People usually have problems with electrical work ,PCB testing,troubleshooting, placing samples at two points, and checking the exact time of the measurement circuit. This is also time-consuming and leads to incorrect/incorrect measurements. To solve this problem, the system integrates the virtual voltage and current display through the user's glasses while debugging/testing the system. This system relies on AURDINO NANO to process and display the output. The glass frame consists of an intelligently designed miniature frame. The frame is designed to fit OLED type displays, along with the circuits AURDINO NANO and display lenses used for the desired reflection of the glass frame. The system is designed to fit the human ear easily and you can see the circuit along with the measured voltage.

 The glass frame is made using a smartly constructed miniature frame. The frame is constructed to fit a mini display along with circuitry and the display lens used for desired reflection on the glass frame. The system is fabricated so as to fit easily on a persons ears and enable the person to view the circuitry along with voltage measured. The circuit consists of a voltage measurement circuit that is integrated to the glass in order to get the voltage inputs to the raspberry pi display. Thus we have an efficient voltage measurement display using raspberry pi.

It turns out that smart glasses are one of the most advanced processing devices that connect humans and machines. With a live control panel, it's inconvenient and sometimes even dangerous to get out of your hand to look up a multimeter. Estimating high AC voltage with a traditional digital multimeter is extremely dangerous as it can lead to actual glitches. This project represents a wearable wireless device that allows users to see measurements, which are smart glasses. When using these glasses, the measurements are displayed on the smart glasses, so the user does not need to watch the DMM show. Estimating electrical parameters such as voltage and current was tedious. While estimating the voltage and other parameters of smart glass, there are many issues such as accuracy. While the viewer is looking at the example at the same time as making a quote, they need to look at the smart glass to see what the reading is. During such an estimate, the test may be interrupted and the viewer may make an incorrect measurement.

1. Smart glass base voltmeter.

2. Wireless connectivity in smart glass unit and measuring unit.

3. Arduino mini base Smart E – glass voltmeter.

4. Small and portable device and easy to used.

This system consists of a dual circuit. That is the voltage measurement circuit and display circuit on the glass frame. This system solves the problems of traditional multimeters. The voltage sensor is connected to the Aurora Nano and the measured voltage is shown on the OLED display. The readings shown on the OLED display are reflected by the lens and the output is displayed right next to the glasses. This system helps reduce personnel and provides accurate measurements. The comparison cost for this project is not very high as it requires many sets. The lightweight also makes it easier for observers to wear smart glasses for extended periods of time.

1. Hardware Specifications
2. Pro Mini
3. Multimeter
4. Probes
5. Measuring Glass Frame
6. Display
7. Lens
8. Outer Frame
9. Bluetooth Module
10. Resistors
11. Capacitors
12. Transistors
13. Cables and Connectors
14. Diodes
15. PCB and Breadboards
16. LED
17. Transformer/Adapter
18. Push Buttons
19. Switch
20. IC
21. IC Sockets

All circuits are housed in a plastic box, located just to the right of the smart glass frame. Therefore, the potential danger to people is reduced. There is no problem because it uses only 9V batteries. Since the test probe is located directly in front of the viewer and data glass, there is no problem with the test probe during measurement. 

Advantages

1. This system is lighter than traditional systems Easy-to-use multimeter.

2. It improves the mobility of this system. You can move it Easy from here and there.

3. This system is more convenient for observers.

block diagram

Conclusion

This smart glass accurately responds to the estimation of electrical parameters. This system contains a lot of information about many things. This system provides information via programming software such as Arduino. By making this task, numerous progressions saw during voltage estimation. Since it is extremely troublesome yet intriguing to gauge the electrical parameters utilizing samples and shows their values on your glasses. 

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