de Jason Ritter | Atualizada: 11/24/2015 | Comentários: 5
Are you having communication problems or seeing readings you don't trust? Is it possible your solar-charged power supply is the cause? How can you find out for sure?
As we mentioned in the “6 Steps to Determine if Your Data Logger Needs Repairing” blog article, many data acquisition system failures are caused by problems with the power supply. These may include issues with batteries, charge regulators, or charging sources. In this article, we’ll look at seven steps to help you find out if your solar-charged power supply has a problem.
Before we get started, you will need to have these tools handy:
Most of the steps outlined here involve direct current (dc) or voltage measurements on different parts of your power system. To measure the dc voltage, set your DMM to the 20 Vdc range with the red probe firmly in the mAVΩ socket and the black probe firmly in the COM socket. During testing, you will touch the red probe to one of the following: the terminal screw labeled 12V, +, or the bare end of a red wire. In contrast, you will touch the black probe to one of these: the terminal screw labeled G, -, or the bare end of a black wire.
You can check whether the data logger is getting power from the power supply by following these steps:
You might be surprised how common it is for someone to turn off the power to a data logger for some reason and then forget to turn it back on later. (For more information on this subject, read the “Troubleshooting Best Practices for Data Acquisition Systems” blog article.)
If you look at your power supply, do you see multiple terminals labeled 12V and G? Just pick one of each terminal type to use.
Measure the voltage between the 12 volt and ground terminals on your power supply. If you measure more than 11 V on the power regulator, but less than 11 V on the data logger, check the wires that connect them.
At this step in the process, your measurements have been less than 11 V for both the data logger and the power supply. The next step is to test the battery voltage with the black probe on the negative (-) terminal and the red probe on the positive (+) terminal.
With the battery disconnected, you can recheck the voltage on the power supply using step #3 as a guide.
Now check the voltage on the two charge terminals of the power supply. These are both labeled CHG, but it doesn't matter which color probe you put on which terminal.
Now it's time to disconnect the solar panel from the power supply. You can measure the panel’s voltage by touching the probes to the ends of the panel’s bare wires. Be sure to do this test during the day at a time when the solar panel is not covered or in the shade. With the red probe touching the red wire, and the black probe touching the black wire, measure the voltage.
For this last step, set your DMM to measure amps so that you can measure the current coming from the solar panel.
Tip: To avoid sparking, it's good practice to temporarily cover the solar panel with a cloth or something similar.
Measure the current by following these steps:
Solar Panel Output | Maximum Output Current (shorted) |
10 W |
0.7 A |
20 W |
1.4 A |
50 W |
3.3 A |
90 W |
5.6 A |
Depending on the time of day and weather, your measurement will probably be lower than the maximum listed, but it should be close to the value that is appropriate for the size of your solar panel.
Some Campbell Scientific data loggers have their power supply built into a rechargeable battery base. For this type of data logger, before you can perform steps #5 and #6, you will need to disconnect the battery by separating the data logger module from the base. (For more details, see your data logger manual.)
To find a power supply problem, we start at the data logger and test each part of the system back to the charging source. After you perform these steps, contact Campbell Scientific if you find any of the conditions outlined below:
Condition | Cause |
The voltage from the power supply is less than 11 V with the battery attached, but the voltage increases to 13 to 14 V when the battery is disconnected. |
The battery needs to be replaced. |
The battery voltage is more than 11 V, but the voltage from the power supply is less than 11 V. |
The power supply needs to be repaired. |
The voltage on the charge terminals is more than 17 V, but the voltage between 12V and G on the power supply is outside the range of 13 to 14 V. |
The power supply needs to be repaired. |
The current output from the solar panel is realistic, but the voltage between 12V and G on the power supply is outside the range of 13 to 14 V. |
The power supply needs to be repaired. |
When the solar panel is in the sun, the solar panel voltage is considerably less than 17 V. |
The solar panel is defective or damaged. |
When the solar panel is in the sun, the solar panel current is not close to its maximum output current. |
The solar panel is defective or damaged. |
If your solar-charged power supply has a condition that hasn’t been covered in this article, or if you have a question, post your comment below.
Comentários
djtire | 11/24/2015 at 12:23 PM
It is also possible that a sensor that is using the 12V or SW12 may be causing the problem. If battery is good, the charging source is good, and the charge controller is good, but the system seems to be having power issues it could be a sensor or sensor cable issue.
We recently had a client who's datalogger would power up, appear fine for about a short period and then disconnect from the PC he was using to communicate with it. After several times of rebooting the power and trying to maintain communication without success, he call us. We went through the process described above and found everything was fine. Then we started to disconnect sensors that were using the 12V terminal, one by one. Sure enough, one of the sensor was the culprit. With the sensor disconnected everything returned to normal.
Notso | 11/24/2015 at 12:56 PM
Thanks. We discuss disconnecting powered sensors in the “6 Steps to Determine if Your Data Logger Needs Repairing” blog article." It's a quick and easy way to determine if the problem is with the sensor or with the datalogger. I'm glad it worked for you.
Notso | 11/24/2015 at 01:29 PM
Another common power supply issue not mentioned in the article is when there is some data stored on the datalogger during daylight hours but long data gaps during the night and on cloudy days. This indicates that the solar panel provides enough current to keep the system running in sunlight but the battery can't hold a charge and needs to be replaced. When this happens you might also see the system crash when a cell modem or radio powers on or when you try to connect with a computer.
Jessica-S | 06/13/2020 at 10:00 AM
I have solar panels on the roof of my box truck. They are connected to a battery which is connected to an invertor. I use the Victron connect 100/50 app to see my solar intake and battery power. On a normal sunny day I produce about 40w at any given time producing up to 1.5 kWh for the day. I took it in for an oil change and a fuse repair on the truck but after picking up the truck, my app is reading that I am producing 1w for the last 3 days. It is very sunny and the truck is parked in it normal spot in direct sunlight. The 12v battery reads as being at 13.7v and seems that the fridge has plenty of power to keep running. It appears I am collecting solar power based on much power my battery has and continues to power all of my things without issue for 3 days but am confused why the solar is only ready as producing 1w-10w for the day when it usually reads around 1.5 kWh. Any help would be greatly appreciated.
Notso | 06/17/2020 at 09:53 AM
Hi Jessica-S. I'm not familiar with the VictronConnect app, but the fact that your battery is still reading 13.7 volts while powering a fridge indicates that the system might be fine. However I would see what the battery voltage does when the sun isn't shining because if it drops quickly that would indicate that during the day the fridge is running on solar power only because the battery can't hold a charge. If the battery drops slowly at night, then my best guess is that the system is fine, but something has gone wrong with the software and it isn't measuring correctly. In that case I recommend that you contact Victron and see if they can help. Good luck.
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