Difference between revisions of "S16: Sprinkler"
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− | ''' | + | '''Challenges with the WiFi Module''' |
− | Coding the Wifi Module proved alot more daunting than originally expected. At first, there was issues with the device not being powered properly. This part was resolved by routing all the pins that weren't being used to 3.3v. The second | + | * Coding the Wifi Module proved alot more daunting than originally expected. At first, there was issues with the device not being powered properly. This part was resolved by routing all the pins that weren't being used to 3.3v. |
+ | * The second challenge was establishing a communication. the receive data was checked before it was available and the timeouts had to be adjusted. | ||
+ | * Once the Wifi Module was working, there is another challenge in reading data from a webpage. Parsing the data was a hassle because the original websites that were checked for weather werent formatted nicely. Once this was debugged, the information was successfully parsed, the weather data was sent to the irrigation scheduler. | ||
+ | * Attempts to connect the wifi module to SJSU's campus wifi (SJSU_premier) proved to be challenging. SJSU_premier uses WPA2 Enterprise and Protected EAP (PEAP) for user authentications, and since the ESP8266 wifi module doesn't support these configurations, another workaround was used to connect the ESP8266 to the access point when working on SJSU campus. Alternatively, wifi-hotspot was created by using PDAnet and Connectify softwares, which can serve as the access point for ESP8266 to connect to. | ||
=== My Issue #1 === | === My Issue #1 === |
Revision as of 05:09, 24 May 2016
Contents
Grading Criteria
- How well is Software & Hardware Design described?
- How well can this report be used to reproduce this project?
- Code Quality
- Overall Report Quality:
- Software Block Diagrams
- Hardware Block Diagrams
- Schematic Quality
- Quality of technical challenges and solutions adopted.
Smart Sprinkler System
Abstract
Agriculture consumes the majority of freshwater in the United States, and with growing pressure to conserve water in the agriculture sector, people are looking for newer and better methods in water conservation. The objective of this project is to implement a residential irrigation system that utilizes IoT (Internet of Things) concepts to control and conserve water usage. The irrigation system consists of a microcontroller activates 24 VAC electrical valves to control the water flow of sprinkler devices. The project will consist of using one SJone board that act as an irrigation scheduler that dictates periodic activation of sprinkler devices. The scheduler obtains weather and forecast readings from the internet and use it to make changes (if any) to the scheduling of irrigation events. A relay circuit connected to the SJone board allows the scheduler to turn on/off sprinkler devices. Soil moisture sensors were deployed to local areas to send soil conditions of plants to the scheduler. In a scheduled event, the scheduler check the soil conditions of the local area and determine if it should activate sprinkler devices. The user involvement is to configure the scheduler to activate the sprinkler devices at which specific days and times, but once that is set, the scheduler became automated and acts on its own without requiring additional user’s involvement. The attractive function of the scheduler is that it behaves “smartly” by following a set of predefined rules.to control the irrigation system. For example, on a rainy day, the scheduler will delay or remove a scheduled irrigation event. By having a smart irrigation system in the home, the user will have an easier time saving and conserving water much more efficiently.
Objectives & Introduction
Show list of your objectives. This section includes the high level details of your project. You can write about the various sensors or peripherals you used to get your project completed.
Team Members & Responsibilities
- Phi Lam
- Scheduler
- WiFi Module Task
- Order Sprinkler parts
- Relay Circuit/Sprinkler Task
- Documentation/Diagrams
- Alejandro Reyna
- Relay Circuit/Sprinkler Task
- Moisture Sensor Task
- Order Moisture Sensor Task
- Hardware Setup
- Documentation/Diagrams
- Sang Nguyen
- WiFi Module Task
- Hardware Setup
- Documentation
Schedule
The point of the schedule is for readers to assess how to pace themselves if they are doing a similar project.
Week# | Start Date | End Date | Task | Status | Completion Date |
---|---|---|---|---|---|
1 | 04/03/2016 | 04/09/2016 | Project Idea confirm, ordering project parts | Complete | 04/11/2016 |
2 | 04/10/2016 | 04/16/2016 | Begin conceptual design of code and schematic | Complete | 04/16/2016 |
3 | 04/17/2016 | 04/23/2016 | Work on designing code for basic sprinkler system and set up physical sprinkler system. | Complete | 04/23/2016 |
4 | 04/24/2016 | 04/30/2016 | Enhance sprinkler system code to work with moisture sensor, refine the physical sprinkler system. | Complete | 04/30/2016 |
5 | 05/01/2016 | 05/07/2016 | Connect the sprinkler system to the internet | In process | 05/07/2016 |
6 | 05/08/2016 | 05/14/2016 | Finish internet connection and get a box to house the components, complete project | In process | 05/14/2016 |
7 | 05/14/2016 | 05/24/2016 | Debug and refine project and demo. | In process | 05/14/2016 |
Parts List & Cost
Relay Circuit
Item | Quantity | Cost | Comments |
---|---|---|---|
3 VDC Power Relay | 1 | $3.50 | Philmore 86-103 |
Transistor | 1 | $0.08 | NPN Bipolar P2222A |
24 VAC Transformer | 1 | $16.25 | |
24 VAC Electrical Valve | 1 | $12.97 |
Irrigation Materials (from Home Depot)
Item | Quantity | Cost | Comments |
---|---|---|---|
15 ft. Water Hose | 1 | $7.97 | |
Adapters, Fittings for Hose | 4 | $14.00 | |
Teflon Tape | 1 | $1.47 | |
Gear Drive Sprinkler | 1 | $7.97 |
Miscellaneous
Item | Quantity | Cost | Comments |
---|---|---|---|
Wifi Wireless Transceiver | 1 | $6.55 | ESP8266 ESP-01 |
Soil Moisture Sensor | 5 | $7.99 | |
25 ft. Cord Extension | 1 | $9.97 |
Design & Implementation
The Smart Sprinkler design was based on the idea that a normal sprinkler system would be enhanced to check the weather, and adjust its watering schedule. Also, the sprinkler would be aware of days that are meant for watering, if cities have water usage laws. A moisture sensor was added to further allow watering decisions to the sprinkler.
Hardware Design
The hardware components that were used were a SJOneBoard, an ESP8266 WiFi module, a 24 VAC solenoid valve, a 3v relay, and an analog soil moisture sensor. The relay, moisture sensor, and WiFi module were powered by the 3.3v and GND output pins of the SJOneBoard respectively.
Hardware Interface
The WiFi module was connected to the UART bus of the board at pins 2.8 and 2.9. The communication works on a single read and single receive. The internet connection was needed to get weather information.
The relay was controlled by an output GPIO pin, 2.1. The pin would output 3.3v to trigger the relay circuit to turn on the sprinkler. A transistor was used to amplify the output of the GPIO.
The moisture sensor was used to read the levels of moisture in the lawn, where the sprinkler would be utilized. The sensor was connected to Pin 1.32 of the board.
Software Design
Show your software design. For example, if you are designing an MP3 Player, show the tasks that you are using, and what they are doing at a high level. Do not show the details of the code. For example, do not show exact code, but you may show psuedocode and fragments of code. Keep in mind that you are showing DESIGN of your software, not the inner workings of it.
Schedule Time
7:30 PM
Implementation
Flow chart
Testing & Technical Challenges
Describe the challenges of your project. What advise would you give yourself or someone else if your project can be started from scratch again? Make a smooth transition to testing section and described what it took to test your project.
Include sub-sections that list out a problem and solution, such as:
Technical Challenges
Getting Proper Hose Fittings
Since our group didn’t have any hoses already installed at our own place, we have to buy the necessary parts from scratch to setup a proper water hose. This is a challenge for us since we didn’t have any mechanical background regarding fitting hoses. It is recommended to consult with experts first before buying any parts. We suggest going to Home Depot to consult with their experts and get the necessary parts there. There are many variations of hose fittings: depending on what parts you already have and which part you started building with. For us, we started with a solenoid valve and proceed from there in getting parts that satisfy the valve’s requirement. Here are the steps we took to complete a water hose setup:
- Started with the solenoid valve, obtain 2 set of water hoses to attach to both end of the valve. Obtain any adapters/fittings to connect both end of the valve to hoses if required.
- Obtain a water sprinkler device to connect to one end of a water hose. Obtain any adapters/fittings to connect the sprinkler device to a water hose.
- Make sure the other end of the water hose fit with the water faucet that is used as the water source for your project. Obtain any adapters/fittings if required.
Water Leakage
After buying all the necessary parts to fit the water hoses with the electrical valve, sprinkler device, and water faucet, it was time to connect all these parts together and test out the connections. There were issues encountered with water leaking out from a few connecting joints due to combination of loose fittings and high water pressure. Attempts to resolve this particular issue include using PTFE tapes or thread seal tapes to ensure a tighter fittings on the adapters. Other precautions were made including isolating electrical components away from possible contacts to leaking waters.
Challenges with the WiFi Module
- Coding the Wifi Module proved alot more daunting than originally expected. At first, there was issues with the device not being powered properly. This part was resolved by routing all the pins that weren't being used to 3.3v.
- The second challenge was establishing a communication. the receive data was checked before it was available and the timeouts had to be adjusted.
- Once the Wifi Module was working, there is another challenge in reading data from a webpage. Parsing the data was a hassle because the original websites that were checked for weather werent formatted nicely. Once this was debugged, the information was successfully parsed, the weather data was sent to the irrigation scheduler.
- Attempts to connect the wifi module to SJSU's campus wifi (SJSU_premier) proved to be challenging. SJSU_premier uses WPA2 Enterprise and Protected EAP (PEAP) for user authentications, and since the ESP8266 wifi module doesn't support these configurations, another workaround was used to connect the ESP8266 to the access point when working on SJSU campus. Alternatively, wifi-hotspot was created by using PDAnet and Connectify softwares, which can serve as the access point for ESP8266 to connect to.
My Issue #1
Tasks not waking up after sleep
Conclusion
Conclude your project here. You can recap your testing and problems. You should address the "so what" part here to indicate what you ultimately learnt from this project. How has this project increased your knowledge?
Project Video
Upload a video of your project and post the link here.
Project Source Code
References
Acknowledgement
We would like to thank Preetpal Kang, Dr. Ozemeck and all the fellow engineering students who helped out with this project, both educational and moral support.
References Used
List any references used in project.
SJ One Board LPC 1758 Schematics http://www.socialledge.com/sjsu/images/d/de/2012SJOneBoardSchematic.pdf
LPC176x/5x User Manual http://www.nxp.com/documents/user_manual/UM10360.pdf
WiFi Wireless Transceiver ESP8266 https://nurdspace.nl/images/e/e0/ESP8266_Specifications_English.pdf
3 VDC Power Relay http://www.philmore-datak.com/mc/Page%20266.pdf
NPN P2222A Transistor http://www.jameco.com/Jameco/Products/ProdDS/178511.pdf
Appendix
You can list the references you used.