Go to the Northern Arizona Wind & Sun - Online Solar Store

Announcement

Collapse
No announcement yet.

Reverse Photocell

Collapse
X
  • Filter
  • Time
  • Show
Clear All
new posts

  • Reverse Photocell

    I know photocells (photoeye) close the circuit at night to turn lights on at night when the sun goes down then opens the circuit during the day. What I am really looking for is a photocell that closes the circuit during the day (turns pump on) and opens the circuit at night (pump off). This is for a day time use only solar pumping application. Is there anything like this out there in 24VDC? If not is there a device similar? Time clock would be easy, but the days become longer-shorter over time.

    Thanks in advance,

    Scott

  • #2

    Re: Reverse Photocell

    Re: Reverse Photocell

    Yes: photovoltaic cell.
    Since they produce electricity when exposed to light it is quite possible to adapt one to switch a relay at the appropriate illumination level so that the pump runs.

    Of course you can cut out the "middleman" and have a pump powered directly from solar. I'm not sure what size pump your looking at or what the application is or the budget, but it is technically possible.

    Comment


    • #3

      Re: Reverse Photocell

      Re: Reverse Photocell

      Carrib- thanks. The issue is that the pump will not gradually start as the sun comes up. Some electronics in the pump that will not let it start. So, I need a way to "switch" the pump on when the sun is a bit higher in the sky and turn it off late afternoon.

      Comment


      • #4

        Re: Reverse Photocell

        Re: Reverse Photocell

        Actually, a "photocell" itself conducts in sunlight and turns off in dark... So there is already a relay (or electronic switch) that is there to reverse the sense of the photo cell.

        How accurate are you looking for this thing to work? One easy way would be to get a small solar panel and simply drive a small 6 volt or 12 volt relay--And wire up the relay to "turn off" when energized and "turn on" when denergized. That would not even "waste" any electrical power...

        http://www.radioshack.com/family/ind...goryId=2032277

        Even a larger 40 amp contact relay would work with a few watt "12 volt" solar panel.

        -Bill
        20x BP 4175B panels (replacement) + Xantrex GT 3.3 inverter for 3kW Grid Tied system + Honda eu2000i Inverter/Generator for emergency backup.

        Comment


        • #5

          Re: Reverse Photocell

          Re: Reverse Photocell

          Regarding the pump--You might want a "hiccup" circuit. When there is enough voltage, the relay "turns on"... If there is not enough current from the solar panel and the output voltage "collapses", then the relay opens for a short bit of time and closes again (an RC timing circuit/voltage comparator would work if you are up the the challenge).

          -Bill
          20x BP 4175B panels (replacement) + Xantrex GT 3.3 inverter for 3kW Grid Tied system + Honda eu2000i Inverter/Generator for emergency backup.

          Comment


          • #6

            Re: Reverse Photocell

            Re: Reverse Photocell

            I think I have it figured out. So, I need a designated panel only for the relay so when the motor is activated it doesn't consume the power necessary to keep the relay powered avoiding on/off/on/off until there is enough sunlight to energize both the relay and motor.

            Comment


            • #7

              Re: Reverse Photocell

              Re: Reverse Photocell

              On the outside chance that this is to be powered by an off-grid system ...
              Some charge controllers have AUX functions that can be programmed to switch a relay on/off in accordance to some programmed state (such as batteries in Absorb).

              As Bill said, a regular photo electric eye can be used to turn a relay on or off with the presence of light; it's simply a change in circuit or relay state (use normally open contact instead of normally closed).

              Not difficult to adapt things like Voltage controlled switches to operate with PV's, if that would work.

              I think we need some more details as to the power source, Voltage levels, reasons for desired timing of operation, et cetera.

              Comment


              • #8

                Re: Reverse Photocell

                Re: Reverse Photocell

                Okay- 24VDC Air pump and cooling fan. Pump runs about 3A @24VDC, Fan runs .6A @ 24VDC. The pump and and fan are located in a cabinet underneath the panels. The panels are (2) 235 Watt panels 24V nominal connected in series pole mounted. The positive and negative from the panels connects to a terminal block inside the cabinet that distributes the voltage to the fan and compressor.

                The pump will not start on its own as the sun gradually rises. The cooling fan does. I need something that can sense the sunlight when the sun is at a decent height (7:30am today's time) then close the circuit to power the pump and fan.

                Comment


                • #9

                  Re: Reverse Photocell

                  Re: Reverse Photocell

                  Simplest would be a solar panel and 12 volt (or whatever matches) relay... Or, look at a linear current booster--That is what is usually required to start a brushed motor (changes "high voltage"/"low current" into low voltage/high current needed by the motor to develop enough torque to begin turning.

                  7 amp Linear Current Booster/Pump Driver
                  (and they have others too)

                  Not sure if it would start your compressor or not (kind of expensive to experiment with--but is supposed to support more hours of operation per day--albeit at a lower pump RPM.

                  Obviously, time of day is not enough--clouds blowing over can cause similar issues. A relay with a capacitor and resistor to slow down its actions (assuming solar array voltaeg is low when pump is not running) so that it take a few seconds to a few minutes to "hiccup" would be a good way to start--More "accurate" than a solar array (probably) or photo cell (it is the stalled pump and collapsed Varray that is the issue, not always just the amount of sun).

                  When there is "enough sun" to turn on the relay (panel voltage), then if the array voltage collapses (discharging the timing circuit), the relay opens. Voltage rises again and "charges the timing circuit" and relay turns a few minutes later to repeat the cycle until the pump "stays on".

                  -Bill
                  20x BP 4175B panels (replacement) + Xantrex GT 3.3 inverter for 3kW Grid Tied system + Honda eu2000i Inverter/Generator for emergency backup.

                  Comment


                  • #10

                    Re: Reverse Photocell

                    Re: Reverse Photocell

                    Tried a pump driver- no dice. Once the pump is started the pump driver works great but doesn't help with the starting issue.

                    Comment


                    • #11

                      Re: Reverse Photocell

                      Re: Reverse Photocell

                      Why wouldn't a low voltage disconnect work in this application? Just Google 24 volt LVD and they aren't priced too highly. I just got one rated 20 amps that connects directly to a solar panel and when the panel generates more then 22 volts (this is a 28 Vmp panel) the 24 volt submersible pump runs, when the panel voltage drops below 21 volts, the pump shuts off. Actually this is pumping water to a stock tank, so it also has a float switch to keep the tank from overfilling. The LVD can also be wired to a relay/contactor to switch much bigger loads.
                      15 assorted solar panels 1800 watts
                      MX 60 charge controller
                      940 amp hour 2 X 6-100-13 DEKA batterys
                      TriMetric battery monitor
                      SW4024 inverter
                      Basic Stamp computer to control SW4024 from MX60

                      MikeO

                      Comment


                      • #12

                        Re: Reverse Photocell

                        Re: Reverse Photocell

                        Originally posted by mikeo View Post
                        Why wouldn't a low voltage disconnect work in this application? Just Google 24 volt LVD and they aren't priced too highly. I just got one rated 20 amps that connects directly to a solar panel and when the panel generates more then 22 volts (this is a 28 Vmp panel) the 24 volt submersible pump runs, when the panel voltage drops below 21 volts, the pump shuts off. Actually this is pumping water to a stock tank, so it also has a float switch to keep the tank from overfilling. The LVD can also be wired to a relay/contactor to switch much bigger loads.
                        Only problem with that is that the panel will generate almost exactly the same voltage from moonlight up through bright sunlight. Just the current available will change. This is a current source, not a battery or generator. And you cannot check the current without having some sort of load. But you do not want the load connected when there is not enough power. Catch-22.

                        And yet when the relay closes and the motor starts running, it will pull the voltage down, so just having a relay coil which closed when it got enough current would not work either.
                        The relay would drop out each time it connected the load. If there is no other load on the panel, all that is allowing your setup to work is that the LVD will drop out at a much lower current/voltage than it pulls in at.
                        Sunny Boy 3000US, 18 x BP Solar 175b panels, installed 2009.

                        Comment


                        • #13

                          Re: Reverse Photocell

                          Re: Reverse Photocell

                          I believe the OP stated he has an MX60, why not use the Aux settings to trigger the 'switch' when in Absorb?
                          100% Off Grid @ 51* 46' N lat 124* 44' W long

                          New House system: coming - 2 arrays @ 2240W
                          #1) CL150 & Epanel 12V PVs 4S @140 W , 24V C&D AT-15P AGM @ 950Ah, Linksys wet54g - WiFi bridge, Cotek ST1500W inverter, TBS Omni-charger 30a-24v, ,
                          #2) CL150 12V PVs 4S@140W , 24V C&D AT-15P AGM @ 950Ah
                          to ADD: E-Panel and inverter
                          Honda Eu3000is,Eu1000is

                          Guest cabin system: 3 - 70W panels to BS 2000e CC, with 2 - 100 ah 12v SAFT wet NiCd's , 600W TSW Inverter

                          Comment

                          Working...
                          X