💬 Battery Powered Sensors
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@canique you confirm my suspicions. For the moment I have 3 working battery nodes with the pro mini and the RFM69HW. We will see how long the batteries are going to last. Normally it should be one year.
I'm constrained by the maximum dimensions of the sensor node. The case must go inside the PVC door frame, so it can be maximum 20mm width on 17mm height, the length is not a constraint. :-)
I had to solder the RFM69HW in line with the pro mini.
The MK2 boards are unfortunately too wide. -
@canique you confirm my suspicions. For the moment I have 3 working battery nodes with the pro mini and the RFM69HW. We will see how long the batteries are going to last. Normally it should be one year.
I'm constrained by the maximum dimensions of the sensor node. The case must go inside the PVC door frame, so it can be maximum 20mm width on 17mm height, the length is not a constraint. :-)
I had to solder the RFM69HW in line with the pro mini.
The MK2 boards are unfortunately too wide. -
@canique you confirm my suspicions. For the moment I have 3 working battery nodes with the pro mini and the RFM69HW. We will see how long the batteries are going to last. Normally it should be one year.
I'm constrained by the maximum dimensions of the sensor node. The case must go inside the PVC door frame, so it can be maximum 20mm width on 17mm height, the length is not a constraint. :-)
I had to solder the RFM69HW in line with the pro mini.
The MK2 boards are unfortunately too wide.@evb I can't see it clearly on the picture but this seems like a reed sensor to me.
Well, usually the transmitter does not have to be at some specific location. There are reed sensors based on magnets (connected with 2 wires to the transmitter). As soon as the magnets are close to each other, a small current flows (or vice versa). They are just attached to the window/door with some sticky adhesive. The transmitter can well be a meter away.I can say from experience with Atmega328P, that when drawing ~24uA in sleep and sending every 30 seconds a single battery lasts ~ 1 year.
This can all be calculated (rough estimates).
A basic online calculator for this kind of stuff can be found @ https://oregonembedded.com/batterycalc.htm -
@evb how's the range of your node? Being enclosed in aluminum will definitely reduce range.
@Yveaux It is not a aluminium door frame, but a PVC door frame (plastic).
The problem is that my gateway is in the extension of the brick wall, about 15m away in the garage at the backyard. So I have a 5m brick wall between de node and the gateway :-(
This means that the reliability of the connection is not good, so I had to place a repeater node between them. -
@evb I can't see it clearly on the picture but this seems like a reed sensor to me.
Well, usually the transmitter does not have to be at some specific location. There are reed sensors based on magnets (connected with 2 wires to the transmitter). As soon as the magnets are close to each other, a small current flows (or vice versa). They are just attached to the window/door with some sticky adhesive. The transmitter can well be a meter away.I can say from experience with Atmega328P, that when drawing ~24uA in sleep and sending every 30 seconds a single battery lasts ~ 1 year.
This can all be calculated (rough estimates).
A basic online calculator for this kind of stuff can be found @ https://oregonembedded.com/batterycalc.htm@canique no, the purpose of the node is to know when the door is locked by the bolt, not only closed. What you see are simply 2 battery springs and the bolt of the lock closes the contact.
I can move the node more upwards the door frame (and I will do it if the radio connection is still not reliable with the repeater).
In order to preserve domestic peace, I placed the nodes in the door frame, invisible when the door is closed: no visible dangling wires and no visible boxes.Maybe an idea for a MK3 version of your board as wide as the RFM69HW ;-)
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Hello
I created battery powered node running on 2x 1.5V AA batteries with DC-DC step up booster. But the step up booster makes audible noise (very tiny beeping) when the radio is transmitting.
It is this step up booster https://www.laskarduino.cz/step-up-boost-menic-s-me2108-33v-480ma/
Is there any way to solve it?
Thanks
Tomas
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Hello
I created battery powered node running on 2x 1.5V AA batteries with DC-DC step up booster. But the step up booster makes audible noise (very tiny beeping) when the radio is transmitting.
It is this step up booster https://www.laskarduino.cz/step-up-boost-menic-s-me2108-33v-480ma/
Is there any way to solve it?
Thanks
Tomas
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Hello
I created battery powered node running on 2x 1.5V AA batteries with DC-DC step up booster. But the step up booster makes audible noise (very tiny beeping) when the radio is transmitting.
It is this step up booster https://www.laskarduino.cz/step-up-boost-menic-s-me2108-33v-480ma/
Is there any way to solve it?
Thanks
Tomas
@tssk There is a name for this noise: it is called "coil whine". In German "Spulenfiepen". It stems from the inductor - I wouldn't know any way to get rid of it.
My mainboard or power supply on my PC creates similar noise when the CPU goes in certain doze modes. -
Hello
I created battery powered node running on 2x 1.5V AA batteries with DC-DC step up booster. But the step up booster makes audible noise (very tiny beeping) when the radio is transmitting.
It is this step up booster https://www.laskarduino.cz/step-up-boost-menic-s-me2108-33v-480ma/
Is there any way to solve it?
Thanks
Tomas
@tssk I heard that people got rid of or at least reduced the coil whine by coating the windings of an audible inductor with non-conductive materials like epoxy resin or even hot glue to reduce the vibrations.
Of course, I woudn't mess with expensive PC hardware, but I guess there's not much to loose with a cheap boost module like this.
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@tssk I heard that people got rid of or at least reduced the coil whine by coating the windings of an audible inductor with non-conductive materials like epoxy resin or even hot glue to reduce the vibrations.
Of course, I woudn't mess with expensive PC hardware, but I guess there's not much to loose with a cheap boost module like this.
Thanks all for the response.
@BearWithBeard I will start googling about such solution.
Do you think using different step up booster might help? Could someone recommend something?
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I am biased since I run that website but I can recommend https://www.canique.com/boost
I've never heard it making noise. -
I am biased since I run that website but I can recommend https://www.canique.com/boost
I've never heard it making noise. -
@canique Thanks for the recommendation if I do not find fix for the model I am using I will consider buying it.
I will try to hot glue the side with the coil as I found on some pages. Any ideas / warnings? :)
@tssk Most of these boosters have a grounded backplane, perhaps trying to re-orientate the inductor so the backplane acts a shield to direct RF may be an option to try ?
If the noise in on the power line I've heard of some managing to block it with a VR circuit if the voltage drop is acceptable, but never tried it. -
@tssk Most of these boosters have a grounded backplane, perhaps trying to re-orientate the inductor so the backplane acts a shield to direct RF may be an option to try ?
If the noise in on the power line I've heard of some managing to block it with a VR circuit if the voltage drop is acceptable, but never tried it.@zboblamont It is not electrical noise but audio noise I can hear. Sorry if I use improper terms.
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@zboblamont It is not electrical noise but audio noise I can hear. Sorry if I use improper terms.
@tssk My misconception.
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@zboblamont It is not electrical noise but audio noise I can hear. Sorry if I use improper terms.
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@tssk First things that comes to my mind is that you might draw too much power (but no expert) did you measure it?
So I used hot glue and it is better. Now I can hear the squeal only when I put my ear directly to the PCB. Thanks for the tips.
@TheoL I have no idea how to measure that.
I noticed that when the radio is transmitting the LED on the Arduino Pro Mini (not the power one) starts blinking very tiny. I still plan to remove the power LED and voltage regulator from the Arduino.
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So I used hot glue and it is better. Now I can hear the squeal only when I put my ear directly to the PCB. Thanks for the tips.
@TheoL I have no idea how to measure that.
I noticed that when the radio is transmitting the LED on the Arduino Pro Mini (not the power one) starts blinking very tiny. I still plan to remove the power LED and voltage regulator from the Arduino.
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@tssk the led blinks because it is connected to the same pin as the SCK pin used by the nrf24.
@mfalkvidd You are right :) I did not know that.
SPI: 10 (SS), 11 (MOSI), 12 (MISO), 13 (SCK). These pins support SPI communication, which, although provided by the underlying hardware, is not currently included in the Arduino language.
LED: 13. There is a built-in LED connected to digital pin 13. When the pin is HIGH value, the LED is on, when the pin is LOW, it's off.https://www.arduino.cc/en/pmwiki.php?n=Main/ArduinoBoardProMini
Should I remove the LED to save power? Or it is marginal?
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@mfalkvidd You are right :) I did not know that.
SPI: 10 (SS), 11 (MOSI), 12 (MISO), 13 (SCK). These pins support SPI communication, which, although provided by the underlying hardware, is not currently included in the Arduino language.
LED: 13. There is a built-in LED connected to digital pin 13. When the pin is HIGH value, the LED is on, when the pin is LOW, it's off.https://www.arduino.cc/en/pmwiki.php?n=Main/ArduinoBoardProMini
Should I remove the LED to save power? Or it is marginal?
