,37.5mm,50mm
Output stroke-50mm,75mm,100mm
LxWxH-360x280x60mm
Oscillating
Cylinder
Apparatus
06
Weight-approx. 3kg
Specifications:
2
Effective teaching. Self-contained. Bench mounted.
Measurement of crank angle and slider position. Velocity and
acceleration by graphical differentiation. Crank mechanism
with oscillatory slider. Variable crank length.
Apparatus showing relationship between crank shaft rotation
and piston displacement, for an oscillating cylinder. The crank
length is adjustable. Crankshaft rotation measurement by a
rotating protractor scale and piston displacement shown on a
sliding scale. The equipment may be mounted vertically for
demonstration purposes, or flat on the bench for experimental
use.
07
Centrifugal
Governor
[1] how a centrifugal systems work
[2] three different centrifugal governors: Porter, Proell and
Hartnell governors
[3] versatile range of variations on the governors: adjustment
5
3
List and specifications of lab equipment for theory of machines
of the centrifugal mass, the sleeve force and the spring
preload
[4] step less adjustment of speed via a potentiometer
[5] drive with DC motor
[6] digital speed indicator
[7] protective cover with electronic coupling to the drive
ensures safe operation
DC motor: max. power 35W
max. speed 6000min-1
Speed regulation 60...400min-1
Proell governor:
- sleeve mass 3x 100g
- centrifugal mass 2x 150g
Porter governor:
- sleeve mass 3x 100g
- centrifugal mass 2x 400g
Hartnell governor:
- centrifugal mass 2x 400g
-2 compression springs, adjustable spring preload
Measuring range
- speed: 0...600min-1
L x W x H: 420x415x430mm
Weight: approx. 30kg
230V, 50/60Hz, 1 phase or
120V, 50/60Hz, 1 phase
08
Kinematic Pairs
09
Working model
of Clutches
Different types, showing sliding pair, turning pair, rolling
pair (two types), screw pair (two types) spherical pair,
completely constrained motion, gear wheels, two types of
links, all mounted on vertical polished wooden board
2
Claw Clutch (Working Model)
Properly constructed metallic model. Complete on base with
2
6
List and specifications of lab equipment for theory of machines
operating lever
Conical Friction Clutch (Working Model)
Properly constructed metallic model. Complete on base with
operating lever.
Plate Clutch (Working Model)
Properly constructed metallic model. Complete on base with
operating lever.
Centrifugal Clutch (Working Model)
The model should consist of a drum pulley mounted on
the output shaft. The input shaft carrying spring controlled
fly weights. The worming can be demonstrated by rotating
the input shaft provided with crank handle. The output shaft
rotating with clutch action.
Multiple-plate Clutch (Working model)
A properly constructed all metallic model mounted on metal
base with handle drive arrangement.
10
Working Models
of Brakes
Single Shoe Brake (Working Model)
The model Should consist of a brake drum, mounted on a
shaft free to rotate in bearings, provided with brake lever,
complete on iron base.
Double Shoe Brake (Working Model)
Model Should consist of a brake drum, provided with two
levers carrying shoes. A linkage is used to apply the braking
force at the free end bell crank lever. Complete on iron base
Band Brake (Working Model)
Model should consist of a brake drum mounted on a shaft,
free to rotate in bearings. A flexible band wrapped partly
around the drum. Brake force can be applied with the help of
Lever. Complete on iron base.
Internal Expanding Brake (Working Model)s
The model Should consist of a brake drum; two shoes are
pivoted on pins. Braking action can be seen due to
application of the force on the cam-lever.
7
2
List and specifications of lab equipment for theory of machines
11
Whitworth
quick-return
mechanism
apparatus:
[1] Bench top experiment on the uneven reciprocating
motion of Whitworth's quick return
[2] Crank radius 46mm, slider radius 55mm, connecting rod
length 145mm
2
[3] Slider crank and connecting rod mounted on ball
bearings
Drive crank radius- 46mm
Slider radius- 55mm
Axle offset drive slider- 30mm
Connecting rod length- 145mm
L x W x H - 360 x 280 x 60 mm
Weight- approx. 4 kg
12
Involute Gear
Tooth Profile
generation
apparatus
Generation of involute gear tooth profile model should
illustrate the process of cutting of involutes Gear Teeth, by use
of rack type cutter. It should consist of 3 white acrylic discs A,
B, C. having pitch circle diameter 450 mm, 300 mm & 200
mm respectively. A gear tooth profile with module 25mm
traced out on a piece of paper placed between disc and cutter.
An effect of Interference and Undercutting on correct profile of
gear tooth can be studied from the profiles traced.
[1] Bench top experiment on the kinematic behavior of a
four bar chain, Grashof set
Four bar chain
13
[2] Anodized aluminum discs, ball bearing mounted
1
1
[3] Aluminum rods, black anodized
Crank radius-25mm, 37.5mm, 50mm
Swing radius-50mm,100mm, 200mm
Connecting rod length160mm,180mm 200mm, 220mm
L x W x H- 380 x 280 x 100 mm
Weight- approx. 3 kg
14
Stroboscope
Features of Stroboscope :
•
•
•
8
Enables measuring the speed of fast-moving objects.
Does RPM check
Produces the optical effect of stopping or slowing
down high-speed motion for purposes of observation.
1
List and specifications of lab equipment for theory of machines
•
•
Emits a high- intensity, short-duration flash of light.
Stroboscope features an electronic pulse generator.
Specifications of Stroboscope:
• Measurement Range : 150~20000FPM
• Display : 5 - 10mmLED
• Flashes per minute : 150-20000
• Accuracy : ± (0.05%n+1d)
• Resolution : 0.1 FPM(Less 1000 FPM) 1 FPM (Over
1000 FPM)
• Sampling time : 0.3second
• 2 ranges : H, L (High, Low)
• Flash adjust : Coarse adjustment, fine adjustment, ×2
and ÷2 for fast check
• Triggering Mode: Interior/Exterior
• Temperature : 0~40?
• Humidity : Less than 85%RH
9
ELECTRICAL
ENGINEERING
LABS
Power System and Protection LAB Tender
S. No.
1.
2.
Name of Experiment
Complete Setup For performing:
To determine negative and zero sequence
reactance of an alternator
Specifications
MACHINES REOUIRED
M-G Set: DC SHUNT MOTOR/3 PHASE
ALTERNATOR SALIENT POLE TYPE (ROTATING
FIELD)
DC Motor:
Type. DC S h u n t wo u n d , s c r e e n p ro tected .
Horizontal foot mounted, with interpoles and
3 point DC S t a r t e r , h a v i n g No- volt a n d over-load
release coil.
Capacity: 3HP
RPM : 1500 (controlled variation) Volts : 230V
Insulation: Class‘B’
Cooling: Fan cooled
Connections: Shunt, all the terminals of Armature and
field winding shall be brought over to a Bakelite sheet
fixed to C I terminal fix fitted on top of Motor.
Alternator :
Type : Salient pole type (Rotating Field type), 3 phase
4 wire screen protected, horizontal foot mounted, fan
cooled, separately excited
Capacity : 2 KVA
RPM : 1500 for max output and frequency of 50 Hz
Volts : 415V
Insulation : Class‘B’
Frequency : 50 Hz
Power factor : 0.8 p.f. lagging
Exciter
Type : Static type through Rectifier
With
All Measuring instruments required as per Experiments
(Fitted on Engraved Bakelite sheet enclosed in almirah
type M S box with lock & handle arrangement suitable
for table mounting.)
Complete Setup For performing :To determine direct axis reactance (xd)
and quadrature axis reactance (xq) of a
salient pole alternator.
MACHINES REOUIRED
MG Set: DC SHUNT MOTOR/3 PHASE
ALTERNATOR SALIENT POLE TYPE
(ROTATING FIELD)
DC Motor
Type. DC S h u n t wo u n d , s c r e e n p ro tected .
Horizontal foot mounted, with interpoles and
3 point DC Starter, having N o volt and overload
release coils.
Capacity
: 3HP
RPM
: 1500 (controlled variation)
Volts
: 230V
Insulation
: Class ‘B’
Cooling
: Fan cooled
Connections: Shunt, all the terminals of Armature
and field winding shall be brought over to a Bakelite
sheet fixed to C I terminal fix fitted on top of Motor.
Alternator :
Type : Salient pole type (Rotating Field type), 3
ph 4 wire screen protected, horizontal foot mounted,
fan cooled, separately excited Capacity
: 2 KVA
RPM
: 1500 for max output and
frequency of 50 Hz
Volts
: 415V
Qty
2
2
Insulation : Class ‘B’
Frequency : 50 Hz
Power factor : 0.8 p.f. lagging
Connections : 3 phase 4 wire
Exciter
Type: D.C S h u n t G e n e r a t o r o r R e c t i f i e r 220V,
DC through slip rings.
With
All Measuring instruments required as per Experiment
(Fitted on Engraved Bakelite sheet enclosed in
almirah type M S box with lock & handle arrangement
suitable for table mounting.)
Additional Accessories Required
3 Phase Variac 0-470V.
3.
Complete Setup For performing :To determine fault current for L-G, L-L,
L-L-G and L-L-L faults at the terminals
of an alternator at very low excitation.
MACHINES REQUIRED:
M G Set : D C SHUNT MOTOR/3 PHASE
ALTERNATOR SALIENT POLE TYPE (ROTATING
FIELD)
2
DC Motor
Type. DC Shunt wound, screen protected.
Horizontal foot mounted, with interpoles and
3 points DC Starter, having No volt and overload
release coils.
Capacity
: 3HP
RPM
: 1500 (controlled variation)
Volts
: 230
Insulation
: Class ‘B’
Cooling
: Fan cooled
Connections: Shunt, all the terminals of Armature
and field winding shall be brought over to a Bakelite
sheet fixed to C I terminal fix fitted on top of Motor.
Alternator :Type : Salient pole type (Rotating Field
type), 3 ph 4 wire screen protected, horizontal foot
mounted, fan cooled, separately excited
Capacity
: 2 KVA
RPM
: 1500 for max output and
frequency of 50 Hz
Volts
: 415V
Insulation
: Class ‘B’
Frequency : 50 Hz
Power factor : 0.8 p.f. lagging Connections : 3
phase 4 wire
EXCITER:
Type : Static type through Rectifier
With
All Measuring instruments required as per Experiment
(Fitted on Engraved Bakelite sheet enclosed in almirah
type M S box with lock & handle arrangement suitable
for table mounting.)
4.
Complete Setup For performing :To study the IDMT over current relay
and determine the time current
characteristics.
APPARATUS REQUIRED
1. Digital AC Voltmeter 0-300 V 1 No.
2. Digital AC Ammeter 0-10 A
1 No.
3. Digital Time Totalizer
1 No.
4. IDMT Relay ‘ALSTOM (AREVA)’/ABB make 1 No.
Type CDG-11 Electro Mechanical Type (INVERSE)
2
5. 1 Ph Variac
1 No.
6. Loading CT
1 No.
7. Diode Type Rectifier Supply
1 No.
8. Multipoint Relay
1 No.
9. Push Button
2 No.
10. Indicating Light
2 No.
11. DP Isolator
12. Rotary Switch
All the accessories and Relays will be fitted on sheet
fixed to M.S. box cabinet almirah type suitable for
table mounting with provision for lock and key
arrangement.
5.
6.
Complete Setup for performing: To
study percentage differential relay
Complete setup for performing:I.
Study of No load test and
Ferranti effects on transmission
line.
II.
Load test and calculation of
efficiency, regulation and power
flow in pi model of TL.
III.
Load test and calculation of
efficiency, regulation and power
flow in short model of TL.
IV.
Study of symmetrical and
asymmetrical faults on
transmission line.
V.
Study of distance protection
using distance relay.
VI.
Study of Auto reclose function
of distance relay.
VII.
Study of Distribution
transformer protection for
differential & over current
faults.
APPARATUS REQUIRED
1. Percentage Differential Relays Static type ‘ALSTOM
(AREVA) make. 1 No.
2. Digital AC Ammeter 0-10 A
2 No.
3. Digital Time Totalizer
1 No.
4. DP Isolator
5. Push Button
2 No.
6. Loading CT
1 No.
7. Multipoint Relay with Transformer
1 No. &
Rectifier Supply.
8. Rotary Switch
9. Isolation Transformer
1 No.
10. Tubular Rheostat for Differential Current & Through
Current.
All the accessories and Relays will be fitted on sheet
fixed to M.S. box cabinet almirah type suitable for
table mounting with provision of lock and key
arrangement.
2
1
Trainer should work in standalone mode as well as in
conjunction with HMI, RTU SCADA software and
consists of following panels:
(a) Input 3 phase DOL Starter panel --- 1 No
(i) 4 pole MCB of 415 V/4A.
(ii) DOL 16A Contactor with 24DCV / 11VA COIL
(iii) Bimetallic thermal O/L relay with range 2.5A 6A
(iv) RYB inputs indicators.
(v) 9 pin D (M) connector for RTU/SCADA
interface.
(vi) Manual start / stop with local trip contact
(vii) Power ON LED indicator
(b) FWD-OFF-REV, Switch Panel --- 1 No.
(i) FWD/REV, 3 pole 3 way switch with center OFF,
6A/440V.
(c) 3 Phase Bidirectional Power cum Energy meter
panel --- 3 Nos.
(i) Bidirectional Multifunction
(ii) 3 phase 3/4 wire, 415VAC, CT Input 5A
(iii) LCD/LED display, Aux. supply 230V, 4565Hz,5W
(iv) Measure V, I, Hz, Pf, KVA, KW, KWH
(v) Modbus RTU RS 485 for RTU/SCADA interface.
(d) VAR Compensation panel (dual panel --- 1 No.
(i) Consisting of VAR compensating capacitors of 2,
4, 6, 8, 10 & 15µF each of 3 nos with 3 pole 7
way switch for selection.
(e) 415/110VAC, 50VA PT panel --- 1 No.
(i) Consisting of potential transformer,
(ii) Input 415VAC, star connected, Output 110VAC,
star connected, 50VA.
(f) 37 pin D(M) to 9 pin D(F) converter panel- 1 No.
(i) Consist of 37 pin D type male 1 no., 9 pin D type
male 1 no.
(ii) 9 pin D type female connectors 9 nos.
(iii) Power ON LED.
(g) 5 pin to shrouded socket converter panel --- 2Nos.
(i) Consist of 5 pin 3 phase, 5 wires industrial female
socket to connect 415VAC 3 phase supply.
(ii) Shrouded banana sockets 18 nos to extend the 3
phase supply into individual setups.
(iii) It’s used as bidirectional 3 phase extension board
between two setups.
Table top panels:
(h) Distribution transformer Panel --- 1 No.
(i) 3 phase power transformer with connection group
YY11,
(ii) Input 415VAC, Output 415VAC, 3KVA,
(iii) Secondary winding with tapping at 2.5% and
5%.
(i) Differential Relay (Transformer protection) panel
--- 1 No.
(i) Protections:
Differential,
Over
current,
Under/Over voltage, Under/Over frequency,
Reverse power, Earth fault.
(ii) 9 pin D (M) connector to interface with
RTU/SCADA for automation.
(iii) Modbus RTU RS 485 for RTU/SCADA interface.
(j) CT panel --- 2 No.
(i) Consist of 5/5 Amp. CT 6 Nos.
(ii) Primary side of CTs are brought on 3 x 2 x 2
SBS-5 sockets.
(iii) Secondary side of CTs are Star connected in
group of 3 & brought out on 4 x 2 SBS-5 sockets
(k) Distance protection Relay panel --- 1 No.
(i) Protections: Distance, Over current, Under/Over
voltage, Earth fault.
(ii) Auto reclose function of relay
(iii) 9 pin D (M) connector to interface with
RTU/SCADA for automation.
(iv) Modbus RTU RS 485 for RTU/SCADA interface.
[B] Transmission line Panel
(a) Table Top Panel:
(i) Simulated model for transmission line (250kms)
using R(10 ohm/600W), L(0.15H/5A) & C
(2.2uF/630V) 6 No. each component.
(ii) Simulated model for medium/long length
transmission line for pi model.
(iii) Simulated model for medium/long length
transmission line for T model
(iv) Fault resistor 100ohm/600W.
(v) Multi pin heavy duty connector 32 pin & 24 pin
to establish control from RTU/SCADA.
(b) RLC load Panel --- 1 No.
(i) 3 nos of 600W resistors with switch selectable 6
nos of taps at 100, 112, 150, 175, 200 & 225 ohm.
(ii) 3 nos of inductor 1.5H/1A with switch selectable
6 nos of taps at 0.3, 0.6, 0.75, 0.9, 1.2 & 1.5H.
(iii) Capacitors 440VAC rating (3 nos, one per phase)
with switch selectable 7 nos of value of 2, 5, 10,
15, 20, 30 & 50µF.
(iv) Multi pin heavy duty connector 32 pin & 24 pin
to establish control from RTU/SCADA.
[C]Accessories Power Transmission and Distribution:
(a) Tables for Transmission & Distribution Setup 1
no. consists of Pi type frame, under trolley.
(i) Frame: 45X45 aluminum profile (Heavy duty)
Colour: anodized white.
(ii) Table top material/colour: The nova pan or
Rubber wood with white/Silver gray with smooth
finish veneer finish table top (18mm thick
optionally 40mm) with removable slot cover
(900X500mm).
(iii) Under Trolley: Located under individual setup
table to house respective load panel, transmission
line panel Variac panel, transformer etc as
applicable.
(iv) Dimension: Table: 1450 mm (L) X 750 mm (W)
X 760 mm (H). Under Trolley:
1200X700X185mm
(v) Caster wheels: Four sturdy castor wheels with
locking mechanism are provided so that table can
be positioned conveniently.
(b) Cables:
(i) 9 pin D male to 9 pin D female with 9 core cable,
length up to 4 meter –
4 nos.
(ii) 37 pin D male to 37 pin D female patch cable,
length = 4 meters –
1 no.
(iii) RS485 patch cable: 6 pin mini DIN male to 6 pin
mini DIN male, length up to 4 meters – 5 nos.
(c) Signal tower: 4 nos. of fixed function lamps and 1
Alarm sound all mounted one above another in
classic bayonet system by means of a simple half
rotation manual operation, mounted on right vertical
member of the TLD rack and are driven from 24V
DC output of PLC using 37 pin D converter panel.
The signal tower is used to indicate following
conditions(i) Red lamp paralleled with sounder - When any
Relay trips, Red lamp will flash at 0.75Hz and the
alarm is sounded until fault accept button is
pressed.
(ii) Orange lamp – When an Emergency stop button
is pressed, the 3𝜑supply of Grid and Generator is
made OFF and Orange lamp will flash at 0.75Hz
until fault accept button is pressed.
(iii) Green lamp- When Default state is pressed
Green lamp will ON for 1sec & OFF for 3sec
which indicate all CB’s and isolators OFF. When
any of the CB or isolator is switched ON then
green light will flash at 0.75Hz indicating
SCADA in operation.
(iv) Blue lamp- When Grid is AUTO synchronized
with Generator the Blue will flash at 0.75Hz.
7.
Complete Setup For performing: - To
study operation of oil testing set.
APPARATUS REQUIRED:
Features




Variable output up to 100 KV
Compact and portable design
Equipped with cover and zero start interlocking
device
Compliance with quality standards like IS: 6792
and IEC-156
1


Shock proof
Oveload protection
Technical Specifications





Input: 230 Volts, 50 Hz, Accuracy +/- 10%
Output: Variable from 0 - 100 KV
Capacity: 1.0 KVA.
Duty Cycle: Continuous
Dimensions/Weight: 21” x 18” x 17” approx. /75
kgs. approx.
Suitable Parameters




Initial stand time: 1-999 sec
Stir time: 1-999 sec
Intermediable stand time: 1-999 sec
Rate of voltage rise: 0.5 sec to 5 sec
Safety systems



Interlock for zero start
Interlock for HT cover open
Auto trip and reset
Complete Experimental setup as per requirement of the
Experiment, with testing kit and sample of oil.
8.
SOIL TESTING ANALYSIS KIT with
12V Rechargeable Battery or 230V±10%
AC V
Display
3½ Digit LCD
pH
Range
Resolution
Accuracy
Temp. Comp.
Range
Resolution
Accuracy
Cell Constant
Temp. Coeff.
Temp. Comp.
Ref. Temp.
Range
Resolution
Accuracy
Sensor
Range
Range Select
Resolution
Accuracy
0 - 14 pH
0.01 pH
0.01, ± 1 Digit
0 - 100 °C (Manual)
Conductivity
0 - 20 mS
0.01 mS
(10 μS)
± 0.5% FS,
± 1 Digit
Pre-Adjusted
2%
Adjustable
from Table
25 °C
Temperature
0 - 100 °C
0.1 °C
± 0.1 °C
± 1 Digit
Semiconductor
TDS
0 - 20 ppt
0.1 ppt
± 0.5% FS,
± 1 Digit
1
Pre-Adjusted
Cell Constant
DO
Range
Resolution
Accuracy
Temp. Comp.
Sensor
Range
Resolution
Accuracy
Sample
System
0 - 20 ppm
0.1 ppt
0.5 ppm,
± 1 Digit
5 - 55 °C
(Manual)
Gold/Silver
Amperometric
Turbidity
0 - 1000 NTU
1 NTU
± 3% FS,
± 1 Digit
30 mm clear Glass Tube
Salinity
Range
Resolution
Accuracy
Abs
Filters
Resolution
POWER
SUPPLY
0 - 50 ppt
0.1 ppt
± 0.5% FS,
± 1 Digit
Colorimeter
0 - 1.99
5
0.01 A
In-built Chargeable Battery
230 V ± 10% AC, 50 Hz.
9.
10.
11.
12.
13.
Complete Setup For performing :To study Impedance, MHO and
Reactance type distance relays
APPARATUS REQUIRED
Complete Experimental setup as per requirement of the
Experiment, fitted in M S sheet box complete with patch
cords for interconnection & Manual
Complete Setup For performing :To determine location of fault in a cable
using cable fault locator
APPARATUS REQUIRED
CABLE FAULT LOCATOR
Complete experimental setup consisting of Rheostat,
Galvanometer, Measuring Tape, 3 Core Cable, DC Power
Source, Digital Measuring Instrument
Complete Setup For performing :To study Ferranti effect and voltage
distribution in H.V. long transmission
line using transmission line model.
APPARATUS REQUIRED
Complete Experimental setups as per requirement of the
Experiment, fitted in M S sheet box complete with patch
cords for interconnection & Manual.
Complete Setup For performing :To study Voltage distribution using
D.C. transmission line model.
APPARATUS REQUIRED
Complete Experimental setups as per requirement of the
Experiment, fitted in M S sheet box complete with patch
cords for interconnection & Manual.\
Specifications
Working Measuring Range : 0-250MΩ
Display Type : Analog
Test Voltage : 100 to 5000 V
Input Voltage : 5000 V
Material : Metallic Body
Rotation Speed: (160 or more) RPM
MEGGAR for Insulation Testing
2
2
1
1
3
Important NOTE: Detailed Instruction Manual must be supplied with all units. Proper terminal
sockets should be provided on the panel. Interconnections between the panels and components are made
via stackable test leads. Patch cords (stackable leads) of necessary length must be provided.
Control Engineering - LAB TENDER
Name of Equipment
Sr.
No.
Specifications
1.
Complete Setup For performing :To determine response of first order
and second order systems for step
input for various values of constant
’K’ using linear simulator unit and
compare theoretical and practical
results
Simulated blocks c o n f igurable as 1st, 2nd and
3rd o r d e r systems with negative feedback.
 Forward gain adjustable through a
calibrated 10 turn potentiometer
(Resolution 1 in 1000)
 Three built-in signal sources
 Square wave : 1 V p-p (min)
 Triangular wave : + 0.5 V p-p (min)
 Trigger pulses : + 10 V (min)
 Frequency adjustable : 40 Hz– 90 Hz
 Provision
for
disturbance inputs at input and load
 I.C. regulation in all internal power
supplies.
 Power requirement less than 10W at 220
V, 50 Hz operation.
 Except a CRO no other equipment is
required.
 A detailed instruction manual to be
supplied.
 Sockets & Patch cords: Terminal
sockets should be provided on panel.
Interconnections between the panels and
components are made via stackable test
leads
2.
Complete Setup For performing :To study P, PI and PID
temperature controller for an
oven and compare their
performance.
Temperature controller with f acilities for P,
I, D and relay control blocks.
 Operating temperature: ambient to 90
0C.
 Separate controls for P.I.D channel
gains.
 Two settings for relay hysteresis.
 Fast 25 W OVEN fitted with IC
temperature sensor.
 Digital display of set and measured
temperature on a 3½ digit built in DVM.
 Buffered output for recorder
 IC regulation in controller circuit
power supplies.
 220V, 50 Hz mains operated.
 No accessories are required.
 A detailed instruction manual to be
supplied.
 Sockets & Patch cords: Terminal
sockets should be provided on panel.
Interconnections between the panels and
components are made via stackable test
leads
3.
Complete Setup For performing :To study and calibrate temperature
using resistance temperature
Using Temperature sensor :
RTD PT 100
Qty.
3
3
3
Total
Cost
detector (RTD)
1. Range: 0 to 200 degree centigrade.
2. Mode of control: on/off.
3. Relay: O/E/N make 5 Amp rating.
4. Optional: Recorder.
5. Setup comes with digital temp. indication,
set point indication, set point control and
calibration check-up for 0 degree and 100
degree centigrade.
6. Model size: 192 x 96 x 300 mm with
powder coated M.S. box having neatly
labeled anodised plate.
7. Accuracy of induction:
+/- 1% of the full range.
Complete set up with model process heated
with Comptalux bulbs.


4.
Complete Setup For performing :1.
2.
3.
To design Lag, Lead and
Lag-Lead compensators
To study the Compensation of
the second order lag process by
using Lead-Lag compensator.
To study the Compensation of
the second order lead process
by using Lead-Lag compensator






4.
Complete Setup For performing :To study DC position control system
A detailed instruction manual to be
supplied.
Sockets & Patch cords: Terminal
sockets should be provided on panel.
Interconnections between the panels and
components are made via stackable test
leads
Simulated
uncompensated
system
having adjustable damping peak percent
overshoot Mp variable from 20% to
50% and steady state error variable
from 50% to 0.5%.
Compensation network implementation
through built-in variable gain amplifier.
Gain is adjustable from 1 to 11.
Built-in function generator ( square &
sine wave generators) for transient
and frequency
response
studies.
Frequency adjustable from 25Hz –
800Hz (approx.)
220V + 10% 50 Hz mains operation
A detailed instruction manual to be
supplied.
Sockets & Patch cords: Terminal
sockets should be provided on panel.
Interconnections between the panels and
components are made via stackable test
leads
 Armature controlled D.C. servomotor
with suitable coupling required for (i)
output position indicator and load (ii)
Tacho-generator
 D.C. Tacho-generator coupled to
D.C. motor, for derivative feedback.
 4 Quadrant MOSFET chopper provided
3
3








5.
6.
Complete Setup For performing :To study synchro-transmitter and
receiver and obtain output V/S input
characteristics
Complete Setup For performing :To determine speed-torque
characteristics of an ac servomotor
for forward & reverse direction
5k ohm +/- 1% linearity precision servo
Potentiometers having bearing used as
error detector, provided at the low speed
shaft for position setting
Output potentiometer, similar as input
potentiometer to convert output position
into a voltage signal.
Summing Amplifier with adjustable
gain.
20/4 LCD display to indicate the set
position and actual position in degree (0355°)
Preamplifier and power amplifier to
drive the D.C. motor on the basis of the
error signal. D.C. motor is 12 volt, lamp,
and permanent magnet with a gear train.
Power supply for armature winding and
electronic amplifier. Suitable test points
brought on the side panel.
A detailed instruction manual to be
supplied.
Sockets & Patch cords: Terminal
sockets should be provided on panel.
Interconnections between the panels and
components are made via stackable test
leads

Phase Shifting Transformer (230/50V
AC) for 900 phase shifting of mains
voltage.
 Two no’s of three phase synchronous
motors for transmitter side & receiver
side.
Synchro Transmitter
Input Rotor voltage - 50VAC
Output Stator Voltage - 34VAC (max)
Synchro Receiver
Stator Voltage - 34V AC (max)
Rotor Voltage - 35VAC
 Digital Voltmeter (0-300V)AC for
measurement of stator winding voltage
 Supporting literature included
 Sockets & Patch cords: Terminal
sockets should be provided on panel.
Interconnections between the panels and
components are made via stackable test
leads
 Block/circuit diagram to be printed on
Panel for the ease of connections
 1Φ, SCR phase control provided to vary
0-100V AC for control unit
 Phase Shifting Transformer (230/50V
2
3
AC) for 900 phase shifting of mains
voltage
 Two phase servomotor
 Optical speed sensor for speed
measurement:
A photoelectric pick up using disc with
holes and a phototransistor, for speed
sensing
 Belt type mechanical loading arrangement
for servomotor.
 Torque measuring device.
 Fuse for over current protection of control
winding
 Digital voltmeter and ammeter for voltage
and current measurement of control
winding
 A detailed manual.
 RPM indicator and digital ammeter for
measuring load current.
 Unit must be covered by an acrylic sheet
to facilitate clear view of the entire system
 A detailed instruction manual to be
supplied.
 Sockets & Patch cords: Terminal
sockets should be provided on panel.
Interconnections between the panels and
components are made via stackable test
leads
 Block/circuit diagram to be printed on
Panel for the ease of connections
7.
Complete Setup For performing :To study performance of servo
voltage stabilizer at various loads
using load bank

Demonstration unit with following
facilities :a) Variable Input AC Supply
b) AC Servo Motor
c) Servo Amplifier & Controller
d) 0-300 Voltmeter
e) Auto and Non-auto provision
f) Manual Up & Down
3
 100 Watt 250 V Lamps: Qty – 05.
 Capacity of stabilizer 1 KVA
 A detailed instruction manual to be
supplied.
 Sockets & Patch cords: Terminal
sockets should be provided on panel.
Interconnections between the panels and
components are made via stackable test
leads
8.
Complete Setup For performing :To study behavior of separately
excited dc motor in open loop
1.
Potentiometer as input transducer for
converting reference voltage. It will be
suitably marked.
3
and closed loop conditions at
various loads.
2.
3.
4.
5.
6.
7.
8.



9.
Complete Setup For performing :To study P I D C o n t r o l l e r f o r
s i m u l a t i o n proves like
transportation lag.
A DC Tacho-generator/speed sensor
will be also used to indicate the motor
speed in RPM.
Summing amplifier to receive inputs,
reference signal and Tacho-generator
output. This amplifier will have an
adjustable again.
Separately excited DC Motor rated for
1500 RPM 1 HP at 220 volts with
loading arrangement
Thyristor converter using single phase
half controlled converter to control DC
motor through armature and power
supply for field winding and electronic
amplifier.
The unit will be supplied along-with
d e t a i l e d instruction manual.
The entire system will, for the range
300 RPM to 1000 RPM work as a
closed loop control system.
Suitable protection for the electronic
circuits and motor.
A detailed instruction manual to be
supplied.
Sockets & Patch cords: Terminal sockets
should
be
provided
on
panel.
Interconnections between the panels and
components are made via stackable test
leads
Block/circuit diagram to be printed on
Panel for the ease of connections
 Simulated
block-dead
time
(transportation leg),
integrator,
Time constants, error detector and
gain.
 PID Controller (configurable as P, PI,
PD or PID)
 Proportional Band : 5% to 50%
(Gain 2-20)
 Integral Time : 10 ms – 100 ms
 Derivative time : 2-20 ms
 Built in IC regulated power
supply.
 Built in 3½ digit DVM
 Built in signal sources.
 Set value : -1V to + 1V
 Square wave 1 V p-p (min) at 40 Hz
(typical)
 Triangular wave : 1 V p-p (min) at 40
Hz (typical)
 Detailed literature
 20 V, 50 Hz mains operations
 Essential accessory : a CRO
3
 A detailed instruction manual to be
supplied.
 Sockets & Patch cords: Terminal
sockets should be provided on panel.
Interconnections between the panels and
components are made via stackable test
leads
Important NOTE: Detailed instruction manual must be supplied with all units. Proper terminal
sockets should be provided on the panel. Interconnections between the panels and components are
made via stackable test leads. Patch cords (stackable leads) of necessary length must be provided.
Electrical Machine 2 Lab
S. Item Description
No.
1. Three Phase Squirrel
cage Induction motor
with Control Panel &
star Delta Star
starter by
Control panel
NO.
Specifications
Motor's Specifications
Type : Squirrel Cage ,Rating : 1 HP ,RPM : 1440 (No Load)
Insulation : Class ‗B‘
Control Panel:
Wattmeter: 1000 W (2 Nos.);
Voltmeter (3& 1/2 Digit- Digital): 500 V ;
Ammeter (3& 1/2 Digit- Digital): 5 A
MCB : 10 A
Front Plate : Aluminum Screen Protected
Tachometer: 20,000 RPM tachometer (1 nos.) should be provided.
Starter : Star delta type starter
Mains Supply : Three Phase 415 V ±10%, 50 Hz
3
Sockets & Patch cords: BS 10 type sockets should be provided on
panel & machine. Different lengths of BS 10 type Patch cords
should be provided along with the setup .Block/circuit diagram to
be printed on Panel for the ease of connections.
2. Pole Changing Three
Phase Induction
Motor with Control
Panel
The set up should be able to perform experiments:
To speed control of a Squirrel Cage Induction motor by polechanging method
Three Phase Mains Supply : 440V ±10%, 50Hz
All terminals should be brought out on a Bakelite sheet for easy
connection of different pole arrangements
Induction Machine
Type : Squirrel Cage
Phase : Three Phase
Power Rating : 3HP
Rated Voltage : 440V ±10%
Rated Speed : 1440 RPM
No of Poles : 2/4/6/8/10/12
Insulation Class : ―B‖ Type
Sockets & Patch cords: BS 10 type sockets should be provided on
panel & machine. Different lengths of BS 10 type Patch cords
3
should be provided along with the setup .Block/circuit diagram to
be printed on Panel for the ease of connections.
3.
Schrage Motor with
Control Panel
4. Single Phase
capacitor start
Induction motor by
Control Panel single
Phase Variac
The setup should be able to perform the experiment:
To study the Speed Characteristics of Schrage motor
Motor's Specifications:
Type : AC Variable(Schrage)
Ratings : 3 HP
Voltage : 415V AC, 50 Hz
Speed : 1500 RPM
Insulation Class : B
Loading Type: Electrical Loading Arrangement
Control Panel:
Voltmeter (3& 1/2 Digit- Digital): 500 V ;
Analog Ammeter :10A
MCB : 10 A
Front Plate : Aluminum Screen Protected
Sockets & Patch cords: BS 10 type sockets should be provided on
panel & machine. Different lengths of BS 10 type Patch cords
should be provided along with the setup .Block/circuit diagram to
be printed on Panel for the ease of connections.
The set up should be able to perform experiments:
To study Running and Reversing, No Load Test, Block Rotor
Test, Slip measurement, Speed Torque characteristics of Single
phase Induction motor.
Circuit diagram should be screen printed on the top of the
Panel.BS 10 Type safety terminals & patch cords should be
Provided For Proper safety.
Set up should include :
Motor's Specifications :
Type : Capacitor start ,
Rating : 1 HP , Voltage Rating: 230 V ±10% ,
Speed :1440 RPM (No Load) ;
Insulation : Class ‗B‘
Loading arrangement : Mechanical
Brake Drum/Pulley : Aluminium Casted
Control Panel:
Ammeter (MI): 10 Amp ;
Voltmeter (3& 1/2 Digit- Digital): 0-300 V
Wattmeter : 1500 W ; MCB : 10 A
Front Plate : Aluminum Screen Protected
2
3
Single Phase Variac 220V/10A , enclosed type with terminal
brought on the top
Mains Supply : Single Phase 230 V ±10%, 50 Hz
Sockets & Patch cords: BS 10 type sockets should be provided on
panel & machine. Different lengths of BS 10 type Patch cords
should be provided along with the setup
5.
Construction of
Synchronous
Machine
6. Three Phase
Synchronous
Generator Short
circuit & Open
Circuit test by
control panel.
The Machine should have facility to conduct Identification of
different part of Machines — Understanding the functional
structure of Machine ;
2
Nvis 7038B- Cut section of 3HP 3Phase AC Synchronus
Machine
The set up should be able to perform experiments To study the
Open circuit test (OCC) & short circuit characteristics (SCC) of
three Phase Synchronous Generator
Circuit diagram should be screen printed on the top of the
Panel.BS 10 Type safety terminals & patch cords should be
Provided For Proper safety.
Front Plate: Aluminum Screen Protected & circuit diagram
printed on front panel.
3
Set up should include :
DC Shunt Motor as prime mover & Three Phase synchronous
motor as generator .Both the Machines should be Flexibly
Coupled and Mounted on a M.S channel Base
Specifications :
DC Machine acts as Prime Mover
Type : DC Shunt ; Rating : 2HP ;Vo ltage Rating : 200V
RPM : 1500 (no load) ; Insulation : Class 'B'
Three Phase Synchronous Motor acts as Generator
Type : Salient Pole ; Rating : 3HP ;
Voltage rating : 415V ±10% ; RPM : 1500 (no load)
Insulation : Class ‗B‘ ;
Excitation Voltage : 120V
Control panel Meters Used
Analog Ammeter (MI) (1 each) : 10A DC & 10A AC
Digital Voltmeter(3& 1/2 Digit): 300V DC & 500V AC
Front Plate : Aluminum Screen Protected
Accessories :3 Point DC Motor Starter should be provided with setup.
DC Power supply , Rectifier Based
DC Output Voltage :Variable : 0 - 200 V ; Fixed : 200 V
Transformer: Rating : 2 kVA ; Primary Voltage : 0 -230 V
Secondary Voltage : 0 - 150 V, 0 - 150 V
Meters :
Digital Voltmeter (3& 1/2 Digit) : 300 V ;
Analog Ammeter (MC) : 10 A
Auto Transformer : 270 V, 10 A
DC Starter & 8A, 100 ohm Rheostat
7. Synchronous Machine
Training System
(Parallel Alternator
setup by Control
Panel)
MCB : 10 A ; Mains Supply : 230 V ±10%, 50 Hz
Separate terminals BS 10 type of windings brought out on a
terminal box fitted on top of the motors for connection with
control panel using BS10 type patch cords .Different lengths of
BS 10 type Patch cords should be provided along with the setup
The Setup should be able to perform experiments to study
Synchronization of two Three Phase Alternators by
a) Synchronoscope method b) Three dark lamp method
c) Two bright one dark lamp method
Regulation of Three Phase Alternator by OC & DC test
Setup Should Include: Two Identical Motor Generator Set;
Electrical Loading Arrangement ;240 X 128 Graphical LCD
RISC Microcontroller based design for measurement
High resolution ADC for accurate measurement
High sensitive to change in reading for better controlling
Inbuilt Digital Phase Sequence Indicator & Synchroscope
Lamps provided on front panel for synchronisation
Provided with shaft protection cover & supply indication lamps
Heavy Duty Base/Channel ; Machine with Class ―B‖ Insulation
Diagrammatic representation on control panel for the ease of
connections.
Detailed Specifications:
DC Machine (Prime Mover) – 02 nos
Type : DC Shunt ;Voltage Rating : 200 V
Rating : 2 HP ; RPM : 1500 (no load);Insulation : Class B
Three Phase Machine (Generator) – 02 nos
Type : Salient Pole ; Rating : 3 HP ;RPM : 1500 (no load)
Excitation Voltage : 120 V ;Insulation : Class ―B‖
Control Panel:
Graphical LCD Display for : AC Voltage , Current , Power ,
Power Factor , Frequency ,DC Voltage & DC Current, Phase
sequence indication for both generators. Lamp Arrangement (for
Bright Dark Lamp Experiment)should be provided on Panel
3
8. Three Phase
Synchronous
Generator
by control panel with
variac
External DC Power supply:
DC Output Voltage : Variable : 0 - 200 V ;Fixed : 200 V
Transformer : Rating : 2 KVA ;Primary Voltage : 0- 230V
Secondary Voltage : 0 - 150 V, 0 - 150 V
Meters Used :
Digital Voltmeter (3& 1/2 Digit): 300 V ;
Analog Ammeter : 10 A
Auto Transformer : 270 V, 10 A ;MCB : 10 A
Mains Supply : 230 V ±10%, 50 Hz
Front Plate : Aluminum Screen Protected
Rheostats : 5A/110ohms - 4nos
Three Phase/Single Phase Resistive Load
Single Phase Operation
Voltage : 240V AC ±10%, 50Hz ; Current : 15A ;
Power : 3.5kW ; Loading steps : 15 ;
MCBs : Current rating : 10A (SP) ; No. of MCBs : 15
Three Phase Star Operation
Voltage : 415V AC ±10%, 50Hz ;Current : 5A (per Phase) ;
Power : 3.5kW ; Loading steps : 5 (per Phase)
MCBs (acts as a switch) : 10A (SP)
Three Phase Delta Operation
Voltage : 415V AC ±10%, 50Hz ; Current : 15A (per Phase)
Power : 10.5kW ; Loading steps : 5 (per Phase)
MCBs : Current rating : 10A (SP) ; No. of MCBs : 15
Auxiliary Supply for in built fan : 230V AC, 50Hz
Star/Delta Switch : 415V, 25A ; MCB : 16A (TPN)
Sockets & Patch cords: BS 10 type sockets should be provided on
panel & machine. Different lengths of BS 10 type Patch cords
should be provided along with the setup.
Machines Specification (2 Nos.)
Both the Machines are Flexibly Coupled and Mounted on a
M.S channel Base ,DC Machine should act as Prime Mover
Type : DC Shunt ;Rating : 5 HP; Voltage Rating : 200V
RPM : 1500 (no load) ;Insulation : Class 'B‘
Front Plate : Aluminum Screen Protected & circuit diagram
printed on front panel
Three Phase Synchronous Motor should act as Generator
Type : Salient Pole Motor ;Current type : AC
Rating : 3 HP ;Voltage rating : 415V
Control Panel : Meters Used
Analog Ammeter (MC type) : 2 Nos ;
Digital Voltmeter (3& 1/2 Digit): 2 Nos
With required MCB & Meters for display of DC voltage &
3
Current.
Input supply : 25A , 0-220 Volt DC Variable 25A DC power
supply,
220 Volt fixe (3A), thyristor based.
Accessories : 2.8 A, 220 ohm Rheostat
Three Phase Resistive Load compatible for star and delta
connection,
Front Plate : Aluminum Screen Protected
Input power supply: Single Phase 230 V ±10%, 50 Hz
9. Three Phase
Synchronous Motor
for V Curve
Sockets & Patch cords: BS 10 type sockets should be provided on
panel & machine. Different lengths of BS 10 type Patch cords
should be provided along with the setup .Block/circuit diagram to
be printed on Panel for the ease of connections.
The set up should be able to perform experiments to study the V
curve & Inverse V Curve of Three Phase Synchronous Motor.
Circuit diagram should be screen printed on the top of the
Panel.BS 10 Type safety terminals & patch cords should be
Provided For Proper safety.
Front Plate : Aluminum Screen Protected & circuit diagram
printed on front panel
Set up should include :
Three Phase synchronous motor & DC Shunt Motor
Both the Machines should be Flexibly Coupled and Mounted on a
M.S channel Base
Specifications :
Three Phase Synchronous Motor
Type : Salient Pole Motor ; Rating : 3 HP
Voltage rating : 415V ±10% ; RPM : 1500 (no load)
Insulation : Class ‗B‘ ; Excitation Voltage : 120V
DC Machine :
Type : DC Shunt ; Rating : 2 HP ;Voltage Rating : 200V
RPM : 1500 (no load) ; Insulation : Class 'B'
Meters Used:
Analog Ammeter (1each) : 10A AC
Digital Ammeter: 1A DC
Digital Voltmeter(3& 1/2 Digit) : 300V DC & 500V AC
3
Wattmeter (2 Nos.) : 1500W - 0 - 1500W
MCB : 10A ,
Mains Supply : Three Phase 415 V ±10%, 50 Hz
Accessories: DC Power supply , Drive Based with :DC Voltage :
200V/3A Fixed & 0- 200V/12A variable ;
Digital Voltmeter(3& 1/2 Digit): 300 V;
Analog Ammeter: 15 A; MCB: 16A.
Rheostat :2.8 A/220 ohms
Separate terminals BS 10 type of windings brought out on a
terminal box fitted on top of the motors for connection with
control panel using BS10 type patch cords .Different lengths of
BS 10 type Patch cords should be provided along with the setup
Power Electronics and Electric-Drives Lab
S. No.
Specifications
Item
Description
1.
Quantity Total
Required Amount
V-I characteristics study trainer to find out holding and latching current of SCR.
Static
characteristics of
SCR
•
•
•
•
•
•
•
•
•
Variable DC power supply from l.5V to 10V @ 100mA to vary Vgk
3
Variable DC power supply from 3.5V to 35V @ 500mA to vary Vak
Two SCR's of different current ratings.
50 watts potentiometer for Anode and 3 watts potentiometer for gate current control.
4 no’s of digital meters to measure Vak, Vgk, IL & IG.
Relay mate connector is provided to connect external SCR to study its characteristics.
Works directly on 230V AC mains.
This unit is enclosed in a powder coated MS box with screen printed polycarbonate front
panel
Sockets & Patch cords: 2mm terminal sockets should be provided on panel.
Interconnections between the panels and components are made via 2mm stackable test
leads
•
2.
Static
characteristics of
MOSFET and
IGBT
Block/circuit diagram to be printed on Panel for the ease of connections
V-I characteristics study trainer for MOSFET and IGBT
• Variable DC power supply from 1.5V to 15V @l00mA to vary VGS & VGE.
• Variable DC power supply from 3.5V to 35V @500mA to vary VDS & VCE .
• One MOSFET and one IGBT.
• 50 watts fixed load resistance.
• 3 no’s of digital meters to measure VDS I VCE, ILS & VGS I VGE.
mate connector is provided to connect external MOSFET/IGBT to study its
• Relay
characteristics.
•
•
Works directly on 230V AC mains.
This unit is enclosed in a powder coated MS box with screen printed polycarbonate front
panel
3
•
•
3.
SCR turn ON
using
synchronized UJT
relaxation
oscillator
•

To study single
phase half
controlled, full
controlled rectifier
using R and R-L
loads
Block/circuit diagram to be printed on Panel for the ease of connections.
UJT - 2N 2646 based oscillator to study its characteristics and its application in SCR
triggering.
 Pulse transformer is provided for isolation between power circuit and UJT relaxation
oscillator.
 All the points are brought out to front panel for study and measurement of various
waveforms.
 Two SCRs are provided to study Half wave, Full wave and AC phase control.
 20V-0-20V/1A Transformer is provided.
•
4.
Sockets & Patch cords: BS 10 type sockets should be provided on panel. Different
lengths of BS 10 type Patch cords should be provided along with the setup
3
This unit is enclosed in a powder coated MS box with screen printed polycarbonate front
panel
Sockets & Patch cords: BS 10 type sockets should be provided on panel. Different
lengths of BS 10 type Patch cords should be provided along with the setup
Block/circuit diagram to be printed on Panel for the ease of connections
a) Single phase converter firing u nit:This unit generates 4 synchronized and isolated triggering pulses to fire thyristors
connected in single phase half wave, full wave, half controlled bridge, fully
controlled bridge and AC phase control power circuit. This firing circuit is based on
ZCD, Ramp generator, Op-amp comparator and amplifier /pulse transformer isolation
method. Triac triggering is also provided.
(Additional)
Single phase converter firing unit (micro controller based):89C5 l microcontroller based firing circuit for 1-ph converter and Triac. 2x l 6 LCD
display to indicate firing angle. INC and DEC key to increment and decrement the
firing angle with 1 degree resolution. Pulse transformer isolation circuit for trigger
outputs
b) Single phase half and fully controlled converter power circuit:- 230V I SA
The power circuit consists of 4 SCRs, 2diodes and a free-wheeling diode to be
connected as half & fully controlled bridge converter. A Triac is also provided
for AC phase control study. Each device is mounted on a suitable heat sink
and protected by snubber circuit and fuse. A circuit breaker is provided to
switch ON/OFF the AC supply to power circuit and for protection. Digital
voltmeter and ammeter to indicate output voltage and current. A separate
bridge rectifier for field of DC motor for speed control of DC motor. All
3
connections are brought out on the front panel.
This unit is enclosed in a powder coated MS box with screen printed
polycarbonate f r o n t panel.
c) 1 phase isolation transformer with tappings at 30-60-90-120-150-180- 230V/ 5
Amps.
d) R-Ioad -Rheostat -150 Ohm/5 Amps.
e) Loading Inductor with tappings 0-25-50-100-l50 mH/ 5 Amps.
•
•
•
5.
AC voltage
controller using
TRIAC and DIAC
This unit is enclosed in a powder coated MS box with screen printed polycarbonate front
panel
Sockets & Patch cords: BS 10 type sockets should be provided on panel. Different
lengths of BS 10 type Patch cords should be provided along with the setup
Block/circuit diagram to be printed on Panel for the ease of connections
Scope of Learning
 4 Study lamp dimmer using DIAC & TRIAC firing scheme
 4 Study lamp dimmer using UJT firing scheme
This unit consists of 50V/1A transformer, RC phase shifting components, DIAC , TRIAC with
snubber ckt and LAMP load.
On board firing circuits :
 DIAC - TRIAC firing circuit
 UJT firing circuit
3
SCR & TRIAC : 1 SCRs TYN 616, 600V/16A and TRIAC BT136
Load : Lamp 100W
Mains Supply (mains) : 220V/110V, 50 Hz
•
•
•
6.
MOSFET OR
This unit is enclosed in a powder coated MS box with screen printed polycarbonate front
panel
Sockets & Patch cords: BS 10 type sockets should be provided on panel. Different
lengths of BS 10 type Patch cords should be provided along with the setup
Block/circuit diagram to be printed on Panel for the ease of connections
This experimental setup consists of the following items:a) Single phase PWM inverter- MOSFET I IGBT based.
Features:Microcontroller based control circuit to accurately vary the pulse width. The
3
following PWM technique can be studied :i.
Single pulse width modulation
ii.
Multiple pulse width modulation.
iii.
Sine triangle pulse width modulation.
iv.
Trapezoidal pulse width modulation.
v.
Staircase pulse width modulation.
LCD display (2line x 16 characters) to indicate the parameters and type of
modulation.
Key board consists of 5 keys - SET, INC, DEC, FREQ/D.CY and RUN/ STOP
to vary and set the parameters.
The frequency can be varied from 20Hz to 100Hz. The duty cycle can be varied from
0 to 100%. Carrier frequency - 9 pulses per each half cycle. Opto-coupler based
isolation/driver circuit to drive 4 IGBT's / 4 Mosfets connected as 1 -phase full
bridge inverter.
The power circuit consists of 4 IGBT's with built-in reverse diodes of rating
19A/600V and 4 MOSFETs of rating 10Amps/400V. All the devices are
mounted on proper heat sinks and protected by snubber circuit and fuses.
Works directly on 230 Volts AC mains.
IGBT based
single-phase fullbridge inverter
connected to R
load
b) Regulated DC power supply unit -30V /2A.
c) Rheostat-100 Ohms/ 2Amps.
•
•
•
7.
Characteristics of
a BUCK – BOOST
Converter using
MOSFET
This unit is enclosed in a powder coated MS box with screen printed polycarbonate front
panel
Sockets & Patch cords: BS 10 type sockets should be provided on panel. Different
lengths of BS 10 type Patch cords should be provided along with the setup
Block/circuit diagram to be printed on Panel for the ease of connections
The power circuit consists of 1 MOSFET, l diodes, 1 capacitor, 1 inductance same
value, Each device is mounted on a suitable heat sink and protected by snubber
circuit and fuse. A circuit breaker is provided to switch ON/OFF the AC supply to
power circuit and for protection. Digital voltmeter and ammeter to indicate output
voltage and current. Triggering pulse for SCR.
All connections are brought out on the front panel. This unit is enclosed in a powder
coated MS box with screen printed polycarbonate front panel.
Regulated DC power supply unit -30V /2A.
Loading Inductor with tapping's 0-25-50-100-150mH/5Amp
R-load -Rheostat -100 Ohms/2Amps
3
Sockets & Patch cords: BS 10 type sockets should be provided on panel & machine.
Different lengths of BS 10 type Patch cords should be provided along with the setup.
8.
Single phase AC
voltage controller
module alongwith
1-φ Induction
Motor
This controller unit consists of two parts - Firing circuit and power circuit.
Firing circuit :This unit generates 2 line synchronized pulse transformer isolated trigger pulses.
These trigger pulses can be used to trigger:
 Single phase AC phase control using SCR's (anti para llel SCR's)
 Single phase AC phase control using TRIAC
 Single phase half wave rectifier (single SCR)
 Single phase full wave rectifier (two SCR's)
 Single phase half controlled bridge rectifier (two SCR's & two diodes)
The firing circuit is based on zero crossing detector, ramp generator, opamp comparator and amplifier / pulse transformer isolation method
Power circuit :The power circuit consists of 2 SCR's, 3 diodes and a TRIAC. The power
devices are mounted on suitable heat sink for power dissipation. The snubber
circuit is connected for dv/dt protection. A fuse is also provided in series
with the devices for short circuit or over current protection. In the input side
a MCB is provided to switch ON/OFF the supply to the power circuit. A
digital AC/DC voltmeter and an AC/DC ammeter is provided to measure the
Input I output voltage and current.
(b) Universal motor -0.5hp I 230V.
(c) Digital Non contractor Tachometer, Range-: 5-99999 RPM
•
•
•
This unit is enclosed in a powder coated MS box with screen printed polycarbonate front
panel
Sockets & Patch cords: BS 10 type sockets should be provided on panel. Different
lengths of BS 10 type Patch cords should be provided along with the setup
Block/circuit diagram to be printed on Panel for the ease of connections
3
9.
Step-down
Chopper using
IGBT or Power
MOSFET along
with DC Motor
This experiment set up consists of the following items :a) Speed control unit using MOSFET/IGBT Chopper suitable for
0.5HP/220V DC shunt motor.
Specifications :Microcontroller based control circuit to accurately vary the duty cycle from 0% to
100% & frequency from 50Hz to 500Hz. LCD display (2line x 16 characters)
to display the duty cycle and frequency. Key board consists of 4 keys to select
frequency/duty cycle, increment/decrement the parameter and RUN/STOP the
chopper. Power circuit consists of a power MOSFET, an IGBT and a freewheeling
diode. In built filtered DC supply - 24V, 48V, 110V and 220V DC @ 2 Amps
(selectable using switch) using step down transformer, diode bridge rectifier and a
capacitor filter. A fixed DC supply of 220V ± 10% @ 0.5A for field of DC shunt
motor. Digital voltmeter and ammeter to measure voltage and current. Works
directly on 230V AC mains.No external DC supply and meters are required.
This unit can be used for R - load, R - L load, PMDC motors - 24V, 48V and
110Volts.
3
b) DC Shunt Motor- 0.5HP/220V/1500RPM with mechanical loading
arrangement for the motor.
c) Digital Non contractor Tachometer, Range-: 5-99999 RPM
•
•
•
10.
Single phase semiconverter with
motor
This unit is enclosed in a powder coated MS box with screen printed polycarbonate front
panel
Sockets & Patch cords: BS 10 type sockets should be provided on panel. Different
lengths of BS 10 type Patch cords should be provided along with the setup
Block/circuit diagram to be printed on Panel for the ease of connections
a) Speed control unit for 0.5HP I 220V DC shunt motor using 1-ph Half controlled
SCR converter.
Specifications :Microcontroller based control circuit to accurately vary the duty cycle from 0% to
100% & frequency from 50Hz to 500Hz. LCD display (2line x 16 characters) to
display the duty cycle and frequency. Key board consists of 4 keys to select
frequency/duty cycle, increment/decrement the parameter and RUN/STOP the
chopper. Power circuit consists of a power MOSFET, an IGBT and a freewheeling diode. In built filtered DC supply - 24V, 48V, 110V and 220V DC @ 2
Amps (selectable using switch) using step down transformer, diode bridge rectifier
and a capacitor filter. A fixed DC supply of 220V ± 10% @ 0.5 A for field of DC
shunt motor. Digital voltmeter and ammeter to measure voltage and current.
3
Works directly on 230V AC mains. No external DC supply and meters are
required. This unit can be used for R-load, R-L load, PMDC motors - 24V,
48V and 110Volts.
b) DC shunt motor 0.5HP/220V/1500RPM with mechanical loading arrangement for
the motor
c) Digital Non contractor Tachometer, Range-: 5-99999 RPM
d) 1- phase isolation transformer with tappings at 30-60-90-120-150- 180-230V/
5Amps.
•
•
•
11.
To study various
Triggering
Circuits of an
SCR
This unit is enclosed in a powder coated MS box with screen printed polycarbonate front
panel
Sockets & Patch cords: BS 10 type sockets should be provided on panel. Different
lengths of BS 10 type Patch cords should be provided along with the setup
Block/circuit diagram to be printed on Panel for the ease of connections
The trainer kit must have the scope to perform the following experiments:
 Study of the Resistor Triggering Circuit
 Study of the RC Half Wave Triggering Circuit
 Study of the RC Full Wave Triggering Circuit
Specifications:
•
•
On board AC source : 18 V - 0 V - 18 V
•
•
•
•
Firing angle variation : Gradually variation using firing control potentiometers
•
•
On board firing circuits : R Triggering Circuit, RC Half Wave Triggering Circuit, RC
Full Wave Triggering Circuit
SCR assembly : 4 SCRs 2P4M, 400 V/2A
Power Supply (Mains) : 110V - 260V AC, 50/60Hz
This unit is enclosed in a powder coated MS box with screen printed polycarbonate front
panel
Sockets & Patch cords: BS 10 type sockets should be provided on panel. Different
lengths of BS 10 type Patch cords should be provided along with the setup
Block/circuit diagram to be printed on Panel for the ease of connections
3
12.
13.
14.
To study single
phase cycloconverter
Dual converter fed
DC motor Drive
(Static WardLeonard Control)
Three Phase AC
voltage controller
fed Induction
Motor Drive
The experimental setup consists of :(i) Power Circuit consisting of two fully controlled Bridge Converter connected in antiparallel (Bridges P & N). Bridge P supplies load current in the positive half of output
cycle and bridge N provides load current in the negative half of output cycle.
(ii) Firing Circuit consists of Micro Controller Based Firing Unit which provides Isolated
Gate pulses through pulse transformers separately for P & N Bridges. Toggle switch is
provided to select the output frequency (1/1f, 1/2f, 1/3f, 1/4f, 1/5f). Firing angle can be
changed either :a)
Through toggle switches for increasing and decreasing of firing angle. Firing
angle during all half cycles of AC input supply remains same in this mode of control.
b)
Through serial port of computer by connector provided on the experimental kit to
the serial port of computer and then entering the firing angle to the key board. In this
mode of control the firing angle of each half cycle of input supply can be independently
controlled.
(iii)
Patch Cords
(iv)
Detailed Instruction Manual
(i) Power Circuit consisting of two single phase fully controlled Bridge Converter
connected in anti-parallel.
(ii) Centre Tap Inductor required for circulating mode operation of dual converter.
(iii) Micro controlled based firing circuit which generates firing pulses for both P and N converters.
(iv) MCB, Voltmeter, Ammeter and Lamp load
(v) Patch Cord & Instruction Manual
(vi)
DC Motor 1 HP, 230V
3 phase, 415 volt 1.0 HP squirrel cage induction motor drive by Micro Control
Based firing angle along with motor-generating set. Consisting of AC Induction
Motor 1 HP 415 V, 1440 RPM coupled to DC Shunt Generator 230V with lamp
bank load.
DESCRIPTION
1. This unit consists of two parts :(a) Power Circuit: - It consists of 6 Thyristors connected in anti-parallel (2SCRs in
each phase). By controlling the firing angle of the thyristors connected in antiparallel in each phase, the rms value of the stator voltage can be regulated. As a
consequence, motor torque and thus speed of the drive is controlled.
(b) Control Circuit: - FCR-100 (8051) microcontroller based SCR Bridge
controller is used for controlling the firing circuit.
2. Soft push buttons provided for increasing or decreasing the firing angle.
3. 3-phase MCB
4. LCD display of the firing angle.
5. 10:1 Attenuator with Isolation Transformer for observation of wave form on
CRO.
With AC Induction Motor 1 HP 415 V, 1440 RPM coupled to DC Shunt Generator
3
3
3
230V with lamp bank load.
15.
To study speed
control of three
phase slip ring
induction motor
using static rotor
resistance control
using rectifier and
chopper
16.
To study speed
control of three
phase slip ring
induction motor
using static
scherbius slip
power recovery
control scheme
a) Power Circuit: This part consists of a 3-phase bridge rectifier to convert
3-phase rotor supply to DC supply. An indicator is connected in series with
the DC supply for smoothening of a DC. A Glass fuse is connected in
series with the DC supply. An IGBT is provided for chopper control
MOSFET is mounted on a proper heat sink. Snubber circuit is connected
across MOSFET for dv/dt. A fuse is also provided for protection. All the
points are brought out on the front panel for interconnection.
b) Control Circuit: The control circuit generates driver output for driving the
MOSFET in chopper mode. The duty cycle can be varied from 0% to 90%.
The frequency can be varied.
Soft start and soft stop is provided for driver output
1 HP Induction Motor Slip-ring Type for demonstration of speed variation of
induction motor. Ammeter/Voltmeter provided along with the set up. Electronic
Controller includes Power Supply, Firing, Circuit, Contactor, SCR Bridge Inverter
and 6 diode bridge converters for rotor side. dv/dt protection for Thyristors
included.
3
3
Quantity
Required
17.
18.
19.
Additional Equipment
Decade Inductance Box
Decade Resistance Box
Decade Capacitance Box
Components
SCR -600V, 16A
Diode – 600V, 16A
MOSFET – IRF-740, VDC 400V
TRIAC – BT136
DIAC
DC Power Supply
1 mH – 10 H with 4 decade switches
1Ω – 1MΩ with 5 decade Switches
100 pF – 11.111 MF with 4 decade switches
10
10
10
Input – 230V AC, 15A AC
20
20
20
20
20
1
20.
Digital LCR Meter
Output – 300V DC, 5A DC (Variable Voltage 0230V DC)
(Note : ISO Standard)
Measurement Range:
0.1μH – 9999 H
0.1pF – 9999 μF
0.001 Ω – 100 MΩ
2
Important NOTE: Detailed instruction manual must be supplied with all units. Proper terminal sockets should be provided on the panel. Interconnections
between the panels and components are made via stackable test leads. Patch cords (stackable leads) of necessary length must be provided.
Electrical Measurements Lab
S.No.
1
2
Item Name
Meter Demonstrator
3-phase Power
Measurement by Two
Wattmeter Method
(Module)
Description
Kit to study the following:
1. Operation of Moving Coil type instruments
2. Operation of Moving Iron type instruments
3. Operation of Dynamometer type instruments
Technical Details:
Mains supply: 230 V +/- 10%, 50 Hz;
In-built DC Supply:0 – 6 V (minimum);
AC Voltmeter (MI):0 – 300V
DC Voltmeter (MC): 0 – 10V
AC Ammeter (MI): 0 -1A
DC Ammeter (MC):0 – 1A
AC Wattmeter(Dynamometer): 0 – 500W (minimum)
General Details:
1. Module to measure and demonstrate 3-phase power measurement
using 2 wattmeter method.
2. Students should be able to calculate Active, Reactive and Apparent
power.
3. Measurement of three phase parameters.
Technical Details:
Mains Supply: Three Phase, 415+/-10%, 50Hz;Load: R-L;
Analog Meters Used:
1. Wattmeter: 500W (2 Nos.)
2. Voltmeter (MI):500V
3. Ammeter(MI)=1A
MCB(TPN): 10A
Qty
3
3
3
General Details:
System to study the following:
1. To study short, medium and long Transmission Lines
2. Determine ABCD, h, z and image parameters of short transmission
line
3. Determine ABCD, h, z and Image parameters of medium
transmission line for both T-network and Pi-Network
4. Determine ABCD, h, z and image parameters for long transmission
line.
5. Understand the performance of transmission line under different
loads.
6.
Technical Details:
Transmission Line Training Mains Supply: 230V +/-10%, 50Hz
Single phase variac: Input:230V,Output:0-270V, Current:0-2A
System
Display Measurement (approximate values):
1. Voltage: >=25V;
2. Current;>=0.2A;
3. Active Power:>=20W,<=2000W;
4. Reactive Power:>=20VAR,<=2000VAR;
5. Apparent Power:>=20VA, <=2000VA;
Loads (approximate values):
Resistor: 700 Ohm/100W
Inductor:800mH/0.5A
Capacitor:12.5uF/450V
Appropriate Display(s) for measurement of various experimental
parameters
3
4
Kelvin’s Double Bridge
Experiment Board
5
Anderson’s Bridge
Experiment Board
6
Schering Bridge
7
Energy Meter
8
Wheat Stone Bridge
Additional Accessories:
Portable Type instruments
Experimental board to measure the value of unknown resistance using
Kelvin’s double bridge.
DC Power Supply: +/-12 V, +/-5 V
Experimental board to measure value of unknown inductance with the help
of Anderson’s Bridge.
DC Power Supply: +/- 12V, +/- 5V
Experimental Board to measure the value of unknown capacitance with the
help of Schering Bridge.
DC Power Supply: +/- 12V, +/- 5V
Single phase Energy meter Trainer for Energy measurement
Line Voltage : 230V AC ±10%, 50 Hz
Meter Constant : 1600 impulses/KWh (On LED)
Display Counter : 100 impulses /KWh (On LCD)
Maximum Current : 30 A
Experimental Board to measure the value of unknown resistance with the
help of Wheat Stone Bridge.
DC Power Supply: +/- 12V, +/- 5V
MI Type Voltmeter: 500V
MI type Ammeter : 1A
Dynamometer type Wattmeter : 500W
PMMC Ammeter : 1A
PMMC Voltmeter: 500V
2
2
2
3
2
3 each
ELECTRONICS
AND
COMMUNICATION
ENGINEERING
LABS
Details of Equipment
Microprocessors Lab
S. No
1
Specifications
8085 Based Microprocessor Trainer
Quantity
10
I/O lines using 8255
On board 8 channel ADC
On board DAC
Facility of downloading and uploading the files from PC.
2 command mode interface: ASCII Keyboard/HEX keypad& Serial
Mode
Input : ASCII Keyboard/ HEX Keypad; Display : 20 X 2 LCD
Mains supply : 90 - 230 V AC,50 Hz
Accessories included : Operating and Experimental E Manual
2
Additional Interface cards for Microprocessor Training
8255 study card compatible with 8085
10
8253 study card compatible with 8085
10
8259 study card compatible with 8085
10
8257 study card compatible with 8085
10
8251 study card compatible with 8085
10
8279 study card compatible with 8085
10
8105 study card compatible with 8085
10
Stepper Motor Controller card compatible with 8085
10
8 Channel 8 Bit ADC card compatible with 8085
10
2 Channel 8 Bit DAC card compatible with 8085
10
DC Motor Controller card compatible with 8085
10
Traffic Light Controller card compatible with 8085
10
Temperature Measurement card compatible with 8085
10
Relay & opto coupler card compatible with 8085
10
Elevator Simulator card compatible with 8085
10
Communication Systems Lab
S. No.
Specifications
1
10
PCM, DPCM, CVSD Modulator & Demodulator Trainer
Trainer to study Modulation and Demodulation using Pulse
Code Modulation (PCM), Differential Pulse Code Modulation
(DPCM) and Continuous Variable Slope Delta Modulation
(CVSD).
With internal signal generator
Types of signal: sine, square, triangle
With selectable Sampling Frequencies.
With LED Indicators and on-board test points 110260V AC, 50/60 Hz Power Supply.
With Reference Manual and CD.
Delta, Adaptive Delta, Sigma Delta Modulator and 10
Demodulator Trainer
Trainer to Study Delta, Adaptive Delta, Sigma Delta
Modulation and Demodulation.
With internal signal generator
Types of signal: sine, square, triangle
With selectable Sampling Frequencies.
With LED Indicators and on-board test points 110260V AC, 50/60 Hz Power Supply
With Reference Manual and CD.
10
4-Channel TDM-PCM Transmitter & Receiver Trainer
Trainer to study 2 channel and 4 channel Time Division
Multiplexing using Pulse Code Modulation (PCM)
With four internal dedicated signal generators for each
channel,
Sine, Triangle, etc. signals.
With on-board test points
110-260V AC, 50/60 Hz Power Supply
With Reference Manual and CD.
2
3
Quantity
4
10
Digital Companding A-Law and u-Law Trainer
Trainer to study compression and decompression using A-Law
and u-Law.
With internal sine wave signal generator.
LED indicators
On-board test points
110-260V AC, 50/60 Hz Power Supply
With Reference Manual and CD.
5
ASK, FSK, BPSK, DBPSK Modulator & Demodulator 10
Trainer
Trainer to study ASK, FSK, BPSK, DBPSK Modulation and
Demodulation.
With Internal data generator having selectable word-length.
With internal sine carrier signal generator having selectable
frequency.
With LED Indicators and on-board test points. 110260V AC, 50/60 Hz Power Supply
With Reference Manual and CD.
QPSK, OQPSK, DQPSK Modulator and Demodulator 10
Trainer
Trainer to study QPSK, OQPSK and DPSK Modulation and
Demodulation.
With Internal data generator having selectable word-length.
With internal sine carrier signal generator having selectable
frequency.
With LED Indicators and on-board test points. 110260V AC, 50/60 Hz Power Supply
With Reference Manual and CD.
Sampling & Reconstruction Technique Trainer
10
Trainer to study sampling and reconstruction techniques.
With on-board sine-wave generator (synchronized 1kHz, 5
Vpp Approx.)
With selectable sampling frequencies
With on-board test points.
110-260V AC, 50/60 Hz Power Supply
With Reference Manual and CD.
6
7
8
9
10
10
TDM-PAM Transmitter Receiver Trainer
Trainer to study Time Division Multiplexing and Demultiplexing with Pulse Amplitude Modulation (PAM)
Technique.
With multiple analog input channels.
With selectable sampling frequencies.
With selectable sampling pulse duty-cycle.
With on-board test points.
110-260V AC, 50/60 Hz Power Supply
With Reference Manual and CD.
10
Error Detection and Correction Cyclic Codes Trainer
Trainer to study Cyclic Encoding and Decoding of BCD bit
sequence, and error detection and correction of bits sequence.
With on-board data generator.
With on-board test points.
With multiple data rate and code rate selection. 110260V AC, 50/60 Hz Power Supply
With Reference Manual and CD.
Transmission Line Trainer
Trainer experiments:
• Measuring the characteristics of a line
• Measuring the attenuation of a line
• Measuring the Input Impedance of the Line
• Frequency characteristic of the line
• Study of Stationary Waves
• Line under Pulsed condition
• Signal Phase shift along the line
• Fault localization within the line
Transmission Line : Coaxial cable 100m (25 m x 4) approx..
With Impedance matching resistances
With on-board Test Generators :
Sine Wave:(Low Range)
Square Wave:(High Range)
Interconnections : 2 mm Banana sockets
On-board Test Points
Power Supply : 230 V ±10%, 50/60 Hz
10
11
12
Frequency Division Multiplexing/ Demultiplexing Trainer 10
The trainer having following features:
• Variable modulating input channel with provision of
voice input.
• DSBSC modulator for frequency band translation of
two test signals.
• Carrier generator
• Audio Input amplifier.
• Low pass filter for smooth output.
• De-modulator
Technical Specification.
Carrier Generator: Sine wave 100 kHz & 200 kHz.
Modulating Input Frequency : Sine wave 1 kHz –10 kHz
(Variable).
Audio Input Amplifier : Gain of 100 (Approx.).
Modulator/Demodulator: DSBSC Modulator/ Demodulator.
Interconnection: 2mm Patch chords.E manual
10
PAM, PPM, PWM Modulation & Demodulation Trainer
Modulation Technique : Pulse Amplitude Modulation and
Demodulation, Pulse Width Modulation and Demodulation,
Pulse Position Modulation and Demodulation, Line Coding
Techniques, Crystal Frequency: 20MHz
DDS Signal Generator: Sine, Square, Triangle, arbitrary signal
etc.
Synchronous AM Detector Kit
Kit to study and observe working of Amplitude Modulator, as
well as, to study and observe frequency of Synchronous
Detector.
13
Sine function.
Modulator: AM Modulator
Demodulator: AM Modulator with Low pass circuit
Mains: 230V +/- 10%, 50 Hz
10
DSB-AM Modulation and Demodulation Kit
Kit to study the following:
14
Amplitude Modulation using a Balanced Modulator
Amplitude Modulation using a transistorized Am Modulator
Observations of modulation index/modulation depth
Study of envelope detector and its utilization in AM Detection
Audio sine wave source (minimum upto 1 kHz, 0~5V variable)
1 MHz Carrier Source
DC Source/ Level Shifter: 0~5V variable
Balanced Modulator (DSB-AM)
Transistorized Modulator(DSB-AM)
. Envelope Detector (with adjustable band filter)
. Power Supply: 110 – 220V +/- 10%, 50/60 Hz
10
Frequency Modulation & Demodulation Kit
Kit to study the following:
1. Frequency Modulation using Voltage Controlled Oscillator.
2. Frequency Demodulation using Phase Locked Loop
3. Measurement of modulation index
15
Details:
Audio signal source(sinusoidal, 0 - 3.4kHz,0 - 5V variable)
DC source/level shifter: 0 -5 V
Frequency Modulation using VCO
Frequency Demodulation using PLL
Power Supply 110-220V +/- 10%, 50/60 Hz
10
DSB/SSB AM Transmitter Kit
Audio Oscillator with Adjustable Amplitude & Frequency (
upto 3.4 KHz)
Amplifier with speaker
16
Balanced Modulator with Band Pass Filter (1 MHz)
3
Carrier Frequency (1 MHz, Oscillator Controlled)
Transmitter Amplifier Output: (Gain adjustable) DSB (1
MHz), SSB (1.445 MHz) connected to antenna/cable
Power Supply: 110 – 220 V AC +/- 10%, 50/60 Hz
DSB/SSB AM Receiver Kit
Kit to study the following:
Study of DSB AM reception and demodulation using Diode
detector
Study of Automatic Gain Control Circuit
Study of SSB AM reception and demodulation using Product
Detector
Study of RF Amplifier, Mixer, IF Amplifiers for AM
Reception
Details:
17
Super-heterodyne Receiver
Input Circuits: RF Amplifier, Mixer, Local Oscillator
Tuning with variable capacitor (ganged)
Receiving Media: Telescopic Antenna/cable
Detectors: 1)Diode Detector (for DSB), 2) Product Detector
(for SSB)
Power Supply: 110 – 220 V AC, 50/60 Hz
3
Armstrong Frequency Modulator and Demodulator
Kit to study the following:
Study and Observe Double Sideband Suppressed carrier AM
generation
Study Armstrong Frequency Modulator
Study operation of Phase-Locked detector as a FM
demodulator.
Details:
Audio oscillator (message signal): sine , 0 - 10 VPP, frequency
minimum upto 10KHz
18
3
Carrier Output Frequency:
Sine, 0 – 10 VPP, frequency minimum upto 100KHz
FM Modulator: Armstrong Frequency Modulator
FM Demodulator: PLL detector
Low Pass Filter: 10KHz cut-off frequency
Output Amplifier: with adjustable gain
Power Supply: 230V +/- 10%, 50Hz
Noise Audio - Amplifier
Kit to study the following:
19
Examine the operation of a noise generator.
Examine the operation of a signal attenuation network.
Measurement of the frequency response and power output
Measurement of the Power Output
Analysis of distortion with square wave
Measurement of Noise Figure.
Details:
Noise Generator: Output Amplifier Adjustable from
approximately 100 mVpp
Signal attenuation network; Adjustable from 0 to the
maximum of input value signal + Noise adder stage
3
Audio Amplifier with Loud speaker
Power Supply: +12V
Analog Electronics Circuits – I Lab
S.No.
Item Name
1
Colpitt’s Oscillator
Kit
Description
Kit to study operation of Colpitt’s Oscillator and measure
frequency of oscillations for different combination of capacitors
Qty
10
DC Power Supply (+/- 12V, +/- 5V)
2
3
Hartley Oscillator
Kit
Kit to study operation of Hartley Oscillator and measurement of
the resonance frequency
10
DC Power Supply (+/- 12V, +/- 5V)
Differential
Amplifier Kit
(Transistorized)
Kit to study transistorized Differential Amplifier.
10
DC Power Supply (+/- 12V, +/- 5V)
Analog Electronics Circuits - II Lab
S.No.
Specification
Quantity
1
Analog Circuits Development Platform
10
Training Board contains on board AC/DC Power supplies, Function
Generator, Component tester. Apart from this various components like
Potentiometer, toggle switches & breadboards are provided to make
Experiments designed by own.
Technical Specifications:
Regulated DC Power Supplies: +5 V/1 A (Fixed), 500 mA (Variable)
AC Supplies: 9 V - 0 V - 9 V / 500 mA
Breadboard: Breadboard for making various circuits and testing them.
External
Components/ICs can be fitted conveniently.
Function Generator:
Operating modes: Sine, Square, Triangular
Frequency range: 1 Hz to 100 KHz
Voltage -Current -Frequency Measurement:
DC Voltages (V &V): -12 V to +12V 1 2
DC Currents (I & I): 10mA to 500mA 1 2
Frequency Range: 10Hz to 100 KHz
Continuity Tester: For testing the continuity. Provided with Beeper
Sound.
Interconnection for Modules: 2 mm patch cords
Mains Supply: 220/110V, 50/60Hz.
Power Consumption: 3 VA (approximately)
Accessories Included: Mains cord, Operating and Experimental Manual
(with
more than 20 designed experiments) and Patch Cords
Add on modules:
1. Diode Characteristics ( Si,Zener,LED)
2. Transistor Characteristics Common Base-NPN
3. Transistor Characteristics Common Base-PNP
4. Transistor Characteristics Common Emitter-NPN
5. Transistor Characteristics Common Emitter-PNP
6. Transistor Characteristics Common Collector-NPN
2
Operational Amplifier Trainer
Specifications:
Main Supply: 90V-250V, 50 Hz
Fixed DC Power Supply: ±5V, ±12V
Variable DC Power Supply: ±1.5V to ±10 V
POTs: 1k, 10k, 100k, 1M (2 Nos. each)
Function generator: Sine wave, Square wave, Triangular wave (1kHz-
10
3
100kHz, 5Vpp (variable))
Inbuilt Bread board for making any circuit using OPAMP
Electronics design & Simulation software with PCB Layout
It should be 05/10 user license
It should simulates and analyze electronic circuits
Large library containing more than 20000 components.
Virtual Instruments Oscilloscope,Multimeter,Function generator, XY
recorder, Spectrum Analyzer should be available
Analog, Digital, Mixed, RF simulation
Spice, HDL and S-parameter models
VHDL, Verilog, Verilog-A & AMS
MCU simulation in mixed circuits
Monte-Carlo, Worst Case & Stress Analysis
3D breadboard view should be available for designed circuit
PCB design, including multilayer PCB's with split power plane layers,
powerful auto placement & auto routing should be available. Also 3D
view of designed PCB from any angle should be available
Gerber and G-code output
Flexible PCB layout
Microcontroller Simulation
Symbolic Analysis facility
01
Electronic Instrumentation and PLC Lab
S. No.
1
2
3
Specifications
Distortion Factor Meter
Frequency 20 Hz to 20 KHz
Distortion measurement within 0.1%
LED Readout
Automatic nulling facility
Output for Distortion Analysis
Transistor Analyzer training system
Single module covers important transistor tests Onboard Curve Tracer circuit.
Comprehensive test circuit diagrams shown over mimic.
On-board Micro-ammeter for low current measurement.
On board NPN /PNP selection for each test
Control knobs for amplitude, number of base steps and sweep
frequency selection for curve tracing
Built in DC power supply
Sensor Trainer Kit
Sensor Lab(master unit) with three nos of sensor daughter boards
Specifications:
Following devices should be on board:
Graphical touch LCD with inbuilt processor for viewing the output
waveforms, reading the operating manual, tutorial
videos
Inbuilt DAQ
Inverting Amplifier
Non–Inverting Amplifier
Power Amplifier
Current Amplifier
Instrumentation Amplifier
Differential Amplifier
Frequency to Voltage Converter & voltage to frequency Converter
Current to Voltage converter & voltage to current Converter
High Pass & low Pass Filter
Buffer
LED, buzzer, touch switch
LED Bar Graph
Sensor boards:
Temperature sensor board(RTD, NTC Thermistor,LM35
&Thermocouple)
Pressure sensor
Quantity
05
05
05
4
Lissajous Pattern Trainer
Trainer should have facility to calculate
Unknown frequency calculation using Lissajous figures
RLC resonance frequency calculation using Lissajous figures
Phase Difference calculation using Lissajous figures
Technical Specifications
Inbuilt DC Supply : +12 V, 500 mA
Signal Generators
Frequency : 10 Hz to 100 kHz (Approx)
Amplitude : 0 to 5Vpp
Mains Supply : 230V±10%, 50Hz
05
5
Hay’s bridge.
On board Sine wave generator
Frequency : 1 KHz
Amplitude : 20 Vpp Max
With Speaker
With Unknown Inductors
With Unknown Internal Resistances
Interconnections : 2mm socket
Power Requirement : 230 V ±10% 50 Hz (Detachable Mains
Cord)
Accessories included : Mains cord, E-Manual
To measure capacitance by De Sauty's & Schering bridge
Null detector with audio amplifier and speaker
On board Sine Wave Generator :
Frequency range(Selectable)
Amplitude control output :
Sine wave : Up to 8 Vpp
Speaker : 8 Ohm
Display : LCD
With Unknown Capacitors
Interconnections : 2mm socket
Power Requirement : 230 V ±10% 50 Hz (Detachable Mains
Cord)
Accessories included : Mains cord, E-Manual
10
6
10
7
8
9
Measurement of High Resistance using Megger (Insulation
tester)
Broad Insulation resistance Measuring range from 10KΩ to 1T Ω
Analog logarithmic display
Different Test voltages
Approx. Measuring range : 100 K Ω to 100M Ω (1000V)
Guard Terminal to be provided to eliminate surface current
Permanently connected Test leads with heavy duty insulation
Std. Accessories: Carrying case & strap, mains chord, crank
Generator, Test certificate.
LDR Characteristics
The trainer should be able to perform following experiments:
Microcontroller based LCD Display to read Lamp input voltage
and LDR voltage.
Mains supply : 90 - 275 V, 50 / 60 Hz
DC power supply : +12 V, -12 V, +5 V
Voltmeter (2Nos.) : 0 -12 V
Interconnections : 2mm Banana
PLC training systems With real world industrial scenarios
On board NO/NC switches, On board IR switches, Sample of Annunciator
given on board, Most user friendly, most powerful instruction sets, PC
Based Programming
Soft copy of PLC introduction and Tutorials, Choice of PLC and
expansion module
3D realistic graphics, Real-time physics that closely emulates what
happens in real life, 3D real-time sound, Total interactivity with the
systems, Interact with the system as you would in a real system, Add and
remove objects from the production circuit, at any time during the
simulation, Cause error situations or system jams, Test individual parts of
the system; for example: test a conveyor table.
The information is exchanged between the PLC and the virtual system by
a data acquisition board (DAQ) with 32 I/O isolated channels.
Digital Input
Digital output
Program size (Words)
10
05
02
Expansion module: Expandable
General Purpose Simulation PCB
Toggle Switches
Latch Switches
IR Switches
LED Display
Boolean Execution speed Sec. per instruction: 0.33 μs/Sequential
Instruction in average (approx.)
Interfacing:RS232, No. of ports:1, Input voltage:DC
10
11
Measurement of Load using Load Cell
Objective: To study Measurement of load by strain gauge based
load cell study of load cell char.
Strain gauge based cell 0-2.5 kg (Approx).
Weight of measurement load.
Precision instrumentation amplifier with variable gain.
Stable DC excitation voltage for Strain Gauge Bridge.
Digital panel meter.
Separate control for zero & span adjust.
IC regulated power supply.
DC supply short circuit & overload protected.
Operable on 220V/50Hz AC
With manual
Sensor Study Platform for study of various sensors
Inbuilt DAQ
Stand alone Training System
Inverting Amplifier
Non – Inverting Amplifier
Power Amplifier
Current Amplifier
Instrumentation Amplifier
Differential Amplifier
Frequency to Voltage Converter
Voltage to Frequency Converter
Current to Voltage Converter
Voltage to Current Converter
High Pass Filter
Low Pass Filter
Buffer
10
05
12
LED
Buzzer
LED Bar Graph
On Board Touch Switch
Sensors Type:
Temperature sensors
Optical Sensors
IR Sensors
Displacement sensor( LVDT)
Force Sensor (Strain Gauge,Load Cell, Piezoelectric Sensor)
Force Sensor
Magnetic Sensor
Pressure Sensor
Measurement of speed by photoelectric pick up:
10
13
Object: To study the principle of non-contact tachometer.
Study of speed measurement by light interrupt method
Permanent magnet DC motor
Speed controller with on/off switch.
LED as light source, photo diode as sensor,
Signal conditioning circuitry based upon Op amps.
Electronic tacho-generation, Digital counter as speed indicator.
Test point at various places to study the process.
DC supply short circuit & overloaded protected
Operable on 220V/50Hz/AC
With manual.
Measurement of speed by electromagnetic pick up:
10
Objective: To study of speed by electromagnetic pick up or non –
contact electromagnetic speed measurement transducer.
Permanent magnet DC motor.
A low power magnet attached with shaft of the motor.
Speed controllerwith on/off switch.
Signal conditioner circuitry based upon op amps.
Sockets provided at each signal processing block Input & output
Digital counter for speed display
DC supply short circuit & overload protected
Operable on 220V/50Hz/AC
With manual.
14
Measurement of angular displacement by servo potentiometer:
10
Objective: To study measurement of angular displacement by
Servo pot
Full 360° rotation servo potentiometer as transducer
Signal conditioner circuit
Digital panel meter display.
DC supply short circuit & overload protected.
Operable on 220V /50Hz AC
With manual
Optical Transducer Study Kit
Kit to study various Optical Transducers
Transducers: Photoconductive Cell, Photovoltaic Cell, Phototransistor,
PIN Photodiode;
Light Source: Filament Lamp
15
10
Signal Conditioning Circuitry: Power Amplifier, Current Amplifier, DC
Amplifier, Comparator, Electronic Switch, Buffer
Input Circuits: Rotary & Slide Potentiometers
Output Circuits: Relay, LED
Power Supply: 100V~240V AC, 50/60 Hz
Temperature Transducers Study Kit
Kit to study various temperature transducers
Transducers: N.T.C Thermsistor, Platinum R.T.D., K Type
Thermocouple, IC Temperature Sensor
Heating Element: Wirewound resistance 47 Ohm, 10W
16
10
Signal Conditioning Circuitry: Instrumentation Amplifier, X100
Amplifier, DC Amplifier, Comparator, Electronic Switch
Input Circuits: Rotary & Slide Potentiometers
Output Circuits: Relay, Buzzer
Power Supply: 100V-240V C, 50/60 Hz
Strain Gauge Kit
Kit to study functioning of Strain Gauge.
Strain Gauge: 4 Nos.
Gauge Factor: 2.1
Maximum bearable weight: 500 gm
17
Cantilever material: Stainless Steel
10
Cantilever Dimensions(w x t x l): 2.5 cm x 0.16 cm x 20cm
Bridge Voltage: +8V DC
Bridge configuration: Full Bridge
Display: 3½ Digit LED
Power Supply: 230V ± 10 %, 50/60 Hz
LVDT Kit
Kit to study functioning of LVDT
Measurement Range: 20 mm (± 10 mm)
Excitation Frequency: 4KHz (Approx)
Excitation Voltage: 4Vpp (Approx)
Sensitivity: 10 mV DC/mm
18
10
Linear Range: Full Range
Signal conditioner output: 0.1 VDC or Maximum Displacement
Display: 3½ Digit LED with Polarity Indicator
Micrometer Scale: 25 mm
Micrometer Least count: 0.01 mm
Power Supply: 110V – 260V AC, 50/60 Hz
Pressure Transducer Kit
Kit to study various pressure transducers
Pressure Transducer: 0 to 100 psi, Differential input
Pressure Gauge: 0 to 100 psi
Pressure Vessel: 0 to 100 psi
19
Safety Valve: 0 to 100 psi
10
Hoses: 1.5 m
Foot Pump: 0 to 150 psi
V-I Specification: 0 to 5 VDC, 4 to 20 mA
Digital Voltmeter: 0 to 10V
Power Supply: 100 V – 240V Ac, 50/60 Hz
Maxwell’s Bridge Kit
Kit to study Maxwell’s Bridge
Mains supply: 230V ± 10%, 50Hz
20
DC Power Supply: +12V, -12V
10
Sine Wave Generator with fixed Frequency: 1KHz ± 5%
Amplitude Control Range: Upto 20Vpp
DPM: 200mV
Kelvin’s (Double) Bridge Kit
Kit to study Kelvin’s Double Bridge
21
DC Power Supply: +5V
10
Digital Display (DPM) for null detection: 2V
Mains Supply: 230V ± 10%, 50 Hz
22
Schering Bridge
Experimental Board to measure the value of unknown capacitance with
10
the help of Schering Bridge.
DC Power Supply: +/- 12V, +/- 5V
Microcontrollers and Embedded Systems Lab
S. No
1
Specifications
89C51Microcontroller development board with programmer
Quantity
10
89C51/52 MCU clocked at 11MHz (Approx).
On board programmer for 89C51/ 52 and 55 devices
USB interface to PC for programming
Master Reset/Restart Key for hardware reset
On board breadboard
Self contained trainer with On board DC and AC power supply
With course & reference material
Technical Specifications
2
Serial communication : USB Port
MCU : 89C51/52
Crystal frequency : 11MHz (approx.)
DC power supply : +12 V, -12 V, +5 V & -5 V
Programmer unit : Ready to run programmer will program AT 89C51/52
& 55 Devices
Interconnection for modules : 2 mm patch cords
Power supply : 230 V 10 %, 50 Hz
Accessories : USB cable cable ,Mains cord ,Operating and
Experimental Manual , 2 mm Patch cords ,
Software CD.
PIC Microcontroller development board with programmer
PIC16F877A MCU clocked at 4 MHz (Approx)
On platform programmer
USB interface to PC for programming
Input/output & test points provided on platform
On platform breadboard for connecting external components
Self contained development platform with on platform DC Power Supply
CD with sample project code, Programmer software & useful documents
Input/Output & test points provided on board
On board breadboard
Self contained trainer with On board DC and AC power supply
CD with sample project code, Programmer software & useful documents
With course & reference material
08
Technical Specifications
3
Serial communication : USB Port
MCU : PIC16F877A
Crystal frequency : 4 MHz (approx.)
DC power supply : +12 V, -12 V, +5 V & -5 V
Programmer unit : Ready to run programmer will program AT
ARM 7 Development Board
10
4
MCU : LPC2294
Crystal frequency : 12MHz
Keypad : 4 x 4 Matrix Keypad
ADC : 10 Bit Internal ADC
Display : 16 x 2 Alphanumeric LCD
Serial communication : Two RS232 Port
Programmer : USB/Serial port
Programmer unit : Ready to run programmer will program flash devices
Interconnection : 2 mm patch cords
RS232 serial cable USB cable
Advanced ARM 7 Development Board
10
MCU : LPC2148
Crystal Frequency : 12 MHz
ADC : Two Internal 10 bit ADC
DAC : 10 Bit internal DAC
Interrupts : External Interrupts on platform
Communication : USB 2.0 Full speed device control interfaces
Serial Communication : Two RS232 Port
Programmer : USB/Serial Port
Interconnections : 2 mm Patch cords
RS232 serial cable, USB cable, Mains cord,
2mm Patch cords, Software.
INTERFACE BOARDS:
10
Keyboard : ASCII keyboard
Keypad : 4 x 4 matrix hex keypad
8 Input 8 channel ADC interface
DAC interface
PC based programming
Display: 16 x 2 character LCD
Contrast control: 0 - 5 V (Variable)
Backlight control: 0 - 5 V (Variable)
Seven segment display: 4 nos.
LED bar graph : 1 no.
10
10
10
5
Stepper Motor : +5 V
DC Motor : +12 V
Servo Motor : +5 V
Display : 128 x 64 graphical LCD display
Power Supply : From Microcontroller
Switches : DIP Switch (8-Switches)
Display : 16 x 2 LCD
With Seven segment display
Keypad : 4 x 4 matrix keypad
Buzzer : +5 V DC
Relay : +5 V DC
Temperature Sensor : LM35 0 - 100°C (Analog output)
2 I C Memory : 128 K EEPROM
SPI Memory : 128 K EEPROM
Stepper Motor : +5 V DC
16-Bit Development Platform
Texas instruments startup kits
MCU : MSP430F54xx launch pad,stellaris with energia support.
Main Oscillator : Internal Digitally Controlled Oscillator
(DCO) with PLL
ADC Input Channels On-Platform with single variable DC Input
External Interrupts on-platform
GPIO Ports on Platform
Clock outputs from MCU
Serial Communication : One RS232 Port
Programmer : USB port for programming
Interconnections : 2 mm Patch Chords with FRC Cables
Included Accessories : RS232 serial cable
10
10
10
10
08
INTERFACE BOARDS:
Keyboard : ASCII keyboard
Keypad : 4 x 4 matrix hex keypad
8 Input 8 channel ADC interface
DAC interface
PC based programming
Display : 16 x 2 character LCD
Contrast control : 0 - 5 V (Variable)
Backlight control : 0 - 5 V (Variable)
Seven segment display
LED bar graph
Stepper Motor : +5 V
DC Motor : +12 V
Servo Motor : +5 V
Display : 128 x 64 graphical LCD display
Power Supply : From Microcontroller
08
08
08
08
08
6
7.
Switches : DIP Switch (8-Switches)
Display : 16 x 2 LCD
Seven segment display : 4 nos.
Keypad : 4 x 4 matrix keypad
Buzzer : +5 V DC
Relay : +5 V DC
Temperature Sensor : LM35 0 - 100°C (Analog output)
2 I C Memory : 128 K EEPROM
SPI Memory : 128 K EEPROM
Stepper Motor : +5 V DC
ARM9 Development Board
Hardware (Approximate values for components):
ATMEL AT91SAM9263 – 200MHz (ARM 926EJS Core)
64 MB NAND Flash
64 MB RAM Flash
Power Management Unit
Ethernet Port
Audio in
Audio out
MMC / SD Port
Serial Port USB
Host
USB Client
12 BIT 2 Channel ADC
3X3 Keypad
7 Segment Display
With Development Tools.
Documentation :
Datasheets of all Chipsets
Schematic Diagram
Mains cord, USB cable, Ethernet cross Cable, RS232 Serial cable.
Learning Material : Online (Theory, procedure)
Complete Arduino trainer kits
With onboard arduino UNO/Mega original Italy
Onboard power supply
And following interfacing modules
LED
7 segment LED
Matrix LED
LCD
GLCD
Switch matrix
Hex keypad
Linear potentiometer
Circular potentiometer
Motor driver
08
08
10
10
11.
Geared motor
Stepper motor
Uln2003 driver
Rgb LED
TSOP 1738
IR led
Proximity sensor
Etc.
AVR Development KIT with ATMEL studio 7.0 interface.
With programmers for ATMEGA 8,16,32,128,328 and ATTiny
Raspberry Pi 2 Model B ,1Gb RAM with HDMI LCD
Camera,keyboard and mouse combo.
Raspberry pi 3 model B,1 GB RAM ,64 bit processor,with HDMI
monitor and all accessories.
1).prototype shield for Rpi
2). 3.5,3.2 inch touch display for Rpi
3). 26 pin GPIO cable
4).5v/2A SMPS (USB type A)
5).A/V –RCA cable
6).wi fi dongle for rpi
7).20 inch displays(HDMI based) LCD/TFT
8). HDMI-VGA converters
9).HDMI cable
10).plastic case for RPi
11).Wireless Keyboard,mouse combo for RPi
12).8,16,32 GB NOOBS memory cards(microsd with adapters)
13).USB to mini & micro cables
14).ethernet cross & patch cables.
15).RCA video cables
16).GPIO extension header
Mbed NXP LPC11U24 prototyping modules.
12.
Beagle bone based prototyping system.
10
13
ADALM 1000,Active Analog CCT EDO module
10
14.
Complete MATRIX E-Blocks Kit for AVR,PIC & DSP.
05
15.
ST Microelectronics based discovery kits.
05
16.
Toradex Computer on module colibri VF50
Single core ARM cortex,400 MHz.
05
17.
Discrete consumables
8.
9.
10.
1.D.C. motors,stepper motors,servo motors,BLDC motors
10
10
10
10
10 each
2.Serial camera,SPI camera.
3.GSM,GPS and Ethernet shields
4.single channel to eight channel relay modules with optical isolation
5.electric contactor
6.PIR sensor,Hall Effect sensor,gas
sensors,accelerometers,gyroscopes,IMU,LDR,
Thermister,temperature sensor,humidity sensor,
7. RF transmitters and recievers,nrf based rf transceivers,2.3 GHz rf
transceivers.
8. 16*2,16*4,128*4,nokia 3310 LCD.
9. OLED,GLCD(3.2 inch,3.5 inch,5 inch)
10. pin headers male,female,12v buzzers
11. BCD to 7 segment converters
12. microcontroller IC,s
AT89S51,AT89s52,pic16f877a,18f,24f,atmega
8,16,32,128,328,328u,2560,ATTiny85.
10 each
10 each
10 each
10 each
10 each
13.Oscillators 11.0592,10,12,16,24 MHz.
14.RTC & coin cells
15.Arduino Mega with ADK
16.Nucleo l476RG
17. Arduino Nano
18.Arduino Mini
50 each
50 each
20 each
20 each
20 each
20 each
10 each
10 each
10 each
10 each
10 each
50 each
Wireless and Mobile Communication Lab
S.No.
Specifications
Quantity
1
Antenna Training System Trainer
Trainer for measuring and plotting radiation patterns of different antennas
With on-board RF and Tone Generators
Antenna Matching Stub (slider type)
Characteristics and SWR Measurement
Transmitting and receiving levels observed on built-in meters
Fully documented operating manual and polar charts
Directional coupler: Forward and reverse (selectable)
Antenna Rotation: 0-360 deg resolution 1 deg.
Receiving antenna: Folded dipole with reflector
2mm banana sockets interconnections
230V, +/= 10%, 50/60Hz Power Supply
With Reference Manual and CD
03
2
3G Mobile Platform Trainer
Trainer to understand:
i)
3G communication architecture
ii)
3G network AT commands
iii)
network protocols like TCP, UDP, FTP, SMTP, POP3
iv)
SMS and MMS using AT commands in 3G
05
Specifications:
GSM
capability:
Tri-Band
UMTS
2100/1900/900MHz
LCD Display
Operating Systems : Android
Modem with capability for the following:
HSDPA
HSUPA
HSUPA+HSDPA
UMTS
EDGE Class
GPRS
CSD
Network Supports
Support on GSM and WCDMA
Video call Specifications
Support standard WCDMA Video call
SMS Supports
Point to point MO and MT
Text and PDU mode
Interface
USB Port
HDMI Port
Ethernet Port
Digital Input
2100/1900/850MHz
or
3
4
5
Digital Output
Analog Input
SD Card Socket
SIM card socket
Power Supply: 110V - 260V AC, 50/60Hz
Product Tutorials: In built
Included Accessories:
5V DC Adaptor
External GPS Antenna
With Reference Manual And CD
Dual SIM Mobile Phone Trainer
Trainer to study real time Dual SIM Mobile Phone operation.
Should operate on dual band frequency network (GSM 900/ DCS 1800)
With Colour TFT display
Provides study of all sections in Dual SIM Mobile Phone
Tx/Rx Frequency measurement and band verification.
2G GMSK Signal
Detailed Study of User Interface Control Signals
Power Supply 100-260V AC, 50/60 Hz
With Reference Manual and CD
05
Trainer to understand GPS
05
Trainer to understand Global Positioning System (GPS).
Multichannel
Position Accuracy: 25 meters (approx.)
Time accuracy: Synchronized to GPS time
Serial Communication
Included Accessories:
USB Cable
GPS Antenna
With Reference Manual and CD
GSM Platform Trainer
05
Trainer to understand Global System for Mobile Communication(GSM)
For understanding GSM capability & data services.
For understanding RF environment and GSM network by actually
connecting to the GSM environment by any service provider.
Command Level Study
Real Time study of GSM commands in various categories.
GSM Capability: GSM 900/1800/850/1900
Power Supply: 100 ~ 240V +/- 10%, 50/60 Hz
With reference manual and CD.
Included Accessories:
Serial cable with hands free kit
Antenna with coaxial cable
Reference Manual and CD
6
7
8
05
RFID Training System
Highly integrated analog circuitry to Demodulate, Decode and Respond
3.56 MHz (Approx.) multi protocol support
Provided with LCD and software
RS-232 Interface
On board LED Indication
On board Buzzer indication
On board Antenna
Provided with application program software
Test points are provided to observe the signals
Application software window RFID Security System, RFID Toll Tax and
RFID attendances system
Reference Manual and CD
02
RADAR Training System
Transmitter Frequency : 10GHz (Approx)
Antenna : Parabolic Dish
IF Output : Audio range
Power Supply : 230V ±10%, 50Hz
Alarm : Onboard detected signal indication
About Software
Oscilloscope : Real time/Storage mode with FFT analysis
Display : Voltage : Vpp
Speed : Km/hr, Miles/hr, m/s, rpm
Frequency : Hz & kHz
Time domain window : Display the Doppler Frequency in Time domain
Frequency domain window : Display the Doppler Frequency in Frequency
domain
Control Panel window
User interface for :
• Measurement of Doppler Frequency, Amplitude
• Measurement of Velocity, RP
Reference Manual and CD
05
BLUETOOTH Training System
1.Bluetooth Protocol Analysis and Simulation
2.Protocol Training
- Protocol Command
- Protocol Signaling
- Protocol Layer
3. Profile Training
- Profile Structure
- Profile Signaling
4. Demo Function
- Voice Communication
- File Transfer
- Chatting
5. Bluetooth Practical Programming by 3 Steps
9
10
6. Hardware Experiment using test points
7. Data Communication Experiment Using Various Interfaces (USB,
UART)
Bluetooth Core chip.
Bluetooth Module
Interface UART, SPI, USB
Type of emission Freq. Hopping spread spectrum
Reference Manual and CD
CDMA Training System with BER Study
05
Study of CDMA -DSSS system with real-time software
Analysis should in Digital time, Analog time, and Frequency domain
Separate CDMA-DSSS Modulator and Demodulator
Test points should be available
On-board BNC connector should be for Analog I-Q signal analysis
Software based variable Chip rate up to maximum 10Mchip/s &
user selectable different types of Gold code ,MLS & Barker code
Measurement of BER with different SNR
Connectors should be for external input and output
Reference Manual and CD
Satellite Communication Training System
02
Simultaneous communication of three different signals
Communicate Audio data, Video data, Digital data, PC data, Tone signal,
Voice signal, Telemetry data (light & temperature), Function generator
waveforms etc.
2414 - 2468 MHz PLL microwave operation
Communication of external broad band digital signal
Choice of different transmitting and receiving frequencies
Built-in Speaker for Voice and Audio link
Remote detection of Light intensity and environment temperature
Detachable Dish Antenna at each station
USB port for PC communication
OFC Lab
S. No.
1
Specification
Quantity
05
Elementary Fiber Optic Trainer
Features:
 Simplex Analog and Digital Transreceiver.
 660 nm channel with Transmitter & Receiver.
 AM-FM-PWM modulation / demodulation
 On board Function Generator.
 Study of Bit error rate
 Crystal Controlled Clock.
 Functional Blocks indicated on-board mimic.
 Input-output & test points provided on board.
 On board voice link.
 Built in SMPS Based DC power supply.
 Numerical Aperture measurement jig and mandrel for bending loss
included
Technical Specification:
Transmitter: Fiber Optics LED having peak wavelength of 660nm
Receiver: Fiber optics Photo detector
Modulation Technique: 1) AM,
2) FM,
3) PWM
Drivers: With Analog & Digital Modes
PLL Detector
Comparator
Filters:Butterworth, 3.4 KHz Cutoff Frequency
Function Generators: 1) 1 KHz Sine Wave (Amplitude Adjustable)
2) 1KHz Square wave (TTL)
Voice Link: F. O. Voice Link using Microphone & Speaker (Built in)
Switch Faults : In Transmitter & In Receiver
Fiber Optics Cable: Connector Type Standard SMA
Cable Type: Step Indexed Multimode PMMA Plastic Cable
Numerical Aperture : Better Than 0.5
Acceptance Angle: Better than 60 deg.
On-board Test Points
Accessories Included: Line Cord, Manuals, NA Measurement Jig,
Mandrel, Fiber Cable, Microphone, headphone, set of Patch cords.
2
MUX/DEMUX Coder Decoder trainer (for study of wideband 05
communication through Fiber optic):
Features:
Functional blocks indicated on board mimic.
Crystal Controlled Clock.
On board Sine wave and Digital Signal Generator.
4-channel Time Division Multiplexing/Demultiplexing (Analog) 16channel Time Division Multiplexing/ Demultiplexing (Digital) Manchester
Coding and Decoding.
Pulse Position Modulation.
Technical Specification:
3
Crystal Frequency: 4 MHz (Approx.)
Analog Input Channels: 4
Digital Input Channels: 16
On Board Selectable Analog Signals
On Board Digital Outputs: 1) Multiple Square wave Frequencies (1KHZ
to
2 MHz).
2) Clock Generator
3) 8 bit data.
Modulation: Pulse position modulation.
Multiplexing: Time Division multiplexing (4 Channel Analog and 16
Channel Digital).
Coding: Manchester coding and decoding.
On-board Test Points
Interconnections: 2mm Sockets.
Accessories Included: Manual, Mains Cord, Patch Cords.
With Reference Manual and CD.
05
Laser Fiber Optic Trainer
Experiments to be performed :
* Characterization of a laser diode:
a) Optical Power Output vs LD Forward Current.
b) Monitor Photodiode Current vs Optical Power Output
* Study of ACC and APC modes of operation: a) Comparison of
ACC & APC modes of operation
* Design and Evaluation of an LD analogue IM system:
a) Vo v/s Vin at specified Optical Carrier Power level Po
b) Determination of Vin (max) at specified Po for Distortion free Vo.
c) Comparison of ACC and APCIM systems
* Design and Evaluation of LD digital transmission system:
a) Rise time and fall time pulse width distortion.
* Transmission of Laser through an Optical Fiber:
a) Study with step index Multimode Plastic Fiber Patchcord
b) Study with Graded-Index, Multimode Glass Fiber Patchcords.
c) Study with One Mechanical Splice connecting the above Two Patch
cords.
* Laser free space communication:
a) Analogue Free SpaceCommunication System.
b) Digital Free Space Communication System
* For numerical aperture measurement: a) NA of PMMA Fiber.
Transmission Module
Mode
Receiver Module
4
:
:
:
Laser 660 nm,
ACC & APC,
1) Photo transistor
2) Pin Diode
Adaptors (plug to 230 V Mains),
Accessories
:
Transmitter 1 No., Receiver 1 No.,
Fiber optic cable (Plastic)1 No., Fiber optic cable (glass) 1 No.,
PowerAdapter 2 Nos., NA measurement Jig 1 No.
Reference Manual and CD
04
Fiber optics connectorization & splicing kit
1. Crimp Tool. 1 No.
2. Triple Hole fiber Optics Stripper. 1 No.
3. Scissors. 1 No.
4. Diamond Scribe. 1 No.
5. Polish films 5u, 1u, 0.3u, and (3 each). 1 Pack.
6. 2 part Epoxy. 3 Packs.
7. Syringe & Needle. 3 Packs.
8. Polishing Disc (ST). 1 No.
9. Polishing pad. 1 No.
10. Work Mat. 1 No.
11. Glass Plate. 1 No.
12. Measuring Scale. 1 No.
13. Cable Markers. 1 Packs
14. Knife. 1 No.
15. Tweezers. 1 No.
16. Screw driver. 1 No.
17. Marker Pen. 1 No.
18. Tissue Papers. 1 Pack.
19. Alcohol. 1 Pack.
20. Foam Swabs. 1 Pack.
21. Piano Wire. 1 No.
22. X100 Microscope. 1 No.
23. Continuity Tester. 1 No.
24. ST Connectors. 1 No.
25. Glass fiber Cable 62.5/1 25. 10 Meters.
26. VIP Carrying Case. 1 No.
27. Storage Boxes. 6 Nos.
28. Mechanical Splice M/C & Key. 1 Set.
5
6
7
29. Mechanical Splice. 3 Nos.
30. Learning Material (CD) 1 No.
05
Optical Power Meter
Detector : Silicon detector
Range : 0 dBm to -60 dBm
Display : LCD
Wavelength : 660 & 950 nm
Connector : SMA Accuracy : 0.5 dBm
Power : 9 V Battery
With reference manual and CD
WDM Training System
02
15 Bit Data Generators
1310nm & 1550nm Laser sources with external modulation facility
Functional Block Indicated on-board mimic
Comprehensive learning solution
RS232 PC Interface
Study of Wavelength-Division Multiplexing and De-multiplexing
Data Communication using WDM
PC to PC communication using WDM
Data Generators, Comparators,Light Sources, Laser Diode, Optical
Detectors
Photo Diode
WDM Coupler
Operating Wavelengths (all) : 1310nm & 1550nm
Connector types (all) : FC
Fiber Optic Cable : Single Mode, 25Km (approx.)
PC-PC Communication : Using 2 Channels (RS-232 Port)
With reference manual and CD
02
Optical Time Domain Reflectometer (OTDR)
Technical Specification:
Carrier Wavelength: 1310/1550nm
Fiber Type :10 μm/125 μm SMF (ITU-T G.652)
Optical Connector: FC/SC
Distance Range: 0.5, 1, 2.5, 5, 10, 25, 50, 75, 125, 250 km
(IOR=1.500000)
Pulse Width : 5, 10, 20, 50, 100, 200, 500 ns, 1, 2, 5, 10, 20 μs
Linearity whichever is greater ±0.05 dB/dB or ±0.1 dB
Return Loss Measurement Accuracy: ±2 dB
Distance Measurement Accuracy :±1 m ±3 × Measurement distance × 10–
5 ±Marker resolution (excluding IOR uncertainty)
Data Storage Internal memory: 40 MB (<1,000 traces) approx.
External (USB Memory): 1GB (<30,000 traces) approx.
IOR Setting 1.3000 to 1.7000 (0.0001 steps)
Units km, m, kft, ft, mi
Other Functions: Integrated launch fiber: 10 m (30ft)
Connection check: Automatic check of OTDR to FUT connection quality
Live fiber detect: Verifies presence of communication light in fiber
Real time sweep: <1 sec (typ.)
8
Optical Fiber Cable
Fiber Optic Cable : Single Mode, 25Km (approx.)
02
Data Communication and Networking Lab
S. No.
1
Specification
Data Communication Techniques Trainer
Trainer for following:
Study of Serial Port
Study of Parallel Port
Study of Synchronous Serial Communication
Study of Asynchronous Serial Communication
Study of PC-PC Serial Communication using RS-232 cable
Study of different Modem used in Serial Communication
Study of Flow controls in Serial Communication
Study of Protocols in Serial Communication
Study of Fiber Optic Communication
Study of Modem Communication
Study of Wireless Communication
Study of PC-PC Parallel Communication using DB25 cable
Study of printer interface using parallel port
Technical Specifications:
Serial Communication : Two RS 232 ports
Parallel Communication : Two 25 pin LPT ports
Fiber Optic Communication:
Transmitter: Two numbers. Fiber optic LED'shavingPeak wave length of
emission660nm
Receiver: Two numbers. Fiber Opticphoto detector
Core type : Step indexed multimode
PMMA plastic cable
Baud rate : 115200 bps (approx.)
Fiber length : 0.5 & 1m (approx.)
Wireless Communication
Quantity
05
Infrared Transmitter : IR LED
Infrared Receiver : Direct TTL output
Baud rate : 2400 bps (approx.)
Carrier Frequency : 38 KHz/40KHz (approx.)
Modem Communication
2
Modem type : Data
Interface type : Serial-RJ 11 Connector
RJ 11 Connector : Two
Modulation : FSK Modulation
Demodulation : PLL Detector
Baud Rate : 57600 bps (approx.)
On-board test points
Power Supply : 100V - 240V AC, 50/60Hz
Included Accessories :
RS 232 Serial cable-2nos.
DB25 Parallel Port cable-2nos.
RJ11 - RJ11 Connector cable-1no.
Plastic Fiber cable-2nos.
Patch cords16” (2mm).
Patch cords8” (2mm)
Mains cord-1no.
LAN Trainer
Features
PC to PC communication with IEEE 802.3
Peer to Peer network
Client - Server network
Design of Star topology using 100Base-Tx
Design of Bus topology using 10Base-2
Design of Ring topology using DB9
Simulation of Distance Vectors and Link State Algorithms
Socket Programming exercise for LINUX
Encryption/Decryption Technique
User can send any file over LAN.
Detailed introduction to TCP/IP Model (4 Layer Model)
Video Tutorials for software operation
Creation of cables for network connections
Network design using RJ45 & DB9 connectors
Socket programming and processing
Wireless LAN with 803.11b/g
Network monitoring
05
Various LAN Protocols
Data rate up to 100Mbps
Variable packet size
Variable packet delay
Error generation (Manual and Auto)
Color coded real time graphical representation of entire
Transmission & reception
Graphical Analysis of LAN performance with various
parameters and protocols
Save / Print option for graphs
User friendly software
Switch faults in both hardware & software
Scope of Learning
• Study of Addressing in TCP/IP
• Study of Ping Command
• Study & Implementation of cable designs in Networking
• Implementation of PC to PC with IEEE 802.3
• Implementation of Peer to Peer Network
• Implementation of Client- Server Network
• Implementation of Star topology using 100Base Tx
• Ethernet LAN protocol to create scenario and Study
theperformance of CSMA/CD (Carrier Sense Multiple Accesswith
Collision Detection) Protocol through simulation
• Implementation of Wireless LAN Protocol to create scenario and
study the performance network withCSMA/CA protocol and
compare with CSAMA/CD protocol
• Implementation and study of Stop and Wait protocol
• Implementation and study of Go Back N and SelectiveRepeat
protocols
• Implementation of Bus topology using 10Base2
• To create the scenario and study the performance of tokenbus
protocols through simulation
• Implementation of Ring topology using DB9
• To create the scenario and study the performance of tokenring
protocols through simulation
• Implementation of Distance Vector Routing algorithm
• Implementation of Link state routing/Dijkistra's algorithm
• Implementation of Data Encryption and Decryption
• Study of Socket programming
• Study and implementation of Subnet calculation usingsoftware
• Study and implementation of CRC Technique usingSoftware
Hardware :
PC to PC using RJ-45 Connector
Star topology using RJ45 Connector
Bus topology by using end terminator
Ring topology using DB9 Connector
Data transmission speed: 10/100 Mbps
4 or more nodes
Software:
Star, Bus & Ring selection
Protocols: CSMA/CD, CSMA/CA, Stop N Wait, Go back to N, Selective
repeat, Sliding Window, Token Bus, Token Ring
Packet size: variable and selectable
Inter Packet delay: 1000 – 5000 ms (approx..)
Error generation: Acknowledgment lost, bad packet, auto error generation
Complete analysis of Network & Protocols
Graphical Representation:
Real time Graphic representation of data on s/w screen with packet details
Network details:
Indication of computer name, IP address, MAC address, Port number,
statusof network.
Network & protocol analysis:
Indication of packet serial number, file name, file size, file number,
receiver
name, receiver IP address , total packets, packet length, time out, protocol,
topology, receiver, MAC address, port number, file send start time, file
sent
completion time, transmission time data rate(Mbps),percentage error.
Power Supply : 100V - 240V AC, 50/60Hz
Included Accessories : (approx.)
RJ45 – RJ45 Connector Cable -4nos.
USB dongles - 4nos.
DB9 connector cable -4nos.
END Terminators -2nos.
Patch cords 16” (2mm)
Power Supply -1no.
Mains cord -1no.
With reference manual and CD
Microwave Lab
S. No.
1
Specification
Wave and Propagation Trainer
Features:
A Complete set for Transmission, Reception and Measurement of
Microwave Power.
Digital displays to be provided for relative strength measurement of
microwave.
Complete set of accessories for performing the experiments of Reflection,
Refraction, polarization Interference etc.
Audio / Voice/data communication facility should be provided.
Provided with a detector probe for field detection.
Quantity
04
Specification:
Frequency of Operation: 10 GHz (approx)
Power of Transmission : 10 -15 mW (approx)
Accessories:Microwave transmitter, microwave receiver,Transmitter Arm,
Receiver Arm,Ganiometer Main Unit, Detector Probe, Prism, Metal Plates
of different dimensions,Partial Reflectors,Din Connectors Cables,Metal
Plate holder,Polarization Grille, Prism Stand,Microphone
2
Detailed specification to be provided/appended through company
brochure.
KLYSTRON BASED X- Band MICROWAVE TEST BENCH
Must Consist of the following Components:
1. Solid state Klystron power supply with color graphical LCD
display
2. Klystron Mount
3. Klystron tube 2K25
4. Isolator
5. Frequency meter (direct read out with digital LCD Display)
6. Variable attenuator
7. Slotted section
8. Tunable probe
03
9. Detector mount
10. Movable short
11. Matched terminator
12. E Plane Tee
13. H Plane Tee
14. Magic Tee
15. Directional Coupler
16. VSWR meter
17. Wave guide stand
18. S.S. tuner
19. Cooling Fan
20. Teaching & simulation software which should cover basic
Concepts of Electromagnetic Wave, Properties, Maxwell`s
Equations in Different Forms, Microwave Frequency Bands.
Waveguides: Circular and Rectangular waveguides, Modes of
Propagation (TE, TM),Microwave Components: Cavity,
Directional Coupler, Circulator, Isolator, Tees,Microwave Tubes:
Conventional Tube, Velocity Modulation, Two Cavity and Multi
Cavity Klystron, Reflex Klystron, Travelling Wave Tube,
Magnetron, Cross Field Amplifier Microwave Active
Components: Gunn, Tunnel, PIN and Varacter Diodes
NOTE:Detailed specification to be provided/appended through
company brochure.
3
GUNN OSCILLATOR BASED X-Band MICROWAVE TEST BENCH
Must consist of the following Components:
1. Gunn Oscillator
2. PIN Modulator
3. Solid State Gunn Power supply
4. Isolator
5. Frequency meter (Direct Readout)
6. Variable Attenuator
7. Slotted Section
8. Tunable Probe
9. Detector Mount
10. Movable Short
11. Matched Termination
12. E Plane Tee
13. H Plane Tee
14. Magic Tee
15. Directional Coupler
16. VSWR Meter
17. Wave Guide Stand
03
18. S.S. Tuner
19. Fixed Short
20. Cooling Fan
21. Teaching & simulation software which should cover basic
Concepts of Electromagnetic Wave, Properties, Maxwell`s
Equations in Different Forms, Microwave Frequency
Bands.Waveguides: Circular and Rectangular waveguides, Modes
of Propagation (TE, TM),Microwave Components: Cavity,
Directional Coupler, Circulator, Isolator, Tees,Microwave Tubes:
Conventional Tube, Velocity Modulation, Two Cavity and Multi
Cavity Klystron, Reflex Klystron, Travelling Wave Tube,
Magnetron,
Cross
Field
AmplifierMicrowave
Active
Components: Gunn, Tunnel, PIN and Varacter Diodes
4
NOTE:Detailed specification to be provided/appended through
company brochure.
02
Antenna Microwave Test Bench for X – Band
Must have following components:
1. Solid state Klystron power supply
2. Klystron Mount
3. Klystron tube 2K25
4. Isolator
5. Frequency meter (direct read out, digital display)
6. Variable attenuator
7. Detector mount
8. VSWR meter
9. Radiation Pattern Turn Table
10. Wave guide stands
11. Wave Guide Bend, 90º
12. Precision Movable Short
13. Wave Guide Twist
14.Cooling Fan
15. Teaching & simulation software which should cover basic
Concepts of Electromagnetic Wave, Properties, Maxwell`s Equations in
Different Forms, Microwave Frequency Bands.Waveguides: Circular and
Rectangular waveguides, Modes of Propagation (TE, TM),Microwave
Components: Cavity, Directional Coupler, Circulator, Isolator,
Tees,Microwave Tubes: Conventional Tube, Velocity Modulation, Two
Cavity and Multi Cavity Klystron, Reflex Klystron, Travelling Wave
Tube, Magnetron, Cross Field AmplifierMicrowave Active Components:
Gunn, Tunnel, PIN and Varacter Diodes.
Antennas:
a.
Standard Gain Horn
b.
c.
d.
e.
f.
g.
h.
i.
Pickup horn antenna
Slotted antenna Broad wall
Slotted antenna Narrow wall
Dielectric antenna
E Plane Sectoral Horn
H Plane Sectoral Horn
Parabolic Disc
Pyramidal Horn
NOTE:Detailed specification to be provided/appended through
company brochure.
5
6
MIC Components & Accessories
50 W Micro strip Line,Band Stop Filter,Parallel line Directional Coupler
(15 dB),Wilkinson Power Divider (3 dB),Branch line Directional Coupler
(3 dB)
Low Pass Filter,Band Pass Filter,Ring Resonator,Rat-Race Hybrid Ring
Coupler (3 dB ),MIC Antennas (2 Nos.),MIC Amplifier,Slotted section
Matched Loads (5 Nos.) ,Short ,Coaxial detector,Micro strip Directional
Coupler ( 10 dB ),SMA to SMA Adapters ( Both male & female),SMA
(male) connector fitted cables ,Attenuator ( 3 dB )
04 each
Microwave Generator
Frequency Range
: 2.2 - 3 GHz Continuously Variable , Display : 4
Digit LCD,Display Accuracy : 40 MHz
Impedance
: 50 Ohm
Min RF level
: 5 mW, O/P Level Variation : 10 - 20 dB
Operating Modes
: Sweep, CW, Int. AM, Int. FM, Ext. AM, PC
communication
Modulating Frequency : 100 Hz to 5 KHz AM Square Wave, FM
,Triangular Wave
02 each
7
VSWR Meter
Display : 16 x 2 Characters LCD
Sensitivity : 0.1 mV for 200 ohms input impedance
Range : 0 - 60 dB in 10 dB steps
Input : Un-biased low and high impedance biased crystal (200 ohms and
200 K)
Display Select : SWR 1 – 9 , dB 0 - 10
Modes : Normal ,Audio PC-Interface
Gain Control : Adjusts the reference level, variable range 0 -10
dB(approx)
Input Connector : BNC (F)
02 each
DSP Lab
S. No.
Specification
Quantity
1
DSP Training System with Interface Board
08
•
•
•
•
•
•
•
•
Features
High performance Digital Signal Controller
On board Serial port Programmer for flashing DSP device
Expansion Connectors for plug in module and prototyping area
Master Reset/Restart Key for hardware reset
CD with sample project code, programmer software and
useful learnings content.
DC Power: + 5V
Communication : Serial Port
MCU Based
Interface Board:
A.
•
•
•
Input interface module:
Keyboard : ASCII Keyboard
LED'S
Switches
•
•
2
Keypad : Matrix Keypad
Power supply : From Microcontroller development board with
programmer trainer
Interface : 20 pin FRC cable
B. ADC/DAC Module
• ADC : ADC 0808
• DAC : DAC 0808
• ADC Input and Reference voltage range : 0 - 5 V DC (Variable)
• Power supply : From Microcontroller development board with
programmer trainer
• Interface : 20 pin FRC cable
• On-board Test points
C. Computer interface module
• Serial communication : RS 232 Port
• Parallel Communication : 25 pin LPT port
• Baud rate : 9600 bps (approx..)
• Power supply : From Microcontroller development board with
programmer trainer
• Interface : 20 pin FRC cable
D. Display Module
• Display : 16x 2 LCD
• Contrast control : 0 - 5 V (Variable)
• Backlight control : 0 - 5 V (Variable)
• Seven segment displays
• Led bar graph
• Power supply : From Microcontroller development board with
• programmer trainer
Interface : 20 pin FRC cable
• On-board Test points
E. Motor Drive Module
• Stepper motor : +12 V
• DC Motor : +12 V
• Servo motor : +5 V
• Power supply : From Microcontroller development board with
programmer trainer
• Interface : 20 pin FRC cable
High-Speed DSP Training System For Image Signal Processing
Features:
•
Enable various high-speed system designs.
•
With SDRAM.
•
With SBSRAM.
05
•
With Flash ROM
•
With Video Decoder. Users convert signals entered from CCD
camera into YCbCr, and send them to the buffer for data
transmission.
•
Image input can be entered from DSP through the high-speed
FIFO interface.
•
Device for network interface having 32Kbyte memory inside
(approx.)
•
Audio codec for Audio IN/OUT.
•
Equipped with CCD camera which has the output of NTSC-based
composite signals to appropriate device.
VLSI Lab
S.
No.
01
Specifications
Embedded platform for FPGA and Controller/DSP applications
Quantity
08
Daughter cards for FPGA and Controller for extended technology
Mother board with flexible architecture
Xilinx FPGA Daughter Card
CPLD Daughter Card
Altera FPGA Daughter Card
32 Bit microcontroller
Fixed point 32 bit DSP Controller
On board logic input/output/Push Buttons
On board USB for external communication
02.
FPGA Application Development Board
08
Xilinx Family
Device Density : 50 K gates,1728 Logic Cells (approx.)
2 Crystal 8 MHz & 25 MHz, Master Reset key for hardware reset,
Program Key for FPGA reconfiguration
EPROM Socket : in PLCC package for FPGA backup
Configuration Methods : JTAG Interface (Boundary Scan),
Slave Serial Interface,
PROM Interface
External I/O's : 40 pin, 4 header connector (Approx.)
Compatible with more than different Application Boards
03.
FPGA (XILINX) Application Development Board
•
•
•
•
•
•
4.
XILINX FPGA ,400K Gates,8064 logic cells
40 Pin, 4 header connector for external I/Os
Xilinx Development Software CD
Sample Code for Board Testing
Compatible with different Application Boards
On Board Crystal Oscillators and EPROM for FPGA backup
CPLD (Xilinx) Development Board.
•
•
•
•
•
•
•
•
•
•
08
108 macrocells with 2400 usable gate (Approx.)
With Development Software CD.
Sample Code for Board Testing & Lab work.
Operational Manual for reference.
Functional Explanation of Development Boards
Detachable I/O’s for easy to experiment.
DIP Switches for Logic Inputs
LED Outputs for Logic Outputs
6 Digit 7-Segment Multiplexed Display
Pushbutton switches for Pulse.
08
5.
VLSI based Wireless Sensor Network Training System
Main Board
Xilinx Family
Device density : 50k gates, 1728 logic cells (approx.)
On board DC Power supply
8 MHz crystal
Master reset Key : For hardware reset
EPROM socket in Quad package
Configuration Method :
JTAG interface (boundary scan)
Slave serial interface
PROM interface
One-40 pin connector : For external input outputs
Output LEDs
DIP switches
LCD display : 16 X 2 Character LCD
One serial port : Female
One USB Port : Device Side
8 channel ADC
Wireless module:
Frequency range : 2.4 GHz (approx.)
Baud rate : 9600
Data rate : 10000 bps
Transmit power output: 50mW
02
Power requirement: 5 V D.C.
Serial data interface: CMOS UART
Antenna : Omni Directional
Sensor Boards
Displacement sensor Board
Supply Voltage : 5V DC
Output Voltage : Analog (0 to 5V DC)
Magnetic sensor Board (Optional)
Supply Voltage : 5V DC
Output Voltage : Analog (0 to 5V DC)
Multi Turn POT Board
Supply Voltage : 5V DC
Output Voltage : Analog (0 to 5V DC)
Optical sensor Board
Supply Voltage : 5V DC
Output Voltage : Analog (0 to 5V DC)
Rotary Encoder Board
Supply Voltage : 5V DC
Output Voltage : Digital
Touch sensor Board (Optional)
Supply Voltage : 5V DC
Output Voltage : Digital (TTL)
Temperature sensor Board
Supply Voltage : 12V DC
Output Voltage : Analog (0 to 5V DC)
Projects and Prototyping Lab
1.
04
PCB Prototyping Machine
PCB Prototype machine should make both single side and double side PCB without any
chemical process. User can simulate & test circuits on PCB design software and later
fabricate the PCB by this machine. Machine should have feature of auto resuming
operation facility in the case of power breakdown. It should also have facility of auto bit
protection.
Specification:
2.
•
Spindle speed (RPM)
: 25000-40000 rpm
•
Milling depth sensing
: Automatic
•
Spindle Motor
: Brushless Motor
•
Machine base
: Cast Aluminum
•
Tool change
: Manual Change
•
X/Y driver
•
Sound/Dust Enclosure
: Integrated
•
Auto resume operation
: Yes
•
Interface
: USB
•
PCB design software (Single User):
: Stepping Motor
NOTE:Detailed list of Accessories and specification to be provided/appended through
company brochure.
3D printer
Min. build volume = 9x7.5x5.5 in Min. layer resolution = 0.003 in, Max. nozzle diameter
= 0.02 in Materials supported: PLA, ABS, Supported files, STL, OBJ, etc. Connectivity,
USB, etc. 1 15
01
2.
01
3D printer
Min. build volume = 5x5x5 in Min. layer resolution = 0.003 in, Materials supported: PLA,
ABS Supports printing through SD card, Supported files, STL, OBJ, etc. Part replacement
warranty ≥ 6 months 1 16
3.
01
3D printer
Min. build volume = 10x9x8 in Min. layer resolution = 0.003 in Materials supported: PLA,
ABS. Supported files
4.
Mini Milling machine
01
5.
with standard accessories, Minimum drilling capacity ≥ 12mm End mill capacity ≥ 16 mm,
Face mill capacity ≥ 30 mm, Motor output power (Brushless motor) ≥ 500 W Tapping
function, Fine feeding function and Horizontal milling (optional), Clamping kit, Boring
arbor with boring cutter, vice, Rotary table, 2 flute HSS end mill
Mini lathe machine
01
6.
with standard accessories, swing over bed ≥ 180 mm, Distance between centres 300 mm
Hole through spindle 20 mm Spindle speed ≥ 100-2000 rpm, Cross slide travel ≥ 65 mm,
Motor output power ≥ 500 W Minimum thread range (Metric version) 0.4-2.0 mm (10
threads pitches), (Imperial version), 10-44 TPI (8 threads pitches), Cutter 11 pieces set,
Grinding attachment, Cutoff tool
Soldering / De-soldering Station
05
7.
SMD Rework Station
05
Misc. Items
1.
Electronics Workstation:
08
An integrated Workbench consisting of instrument panel and working table on which
students should be able to learn and perform experiments. The instruments should to be
fitted in the panel such that only the front panel is accessible & the instruments are
internally electrically connected.
The Workbench should be made of M.S. powder coated tubular steel pipes with top
made up of good quality 19 mm or above thick plywood with 1.8 mm off white colour
laminate covered with antistatic mat on the working area.
TheWorkbench details are as follows:
1. The basic structure should be made of tubular mild steel pipes/wood/angle iron enough
sturdy to hold all the instruments and student pressure..
3. The overall dimensions of Workbench
should be not less than W = 1500 mm; D = 900 mm; H = 1000 mm .
4. 3 nos. ‐ MS drawers with handle & separate lock on each drawer should be provided.
5. The base of the legs should be provided with lockable free wheels.
6. For the panel section, raised back height of 1500 mm from floor with matching height
support from the side at a depth = 750 mm for instrument housing with a MS Panel strip
below it for housing sockets and switches for external use. (6 nos modular 5 Amp switches
and 5 pin, 5A, with shock proof protective sockets and one 15A socket and switch.)
7. 2 Pole MCB (32A) to be provided for safety of Workbench.
8. Workbench should work on Mains Supply - 230V AC, 50 Hz
Technical specifications of instruments to be installed on the Workbench are given
as below.
1. 100 MHz 4 Channel Mix Signal Oscilloscope with built in Function Generator(01
no)
Bandwidth: DC to 50 MHz
• Analog Channel: 04
• Digital Channel: 16
• Sampling: 1 GSa/s
• Record Length: 12 MPts
• Interface: USB & LAN
• Display: 7 Inch Color
• Function Generator:
No. of Channels: 02
Highest Frequency: 25 MHz
Function: Sine, Square, Ramp/Triangle, Pulse, Noise, Arbitrary
Note: State the company of the instrument to be placed. And detailed
specification of the instrument to be appended through company
brochure.
2. 1.5 GHz Spectrum Analyzer(01 no)
• 9 kHz -1.5GHz Frequency Range
• Up to -135dBm Displayed Average Noise Level (DANL)
• -80dBc/Hz @ 10kHz Offset Phase Noise
• Total Amplitude Uncertainty <1.5dB
• 100Hz Minimum Resolution Bandwidth (RBW)
•
•
•
1.5GHz Tracking Generator
Complete Connectivity: LAN, USB host, USB device
8 Inch WVGA (800x480) Display
Note: State the company of the instrument to be placed. And detailed
specification of the instrument to be appended through company
brochure.
•
3. 4½ Benchtop Digital Multimeter(01 no)
• 4 ½- digit large LCD display with back light max. reading: 1.9999
• Voltage measurement up to 1000 VDC and 750V AC
• DC, AC Current up to 20A.
• ACV frequency Response: 50KHz l
• Frequency, Resistance, Capacitance measurement
• Diode check and Continuity test.
Note: State the company of the instrument to be placed. And detailed
specification of the instrument to be appended through company
brochure.
4. Programmable DC Power Supply(02 nos)
• CH1:0~8V/0~5A
• CH2:0~+30V/0~2A
• CH3:0~-30V/0~2A
• Low Ripple Noise: <350 uVrms/2mVpp
• Standard OVP/OCP/OTP protection functions
• Standard Timing function Built in V,A,W measurements and waveform
display Support Output Delay, Analysis, Monitor, Preset functions
Independent control for each channel
• 3.5 Inch TFT Display
• Connectivity: USB Host& Device, LAN, RS232
Note: State the company of the instrument to be placed. And detailed
specification of the instrument to be appended through company
brochure.
5. Soldering & De soldering Station(01 no)
• Soldering:
Input voltage : 230 V AC. ±10% 50 Hz
Power : 80 Watts
Temp Range : 150 to 450C
• De soldering
Temp Range : 150 to 450C
6. Virtual instrument panel/all in one pc based virtual lab with logic analyzer.
7. Milli ammeter, Micro ammeter, Voltmeter, Rheostat, AC dimmer, A.C. load, D.C. load
8.
Universal experiment panel on the base floor having following components
onboard.
• Potentiometers (linear and circular) with linear and log scales.
• Variable and standard capacitors .
• Variable and standard inductors
• Bread boards with at least 1280 tie points
• Push to on push to off tactile buttons for digital logic entry
• Led indicators with pushbuttons for logic entry
• DAQ with USB output to PC
• Led array for logic display
• Inverting amplifier
• Non inverting amplifier
• Current amplifier
• Power amplifier
• Instrumentation amplifier
• Differential amplifier
• Frequency to voltage converter
• High pass filter
• Low pass filter
• Buffer
• 4 seven segment Led’s
• Variable frequency clock generator with 7 segment display
• Buzzer
• LED Bar Graph
• Variable frequency pulse wave generator.
2.
100 MHz 4 Channel Digital Storage Oscilloscope
•
•
•
•
•
•
•
•
•
Bandwidth: 100 MHz
Analog Channels: 4
Real-time Sample Rate:> 1 GSa/s
Memory Depth : 12Mpts
Waveform Capture Rate : 30,000wfms/s
Dynamic Range: 1mV/div to 10V/div
Time Base Scale : 5 ns/div to 50 s/div
Connectivity: LAN(LXI),USB Host & Device,AUX
4 probes of 150 MHz bandwidth
10
•
3.
Display: 7 Inch WVGA (800x480), multiple intensity levels waveform
100 MHz Function Generator
•
•
•
4.
5.
10
Frequency Range: 100 MHz(Sine) ,Square, Triangle, Pulse
Inbuilt Frequency Counter: 40 MHz
Display: 20X4 LCD
Modulation : FM,AM
Mixed Domain Oscilloscope with Spectrum Analyzer
The detailed specification of the instrument to be appended through company brochure.
Multi Instruments in one PC basedpackage
Six in One multi Instrument with PC interfacing for virtual control and data
acquisition.
1. 4 Channel Digital Storage Oscilloscope
2. 16 Channel Logic Analyzer
3. Mixed Signal Oscilloscope (1 Analog + 8 Digital)
4. Synthesized Function Generator
5. Pattern / Word Generator
6. Programmable Clock Generator
7. Variable Power Supply
Technical Specifications:
Synthesized Function Generator
No. of Channel
Frequency Range
:
:
Sampling Rate
:
1
1 mHz to 5MHz (Sine),
Built-in Signals : Sine, Square, Triangle,
Ramp,stair case,random,TTL etc.
100MSPS
Logic Analyzer
No. of Channels
:
16 (Do to D15)
Maximum Sampling Rate
:
100MSPS
Memory
:
2K per channel
Input Voltage Tolerance
:
7V (max.)
Digital Storage Oscilloscope
No. of Channels
:
2 Analog (CH1 & CH2)
Real-time Sampling Rate
:
100MSPS per channel
Mixed Signal Oscilloscope (Analog + Digital)
No. of Channels
:
1 Analog + 8-Digital
Real-time Sampling Rate
:
100MSPS per channel
ADC Resolution
:
8-bit per channel
04
20
Digital Pattern / Word Generator
No. of Channel
Maximum Sampling Rate
Pattern Length
Frequency Range
:
:
:
:
8
100MSPS
8-bit
1KHz to 5MHz
Programmable Clock Generator
No. of Channel
Frequency Range
:
:
1
1KHz to 5MHz
Variable Power Supply
No. of Channel
:
2
Output Voltage
:
±12V
Max. Output Current
:
100 mA (with load)
NOTE:Detailed list of Accessories and specification to be provided/appended through
company brochure.
6.
Programmable electronic DC load
•
•
•
•
•
•
•
08
Constant current (CC), resistance (CR), voltage (CV) and power (CP) operation
voltage and current range, 0 to 500 V, 0 to 240 A (5000 W max)
Built-in transient generator
Short circuit test
Built-in high resolution (0.1 mA/1 mV) voltage and current measurement
Over-Current/Over-Voltage/Over-Power/Over-Temperature Protection
RS232 to TTL, USB to TTL serial converter cables and application software to be included
Advance Communication Lab
1.
Software Define Radio Training System
•
•
•
•
•
•
•
•
•
Frequency Range: 400MHz to 6 GHz
Frequency Accuracy: 1x10-7
Frequency Resolution: 100KHz(1Hz with VSM or VSD modules)
Number of channels: Scalable from 1 to 1000
Compatible Software: Matlab, Labview, GNU Radio, VHDL
IQ resolution: 16bits
Real Time Bandwidth: 40MHz/Channel
Bus Speed: 700Mbps
Number of Slot/Chassis: 8
01
•
•
2.
Innovation Modules: VSM Vector Signal Generator/ Transmitter, VSD Vector
Signal Demodulator/Receiver, and UDC Up/Down Converter
Reference Signals: 10MHz IN, 10MHz OUT
Phase Coherence Capabilities: Shared Clock & LO
High Precision DMM(Digital Multi-meter)
•
•
•
•
3.
10
DC volts – 5 ranges: 0.1 V to 1000 V – 8.5 to 4.5 digit resolution – Up to
100,000 readings/sec (4.5 digits) – Maximum sensitivity: 10 nV – 0.6 ppm
24 hour accuracy – 8 ppm (4 ppm optional)/year voltage reference stability
Ohms – 9 ranges: 10 Ω to 1 GΩ – Two-wire and four-wire ohms with offset
compensation – Up to 50,000 readings/sec (5.5 digits) – Maximum
sensitivity: 10 µΩ – 2.2 ppm 24 hour accuracy
AC volts – 6 ranges: 10 mV to 1000 V – 1 Hz to 10 MHz bandwidth – Up
to 50 readings/sec with all readings to specified accuracy – Choice of
sampling or analog true rms techniques – 100 ppm best accuracy
DC current – 8 ranges: 100 nA to 1 A – Up to 1,350 readings/sec (5.5
digits) – Maximum sensitivity: 1 pA – 14 ppm 24 hour accuracy
AC current – 5 ranges: 100 µA to 1 A – 10 Hz to 100 kHz bandwidth – Up
to 50 readings/sec – 500 ppm 24 hour accuracy Frequency and period –
Voltage or current ranges – Frequency: 1 Hz to 10 MHz – Period: 100 ns to
1 sec – 0.01% accuracy – AC or DC coupled Maximum speeds – 100,000
readings/sec at 4.5 digits (16 bits) – 50,000 readings/sec at 5.5 digits –
6,000 readings/sec at 6.5 digits – 60 readings/sec at 7.5 digits – 6
readings/sec at 8.5 digits Measurement set-up speed – 100,000 readings/sec
over GPIB or with internal memory – 110 autoranges/sec – 340 function or
range changes/sec – Post-processed math from internal memory
Wireless Sensor Network Training System
 Wireless communication via XBee S2B module
 Wireless data transmission on 2.4 GHz
 On module 4 nos. of Analog Input/Digital IO connector
 On module XBee Sleep mode indicator
 On module XBee supply on/off switch
 On module +3.3V & +5V selection switch
 On module XBee configuration connector
 Create point to point, star and mesh networks
 On board battery charging via mini USB cable
 On board battery charging status indicator
 Data collection from end device & rely to coordinator (Router)
 ADC/Digital IO Pins :
4
 ADC Resolution
:
10 Bit
 ADC reference voltage
:
1.2V
01
 LED
:
+3.3V
 Boost Voltage
 Indoor/Urban Range
: up to 60m
 Outdoor RF line-of-sight range
: up to 400m
 Transmit Power Output
: 60 mW
 RF Data Rate
: 250 Kbps
 Supply Voltage
: +2.8 to +3.7 V
 Frequency
: ISM 2.4 GHz
 Antenna
: Wire
 Network Topologies
: Point to Point, Star, Mesh network
 Sensors : Temperature Sensor, Humidity Sensor, Pressure Sensor, Moisture
Sensor,Level Sensor Dust Sensor,Gas Sensor, Sound Sensor, Thermocouple,PIR
Sensor,IR Sensor,Light Sensor,SPST/DPDT Relay, Switches
Details of Equipment (General Purpose Electronics)
S.
Item Name
Description
Qty
No.
Dual Channel
1
2
3
30MHz
Analog
Oscilloscope
Dual
Channel
50MHz
Digital
Storage
Oscilloscope
0 - 30V, 2A
Dual Power
Supply with
Automatic
Overload
Protection
4
Function
Generator
5
LCR Meter
Digital Readout with Backlit LCD
30 MHz Bandwidth
x10 Magnification
20ns max sweep speed
Both CH I and CH II inverted
Dual Calibrator (0.2V & 2V)
1mV Sensitivity
Stable Triggering upto 40 MHz
Alternate Triggering
Saw tooth & Z-modulation
Sharp Trace CRT & Auto focus
Bandwidth 50MHz
Real-time Sampling Rate 500 MSa/s, Equivalent Sampling Rate 50GSa/s.
Memory Depth: 32Kpts
Trigger types: Edge, Pulse width, Video, Slope, Alternative
Unique Digital Filter function and Waveform Recorder function
Support pass/fail function.
32 parameters Auto Measure function
Save/recall types: Setups, Waveforms, CSV file, Picture
Waveform Intensity and grid brightness can be adjusted
Standard configuration port:
USB Host: Support USB flash driver save/recall function and update firmware
USB Device: Support compatible printer and support PC remote control
RS232
Pass/Fail Output
Pre-Regulator based design
Floating DC Supply Voltages
Dual DC : 2 x 0 - 30V / 2A
Automatic Overload (Current protection)
Constant Voltage & Constant Current operation
Digital display for Voltage and Current
Adjustable Current limiter
0.3 Hz - 3 MHz Range
Sine, Square, Triangle, Ramp, Pulse and TTL outputs
20 Vpp output and DC Offset
20 × 4 character LCD
TTL output
50W Output Impedance
Various types of modulations
20dB/ 40dB (fixed) & 20dB variable attenuation
Measuring parameters (minimum):
Inductance : L (.01uH – 999.9H)
Capacitance : C (.01pF – 999.9uF)
Resistance : R (0.1mOhm – 99.99MOhm)
Quality Factor : Q (0.0001 – 9999)
15
10
20
20
10
Dissipation Factor : D (0.0001 – 9.999)
Measuring Frequency : 100 Hz, 1 KHz and 10 KHz ±0.02%
AC Power Line Voltage : 220 V ±10%, 50 Hz ±5%
Bench Type
6
Digital Multimeter
Digital
7
Multimeter
8
9
IC Tester
Breadboard
with built-in
power supply
Measurement capabilities
DCV(200mV – 1000V)
ACV(200mV – 750V)
DCI(200uA – 20A)
ACI(200mA -20A)
Resistance measurement(200Ohm – 20MOhm)
Frequency Measurement(upto 2MHz)
Diode Test
continuity
Capacitance Measurement(upto 2000uF)
Transistor hfe Measurement
Diode testing, Continuity Testing
Current overload protection
Minimum specs (approximate):
AC Voltage (Volts): .01V-1000V
AC Current (Amp): 0.01 - 10A
DC Voltage (Volts):0.01V-1000V
DC Current (Amp):0.01 - 10A
Capacitance Range (F): 0.0025 - 25uF
Resistance Test Range(Ohm):
x 1: 0.2Ω ~ 2KΩ, x 10: 2Ω ~ 20KΩ, x 100: 20Ω ~ 200KΩ, x 1k:
200Ω ~ 2MΩ, x 10k: 2KΩ ~ 20MΩ
hFE ( Transistor Amplification factor):0-1000
Inbuilt Buzzer
Transistor Test, hFE Measurement, Diode Test
With Auto search facility of IC’s
Test by: Truth table/sequence table comparison
ZIF: Two Nos. of 40 pin DIP ZIF sockets for Digital & Analog IC’s
Keys: 50 cherry keys Key pad with numerical & functional keys
Display: 16x2 Backlit LCD Display
Supply Input Voltage: 230V AC
Ability to test
Wide range of Digital IC`s such as 74 Series, 40/45 Series of CMOS IC’s
Microprocessor 8085, 8086, Z80
Peripherals like 8255, 8279, 8253, 8259, 8251, 8155, 6264,62256,8288,8284
Analog Ic’s such as ADC, DAC, Opamp, 555, Transistor Arrays, Analog Switches,
Waveform Generator, Line Drivers, Voltage Regulators, PLL’s, VCO, PWM
Generator, Sample & Hold, Voltages References, Opto-couplers, Comparators,
Voltages Followers, etc.
Seven segment display of common cathode & common anode type
4 power supply binding posts,
5 Distribution strips (500 pts),
3 Breadboard panels (1890Pts.)
one +5VDC @ 1A supply
one 0 to +15VDC @ .5A supply
one 0 to-15VDC @ .5A supply
20
50
2
40
Dual Channel
10
11
100MHz
Digital
Oscilloscope
LCD
Projector
Input Channels: 2
Bandwidth: 100MHz
Rise time (typical): 3.5 ns
Sample rate on each channel: 1.25 GS/s
Record length: 10kpoints
Horizontal System seconds/division range: 4 ns to 10 s
Trigger modes: Auto, Normal, Single Sequence
Waveform Math: Arithmetic, FFT, Advanced Math
AC line Power: 100 – 240 Vrms +/- 10%, 50/60 Hz
10
Display System
3 LCD system
Size of effective display area
0.59” (15 mm) x 3 LCD Panel,
Aspect ratio: 16:10
Number of pixels
3,072,000 (1280x800 x 3)
Pixels
Zoom - Ratio
Approx. x 1.6
Throw Ratio
1.10:1 to 1.79:1
Screen size
30" to 300"(0.76 m to 7.62 m) (meas ured diag onally)
Light output/color light output:
3000 lm (minimum)
Wireless Capability
Required along with USB
Wireless LAN Module
Contrast ratio (full white / full
black)
2700:1
Speaker
16 W x 1 (monaural)
Horizontal Displayable Scanning
Frequency
14 kHz to 93 kHz
Vertical Displayable Scanning
Frequency
47 Hz to 93 Hz
Display Resolution:
Computer signal input
Maximum display resolution:
UXGA 1600 x 1200 dots*3
NTSC, PAL, SECAM, 480/60i,
576/50i, 480/60p, 576/50p,
720/60p, 720/50p,
1080/60i, 1080/50i
Display resolution:
Video signal input
(HDMI input) only; 1080/60p,
1080/50p
With HDMI Port
NTSC3.58, PAL, SECAM,
15
With overhead support and
cables
Color system
NTSC4.43, PAL-M, PAL-N
LIST OF CONSUMABLES, COMPONENTS, DEVICES
TO BE PROCURED FOR
ELECTRONICS STORE
S. No.
Components
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Side Cutting Pliers
Ball pen Hammer
4-pin crystal
4-pin crystal
Two-pin crystal
Two-pin crystal
Two-pin crystal
Two-pin crystal
Two-pin crystal
Two-pin crystal
11.
12.
13.
Switch
Switch
Switch
14.
15.
16.
17.
18.
19.
USB male connector
USB female connector
Seven segment display
Seven segment display
Alpha Numeric Display
Alpha Segment Display
MATRIX DISPLAY
LED
20.
Specifications
Qty (Nos.)
1 MHz
12 MHz
3.58 MHz
1 MHz
11.059 MHz
12 MHz
24 MHz
36 MHz
16 MHz
200MHz
434MHz
315MHz
8 Line DIP Switch
10 Line DIP Switch
4 Line DIP Switch
SPDT PCB MOUNT
SPST PCB MOUNT
DPDT PCB MOUNT
SPMT PCB MOUNT
PUSH BUTTON
TOGGLE SWITCH
50
50
50
50
50
50
50
50
50
50
50
10
20
20
100
100
100
100
100
100
100
200
200
PCB mount type
PCB mount type
Common Anode
Common CATHODE
Common Anode
Common cathode
COMMON CATHODE
RED 5 mm
100
100
200
200
200
200
200
500
21.
22.
23.
24.
25.
26.
27.
28.
29.
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
RED 10 mm
GREEN 10 mm
BLUE 5 mm
GREEN 5 mm
White 5 mm
RED 3 mm
BLUE 3 mm
GREEN 3 mm
BI-COLOR 3 mm
TRI-COLOR RGB 5mm
INFRA RED 5mm
ULTRA SONIC 5mm
HIGH POWER WHITE
SMD GREEN
SMD RED
SMD YELLOW
SMD ORANGE
SMD WHITE
SMD BICOLOR
30.
31.
32.
33.
34.
8 pin
14 pin
16 pin
18 pin
20 pin
28 pin
24 pin
40 pin (DIP)
35.
36.
37.
38.
39.
40.
41.
42.
Female berg strip
40 x 1
Male berg strip
40 x 1
Copper broad
1 sq ft
Battery Snapper
9v
IC bases
500
500
500
300
300
200
200
100
Pulse Transformer
1:1
Motor Driver
L293D
Motor Driver
L298
PWM IC
UC 494
PWM IC
UC 3524A
Glue Gun
Glue Stick
Nose Pliers
Shear cutters
Wire Cutters/Strippers 20-30AWG
ESD-safe tweezers
Needlenose pliers
Preset changer
Micro hand PCB drill
200
200
500
500
500
500
500
500
300
200
200
200
100
100
100
100
100
100
100
100
100
50
50
200
100
100
100
100
10
100
100
100
100
100
100
100
100
43.
44.
45.
Big size
46.
Screw Driver Set
Soldering Wire 60/40 Lead Solder, rosin core .031” 1/2-1 lb
60/40 Lead Solder, rosin core .062" 1lb
63/37 Lead Solder, rosin core, .025" 1/2 lb
Soldering Stand
Small Size
20
Soldering Iron
25W adjustable
35W adjustable
50W adjustable
35 Watt nonadjustable
50 Watt nonadjustable
47. Potentiometer
0-100
100
0-500
100
0-1K
100
0-5K
100
0-10K
100
0-47K
100
0-100K
100
0-470K
100
0-1M
100
LOG scale
0-100
100
0-500
100
0-1K
100
0-5K
100
0-10K
100
0-47K
100
0-100K
100
0-470K
100
0-1M
100
48.
1N 4007
1N 4148
IN 4005
IN 5819
IN 5821
IN 4002
BL 127
MUR 1560
49. Zener
IN 4729
IN 4730
IN 4732
20
20
20
20
20
10
10
10
30
30
(Bread Broad Mount type-33860) Trimpot (linear)
Diode
1000
500
1000
200
200
200
200
200
200
200
200
IN 4733
IN 4734
IN 4735
IN 4736
IN 4738
IN 4740
IN 4742
IN 4744
IN 4746
IN 5359
200
200
200
200
100
100
100
100
100
100
50. Transistor
BC 107B
BC 109B
BC147
BC148
BC 547
BC 548
BC 556
BC 557
TIP 121
TIP 122
BC 639
BC 108
BFY 90
2N 2907
2N 2906
2N 2222
SL 100
51
Optocoupler
200
200
200
200
500
500
500
500
100
100
100
200
200
300
300
300
300
52.
53.
Transistor Array
N Channel UJT
54.
JFET
55.
56.
DIAC
TRIAC
MCT 2E
P1234
300
100
HP 3101
LM 3046
300
30
2N 2646
2N 918
TIP 31
2N 5461
BFW108A
BFW109A
BFW119A
50
50
50
50
50
50
50
DB3
50
BT 138
BT 136
BT 151
50
50
50
57.
SCR
58.
MOSFET
59.
CAPACITOR (CERAMIC)
22 pf/50V
220PF/50v
33pf/50V
330 pf/50V
47 pf/50V
470 pf/50V
50 pf/50V
10 pf/50V
100 nf/50V
3200 pf
10000 pf
101
102
103
104
60.
CAPACITOR DISC TYPE
0.001µf
0.1µf
0.047 µf
0.0022 µf
0.022 µf
0.1µf (16V)
0.1µf (35V)
0.1µf (63V)
0.22µf (16V)
500
500
500
500
500
500
500
500
500
500
500
1000
1000
1000
1000
200
200
200
200
200
500
200
200
500
61.
CAPACITOR (ELECTROLYTIC)
0.22µf (35V)
200
0.22µf (63V)
200
0.47µf (16V)
500
0.47µf (35V)
200
0.47µf (63V)
200
0.33µf (16V)
500
0.33µf (35V)
200
0.33µf (63V)
200
TYN 616
TYN 604
2N3669
100
100
100
IRFZ44
IRF840
IRF540
IRF740
IRF541
IRF9540
100
50
50
50
50
50
2.2µf (16V)
2.2µf (35V)
2.2µf (63V)
0.47µf (16V)
0.47µf (35V)
0.47µf (63V)
10µf (16V)
10µf (35V)
10µf (50V)
10µf (63V)
22µf (16V)
22µf (25V)
22µf (35V)
22µf (63V)
220µf (16V)
220µf (63V)
4700µf (16V)
4700µf (25V)
100µf (16V)
100µf (25V)
100µf (35V)
100µf (63V)
1000µf (160V)
1000µf (160V)
10000µf (160V)
62. Voltage Regulator
7912
7905
7815
7812
7812
7805
7824
7915
7924
LM117
LT1529
LM317
63. CMOS EPROM 2764
64. Static RAM 6264
65. GENERAL PURPOSE OPAMP
500
200
200
500
200
200
500
200
200
200
500
200
200
200
500
200
500
500
500
200
200
200
500
50
500
200
200
200
200
200
300
200
200
200
200
200
200
8Kx8
8Kx8
25
20
741C (Metal)
741C (Plastic)
750
750
741A (Plastic)
741A (Metal)
LM3280A
AD380
250
250
100
100
65A
65B
65C
65D
66E
66.
68.
AD548
AD5539
AD600
AD624
CA0124E
CA0158
CA3078
CA3080
CA3094
CLC200
CLC412
CLC449
CL440
LM101
LM108
LM124
LM12
LM2878P
LM324
LM49710
LM358
COMPARATORS
AD8561
LM111
LM139
MAX907
Analog Switch
ADG408
ADG409
ADG411
ADG412
ADG441
ADG442
ADG509
TIMERS
LM555
LM556
LM552
ADC-DAC
ADC16
DAC8541
ADC0804 50
ADC0808 60
ADS8364
MULTIVIBRATORS
CD4538
SN74121
SN74123
Single Strand flexible wire
27SWg
26SWG
19SWG
SINGLE STRAND BREADBOARD HOOKUP WIRE
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
(100 EACH)
100 (EACH)
100(EACH)
100(EACH)
22 GUAGE
10 ROLL
10 ROLL
10 ROLL
20ROLL
69. FLIP FLOP and GATE
74HC107
250
74HC132
250
74HC138
200
74HC139
200
74HC148
200
74HC151
200
74HC192
200
74HC20
250
74HC221
250
74HC251
200
74HC27
250
74HC30
250
74HC367
200
74HC373
250
70.
LATCH/Counter/Register
74H374
200
74H393
200
74H42
200
74H47
200
74H75
200
74H76
200
74H83
200
74H85
200
74H86
200
74H90
200
74H92
200
74H93
200
74H95
200
74H199
250
89652
200
71.
Microcontroller
AT Mega8
ATTINY 85
ATMEL AT8051
AT Mega328
AT Mega328 (WITH ARDUINO UNO BOOTLOADER)
72.
Step-down transformer
230V/12-0-12V/1A
230V/9-0-9V/1A
230V/0-12V/1A
230V/0-12V/1.5A
230V/12-0-12V/1.5A
230V/9-0-9V/1.5A
120
200
100
120
120
100
100
100
100
100
100
73.
74.
77.
78.
79.
80.
81.
82.
83.
Universal 24 pin PLDs
GAL 20V8
200
General Purpose PLL
Dual RS 232 Driver
3:8 Analog MUX/DEMUX
LM 565
MAX 232
MC 14051B
200
200
100
RELAYS-RW-SH-106D
RELAYS-RW-SH-106D
RELAYS-RW-SH-106D
SOLID STATE RELAY
SOLID STATE RELAY
GOOD-SKY-6V-12A
GOOD-SKY-9V-12A
GOOD-SKY-12V-12A
DC-DC
DC-AC
150
100
100
50
50
84.
Mini jumper
2 pin
50
85.
ZIF-SOCKET
86.
Rectifier bridge
87
Diode
50
3 pin
88. Resistor MFR
20 pin
28 pin
40 pin
25 Amp/1000
50Amp/1000
50
50
50
5
5
IN746
IN751
IN 4007
RES 1/4W VALUE - 1E,
10E, 100E, 1K, 10K, 22K, 27K,
33K, 39K, 47K,56K, 68K, 82K,
100K, 150K, 220K, 270K, 330K,
390K, 470K, 560K, 1M, 2.2M,
10M, 22M , 4.7k, 3.7k
100
100
100
(2000 each)
89. Resistor
90. Ceramic Capacitor
CFR RES 1/4W VALUE - 1E,
10E, 100E, 1K, 10K, 22K, 27K,
33K, 39K, 47K,56K, 68K, 82K,
100K, 150K, 220K, 270K, 330K,
390K, 470K, 560K, 1M,4.7k,
3.7k, 2.2M, 10M, 22M
CER CAP 0.1NF
CER CAP 0.01UF
CER CAP 0.1UF
CER CAP 0.27UF
CER CAP 0.33UF
91. Electrolytic Capacitor ELE CAP 0.1UF 100
ELE CAP 1UF
ELE CAP 10UF
ELE CAP 22UF
ELE CAP 33UF
(2000 each)
100
100
100
100
100
100
100
100
100
ELE CAP 47UF
ELE CAP 100UF
ELE CAP 200 UF
ELE CAP 470UF
ELE CAP 1000UF
2N2219 (NPN & PNP)
SK100 (NPN & PNP)
TIP29 (NPN & PNP)
TIP30 (NPN & PNP)
92. Transistor
OP27
RC4558
TLO61
TLO62
TLO64
TLO71
TLO72
TLO74
TLO81
TLO82
TLO84
TLC251
LM723
94. Digital IC
74LS00
74LS01
74LS02
74LS03
74LS04
74LS05
74LS06
74LS07
74LS08
74LS11
74LS14
74LS20
74LS27
74LS30
74LS47
74LS48
74LS51
74LS73
74LS74
74LS75
74LS76
74LS83
74LS85
74LS86
74LS90
100
100
100
100
100
100
100
100
100
100
100
100
100
100(EACH)
100
100
100
100
100
100
100
100
100
74LS92
74LS93
74HC00
74HC01
74HC02
74HC04
74HC05
74HC06
74HC07
74HC11
74HC03
74HC10
74HC13
74HC16
74HC17
74HC18
74HC20
74HC21
74HC26
74HC27
74HC30
74HC32
74HC33
74HC38
74HC37
74HC40
74HC46
74HC47
74HC50
74HC51
74HC54
74HC60
74HC70
74HC72
74HC74
74HC75
74HC76
74HCT00
74HCT01
74HCT02
74HCT03
74HCT04
74HCT05
74HCT06
74HCT07
74HCT08
74HCT11
74HCT14
74HCT20
74HCT27
74HCT30
74HCT47
74HCT48
74HCT51
74HCT73
74HCT74
74HCT75
74HCT76
74HCT83
74HCT85
74HCT86
74HCT90
74HCT92
74HCT93
BP4000
BP4001
BP4002
BP4008
BP4009
BP4010
BP4011
BP4012
BP4013
BP4014
BP4015
BP4017
BP4019
BP4023
BP4024
BP4025
BP4027
BP4028
BP4030
BP4040
BP4041
BP4042
BP4043
BP4044
BP4030
BP4049
BP4050
BP4068
BP4069
BP4070
BP4071
BP4072
BP4073
BP4075
BP4076
BP4077
BP4078
BP4081
BP4082
BP4086
BP4085
BP4093
BP4502
BP4503
BP4508
BP4510
BP4511
BP4512
BP4514
BP4515
BP4516
BP4518
BP4520
BP4532
BP4556
ADVANCED
EACH
LCD DISPLAYS
DSP
SENSORS:
OPTICAL
16 X 1
16 X 2
16 X 4
20 X 2
20 X 4
4 DIGIT
TMS320C6711B-100GFNA
TMS320LC2402A-PAG(64)
PHOTODIODE
VISIBLE
IR
PHOTOTRANSISTOR
RED
IR
VISIBLE
AVALANCHE PHOTODIODE
PHOTO SCR
LDR
DIRECTIONAL LIGHT SENSOR
THERMISTOR
RTD
LM35
30
10
10
100
100
100
100
100
100
100
500
100
500
100
100
PIR SENSOR
100
HALL EFFECT SENSOR UNIPOLAR
100
LIGHT TO FREQUENCY CONVERTER
50
MAGNETIC REED SWITCH
100
TILT SENSOR
100
TRIPPLE AXIS ACCELEROMETER AND GYRO BREAKOUT BOARD 20
9 DOF INERTIAL MANAGEMENT UNIT(IMU)
20
NON INVASIVE
AC CURRENT SENSOR(CURRENT TRANSFORMER BASED)
10
HALL EFFECT BASED CURRENT SENSOR 10
STRAIN GUAGE BREAK OUT
10
LVDT
10
ULTRA SONIC DISTANCE SENSOR ( Serial Ascii O/p)
20
ULTRA SONIC DISTANCE SENSOR ( PWM O/P)
20
INFRA RED PROXIMITY SENSOR
20
ULTRASONIC TRANSDUCER PAIR(SPEAKER AND MIC)
10
TRIPLE AXIS MAGNETOMETER BREAKOUT
10
LPG GAS SENSOR
10
SMOKE SENSOR
10
CARBON MONOXIDE GAS SENSOR
10
COLOR SENSOR
10
ULTRA VOILET SENSOR
10
AMBIENT LIGHT SENSOR TEMT6000
10
FLEX SENSOR
10
FORCE SENSITIVE RESISTOR
10
LOAD CELL (50 – 100 KG)
10
BAROMETRIC PRESSURE SENSOR
10
WATER FLOW SENSOR
10
MOISTURE SENSOR
10
DC GEARED MOTORS(CENTER SHAFT)(12V)
RPM
QTY
10
20
30
20
60
20
100
20
500
20
900
20
DC GEARED MOTORS (SIDE SHAFT,METAL GEARS)RPM (12V) 10
20
30
20
60
20
100
20
500
20
DIGITAL SERVO MOTORS(5V)
20
PROGRAMMERS
UNIVERSAL IC PROGRAMMER(UC/EEPROM)
AVR ISP USB PROGRAMMER
AT89S52 DEVELOPMENT BOARD
10
20
20
AVR ATMEGA 16 DEVELOPMENT BOARD
20
AVR ATMEGA 32 DEVELOPMENT BOARD
20
TEENSY 3.2
20
ARDUINO M0 PRO (ORIGINAL ITALY)
20
BEAGLE BONE BLACK(REV C)
20
ARDUINO UNO REV 3
20
ARDUINO MINI
20
ARDUINO NANO
20
RASPBERRY PI 2 WITH ALL ACCESORIES
20
USB A-B
10
USB A-A
10
USB MICRO
10
USB MINI
10
USB OTG
10
DC BARREL POWER JACK MALE AND FEMALE
50
SCREW TERMINALS 5MM(2 PIN)
100
SCREW TERMINALS 5MM PITCH (3 PIN)
100
USB BTYPE FEMALE
CABLES/CONNECTORS
CONNECTOR
100
BREAK AWAY MALE HEADERS
FEMALE HEADERS
100
100
10
STEEL LOCKERS WITH
SLIDABLE
PIGEONHOLE
COMPARTMENTS FOR
DISCRETE
COMPONENTS
Annexure-B
(BID FORM)
****************
(A copy To be kept in outer Envelope)
Dated:.....................
From M/S………………………………
………………………………………..
To,
Dean
Faculty of Engineering, University of Kashmir.
Ref: Tender Notice No.....................
Dated:..................................
Equipment/Software for College of Engineering, Zakura Campus, University of
Kashmir, Srinagar.
Sir,
With reference to above invitation for Bids we would like to say that we have gone
through your Tender Document thoroughly and hence offer our competitive
Technical/Price Bid in separate sealed envelopes for the supply of various
Equipment/Software listed in your document. We, further, agree to supply and install any
Equipment/Software, quoted herein, within 4 weeks of receiving the supply order for the
same.
The following documents constitute our Bid.
(a)
(b)
(c)
(d)
(e)
(f)
(g)
(h)
Technical/Price Bids as per Annexure C/D of the Tender Document.
Authorization/Dealership Certificate from the manufacturer
Valid upto date VAT clearance Certificate
Technical literature for the goods/equipment
Names of organization (if any) where this equipment has been supplied.
(Applicable for equipment whose unit price exceeds Rs.2.00 lacs
CDR for an amount equal to 5% of cost of quotation, drawn in favour of the Registrar,
University of Kashmir.
DD for Rs. 1500 favouring Dean Faculty of Engineering, University of Kashmir, as
cost of Tender Document.
Telephone/Mobile No: ……………………………………………….
Yours Sincerely
(…Signature…..)
From M/S………………..
Place………………….
…………………………..
Date…………………
Annexure-C
**************
Technical Specifications
***************************
S.No.
Name of the
Equipment/Software
Make/ Model etc.
1
2
3
….
Technical
Specification as
published under
Tender Notice
No......... Dated.....
Technical
Specifications of the
quoted Make/Model
Complies
Yes/No
Similar/Higher/Lower in
quality/specification compared to that
required.
Similar/
Higher/Lower
Details Remarks if any
Annexure-D
**********************
Price Schedule
****************************
S. No.
1.
2.
3.
…
Name of
Equipment/Software
ExFactory/Exshow room
cost
Custom Duty
& Excise
Duty
CST/VAT
etc.
Packing &
forwarding
charges
Total
Unit Price
Quantity
Total Price in
words
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