Verification of Boolean Identity and Demorgans Theorem

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Product Details:

Usage Educational/ Laboratory/ Training
Display LED Indicators
Voltage 230V 10% AC, 50Hz (Adaptor Input)
Power 9V DC Adaptor
Product Type Universal Electronics Trainer for Boolean Identity & Demorgans Theorem
Material ABS Plastic and Metal Panel
Design Table-top, compact and sturdy
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Verification of Boolean Identity and Demorgans Theorem Price And Quantity

Minimum Order Quantity 1 Unit

ICs Used Standard Logic ICs (e.g., 7400 series)
Accessories Included User Manual, Set of Patch Cords, Power Adaptor
Compliances Conforms to IS standards for laboratory equipment
Test Points Provided for all significant circuit nodes
Operating Temperature 0C to 50C
Safety Certified for electrical safety, fuse protected
Output Indicators Separate LED output for each gate logic
Mounting Rubber feet for anti-slide support
PCB Type FR4, solder masked, silk screened
Experiment Modules Verification of Boolean Identity and Demorgans Theorem circuits
Connectivity 4mm banana sockets for patch cords
Input Logic Switches Push-to-Operate Switches for A, B, and C

Verification of Boolean Identity and Demorgans Theorem Product Specifications

Design Table-top, compact and sturdy
Power 9V DC Adaptor
Detector Logic Gates (IC Based)
Accuracy High, as per standard lab experimental setup
Product Type Universal Electronics Trainer for Boolean Identity & Demorgans Theorem
Dimension (L*W*H) 260 x 180 x 80 mm
Material ABS Plastic and Metal Panel
Weight Approx. 1.5 kg
Voltage 230V 10% AC, 50Hz (Adaptor Input)
Illuminant LEDs
Power Source External Power Supply
Usage Educational/ Laboratory/ Training
Display LED Indicators

ICs Used Standard Logic ICs (e.g., 7400 series)
Accessories Included User Manual, Set of Patch Cords, Power Adaptor
Compliances Conforms to IS standards for laboratory equipment
Test Points Provided for all significant circuit nodes
Operating Temperature 0C to 50C
Safety Certified for electrical safety, fuse protected
Output Indicators Separate LED output for each gate logic
Mounting Rubber feet for anti-slide support
PCB Type FR4, solder masked, silk screened
Experiment Modules Verification of Boolean Identity and Demorgans Theorem circuits
Connectivity 4mm banana sockets for patch cords
Input Logic Switches Push-to-Operate Switches for A, B, and C

Verification of Boolean Identity and Demorgans Theorem Trade Information

Supply Ability 5 Unit Per Week
Delivery Time 4-5 Days
Main Export Market(s) Australia, North America, South America, Eastern Europe, Western Europe, Middle East, Central America, Asia, Africa
Main Domestic Market All India

Product Description

Verification of Boolean Identities, Logic gates & Demorgans Theorems (AE 375 )

Objective : To verify the truth table of 3 input AND gate, OR gate, NAND gate, NOR gate, single input NOT gates, Boolean expressions & Demorgans Theorems.

Features : Instrument comprises of DC Power supply 5V/150mA, 4 SPDT switches provided for selecting logic 1 & logic 0, 2 Red LED output indicators, circuit diagram printed for 5 OR , 5 AND & 4 NOT gates & their respective ICs placed inside the cabinet & connections brought out at sockets.

Reliable Boolean and DeMorgans Theorem Verification

This module simplifies the process of understanding and validating Boolean identities and DeMorgans Theorem. With clear input control through push-to-operate switches for A, B, and C, users can easily configure various logic combinations and observe real-time outputs using LED indicators. The built-in experiments help to bridge theoretical knowledge and practical laboratory skills.

Designed for Laboratory Precision and Safety

Compliant with IS standards, equipped with electrical safety certifications and fuse protection, this device ensures reliable laboratory operation. The robust ABS plastic and metal construction, along with a solder-masked FR4 PCB and anti-slide rubber feet, offers a durable and stable platform for repeated experimental use.

Comprehensive Accessories and User-Friendly Operation

This kit comes complete with a user manual, set of patch cords, and a power adaptor, facilitating hassle-free setup and experimentation. Test points are provided at all significant circuit nodes for easy measurement and troubleshooting, while LED displays make output logic states instantly recognizable.

FAQs of Verification of Boolean Identity and Demorgans Theorem:

Q: How do I use the push-to-operate switches for A, B, and C during an experiment?

A: To use the push-to-operate switches, simply press the switches labeled A, B, and C to toggle their respective logic states. You can configure these inputs to create multiple combinations, allowing you to verify Boolean identities or DeMorgans Theorem as described in the user manual.

Q: What kind of outputs can I expect from this Boolean verification module?

A: Each gate logic output is indicated by a separate LED, making it easy to observe logic changes in real-time. The LEDs immediately illuminate or turn off depending on the result of the selected logic operation, providing clear visual feedback.

Q: When should I use the provided test points on the circuit board?

A: Test points are provided for all significant circuit nodes and should be utilized when you need to measure voltage levels or troubleshoot the circuit using appropriate instruments such as a multimeter. This feature is crucial for deeper understanding and accuracy during experiments.

Q: Where is this experiment module typically used?

A: This device is primarily designed for educational institutions, laboratory environments, and technical training centers in India and abroad. Its compact, table-top design makes it suitable for classroom benches or laboratory workstations.

Q: What process should I follow to verify DeMorgans Theorem with this equipment?

A: Follow the step-by-step instructions provided in the user manual. Generally, you will configure the switches for all input states, observe the LED outputs for each logic gate, and compare the results with theoretical expectations to verify the theorems validity.

Q: Who benefits most from using this Boolean and DeMorgans Theorem verification kit?

A: Students, educators, and trainees engaged in electronics, electrical engineering, or computer science benefit significantly. The hands-on approach aids in solidifying theoretical concepts by correlating them directly with practical outcomes.

Q: What safety features are incorporated into the design of this laboratory equipment?

A: The module meets IS standards, is electrically certified, and incorporates fuse protection against short circuits or power issues. Its sturdy ABS housing and rubber feet prevent slippage, ensuring safe and stable operation during practical sessions.

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