DE LORENZO DL-SMART-CIVIL Smart Simulator For Civil Electrical Training Installation Guide

June 13, 2024
DE LORENZO

DE LORENZO DL-SMART-CIVIL Smart Simulator For Civil Electrical Training

Product Information

The DL SMART-CIVIL is a software designed to provide training in civil electrical installations. It offers a unique and effective way to teach multiple applications such as lighting, signaling, house/building phoning, hotel/hospital services, firefight protection, and anti-intrusion systems. The software allows students to improve their practical knowledge and experience in studying civil installations. Students using this software can develop projects on various topics including basic and advanced lighting systems, signaling systems, house/building phone systems, hotel/hospital services systems, fire, and anti-intrusion protection installations. The DL SMART-CIVIL software includes a powerful 3D simulator with realistic environments to provide a real-life practical experience for students. It also offers an effective guide for students with theory, instructions, and experiment proposals. Students can access learning topics, track their progress, and work on tasks related to electrical machine assembly, electrical connections, running experiments, and answering questions about them. The DL SMART-CIVIL is compatible with the DL SMART-DASHBOARD (sold separately) which allows professors to follow students’ progress. Professors have access to the same features as students and can also access the dashboard’s portal. The dashboard provides reports and analytics to monitor the group in real-time, identify students who need help or are not working, and track the practical activities completed by distance learners.

Product Usage Instructions

  1. Accessing Learning Topics:
    • Log in to the software to track your progress.
    • Choose one of the learning topics available.
    • Access theory, experiment proposals, and instructions related to the chosen topic.
  2. Completing Tasks:
    • Work on the assembly of the electrical machine.
    • Make the electrical connections correctly.
    • Run the experiment as instructed.
    • Answer questions about the experiment.
    • The software automatically verifies if each task is completed successfully before allowing you to proceed to the next one.
  3. Using the 3D Environment:
    • Experience a real practical environment through the 3D simulator.
  4. Using the DL SMART-DASHBOARD (sold separately):
    • If you have the DL SMART-DASHBOARD, it can be connected to the DL SMART-CIVIL software.
    • The dashboard allows professors to monitor students’ progress, access reports, and analytics.
    • Reports include evidence of activities completed by students and detailed information about them.
    • The dashboard also provides charts to understand the difficulty level of tasks and track students’ progress.
    • Professors can define expected progress percentages for tasks and monitor which students are on schedule.

SMART SIMULATOR FOR CIVIL ELECTRICAL INSTALLATIONS TRAINING

The DL SMART-CIVIL is a software that has been developed to teach multiple applications such as lighting, signaling, house/building phoning, hotel/hospital services, firefight protection and anti-intrusion systems, in a unique and effective way.
With this software, students can improve their individual experience on studying civil installations in practice.
Students will be able to develop several projects dealing with the following topics:

  • Basic and advanced lighting systems;
  • Signalling systems;
  • House / Buildings phone systems;
  • Hotel / hospital services systems;
  • Fire and anti-intrusion protection installations;

This software will be able to reproduce the features and behaviors of the DE LORENZO Civil installations trainer – DL 2101T.
With this type of software developed by DE LORENZO, students can learn in their own rhythm and teachers have more time to support the class, manage and improve the process because – unlike any other simple simulator – it grants the following benefits:

EFFECTIVE GUIDE FOR STUDENT

Possibility to access learning topics, with theory, instructions and experiment proposals. The software includes a virtual version of the DL 2101T system;

AUTOMATIC VALIDATION OF STUDENTS’ TASKS

The software automatically verifies if the student completed successfully each task in order to allow him/her to go ahead with the next one;

3D ENVIRONMENT

TO PROVIDE A REAL PRACTICAL EXPERIENCE TO STUDENTS

WHY IS IT A SMARTSIM?

IT CONNECTS PROFESSORS, STUDENTS, AND SCHOOL

  • De Lorenzo´s cloud server receives students’ activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa.
  • That means that the professors can monitor the students and based on the report that De Lorenzo´s cloud provides, the professors can give the support that a specific student might be needing.

COMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARATELY)

PROFESSORS CAN FOLLOW STUDENTS PROGRESS
The professor can do and access everything the student can. Besides, he/she can also access the dashboard’s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be “cheating”.

Tasks report
This is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.

PROFESSOR CAN SEE WHICH STUDENTS ARE ON SCHEDULE
With this interface, the professor may choose which groups he/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.

RHYTHM
This other dashboard shows the number of activities the stu-dents did daily and weekly. The professor may decide to verify it regarding a whole group/class or a specific student.

TRIALS PER TASK
This chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.

SUMMARY OF FEATURES

COMPLETE CONTENTS

HOW DOES IT HELP THE PROFESSOR?

  • With this software, the teacher spends less time explaining topics, verifying students’ activities, and helping students to identify mistakes that do not allow the successful completion of the experiment.
  • That means that the professor has more time to manage the class, help students who need more attention, and make improvements. The two following points grant such benefits:

The software automatically verifies the experiments carried out by the students and it gives relevant feedback:

  • Like in a game that has different phases with challenges and missions, the DL CIVIL INSTALLATIONS software includes practical experiments that need to be successfully completed to let the student access the next one.
  • The teacher does not need to verify continuously if the student carried out the experiment. Moreover, many questions that students would ask about “what could be wrong” are automatically “answered” by the software when the student does not perform the experiment successfully. The image below summarizes this process.

The software tracks the students’ progress and it allows exporting reports:

  • At any time, the professor may verify how many and, specifically, which experiments the student have completed. That report can be used to track students’ activities and it can be considered as an evaluation tool.
  • This report can be generated and displayed directly in the system or it can be exported to a spreadsheet (see image below).

DIDACTIC EXPERIENCE AND APPLICATION
The software guarantees a complete experience in the field of several civil installations. Students can approach this topic starting from the basic concepts, such as lighting installations, up to advanced experiments such as firefight protection systems.
Through this system, it is possible to assemble a relevant number of civil installations to carry out the following didactic experiences:

  • Basic lighting installations;
  • Advanced lighting installations;
  • Signalling installations
  • House phone signaling systems;
  • Hotels and Hospital systems;
  • Firefight protection systems;
  • Anti-intrusion installations;
  • Video house phoning systems.

SET OF COMPONENTS

The system is based on a set of components that allow the assembly of installations. The set consists of the following components:

  1. Power supplies
  2. Lamps
  3. Relays
  4. Switches
  5. Sensors
  6. Push buttons
  7. Control units
  8. Signalling devices
  9. Phones

The system also includes a transformer, socket, fan, dummy to simulate movements and activate sensors, etc., in order to perform all the experiments

LEARNING TOPICS

This software covers 8 topics and proposes 44 experiments for the students. The experiments are listed below, grouped by learning topics.

LEARNING TOPICS

BASIC LIGHTING INSTALLATIONS

With this kit, it is possible to perform the following experiments:

  • Single-point controlled lighting plant
  • Single point controlled lighting plant with socket
  • Switch controlled two lamps lighting plant
  • Two-point controlled lighting plant
  • Three-point controlled lighting plant
  • Four-point controlled lighting plant
  • Circuit breaking relay controlled lighting plant
  • Switching relay-controlled lighting plant
  • Light installation controlled by a time relay
  • Hot cathode fluorescent lamp plant

Smart simulator environment with 10 experiments regarding multiple point control, control with relays, fluorescent lamp, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in lighting installation for civil buildings.
Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.

ADVANCED LIGHTING INSTALLATIONS

With this kit, it is possible to perform the following experiments:

  • Switch controlled two lamps low energy lighting plant
  • Emergency lighting plant
  • Incandescent lamps brightness control with a dimmer from a single point
  • Halogen lamps brightness control with a dimmer from a single point
  • Incandescent lamps brightness control with a dimmer from multiple points
  • Halogen lamps brightness control with a dimmer from multiple points
  • Light system of incandescent lamps controlled by a twilight switch
  • Light system of halogen lamps controlled by a twilight switch
  • Light system of incandescent lamps controlled by an automatic infrared switch fitted with adjustable twilight
  • Light system of halogen lamps controlled by an automatic infrared switch fitted with adjustable twilight
  • Light system with daily electromechanical time switch

Smart simulator environment with 12 experiments regarding emergency lighting, brightness control with dimmers, twilight switch, infrared switch, daily switch, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in lighting installation for civil buildings.
Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.

SIGNALLING INSTALLATIONS

With this kit, it is possible to perform the following experiments:

  • Signalling plant
  • Single-control signaling plant
  • Reciprocal control signaling plant
  • Light signalling plant
  • Ringing plant with a door and a main entrance control
  • Electric lock ringing plant

Smart simulator environment with 6 experiments regarding signaling systems, like condominium concierge, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in signaling installations for civil buildings.
Each one is divided in three steps: Assembly of the modules that will be used, wiring connections, and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.

HOUSE-PHONE SYSTEMS

With this kit, it is possible to perform the following experiments:

  • Two reciprocal call houses – Phone plant at a short distance
  • Two reciprocal call house – Phone plant at long distance
  • Coupled two house – Phone plant
  • Main house – Phone and two shunted house-pones plant
  • Communicating house – Phone plant
  • Connection between two derivatives and 1 external unit

Smart simulator environment with 5 experiments regarding house and building phone systems like a porter – tenants communication, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in phone systems for civil buildings.
Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.

HOTEL / HOSPITAL SIGNALLING SYSTEMS

With this kit, it is possible to perform the following experiments:

  • Installation for audience request
  • Installation for hotel
  • Installation for nurse calling

Smart simulator environment with 3 experiments regarding hotel and hospital services, like hotel services requests and nurse assistance call, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in hotel and hospital systems for civil buildings.
Each one is divided in three steps: Assembly of the modules that will be used, wiring connections, and simulation. After the simulation, the student will have to answer an to assessment form related to the experiment in order to unblock the next one.

FIREFIGHT PROTECTION SYSTEM With this kit, it is possible to perform the following experiment:

  • Implementing the firefight protection system

Smart simulator environment with 1 general experiment regarding firefight protection systems with 3 sensors for gas, heat and smoke and a central unit to activate / deactivate detectors as well as the trigger time. Including brief theore-tical mentions and practical diagrams of the main circuits that are used in firefight systems for civil buildings.
Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.

ANTI-INTRUSION INSTALLATIONS

With this kit, it is possible to perform the following experiment:

  • Implementing the anti-intrusion protection system

Smart simulator environment with 1 general experiment regarding anti-intrusion protection systems with 3 sensors of infrared, microwave and perimeter and a central unit to activate/deactivate detectors as well as the trigger time. Including brief theoretical mentions and practical diagrams of the main circuits that are used in anti-intrusion systems for civil buildings.
Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one

VIDEO HOUSE PHONING SYSTEMS

With this kit, it is possible to perform the following experiments:

  • Connecting the ring
  • Connecting the alarm and the light plate
  • House phone installation
  • Video outdoor station
  • Video house phone installation

Smart simulator environment with 5 experiments regarding installations of a video house / buildings phone systems, with audio-visual connection between an external loud speaking unit and an internal one. Including brief theoretical mentions and practical diagrams of the main circuits that are used in video house systems for
civil buildings.
Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.

SYSTEM REQUIREMENTS

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References

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