#154

You are welcome!

:-)

Bitte, gern geschehen...

:-)

You are welcome!

I know. I learned to fly in Venice in June/July! I experienced the sun as well as the afternoon storms. Sometimes dangerous for a novice: I have good memories (Yes, it was the airport wher the guy from 911 learned to fly, but many years earlier)...

Thanks!

:-)

Thanks!

You are welcome!

You are welcome!

:-)

Thanks!

So you were very fast ;-)

Thank you!

:-)

Thanks!

You are welcome!

Thanks. You find many more videos about the ESP8266 on this channel...

Shall I publish the video a little later to not steal your sleep? Thanks!

Andreas Spiess
Just heard about they landslide in Switzerland. I hope you are not caught up in this and that you and your loved ones are ok. My heartfelt thoughts are with your fellow countrymen my friend.

It happened at the other end of Switzerland, so no problem here. Many voices say, it has to do with global warming. The risk to live in these areas increased considerably over the last years.

Andreas Spiess
Great news you are ok🙏

Glad I could help

@@AndreasSpiess this is not only help, you inspire and motivate .

Thank you!

You are welcome!

:-)

Glad you think so!

You are welcome!

You are welcome!

So, I wish you relaxing holidays. I had mine last week...

Which boards are those please? Hard sorting which are "new" as apposed to fake.

the new ones have micro usb connection ... the link under the video points to the new ones

Carsten Klein i have several, others reports those chips are fake. So confusing, but thanks.

Must be careful, they are still pawning the single chip ones out there, which have no battery over-voltage protection. You want the ones with 3 chips (both are TP4056)... You will see the new ones in a picture, and find China shipped you the old ones.. :)

:-)

Thank you!

You seem to cath up with my videos. Bravo!

@@AndreasSpiess Yeah ! I had some free time this last days ;) Cheers !

:-)

Phil B the tp4056 is a regulator so a LOT of energy is wasted

Missed that bit. Thanks for reminding me.
I'm now thinking about a latching relay. But is there such a thing as a latching MOSFET?
Maybe a PNP MOSFET is the answer and although I haven't done much searching guess that controlling the gate would be too much extra circuitry anyway.

I am not sure if switching regulators are always more efficient. We will see...

CZcams is great because I can watch things over and over till I understood. In school, this was not possible...

Recently I made a video about solar charging where I showed an optinal setup for small devices.

:-)

I will check if I have such a module and test it, if so.

Thanks! Then, you can compare your findings with mine...

That may require some sun which is like winning the lottery in Ireland!
So far finding that TP4056 is pulling (small) panel voltage low so charge is at a low rate. I will look at tuning for our low insolation level her in Ireland. Thanks again!

You can change the charging current of the TP4056 by changing a resistor.

Andreas Spiess This is the plan. I have a 4k7 smt resistor, should work on a deep sleeping node and 800mAh LiPo with max charge current about 270mA

You are right to optimize your installation for the worst case. However these days, solar panels are no more expensive and I use a "too big" panel to avoid too much optimization.

Thanks for the tip. I did not think about that possibility.

So far I was not in solar energy. There are other channels covering this topic. This is why I concentrated on this "small stuff"

Sounds like an interesting project...

Good to hear that you are still interested in these "modern things"!

Thanks. I will see if I have such a device and if yes, will use it in my next video.

Yes, these dual connection 4056 battery/load boards are cheap enough to buy by the dozen. I remember seeing somewhere... possibly another Andreas video.. that having the load connected simultaneously to charging the battery may cause some concern to the overcharge logic on the board. Why then would separate pins be provided? Simultaneous hook-ups have not been a problem during my short experiments.

Craig Larson if you connect load to the same line as battery you can damage the battery permanently by going below ~2.5V, that's why you need separate pins

May those chargers work fine with LifePo4 batteries? I hace been looking for them after watching czcams.com/video/DicVZfW5YL0/video.html

codigoBinario no, because LiFePo4 has different voltage. You should look for LiFePo4 specific chips/boards.

I did not look at the protection part of the TP4056 during my tests (I only used the battery pins). If I continue towards the microprocessor, I might have a look at the protection. AFAIK, all TP4056 protect the battery from charging over 4.2 volts, because they only provide 4.2 volts. And the current is also limited to 1A or lower for all TP4056. The only protection needed would be a protection against undervoltage.

Yes, both DW01A and FS8205A gives you that undervoltage protection, but as I have explained, I think that we loose 0,4V in our output pins. Maybe with the proposal bypass we will avoid that dropoutvoltaje
Waiting for your tomorrow's video .... ;) cheers !!!
Regards,

Thanks for the tip, but CZcams does not allow changes after upload.

I understand. My comment was to explain for others that might be confused by this. Keep up your terrific work. Really appreciate all that!

Andreas Spiess yes but you can add OSD comment on the video or in the comments below the links of the components, a note. Thanks for your videos

i'm building a similar setup and was thinking of putting a supercapacitor and tp431 shunt before the tp4056 to feed it with a steady voltage, as i was assuming it would just turn on and off frequently and not charge very well and adversely affect the battery.
also thought i'd need a 1n4001 diode to prevent backfeed to the panel, i also have the new protected dw01+8205 micro usb version.
i was thinking of changing Rprog (R3) to 5k1 to output 240mA charge current to roughly match my 5v 1.2W panel to achieve very basic MPPT.
looking at this video i can greatly simplify my design!

Simon John - interesting idea to use Rprog! Perhaps using a potmeter as variable resistor would allow for futher experiments in different circumstances. I now have my panel indoors behind a window in some awkward orientation. Charging is probably far from optimal but in summertime the battery gets fully charged with enough energy to wake up every quarter to report sensor status and survive the night. However I need further improvements for wintertime and for more frequent awakenings.

I think, it is a good idea to experiment with the Rprog resistor

Bitte, gern geschehen!

I really appreciate your clear and complete explanations. The info is relevant and useful.
Your an EXCELLENT instructor!!

Thank you!

Thanks for the tip. I ordered a SPV1040. But it will take time to arrive...

:-)

Thanks for the tip. Maybe I will include it also in the next video. We will see...

www.diypowerwalls.com/t-TP5000-module-review-and-technical-details

I should have a few modules laying around, but so far was not successful in finding them...

I will be waiting for that! I have the same module as the link shows with the heat sink. Unfortunately some of them not contains the heat sink. I choose this because of LiFePo charging capability and the 2A seems okay. Not too much found on the internet, just some articles where show the efficiency of this module a little bit better than the TP4056 module. Thank you Andreas every of your efforts!

Thanks! The voltage of a solar panel is low because there is no energy available. So, if you boost this voltage, you do not get more energy, just more voltage.

Ich muss mal in meinen Bauteilen wühlen. Vielleicht finde ich ein solches Exemplar...

Andreas Spiess m.de.aliexpress.com/s/item/1852201781.html?spm=a2g0n.search-cache.0.0.7f25570fb1Wakg

Geht leider zu lange von China...

It is still due.

This is when wind comes in or hydro and if none of those work (a few places on the Earth) you are out of luck.

I think, I chose the way to understand each component and then build the whole system. Your remark about lack of Solar energy is probably why people go to the south for holidays. Maybe we have to do the same thing with our Solar panels...

@TheBestStooge So could multiple TP4056 boards (solar, hydro, wind, ...) from different sources be in parallel on a single battery?

+CJ Brown Switchers are on 300 kHz and LoRa on 868 MHz. Should be ok. But check the current the converter uses during sleep. Because this is the longest time.

So far, I concentrated on small devices and small currents. There are many other videos which focus on the bigger panels and higher voltages.

True. I've done some research, but there's no video that comes with so much detailed information as yours.
BangGood and similar sites offer many products, but the quality/result afterwards (when tested in the field) are sometimes dissapointing.

Most charger chips have a built-in circuit to prevent current flowing back. You easily can check it with an ampere meter

Thanks for the info. But unfortunately, it does not comply with the needs for this project. So, I will not include it in these tests.

No, but it's another good reason for having this device.

Not to mention this device not only stops you car battery from dying, but it will also stop a single 18650 or LiPo pack from dying. So it can come in handy as a under voltage device

They do not work with "charge cycles". They just monitor th voltage of the battery and chose the charge current accordingly.

Andreas, so I understand... If a TP4056 module is always connected between panel & battery, the panel will go through it's pre-programmed cycle on it's own, but only once the battery voltage drops to a threshold, correct?
In other words, the preferred method is therefore to connect a new style TP4056 module (3 chips, not 1 = protection) permanently to the rechargeable battery?
It would be undesirable to have to unplug & plug-in the charger manually...

Sorry to be specific. Does the TP4056 board stay connected always, determining when to charge?

I do not think so. But you can easily measure the voltage with a charged battery and without a solar cell.

I plan to use alternatives to Li-Po in a future video

Andreas Spiess have you already seen the sab mosfets?

I looked them up after your post. But they only support very, very low currents. So, they are probably for very small super caps in very low power devices.

So you must live in a country with a lot of sun ;-)

I added the link in the video description

I think, this would behave similar to the TP4056 one.

Andreas Spiess ok, thanks again. I have commented this because that solution will be a good one for LiFePO4 batteries. (Changing from 4.2v to 3.6v)

You are right! I did not think about this.

Hi Andreas. PLease add this characteristics to your test: drop voltaje from battery terminals to output.I have been doing some test with TP4056 with protection circuit. I have found that there is always a big dropout voltaje between B+B- terminales and OUT+OUT- terminals.Googling I haven't found almost information, but finally I get some:"Notice on battery protection circuit, one MOSFET operates Drain to Source and other MOSFET operates Source to Drain? The diodes drop too much voltage for battery use."It is clear with this datasheet (normally TP4056 boards take FS8205A doble mosfet IC): www.spectron.us/SM6FIE/Electronics/SparkFunLiIon/FS8205A-DS-14_EN.pdfWe are lossing lost of power (0,5V) with that kind of battery protection. Do you know any thing better? Regards,

I saw some tests and the difference between the two technologies was no more big. These days it is probably cheaper to use a bigger panel because of cheap price. But I am no specialist in Solar Panels.

Thank you!

With this resistor, you can only add to the battery voltage (Vbat ＝ 4.2＋3.04×10-6×Rx ), which is probably not a good idea with LiPo batteries. And you can just go higher than 4.2 volts. So, nothing for LiFePo4.
In the full sun tests of today it performed a bit better. I will keep it in the selection. I need also bad examples to show how good others are ;-) And to prevent people to buy devices which do not fit.

I had one which only delivered output when no light was shining on the solar panel. So, just turning it upside down helped...

Thank you for the suggestion. I tried leaving it out in the sun again today (so naturally it rained most of the day). However, whatever solar charge it received must have set or reset something, as now the AC charging works. It charges at about 1 amp, and has 2 of the 4 status LEDs light, after several hours, which is what is expected. In other words, while it was DOA, and AC charging didn't work, after some solar charging, the AC charging started to work. Before I took it outside today I put the solar charger inside an airtight & watertight plastic food container, which has a clear cover, and that worked OK, as well as protecting it from the heavy rain. It's typhoon season here, so not the best time to start playing with solar stuff.

Be aware, that the solar panel is very small and it might take a few (sunny) days to charge the big batteries inside.

The specs say it takes up to 12 hours on a 1 amp charger, or up to 50 hours at not less than 3,000 Lux. The battery is Lithium Polymer and the solar panel is Polysilicon (1 Watt). 3 of the 4 LEDs are on steady now while the charging rate has dropped to 700 mA (it's been charging on AC for about 8 hours). I just put a meter on the output and it's 5.10 V with no load. The cost was under $10, because it rang up at the register $2 less than the price tag indicated (I just noticed that now). It even came with a common square 1 A charger (100 - 240 V 50/60 Hz), plus a USB cable with a micro USB connector tip and a Lightning tip. It claims to have a "USB torch." There is no power out when it is charging.

Ich habe schon ein Video mit Supercaps gemacht. Die unterscheiden sich in diesem Szenario kaum von Batterien.

I did not do a lot of testing yet. So, we have to wait.

I moved on the weekend with my 5V panel. Thank god the sun is now shining. I found out that for my 5v panel that practical delivers 50mA on 4.7V (Datasheet 5V 175mA). Goes down to 20-30mA on the TP4056. It looks like on this tiny Solar panels the world is different. It might be a better idea to directly connect the Solar to the battery and get the 4.2V stuff solved. It looks like the Lost through additional components is higher than the benefit from MPP point reaching in this kind of low power.

It is quite important that your panels do not go below their MPP. Otherwise they lose a lot of power. The TP4056 has no such capabilities. So, you have to change the charging current to fit the solar panel (one resistor on the module).

Strange...

czcams.com/video/uArobEAm0do/video.html

I also experienced this. They are only really safe if you keep the input voltage (at least to the controller IC) above 4.5-ish volts

Das waren 5V/6W Panels. Die sind allerdings nicht mehr erhältlich

I do not think so.

I am not sure if a switcher is more efficient than a linear one during deep sleep of the CPU.

Andreas Spiess oh, I see your point. Could you check and..... um, let me know :P I am working on a project and am debating whether to use a LDO or a buck converter. And oh, I do utilize the deep sleep, so we have similar scenarios. Thank you, even if you can't! No problem!

I will do this, but it will take some time, because I have to use the sun to do the charger part first.

Oh no no problem!! And, thanks again! Keep doing what you're doing :D

Should be possible, if the panel is not too big. Otherwise, it might overcharge the battery. Maybe you test if the voltage is not much higher than 3.6 volts with a fully charged battery and if full sun (worst case).

You can run a device as long as the battery is charged (think of solar as an additional power source). Solar either feeds your device or charges the battery if enough solar energy is available

CZcams videos are open source as long as you mention the source

I think I had it in one of my solar charger videos

@@AndreasSpiess I have found and watched it. Thanks a lot :)

Thanks for the tip.

Wait for the next video...

I made a video about those calculations.

@@AndreasSpiess Thank you for responding, Andreas. Is this the video you are referring to:
czcams.com/video/_TSouG7xb1A/video.html
There is no mention of any specific charger in this video. :-(

You have to watch several videos on this channel to get everything you need :-(

@@AndreasSpiess That would be difficult. You have over 200 videos. If you could point me to some I'd greatly appreciate it.

I have a few videos concerning nRF24L01. Maybe you watch them first.

Thanks sir, i already whatched the two videos, but i couldn't find how to modify the nRF24L01 registers. :(

Maybe you have a look into the RF24 library where you fing modules like
uint8_t read_register(uint8_t reg, uint8_t* buf, uint8_t len);
/**
* Read single byte from a register
*
* @param reg Which register. Use constants from nRF24L01.h
* @return Current value of register @p reg
*/
uint8_t read_register(uint8_t reg);
/**
* Write a chunk of data to a register
*
* @param reg Which register. Use constants from nRF24L01.h
* @param buf Where to get the data
* @param len How many bytes of data to transfer
* @return Current value of status register
*/
uint8_t write_register(uint8_t reg, const uint8_t* buf, uint8_t len);
/**
* Write a single byte to a register
*
* @param reg Which register. Use constants from nRF24L01.h
* @param value The new value to write
* @return Current value of status register
*/
uint8_t write_register(uint8_t reg, uint8_t value);
/**
* Write the transmit payload
*
* The size of data written is the fixed payload size, see getPayloadSize()
*
* @param buf Where to get the data
* @param len Number of bytes to be sent
* @return Current value of status register
*/
uint8_t write_payload(const void* buf, uint8_t len, const uint8_t writeType);
/**
* Read the receive payload
*
* The size of data read is the fixed payload size, see getPayloadSize()
*
* @param buf Where to put the data
* @param len Maximum number of bytes to read
* @return Current value of status register
*/
uint8_t read_payload(void* buf, uint8_t len);
/**
* Retrieve the current status of the chip
*
* @return Current value of status register
*/

Thanks for your help sir, the detail consisted in changing from private to public the class where functions of writing and reading registers are defined in RF24.h library. Now I can modify registers and access the CE pin. I am developing an RF sensor for a security system and my priority is that the signals sent by the transmitters reach the receiver without risk of losing the data, but if the maximum retransmissions is exceeded(MAX_RT = 1), I can still restart the sending by putting CE at low and then activating it to restart the transmission. I appreciate your comments, any suggestions are welcome. have a nice weekend!.

+David Atayde :-)

You have to search for a solar charger for your 4 batteries. Then you have to search for a solar panel that produces enough voltage according to the specifications of this charger. I assume a 21V solar panel should do it (4x4.2V=16.8V).

@@AndreasSpiess thank you

I see several people have similar experiences. I also have the problem getting 90% of the day nothing. I used 2 5V Solrar in serial and a Step Down converter. Bad luck the StepDown consumes nearly all of the energy....

If the open circuit voltage is below 5.5 volt, you will anyway get no power, even if you boost the voltage, because there is no solar energy available. That is the intrinsic problem of solar energy ;-) and has to be solved by storage devices. BTW: This is the reason for my fist video about this topic.

I would add a large capacitor to be sure for the short-time currency peaks

Thank you again , excuse my low knowledge this is not my area , how much µF do you think I need ? Also do you think I need DC 5V to 3.3V Step-Down Power Supply Module AMS1117-3.3 LDO 800MA ?

1. I would use the biggest you have (a few thousand uF is ok)
2. The AMS1117 is ok if you want to use it in full sun.
3. I think, you have also to think about how to switch the ESP on and off, because It could get unstable if your voltage is not stable (and it will be unstable, especially if the sun starts to shine). You should start the ESP only if the voltage is around 3 volt. Maybe you Google for "Voltage Detectors ic"

Thank you very much Sir ! ,
Would be nice if you can cover this "Standalone" sensors in one of your episodes , it is very good for farmers and area with big landscape .. etc

You find standalone sensors in my LoRa videos

Thanks for the link. I will have a look at it.

My BQ24650 is for lead acid batteries

I have the same charger as yours on the video. You can use it for lifepo4 and li-ion too! If you don't know how to setup it, Voltlog has a nice video on yt, try it out ;-)

Thanks!

Thanks for the link. I forgot about that!

No, the world will speak Desesperanto which sounds extremely like English, BUT does not contain 72 genders and cannot be used to offend…
#FreeKekistan
Btw: Schwizerdütsch is better anyway...

So good luck with your wind turbine. It is better to have too much energy than not enough...

I do not think so. I follow the power curve.

@@AndreasSpiess Yes, but when you were talking about increasing current, you were showing increasing voltage and decreasing current part of the curve.

Thanks for the link!