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MK II 10A 12VDC Dual Axis Solar Panel Sun Tracking Drivers Board - Arduino Nano

$ 24.81

Availability: 100 in stock
  • Recommended Environment: Indoor/Outdoor
  • Voltage: 12
  • Refund will be given as: Money Back
  • Power Source: Solar
  • MPN: FBSPDA12V10AWEMARD8178
  • Country/Region of Manufacture: Israel
  • Protection Properties: West to East Auto Sensor
  • Application: Agriculture/Farming
  • Axis Orientation: West East and South North
  • All returns accepted: Returns Accepted
  • Color: White
  • Type: Solar Panel
  • Item must be returned within: 30 Days
  • Current Type: DC
  • Brand: BONLAF
  • Features: Night Operation
  • Wire Gauge: 22-12 AWG (less 0.8-2 mm)
  • System Configuration: Hybrid
  • Current Output: 10 A or Less
  • Return shipping will be paid by: Buyer
  • Current Rating: 1-10 A
  • Condition: New

    Description

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    Product information
    MK II Arduino Ready Dual Axis Solar Panel Sun Tracking Tracker 10A 12VDC Drivers Board DIY
    Click on the Image to Enlarge
    Specification:
    Dual Axis Sun Tracking Drivers Board for Arduino (Nano, Micro)
    Built-in Auto West to East Sensor
    Optimize your energy harvesting to increase it by up to 30%
    Operating Voltage: DC 12V±20%
    Protect your controller during installation/maintenance - Full Reverse Voltage and Electrical Short Protection
    Over current 10Amp 1808 on board Replaceable Fuse
    Drive Current: 10 Amp (with load)
    Operating Temp: Extended Industrial Grade LM2904/2902 family : -40[Deg/C] to +125[Deg/C]
    Description
    MK II Arduino Ready 12VDC 10Amp Dual Axis Solar Panel Sun Tracker Drivers Board
    for DIY projects
    1.
    MK II Arduino Drivers Board Arrived
    Dual Axis
    MK II
    Design Features
    New Features
    * Dedicated Interface connector for Arduino or any TTL Micro Controller
    * All IOs and Analog including 5V Power Source converted from 12V
    * Auto
    West to East Sensor at Night. Return automatically to east after the sunset.
    Common Features
    1.
    Reverse
    Voltage Protection
    2. LED indicators for each direction
    3. Taller Water Clear 5mm LEDs
    4. 12V 20Amp Relay
    5. No Need for heat sink, simplify the assembly and design
    6. Thicken the main leads to be at least 1mm up to 3mm, better durability to high current
    7. Smaller form factor to fit to a smaller dome case
    8. Over current on board 10Amp fuse
    *Note:
    Please see FAQ paragraph # 10 for common questions and answers
    Ever wanted to build a Sun Tracking Controller with your own code and algorithms using Arduino, PicExe, Raspberry PI or any other micro controller.
    Ever wanted to invent
    new
    features sun tracking controllers, add more flexibility, prevent fluttering, oscillations, improve accuracy all that with an affordable price and high reliability.
    Now you can, just plug and play with your own smart and creative code. Mark II Sun Tracking Drivers Board provide you all what you need to build your own sun tracking system.
    This
    Drivers Board support all
    existing
    accessories
    for high power systems. Using the relay modules you can expend over time from a core single panel to an array of panels all managed via
    Drivers Board with your code on a micro
    controller.
    Multiple flavors, e.g. Dual Axis, Single Axis, 12VDC10A, 24VDC10A using Relay Module etc... All in a compact form factor can be fitted into a Jar, Dome, or Small Enclosure for weather protection. In my eBay Store you can also find a variety of accessories that are added to existing systems, like Relay Modules, Wireless Controllers, Sensors etc...
    Solar Panel Sunlight Tracker Drivers Board advance technology, SMD low profile components, compact size, 20Amp 12VDC Relay, 16Amps Main Connectors. Required for hobbies, DIY projects, sunlight tracking, high quality etc...
    I'm
    using one from my own design at my garden, see pictures and movie clip.
    I designed and fabricated this controller/drivers board as a lesson learnt from my Solar Panel DIY project. I used controller for dual axis that I purchased on line, two of them actually stopped operating after several months mainly due to overheating causing the leads to "melt". In my design I added thick traces for the power lines. I also selected
    components
    for extended temperature and made the PCB covered with white solder mask that should reduce a little bit the internal heat due to direct sunlight. I'm offering the
    controller/drivers board
    with
    affordable
    price to the benefit of DIY hobbyists like me.
    The design has two flavors, single axis or dual axis, i.e. one board with single sun tracking to control East/West
    and
    North/South and one with double axes to control West/East and North/South.
    The sun tracker controller is supporting the most common application of 12VDC +/-20% from a battery, or any other power supply source. If you need 24VDC please see other listing in my eBay store, e.g. relay modules for 10, 20, 30 Amp allowing to
    activate
    12, 24, 36, 48VDC linear or axial motors
    .
    The Drivers Board
    uses
    20A/12V relay H-Bridge that drives the motor in either direction, i.e. clockwise/anticlockwise, left/right or up/down according to the sun location.
    The
    Drivers Board has a light sensor so you can
    reposition
    the PV
    Panel
    for the morning sunshine automatically at night. The design can work with only one LED, I put two LEDs for each compass direction to allow more flexible field of view since these LEDs have narrow angle field of view for better precision. Using the LEDs one can catch more field of view mainly due to
    clouds
    or other reasons that my block the sun, i.e. skew lightly the LEDs such that each LED will cover more angle, this will ensure smoother operation
    .
    Please visit my
    YouTube
    Channel to see it working, URL:
    https://youtu.be/f_Z05bQw1kI?list=PL9n6C-MsF_W1AVWEN5f6w1MnkDQShryZh
    You may like my other listing:
    DIY Proto Breadboard PCB White or Yellow:
    https://www.ebay.com/itm/333234608146
    DIY Proto Breadboard PCB with Proto Build of H-Bridge Project:
    https://www.youtube.com/watch?v=YdZrKbVN09c&feature=youtu.be
    Visit my eBay Store HobbizElectronics
    http://www.ebaystores.com/hobbizelectronics
    DIY Sensors Board Module:
    https://www.ebay.com/itm/333405257471
    DIY Single High Current Module:
    https://www.ebay.com/itm/333396177143
    DIY Heat Temp Module:
    https://www.ebay.com/itm/333409364670
    DIY Dark Light Module:
    https://www.ebay.com/itm/333409321972
    DIY
    Auto
    West East  Sensor
    :
    https://www.ebay.com/itm/333728647371
    DIY Dual High Current Module:
    :
    https://www.ebay.com/itm/333554217949
    2. Parameter
    #
    Parameter
    Value
    1
    Name
    10Amp Dual Axis Sun Tracker Controller Board
    2
    Operating Voltage
    DC 12V, voltage source can be for example a car battery, Power Supply etc
    3
    Operating Current
    15 mA (no load)
    4
    Standby Current
    1 mA (no load)
    5
    Drive Current
    10 Amp (with load)
    6
    Sensitivity
    The sensor is calibrated and tested prior shipping
    7
    Dimensions
    81mm x 78mm x 29mm, 3.18in x 3.07in x 1.14in (LxWxH*)  *Height is taken to the PhotoLED tip
    8
    Water Resistant
    No protection
    , need a sealed Transparent Dome, Jar, or other method to protect the controller board and also see the sunlight
    9
    Motor
    Any DC Motor, axial or linear/actuator, with the limitation of the load and current that this controller can drive. For best operation must have a limiting switch for end of move. Usually linear motors have built in limit switch
    10
    Reverse Voltage
    MK II Single & Dual Axis Design
    - Full Reverse Voltage Protection
    -
    10 Amp Replaceable Fuse
    11
    Transparent Dome
    If you are using a camera dome, as I use in my project, it is recommended to use a dome with Ultraviolet resistance, otherwise the dome will over time turn to opaque milky cover from water clear transparent (look for on eBay)
    12
    Operating Temp
    Extended Industrial Grade LM2904/2902 family: -40[
    Deg/C
    ] to +125[
    Deg/C
    ]
    3. Application
    The applications for the controller are a matter of how wild or creative you are
    J
    #
    Type
    1
    Solar Panel / Solar Air
    2
    Sun Tracking for science sensors
    3
    Solar Collector
    4
    Solar Reflector
    5
    Improve energy harvesting
    6
    Improve water heating
    7
    Follow the sun through a single axis or dual axis
    8
    School Projects
    9
    Student equipment development and design
    10
    Electronic Product Design
    11
    Play equipment development
    12
    Robot using Infrared
    photodiode
    13
    Automatic light source detection
    14
    Auto Control for Electric Shading
    15
    AC/Cooling system based on the sun location
    4. Instructions
    The drivers board kit includes 8 Photo LEDs, 4 Main 2Pins Connectors,
    Sensors
    PCB, 12 Pin Male and Female Connectors. All are not assembled ready for you to decide how to use them, and in what configuration. The Photo LED can be soldered directly to the drivers board or can be soldered to the sensors boards and have a cable run from it to the drivers board.
    The sensitivity of the sun tracker controller is set based on the LEDs (Green Water Clear) used to detect the sun and track it. The micro controller can read the voltage via the relevant analog output of the LED per axis when they are facing the sun and based on the voltage level take decisions. To activate the motors use the relevant IO.
    Attached are five tables with the information required for the hardware software interface (HSI)
    Micro Controller Interface Connector (e.g. Arduino)
    J4 Pin
    #
    Acronyms
    Description
    Type
    1
    GND
    Ground (-)
    Ground
    2
    5V
    5VDC (+)
    Power
    3
    SensorWE@M-A
    LDR Out 0 to 5V, Midnight 2.5V, Daylight 0V
    Analog Output
    4
    RefEWS-A
    Reference 2.5V
    Analog Output
    5
    SensorEW-A
    0.6V to 4.2V centered at 2.5V
    Analog Output
    6
    RefNSS-A
    Reference 2.5V
    Analog Output
    7
    SensorNS-A
    0.6V to 4.2V centered at 2.5V
    Analog Output
    8
    WE@M-IO
    “0”=0V, “1” = 5V, Move to East, BlueLEDOff
    Digital Input
    9
    E-IO
    “0”=0V, “1” = 5V Move to East, BlueLEDOn
    Digital Input
    10
    W-IO
    “0”=0V, “1” = 5V Move to West, BlueLEDOn
    Digital Input
    11
    N-IO
    “0”=0V, “1” = 5V Move to North, BlueLEDOn
    Digital Input
    12
    S-IO
    “0”=0V, “1” = 5V Move to South, BlueLEDOn
    Digital Input
    Analog Output of East West Photo LED
    P5 SensorEW-A
    [LED Voltage]
    Motor EW Command
    Comments
    If <2.4
    West = Retract
    Smaller less sensitive
    If >=2.4 to <=2.6
    Stop
    Larger window prevents oscillations and fluttering
    If >2.6
    East = Extend
    Larger less sensitive
    Analog Output of North South Photo LED
    P7 SensorNS-A
    [LED Voltage]
    Motor NS Command
    Comments
    If <2.4
    North = Extend
    Smaller less sensitive
    If >=2.4 to <=2.6
    Stop
    Larger window prevents oscillations and fluttering
    If >2.6
    South = Retract
    Larger less sensitive
    Digital
    Input for East West
    P10 W-IO
    P9 E-IO
    MotorEW Action
    0
    0
    Stop
    0
    1
    East = Extend
    1
    0
    West = Retract
    1
    1
    Stop
    Digital
    Input for North South
    P11 N-IO
    P12 S-IO
    MotorNS Action
    0
    0
    Stop
    0
    1
    East = Extend
    1
    0
    West = Retract
    1
    1
    Stop
    The code and
    algorithm
    should support based on the above HSI the below
    functionality
    In a dark room or no specific light source directed to the PhotoLEDs, the output voltage on all motor connectors should be zero and all blue LEDs turn off. Using a flashlight as source for light, test the
    functionality
    , i.e. aim the flashlight beam to selected PhotoLEDs pair from close proximity and check that the relevant blue LED will turn ON.
    * Illuminate West Photo LED it will move West and SMD (Blue) LED is ON all other are OFF
    * Illuminate East Photo LED and it will move East and SMD (Blue) LED
    is
    ON
    other are OFF
    * Illuminate South Photo LED it will move South and SMD (Blue) LED
    is
    ON
    other are OFF
    * Illuminate North Photo LED and it will move North and SMD (Blue) LED
    is
    ON
    other are OFF
    The sensor (a.k.a Sun Tracker Controller Board) must be aligned with the axis, e.g. east to west, the controller has to be in parallel to the axis you would like to control. The sensor must seat on the axis moving with it, in parallel to the axis such that when the sun move from east to west the controller detect the movement and drive the motor to move the axis to the optimal point where the sun is.
    For optimal performance of tracking the sun, the tracking sensor must not be hidden from the sun, i.e. be in the shad or be obstructed by nearby buildings, trees etc.
    In some cases such as clouds, fog, blur sky, dust the tracking after the sun might not be optimal. The code may use RTC clock, in some cases GPS data, and hysteresis/delays to minimize
    oscillations
    , fluttering due to wind, dust, clouds, fog.
    For safety purposes you should use limit switches for your motor to prevent full circle but also end of move automatic stop such that the motor is not stressed unnecessary causing it to heat up and waste energy and darning your battery or even be damaged. In most linear actuators/motors the limits switches are built in, this is not the case for axial motors.
    5. Power Source
    The Sun Tracking Controller is powered by using DC 12V +/-20%. The voltage source can be for example a car battery, Power Supply, an array of batteries etc. A good practice is to add a fuse in
    series
    to the power line of a 10Amp in order to protect the controller board from over current.
    6. What in the Box
    1.
    1x Dual Axis Drivers Board per order
    2.
    The box
    don't
    include a Dome/Jar Enclosure
    3. Accessories kit
    * 8 x Photo LEDs
    * 4 x 2 Pin Screw Header Connectors
    * 1 x 12 Pin Male Header Connector 2.54mm spacing
    * 1 x 12 Pin Female Header Connector
    2.54mm spacing
    * 1 Sensors Board PCB (Not Assembled)
    * 1 Plastic washers
    * 1 Spacers (9mm) (0.35in)
    I made special design to
    miniaturize
    the PCB form factor so it can fit a off the shelf 150mil Jar with 81mm/3.2in inner diameter, y
    ou can use your own DIY Jar
    .
    Please visit my store for Jar PET Kit, a bundle with installation hardware, make it easy for your project.
    Now my Dual and Single Axis Controller boards
    enhanced++
    design can be installed in a 150mil Jar.
    Jar Dome Sealed Enclosure Dual or Single Axis Solar Sun 12VDC Tracking Controller Board
    http://www.ebay.com/itm/Jar-Dome-Sealed-Enclosure-Single-Axis-Solar-Sun-12VDC-Tracking-Controller-Board-/333533559105?hash=item4da8263941
    7. Payment
    ·
    I accept PayPal payment only
    ·
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    government
    agreement
    of the buyer specific country. The tax will be reflected in the invoice
    when
    it is relevant. It is the buyer responsibility to check tax and regulation. We do not collect nor get any of the tax fee, it is the sole responsibility of eBay.
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    ·
    Feedback is extremely important to us and eBay, if you are satisfied with our transaction, please take a moment to leave five starts and Positive Feedback
    ·
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    !
    9. Contact Us
    ·
    If you have any concerns about your order, PLEASE contact us through eBay message or e-mail to resolve any issues BEFORE leaving a natural rating, negative feedback or opening a dispute. We will reply within 2 business days (public holidays not included)
    11. FAQ
    1.
    I have just installed the sensors, full of sun but they are doing mostly nothing.
    Check the wiring relative to the motor physical location and follow the sanity testing paragraph #3.
    2.
    How to calibrate the potentiometers? NA for the drivers board.
    2.1.
    What is the best orientation of the photosensors?
    2.2.
    Cannot adjust it accurately and it does not find the sun as it should?
    2.2.1.
    Calibrating the LED East West Angle
    Skew (left/right) lightly the LEDs such that each LED will cover more angle, this will ensure smoother operation.
    URL:
    https://i.ebayimg.com/00/s/MTAzMFgxNDQw/z/6gUAAOSw8OVfAvVt/$_57.JPG?set_id=8800005007
    It's an iterative process, where you adjust the LED angel slightly each time until you are satisfied with the results
    2.2.2.
    Calibrating the LED North South Angle
    Skew (up/down) lightly the LEDs such that each LED will cover more angle, this will ensure smoother operation.
    It's an iterative process, where you adjust the LED angel slightly each time until you are satisfied with the results
    2.2.3.
    Calibrating the Potentiometer
    (NA for the drivers board)
    In a dark room (natural light) or no specific light source directed to the Photo LED sensors (clear 5mm LED), the output voltage on the motor connector should be zero and all the SMD (Blue can be other color) LEDs are OFF. If not, turn the potentiometer clockwise till the potentiometer stops rotating, the relevant SMD LED will turn ON. Verify no light source directed to the Photo LED sensor and now start to turn the potentiometer anticlockwise very slowly until the relevant SMD LED turn OFF and the voltage on the relevant motor connector is zero. After this procedure use a flashlight to check again, it should work much better. You may need to do so several times until balance in the sensitivity is achieved.
    3.
    How to verify the correctness of controller operation - Some Sanity Testing.
    3.1.
    Use a flashlight to directly illuminate the clear 5mm photo LED sensors and see if it moving east and west and or north and south?
    3.1.1. Illuminate West Photo LED, SMD (Blue) LED is ON, if you connected the linear motor, it will pull in or the PV move west
    3.1.2. Illuminate East Photo LED, SMD (Blue) LED is ON, if you connected the linear motor, it will push out or the PV move east
    3.1.3. Illuminate South Photo LED, SMD (Blue) LED is ON, if you connected the linear motor, it will pull in or the PV move south
    3.1.4. Illuminate North Photo LED, SMD (Blue) LED is ON, if you connected the linear motor, it will push out or the PV move north
    3.2.
    Check the wiring connection. The +/- of the linear motor is set such that for
    3.2.1.
    East to West the actuator will pull-in.
    3.2.2.
    In the morning, it will go West to East and it will push-out
    3.2.3.
    South to North the actuator will push-out.
    3.2.4.
    In the morning, it will go North to South and it will pull-in
    3.2.5.
    Its common that the East to West actuator is installed in the right side when you look at the panel in front of you. In this case you should swap the motor +/-.
    3.3.
    Check the DC power line and motor connectors wiring connection.
    3.3.1.
    12VDC for 12V Controller
    3.3.2.
    24VDC for 24V Controller
    3.3.3.
    The +/- of the DC power line is protected from reverse polarity
    3.3.4.
    Verify the power line is connected to the DC connector only. Connecting the DC power line to the Motor Connector will damage the board beyond repair. In this case the warranty will be null and void.
    3.3.5.
    The caption on the connectors is very clear and show what is the Motor connector and what is the DC power line connector. Furthermore, please consult with the technical information attached in the list or contact us for support.
    3.3.6.
    Swapping the +/- of the motor connector will not harm the controller, yet the polarity/direction of the motor will be swapped, e.g. instead of pull, it will push or rotate anticlockwise instead of clockwise.
    4.
    Sensor installation
    4.1.
    Where to install the Sensors Board?
    The sensors board must be installed on the moving PV Panel
    4.2.
    What is the orientation?
    The sensors board should be installed horizontally to the panel and perpendicular to the compass directions. Use the compass bearing caption on the board
    4.3.
    How to protect the board from rain, dust?
    Use a Dome, Jar any transparent sealed enclosure.
    4.3.1.
    Transparent enclosure material
    4.3.1.1.
    Glass is the best, yet its fragile and heavy
    4.3.1.2.
    Acrylic with UV resistance, super transparent
    4.3.1.3.
    PET - Poly Ethylene Terephthalate, strong, fully recyclable and fair resistance to UV
    4.3.1.4.
    ABS, Polycarbonate are OK as long as they are UV treated. If not, they will deteriorate and be milky/yellowish over time
    4.4.
    Where to find an enclosure?
    4.4.1.
    DIY using a honey/jam Jar made from Glass, cosmetic/food Jar PET. The inner diameter of the Jar opening should be at least 81mm and with metal lid for grounding and longer life survival.
    4.4.2.
    DIY using security camera box or a dummy camera box with the transparent dome. Two caveats, the dome should be UV resistance otherwise it will become opaque/milky over time. Use some silicon glue for sealing.
    4.4.3.
    There are multi links on eBay/AliExpress for UV resistance " 4 Inch Indoor / Outdoor CCTV Replacement Acrylic Clear Monitoring Camera Cover Dome Housing"
    4.4.4.
    You can find on my eBay Store a DIY Jar PET - Poly-Ethylene Terephthalate plus hardware installation kit
    5.
    Limit switches, why I need it? How I install them?
    The limit switches prevent from the motor to
    exceed e
    nd
    of move for linear motors or prevent 360 rotation of axial motors, thus preventing damage, overheating and burning of the motor or the controller.
    5.1.
    Most if not all linear motor actuator has a build in limit switches no precautions are needed. However axial motors usually do not have such and do need limit switches
    5.2.
    Wiring diagram URL:
    https://i.ebayimg.com/images/g/sk8AAOSw5Mle87~3/s-l1600.jpg
    6.
    Will this work for stepper motors, brushless, or actuators?
    My controller support DC voltage motors such as
    6.1.
    Linear Motor or an Actuator that move In and Out
    6.2.
    Axial Motor that rotate 360 clockwise or anticlockwise
    6.3.  The controller does not support Stepper Motors that need pules to rotate clockwise or anticlockwise.
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    About us
    Welcome to your eBay "Hobbiz Electronic by BONLAF Store", there are wide variety of items that wait for you, new and used in excellent condition, items for your hobbies that will support your DIY projects you eager to complete. You can find Top Quality Proto Breadboards Kits, Metal Detectors Assembled Kits, Affordable Price Sun Tracking Controllers for Solar Energy harvesting and more opportunities for you. Customized orders are welcomed. Our products sell well in North America, Latin America Europe and Middle East. Our company insists on the principle of "Continuous Improvements, Innovation the top quality and competitive price".
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