dsPIC33CH512MP508 Dual Core Microcontroller
Trainer Kit VERSION -01
- Inbuilt Power Supply
- 6 channel LED
- 16X2 LCD
- 2 Channel Potentiometer
- 1 X UART USB Interface
- Individual Switches Control for Each Interface
- dsPIC33CH512MP508 Microcontroller is plug on type for Easy Service
User Can Change Pin Configuration as per requirement
dsPIC33CH512MP508 Dual Core Microcontroller Programmer
Buck Boost Trainer Kit
Buck Boost Driver Board Only
DC MOTOR & Stepper Motor Trainer Kit
DC MOTOR Driver Board Only
Single phase inverter
Inverter Board Only
Three phase inverter
- Set Point Adjust
- Digital Output Voltage and Current Meter
Inbuilt 0.25 HP Motor
Temperature Measurement
Construct a circuit to measure Temperature of Liquid using RTD
Input 230VAC
Thermometer -1 No.
RTD sensor -1no
Electric kettle -1 no
Wooden box closed type
BEHAVIOUR OF PROXIMITY SENSORS
Input :230VAC
Power supply 12V DC
Inductive type proximity sensor -1 No
Capacitive type proximity sensor 1 No
12V Relay -2 nos
Buzzer -2 nos
Wooden box closed type.
LVDT
Input 230VAC
LVDT SENSOR -1 NO
DISPLACEMENT +-10MM
Digital meter -1 No
Wooden box closed type
PERFORMANCE OF LIGHT SENSOR
Construct a circuit to obtain the VI characteristics and Response Characteristics of photo conductive Cell
( LDR Characteristics)
Input 230VAC
Power supply: 0-15VDC
Inbuilt Digital meters
Light source & lux meter
Construct a circuit to measure the speed of the motor using Optical Sensor
input 230VAC
power supply 0-12V
inbuilt Rpm indicator and motor input volt
12 V dc motor & optical sensor
Closed type wooden box
PERFORMANCE OF ULTRASONIC AND MOISTURE SENSORS
Power supply 5V
Arduino uno module
Ultrasonic sensor -1 No
Moisture sensor -1 no
Communication cable 1 no..
OBSERVE THE BEHAVIOUR OF TRANSISTOR AS A SWITCH
Input 230V AC
Power supply 12V DC
Push button, SPST ,SPDT, LIMIT SWITCH –Each 1no
Inbuilt transistor and relay circuit
12 V dc motor -1 no
FORWARD AND REVERSE CONTROL OF AC MOTOR
Input 3Ph 440V
Forward and reverse switch – 1 No
Tong tester -1 No
3ph 0.5 HP Motor -1 NO
Clamp meter 1 No.
FORWARD AND REVERSE CONTROL WITHOUT MOTOR
SERVO MOTOR CONTROL WITH AN ARDUINO
Power supply 5v
Arduino uno r3 module
Ultrasonic sensor -1 No
Moisture sensor -1 no
Servo motor -1 no
Communication cable 1 no
Pneumatic Circuit for double acting cylinder by using
5/2 soleniod valve
Digital Oscilloscope – 50MHz – Model: SMO502 ED, Make: Scientific
Digital Oscilloscope – 100MHz – Model: SMO 1002 ED, Make: Scientific
A single phase SCR half (semi ) and fully controlled bridge converter 24V / 1A with built-in transformer and 25 W resistive load – Service Charges
SMPS using MOSFET/IGBT – Service Charges
Speed control circuit for universal motor control – Service Charges
Line synchronised ramp trigger circuit using UJT with AC load – Service Charges
PWM based step down dC chopper using MOSFET/IGBT 30V/2A -step down and step up MOSFET chopper – Service Charges
Construct a circuit with a thyristor (SCR), a DC Voltage source, and a load resistor and Measure and observe the thyristor’s turn-on characteristics by varying the gate trigger
Build a circuit with a MOSFET or IGBT, a DC voltage source, and a resistive load and investigate the switching behavior of the MOSFET or IGBT by applying gate signals with different rise and fall times
Construct a single-phase or three-phase rectifier circuit using diodes and Measure the output voltage and current waveforms for different load conditions and input voltages
Setup a single-phase inverter circuit using IGBTs or MOSFETs and Generate sinusoidal output voltages by modulating the switching of the power devices, 24V DC Input sinusoidal inverter)
Build a chopper circuit using MOSFETs or IGBTs to control the speed of a DC motor and Experiment with different PWM (Pulse Width Modulation) techniques to vary the motor speed and direction
Design and implement a cyclo converter circuit to convert AC power at one frequency to AC power at another frequency and Measure the output waveform and frequency under various load conditions
Speed control of a DC Motor using PWM techniques
Speed control of an AC Induction Motor using a Variable Frequency Drive
Stepper Motor Control with various step modes and torques measurements
Closed-Loop Position Control of a Stepper Motor using an Encoder
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