Pinnacle Digital Solutions

Web: www.pds24.com

Email:pds24bd@gmail.com

4th Industrial Revolution Based Trainer Board

S7-1200 TRAINER BOARD

Brand : PDS
Code : S7-1200
Country : Bangladesh

Specification
  • PLC – S7-1200 & I/O Analog Module
  • HMI – KTP 700
  • VFD – Sinamics V-20
  • Variable DC Power Supply
  • SMPS
  • Toggle Switch
  • Limit Switch
  • Push Button Switch
  • Proximity Sensor
  • Photo Sensor
  • AC Ammeter
  • AC Voltmeter
  • Solenoid Valve
  • DC Ammeter Voltmeter
  • Buzzer
  • Circuit Breaker
  • Relay
  • Magnetic Contractor
  • 3 Phase Induction Motor
  • Indicator Lamp
Description

1. SMPS : Single Phase Input: Nominal: 230 VAC/DC (Optional 110 V AC)

  • Output voltage/Current :24 V ,10 A
  • Built In Transient protector & EMI filter
  • Protection against short circuit, overload, over voltage &
  • Over temperature (80°C)

2. SIEMENS PLC

  • Model :S7-1200 CPU1215C
  • Power supply voltage : 220V AC/ 24V DC
  • Digital output : 10
  • Digital Input : 14
  • Analog Input : 0-10V/ 0-20Ma/ 4-20Ma
  • Analog Output : 0-10V/ 0-20Ma/ 4-20Ma
  • Programming Cable : Ethernet Cable

3.INDICATOR:

  • Model : APT AD16-16C
  • Voltage Rating : 24V DC
  • Quantity : 12/PCS

4.TOGGLE SWITCH:

  • Input : 250V AC / 30V DC
  • Quantity : 7/PC
    FOR MORE DETAILS INFORMATION PLEASE SEND US ONE REQUEST
SIEMENS S7-300 PLC TRAINER BOARD

Brand : PDS
Code : S7-300
Country : Bangladesh

SPECIFICATION

*PLC S7-300 Digital &Analog I/O Module

  • Variable DC Power Supply
  • SMPS
  • Toggle Switch
  • Push Button Switch
  • Proximity Sensor
  • Photo Sensor
  • AC Ammeter
  • AC Voltmeter
  • DC Ammeter Voltmeter
  • Buzzer
  • Circuit Breaker
  • Magnetic Contactor
  • Indicator Lamp
Description
  1. SMPS: Single Phase Input: Nominal: 230VAC/DC (Optional 110VAC)
    Output voltage/Current :24V,10A
    Built In Transient protector & EMI filter
    Protection against short circuit, overload, overvoltage &Over temperature (80°C)
  1. SIEMENS PLC :
  • Model: S7-300 CPU313C
  • Power supply voltage: 24V DC
  • Fuse capacity: 2A/250VAC
  • Digital Module- DI16/DO16*DC24vAnalog Module- 5*A02*12Bit
  • Programming Cable: MPI

FOR MORE DETAILS INFORMATION PLEASE SEND US ONE REQUEST

LOGO PLC TRAINER BOARD

SPECIFICATIONS

1. Logo!12/24RCE, Logic Nod Display

  • Power Supplies ( 24v/%A) Input supply220v
  • Push Switch ( 24v)
  • Indicator Lamp ( 24v)
  • Magnetic Contactor( 24v)
  • DC Motor( 24v)
  • Buzzar ( 24v)
  • Proximity sensor
  • Photo sensor
  • Toggle switch
  •  
DESCRIPTION
  • 1. Model – Logo!12/24RCE input voltage (24vDC)
  • Output voltage (24DC)
  • Input Quantity : 8
  • Output Quantity : 4
  • Programming Cable Logo Plc cable
    2. Power supply : Input -220v
  • output – 24v
    3. Push Switch
  • Input 24V DC
  • Quantity -8

FOR MORE DETAILS PLEASE SEND US YOU INQUIRY

DELTA INDUSTRIAL TRAINER BOARD

SPECIFICATIONS

Brand name : DELTA

Model Name : DVP14EC

VFD ( Delta): VFD055M43B

HMI ( Delat : B04S410

1. Supply Voltage : 220V AC

2. SMPS

Output voltage : 24 V DC, 6 OUTPUT

Push Batton switch : 8 push button switch.

Toggle switch : 8 toggle switch

AC series line : 220 V AC

AC parallel line : 220 V AC

Ammeter: @20 V AC

Voltmeter : 220 V AC

Buzzer : 24 V DC

DC power supply : 24 V DC

Motor : 3 phase

Output Indicator lamp : 24V DC

CT ( Current transfer )Connector

 

 

DESCRIPTION

SMPS: Single Phase Input: Nominal: 230VAC/DC (Optional 110VAC)

Output voltage/Current :24V,10A

Built In Transient protector & EMI filter

Protection against short circuit, overload, overvoltage &Over temperature (80°C)

2. Motor :

* 4 Pole = 1400 rpm

Amps at 400v 1.11

Frame size MS 711 – 4

Suitable fpr wet dusty applications 50/60 Hz rated

FOR MORE DETAILS PLEASE COMMUNICATE US

Mitsubishi PLC Trainer Board

 

Specification of Device
  1. Delta HMI
  1. Mitsubishi VFD
  1. Magnetic Contactor
  1. Indicator Lamp
  1. Mitsubishi PLC
  1. RTD Module
  1. Toggle Switch
  1. Push Switch
  1. Circuit Breaker
  1. DC Voltmeter
  1. DC Ammeter
  1. Proximity Sensor
  1. Photo Sensor
  1. Buzzer
  1. DC Power
  1. 220V AC Power (Series + Parallel )
Description of Device
  1. Delta HMI: Model: BO3S210 Supply Voltage: 24V DC

Programming Cable: Any Printer Cable

Communication Cable: Rs-485

  1. Mitsubishi VFD: Model: Fr- S500

Power: 0.75 KW

Input Voltage: AC 3 Phase – 440V

Output Voltage: AC 3 Phase- 440V

Power Input: R, S, T ( L1, L2, L3)

Power Output: U, V, W

Motor Connection Port: U, V1, W1/ U2, V2, W2

Current Rating: 6.4 A

Analog Input: Potentiometer

Pin No 10, 2(com), 5 gnd, 4 no(4-20ma)

FOR MORE DETAILS PLEASE COMMUNICATE US

 

OMRON PLC Trainer Board

 

 

Specification of Device
  1. Delta HMI
  2. Mitsubishi VFD
  3. Magnetic Contactor
  4. Indicator Lamp
  1. OMRON PLC
  2. RTD Module
  3. Toggle Switch
  4. Push Switch
  5. Circuit Breaker
  1. DC Voltmeter
  2. DC Ammeter
  3. Proximity Sensor
  4. Photo Sensor
  5. Buzzer
  1. DC Power
  2. 220V AC Power (Series + Parallel )
  3. Analog Output Module Port
Description of Device
  1. Delta HMI: Model: BO3S210 Supply Voltage: 24V DC

Programming Cable: Any Printer Cable

Communication Cable: Rs-485

  1. Mitsubishi VFD: Model: Fr- S500 Power: 0.75 KW

Input Voltage: AC 3 Phase – 440V

Output Voltage: AC 3 Phase- 440V

Power Input: R, S, T ( L1, L2, L3)

Power Output: U, V, W

Motor Connection Port: U, V1, W1/ U2, V2, W2

Current Rating: 6.4 A

Analog Input: Potentiometer

Pin No 10, 2(com), 5 gnd, 4 no(4-20ma)

 

FOR MORE DETAILS PLEASE COMMUNICATE US

 

LS PLC Trainer Board

Specification of Device
  1. Delta HMI
  2. Mitsubishi VFD
  1. Magnetic Contactor
  2. Indicator Lamp
  3. LS PLC
  1. RTD Module
  2. Toggle Switch
  1. Push Switch
  2. Circuit Breaker
  3. DC Voltmeter
  1. DC Ammeter
  2. Proximity Sensor
  1. Photo Sensor
  2. Buzzer
  3. DC Power
  1. 220V AC Power (Series + Parallel )
  2. Analog Output Module Port
Description of Device
  1. Delta HMI: Model: BO3S210 Supply Voltage: 24V DC

Programming Cable: Any Printer Cable

Communication Cable: Rs-485

  1. Mitsubishi VFD: Model: Fr- S500 Power: 0.75 KW

Input Voltage: AC 3 Phase – 440V

Output Voltage: AC 3 Phase- 440V

Power Input: R, S, T ( L1, L2, L3)

Power Output: U, V, W

Motor Connection Port: U, V1, W1/ U2, V2, W2

Current Rating: 6.4 A

Analog Input: Potentiometer

Pin No 10, 2(com), 5 gnd, 4 no(4-20ma)

  1. Magnetic Contactor:

Input: AC 3 Phase – 440 V ( L1,L2,L3)

Coil Terminal: A1, A2

Coil Voltage: 220V AC

Output: AC 3 Phase – 440V AC ( T1,T2,T3)

NO Terminal: 13, 14

  1. Indicator:

Model: APT AD16-16C

Voltage Rating: 24V DC

Quantity: 6+1 ( 1 is power line indicator)

  1. 5. Brand Name :LS PLC(Master-K120S)

Model Name:K7M-DR20UE/DC

Power Supply: 240V AC

Digital Input: 12

Digital Output :08 (Relay)

Origin :China

Condition: New

Warranty: 1 yeary

Programming Software: KGL-WIN

Programming Cable: LS PLC Cable

Output Quantity: 24

Programming Cable: SC09

Communication Cable: Rs-485

  1. Toggle Switch:

Input: 250V AC / 30V DC

Quantity: 8

  1. Push Switch:

Input: 250V AC / 30V DC

Quantity: 8

  1. Circuit Breaker:

Voltage Rating: 230V / 400V AC

Current Rating: 32A

  1. DC Voltmeter: Voltage Rating: 24V DC
  1. DC Ammeter: Voltage Rating: 24V DC
  1. Proximity Sensor: Type: PNP

Voltage Rating: 24V DC

Brown Wire: +24V

Blue Wire: -24V

Black: Output

  1. Photo Sensor:

Type: PNP

Voltage Rating: 24V DC

Brown Wire: +24V

Blue Wire: -24V

Black Wire: Output

  1. Buzzer:

Voltage Rating: 230V AC

  1. DC Power:

+24V DC (Total Port: 5*5)

-24V DC (Total Port: 5*5)

  1. 220V AC Power:

For Parallel: L, N (Total Port: 5*5)

For Series: L, N (Total Port: 5*5)

 

FOR MORE DETAILS PLEASE COMMUNICATE US

SCHNEIDER PLC Trainer Board

Specification of Device
  1. Delta HMI
  2. Mitsubishi VFD
  1. Magnetic Contactor
  2. Indicator Lamp
  1. Mitsubishi PLC
  2. Toggle Switch
  1. Push Switch
  1. Circuit Breaker
  2. DC Voltmeter
  1. DC Ammeter
  2. Proximity Sensor
  1. Photo Sensor
  1. Buzzer
  2. DC Power
  3. 220V AC Power (Series + Parallel )
  1. Analog Output Module Port
Description of Device
  1. Delta HMI: Model: BO3S210 Supply Voltage: 24V DC

Programming Cable: Any Printer Cable

Communication Cable: Rs-485

  1. Mitsubishi VFD: Model: Fr- S500 Power: 0.75 KW

Input Voltage: AC 3 Phase – 440V

Output Voltage: AC 3 Phase- 440V

Power Input: R, S, T ( L1, L2, L3)

Power Output: U, V, W

Motor Connection Port: U, V1, W1/ U2, V2, W2

Current Rating: 6.4 A

Analog Input: Potentiometer

Pin No 10, 2(com), 5 gnd, 4 no(4-20ma)

  1. Magnetic Contactor:

Input: AC 3 Phase – 440 V ( L1,L2,L3)

Coil Terminal: A1, A2

Coil Voltage: 220V AC

Output: AC 3 Phase – 440V AC ( T1,T2,T3)

NO Terminal: 13, 14

  1. Indicator:

Model: APT AD16-16C

Voltage Rating: 24V DC

Quantity: 6+1 ( 1 is power line indicator)

  1. The Modicon M241 logic controller is for application for controlling of simple motion control machines and offers best-in-class communication with 5 embedded ports. It offers you state of the art technical features and embedded CAN open for Field bus architectures up to 63 devices while reducing your installation time and cost. Get unlimited access to your machine via Ethernet – everywhere and any time and simplify maintenance with any mobile device through visualization pages designed directly inside So Machine and stored in the

PLC’s web server.

M241 Logic Controller

5 ports: Ethernet, CAN open, 2 serial lines, USB port for programming High processing CPU and cartridge extensions

Web and FTP server

Pulse train outputs / high-speed counters

SD card

Safety function

Programming with So Machine Basic software

All programming, visualization, and commissioning are handled in just one intuitive tool

Additional modules for this controller are:

  • Tests So Link motor starter
  • Extensive line of analog and digital modules
  • Ethernet and Profibus

Schneider Electric Modicon M241

The Modicon M241 logic controller is a Machine Structure controller. The next generation of Machine Structure from Schneider Electric is an intuitive solution for machine automation with all the features and functions you need to build machines that will improve your bottom line. From design and development, to commissioning and maintenance, Machine Structure is a complete machine building solution with benefits all through the machine life cycle.

  1. Toggle Switch:

Input: 250V AC / 30V DC

Quantity: 8

  1. Push Switch:

Input: 250V AC / 30V DC

Quantity: 8

  1. Circuit Breaker:

Voltage Rating: 230V / 400V AC

Current Rating: 32A

  1. DC Voltmeter: Voltage Rating: 24V DC
  1. DC Ammeter: Voltage Rating: 24V DC
  1. Proximity Sensor: Type: PNP

Voltage Rating: 24V DC

Brown Wire: +24V

Blue Wire: -24V

Black: Output

  1. Photo Sensor:

Type: PNP

Voltage Rating: 24V DC

Brown Wire: +24V

Blue Wire: -24V

Black Wire: Output

  1. Buzzer:

Voltage Rating: 230V AC

  1. DC Power:

+24V DC (Total Port: 5*5)

-24V DC (Total Port: 5*5)

  1. 220V AC Power:

For Parallel: L, N (Total Port: 5*5)

For Series: L, N (Total Port: 5*5)

FOR MORE DETAILS PLEASE COMMUNICATE US

IOT and Electronic Trainer Board

List of Experements

Experiment of Electronics, Power Electronics & Digital Electronics

Expt .01 I-V Characteristics of diode.
     
Expt .02 Study of Diode rectifier circuits.
     
Expt .03 Study of Clipper and Clamper circuits.
     
Expt .04 Study of Zener diode applications.
   
Expt .05 Study of The out Characteristics of CE (common emitter) Configuration of BJT.
   
Expt .06 Study of The BJT biasing circuits.
   
Expt .07 Study of N- type & P type MOSFET.
   
Expt .08 Study of operational amplifier as an amplifier.
   
Expt .09 Study of adder using op-amp.
   
Expt .10 Study of AC Voltage control using DIAC & TRIAC
   
Expt .11 Study of Characteristics of silicon control (SCR)
   
Expt .12 Study of Silicon control rectifier triggering using UJT
   
Expt .15 Construction of adders and sub tractors using basic logic gates.
   
Expt .16 Design a BCD adder that will add two BCD numbers and the sum will be also in BCD
   
Expt .17 Implement the following function using an 8:1 MUX.
   
Expt .18 Implementation of Demultiplexers and Priority Encoders.
   
Expt .19 Implement a 42 priority encoder with basic gates.
   
Expt .20 Design of Flip-flop using basic gates.
  Design of a J-K Flip-flop using AND & NOR gate only.
  Design of an SR Flip-flop using NAND gates only.
Expt .21 Design of a D Flip-flop from a J-K Flip-flop
     
  1. Arduino Unit

Some experiment s:

  • Blink an LED Using Arduino
  • Push Button interfacing with arduino
  • Control the resistance of an LED Using a potentiometer
  • By using a PWM increase and decrease the intensity of brightness of an LED.
5 Scrolling LED using Arduino
6 Bar Graph control using arduino
  Using a potentiometer control a series of LEDs in a row
7 Control Multiple LEDs
8 Control RGB LED
9 Photoresistor : control LDR with Arduino
10 Displaying the temperature in the serial monitor of the Arduino IDE
11 Tone Melody
12 Servo Motor Interfacing With Arduino
13 DC Motor Interfacing With Arduino
14 LCD Screen interfacing With Arduino
15 Stepper motor
  • AVR & PIC Microcontroller Unit

Some experiments:

SL Topic
1 Introduction to Microcontroller and C Programming
2 Digital Logic and Number System
3 Electronics circuit design and PCB Design
4 Power Supply, PCB Design and Soldering
5 Starting with Microcontroller
6 I/O port Programming
7 Input and Output device Interfacing
8 Interrupt
9 Analog to Digital Converter (ADC)
10 Microcontroller Timer
11 Pulse Width Modulation (PWM)
12 USART Communication
13 EEPROM and Sensor Interfacing
  • Raspberry Pi Unit Some experiment s:

SL Topic

01 Introduction to Raspberry Pi (RPI)

02 Raspberry Pi VS Arduino

03 Operating System Installing (Raspbian Buster)

04 Familiar with Linux Terminal

05 Linux software downloading and installing

06 RPI screen sharing over Ethernet

07 WiFi configuration and static IP assignment

08 Programming Language – Python

09 Input / Output device interfacing (GPIO Access)

10 Hardware Interrupt

11 Analog to Digital Conversion (ADC)

12 Digital to Analog Conversion (DAC)

13 Serial Communication

14 LCD Display Interfacing

15 Pulse Width Modulation (PWM)

16 Camera Interfacing

17 Raspberry Pi IOT

18 Raspberry Pi Over Clocking

19 Review / Make-Up Class / Assigning Project

Specification

On Board Components:

  • Raspberry pi 3b.
  • SD card
  • Arduino Nano
  • PIR Motion Sensor
  • HCSR04
  • DHT11
  • Joystick Module
  • HC 05/06 Bluetooth Module
  • Membrane keypad
  • Relay
  • Breadboard
  • Buzzer
  • LED
  • RGB LED
  • 16X2 LCD
  • Stepper Motor
  • Servo Motor
  • NODE MCU
  • Silicon Diode
  • Lm35
  • Capacitor
  • BJT
  • DIAC
  • TRIAC
  • MOSFET
  • UJT
  • I2C LCD Driver

FEATURES

  • All of above unit can control by IOT
  • IOT Based Semiconductor, sensor and transducer Controlling.
  • IOT Based industrial controlling .
  • IOT Based Industrial Process controlling .
  • Live Monitoring And Controlling.
  • Raspberry pi has 40 GPIO Pin. 26 GPIO pin of raspberry pi can control Relay and each relay control (12/250/440) volt electrical Appliances, also this 26 GPIO can read Digital sensor data. By dint of ADC module raspberry pi can detect analogue sensor data.

FOR MORE DETAILS PLEASE COMMUNICATE US

IOT and Electronic Trainer Board 5Th Gen

List of Experements

Experiments

Experiment of Electronics, Power Electronics & Digital Electronics

Expt .01 I-V Characteristics of diode.
     
Expt .02 Study of Diode rectifier circuits.
     
Expt .03 Study of Clipper and Clamper circuits.
     
Expt .04 Study of Zener diode applications.
   
Expt .05 Study of The out Characteristics of CE (common emitter) Configuration of BJT.
   
Expt .06 Study of The BJT biasing circuits.
   
Expt .07 Study of N- type & P type MOSFET.
   
Expt .08 Study of operational amplifier as an amplifier.
   
Expt .09 Study of adder using op-amp.
   
Expt .10 Study of AC Voltage control using DIAC & TRIAC
   
Expt .11 Study of Characteristics of silicon control (SCR)
   
Expt .12 Study of Silicon control rectifier triggering using UJT
   
Expt .15 Construction of adders and sub tractors using basic logic gates.
   
Expt .16 Design a BCD adder that will add two BCD numbers and the sum will be also in BCD
   
Expt .17 Implement the following function using an 8:1 MUX.
   
Expt .18 Implementation of Demultiplexers and Priority Encoders.
   
Expt .19 Implement a 42 priority encoder with basic gates.
   
Expt .20 Design of Flip-flop using basic gates.
  Design of a J-K Flip-flop using AND & NOR gate only.
  Design of an SR Flip-flop using NAND gates only.
Expt .21 Design of a D Flip-flop from a J-K Flip-flop
     
  1. Arduino Unit

Some experiment s:

  • Blink an LED Using Arduino
  • Push Button interfacing with arduino
  • Control the resistance of an LED Using a potentiometer
4 By using a PWM increase and decrease the intensity of brightness of an LED.
5 Scrolling LED using Arduino
6 Bar Graph control using arduino
  Using a potentiometer control a series of LEDs in a row
7 Control Multiple LEDs
8 Control RGB LED
9 Photoresistor : control LDR with Arduino
10 Displaying the temperature in the serial monitor of the Arduino IDE
11 Tone Melody
12 Servo Motor Interfacing With Arduino
13 DC Motor Interfacing With Arduino
14 LCD Screen interfacing With Arduino
15 Stepper motor
  • AVR & PIC Microcontroller Unit

Some experiments:

SL Topic
1 Introduction to Microcontroller and C Programming
2 Digital Logic and Number System
3 Electronics circuit design and PCB Design
4 Power Supply, PCB Design and Soldering
5 Starting with Microcontroller
6 I/O port Programming
7 Input and Output device Interfacing
8 Interrupt
9 Analog to Digital Converter (ADC)
10 Microcontroller Timer
11 Pulse Width Modulation (PWM)
12 USART Communication
13 EEPROM and Sensor Interfacing
  • Raspberry Pi Unit Some experiment s:

SL Topic

01 Introduction to Raspberry Pi (RPI)

02 Raspberry Pi VS Arduino

03 Operating System Installing (Raspbian Buster)

04 Familiar with Linux Terminal

05 Linux software downloading and installing

06 RPI screen sharing over Ethernet

07 WiFi configuration and static IP assignment

08 Programming Language – Python

09 Input / Output device interfacing (GPIO Access)

10 Hardware Interrupt

11 Analog to Digital Conversion (ADC)

12 Digital to Analog Conversion (DAC)

13 Serial Communication

14 LCD Display Interfacing

15 Pulse Width Modulation (PWM)

16 Camera Interfacing

17 Raspberry Pi IOT

18 Raspberry Pi Over Clocking

19 Review / Make-Up Class / Assigning Project

Specification

On Board Components:

  • Raspberry pi 3b.
  • SD card
  • Arduino Nano
  • PIR Motion Sensor
  • HCSR04
  • DHT11
  • Joystick Module
  • HC 05/06 Bluetooth Module
  • Membrane keypad
  • Relay
  • Breadboard
  • Buzzer
  • LED
  • RGB LED
  • 16X2 LCD
  • Stepper Motor
  • Servo Motor
  • NODE MCU
  • Silicon Diode
  • Lm35
  • Capacitor
  • BJT
  • DIAC
  • TRIAC
  • MOSFET
  • UJT
  • I2C LCD Driver 0

FEATURES

  • All of above unit can control by IOT
  • IOT Based Semiconductor, sensor and transducer Controlling.
  • IOT Based industrial controlling .
  • IOT Based Industrial Process controlling .
  • Live Monitoring And Controlling.
  • Raspberry pi has 40 GPIO Pin. 26 GPIO pin of raspberry pi can control Relay and each relay control (12/250/440) volt electrical Appliances, also this 26 GPIO can read Digital sensor data. By dint of ADC module raspberry pi can detect analogue sensor data.