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PDF statistics: - 121 PDF objects out of 1000 (max. 8388607) - 81 compressed objects within 1 object stream + 124 PDF objects out of 1000 (max. 8388607) + 83 compressed objects within 1 object stream 0 named destinations out of 1000 (max. 500000) 26 words of extra memory for PDF output out of 10000 (max. 10000000) diff --git a/Attiny_Solar_Energy_Harvest/docs/56.pdf b/Attiny_Solar_Energy_Harvest/docs/56.pdf index 097a606..46cca09 100644 Binary files a/Attiny_Solar_Energy_Harvest/docs/56.pdf and b/Attiny_Solar_Energy_Harvest/docs/56.pdf differ diff --git a/Attiny_Solar_Energy_Harvest/docs/56.tex b/Attiny_Solar_Energy_Harvest/docs/56.tex index 4213239..c307673 100644 --- a/Attiny_Solar_Energy_Harvest/docs/56.tex +++ b/Attiny_Solar_Energy_Harvest/docs/56.tex @@ -527,6 +527,11 @@ power back on. \subsubsection{433MHz Module TX Max Speed} 2KHz was OK. Beyond that, the RX'd signal goes out of phase, i.e. can't keep up. 5KHz is unusable. Tested with sig gen. +\subsubsection{433MHz at any bus you like} +The speed issues out of the way, this transmitter outputs whatever you feed to it. Want a UART protocol? Tie your UART TX to the transmitter. SPI? Sure, that too. You aren't locked to using UART, as in some modules. This is a great flexibility. Need encryption? Add it to the code, and you have encryption. Essentially, this 433MHz Transmitter, replaces a wire. And that is the point of RF, in some respects. + +It also makes the concept simple. RF is not meant to be an end in and of itself. Sometimes, it's just meant to replace wires. Your wifi device, could technically have a WIFIOUT, which would be everything on 2.4GHz. But it should be possible to have a wired WIFI. You should be able to put a wire on that WIFIOUT to a WIFIIN receiver, and have it work. The RF is still binary. It replaces a wire. + \subsection{Further Notes} https://www.eevblog.com/forum/microcontrollers/powering-devices-via-gpio-pins/msg2720044/\#msg2720044 - Using GPIO to power devices. diff --git a/Attiny_Solar_Energy_Harvest/docs/56.toc b/Attiny_Solar_Energy_Harvest/docs/56.toc index 48f0c8a..7d8528d 100644 --- a/Attiny_Solar_Energy_Harvest/docs/56.toc +++ b/Attiny_Solar_Energy_Harvest/docs/56.toc @@ -1,37 +1,38 @@ -\contentsline {section}{\numberline {1}Attiny Solar Energy Harvest Tests}{2} -\contentsline {subsection}{\numberline {1.1}Micro Considerations}{2} -\contentsline {subsubsection}{\numberline {1.1.1}Micro Notes}{2} -\contentsline {subsubsection}{\numberline {1.1.2}Energy Storage}{3} -\contentsline {subsubsection}{\numberline {1.1.3}Make parts, not scrap}{3} -\contentsline {subsection}{\numberline {1.2}Programming}{3} -\contentsline {subsubsection}{\numberline {1.2.1}Testing Arduino Loader}{4} -\contentsline {subsubsection}{\numberline {1.2.2}Conclusion on Arduino Programming Attiny10}{6} -\contentsline {subsubsection}{\numberline {1.2.3}IO Port Switching Speed}{6} -\contentsline {subsubsection}{\numberline {1.2.4}VCC 1.8V}{7} -\contentsline {subsection}{\numberline {1.3}Application}{7} -\contentsline {subsubsection}{\numberline {1.3.1}Magnetic Current Sensor}{8} -\contentsline {subsubsection}{\numberline {1.3.2}Accelerometers}{8} -\contentsline {subsubsection}{\numberline {1.3.3}Temperature Sensors}{10} -\contentsline {subsubsection}{\numberline {1.3.4}Gas Sensors}{10} -\contentsline {subsubsection}{\numberline {1.3.5}Supercap}{10} -\contentsline {subsubsection}{\numberline {1.3.6}Hall Effect Sensors - 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The goal being to load the super cap during the day, and to run 24/7. I will need an exceptionally low power micro. The super cap will need to be about 3.3V or 5V. +\textcolor{green!60!blue!70}{ +\subsection{Micro Considerations}} +The Arduino Atmega328P is not an option. I'm looking to have a current draw of only 1mA max, (ideally 500uA) when active. Moteino is also not an option for this. Those are made for batteries. I want to be battery free \footnote{I might backtrack on this, but I think I'll do one with and one without batteries.}. A super cap, however can be used to store energy. I'll get to that shortly. + +For micros, I have some Attiny10 on hand, and these have a reasonably low power pull in active mode. Let's build those up first. What will the micro do? Not sure yet. + +\textcolor{green!60!blue!70}{ +\subsubsection{Micro Notes}} +Must run at 1.8V / 1MHz per front page of data sheet, for 200uA draw in active mode. +\\ +\\ + + +\textcolor{green!60!blue!70}{ +\subsubsection{Energy Storage}} +I don't want a battery. Let's go with a super cap. The solar panels will only be active some of the time, so I will want to harvest energy with some kind of IC into the cap when the sun is out.\footnote{Reference: www.analog.com/media/en/technical-documentation/technical-articles/solarenergyharvesting.pdf is a start. I'll need to do more research.} + +\textcolor{green!60!blue!70}{ \subsubsection{Make parts, not scrap}} I want to make sure that all parts I build are perf board parts, not +breadboard scrap (to be torn down and rebuilt again). This is an Attiny, so no need to test much, yet. Breadboards never really worked for me, so far. Too much build up, then tear down... I like things that are built to last. Parts, not scrap. + +\textcolor{green!60!blue!70}{ +\subsection{Programming}} +To program the Attiny10, I'll use the Arduino adapter from the Junk + Arduino blog. I built it up\footnote{Had slight error where the Arduino + board wouldn't read - pins too short on headers, then the arduino wouldn't boot - due to bad connection on perf board shield. Thankfully, the USB port didn't try to run. Protection circuitry cut in on the laptop. This was all on a perf board. My proto pcb doesn't have this issue.}, and was able to read the memory. In order to upload to the board, you will need a compiler setup. You can possibly do it in AVRGCC, but instead I opted for either Arduino IDE (via Attiny10Core which didn't work), and then went to Mplab. In order for mplab 5.25 to work, it will need XC8 compiler, and there is a pack that can be downloaded through the IDE to get Attiny10 support. After that you can get .hex files to upload. + +It appears the AVR Dragon (which I have) can not be used. However, other programmers can be used. Pickit 4, Mkavrii, stk600, I think. + + +\textcolor{green!60!blue!70}{ \subsubsection{Testing Arduino Loader}} +Tested this with the blink\_LED.c in code folder. The code is as simple as possible. +It is the following: +\begin{lstlisting} +//#include +#include +#include + +int main(void) +{ + // PB2 output + DDRB = 1<<2; + + while(1) + { + // Toggle PB2 + PINB = 1<<2; + _delay_ms(500); + } +} +\end{lstlisting} +\footnote{As a recap, this code is setting the 2nd bit of DDRB register high (1), and also the PINB register, bit 2. From this we get blinky, aka a square wave.} +When programmed in Mplab, with XC8 compiler, and Attiny10 support, I get the following +hex output: +\begin{verbatim} +:100000000AC020C01FC01EC01DC01CC01BC01AC01B +:1000100019C018C017C011271FBFCFE5D0E0DEBF41 +:0A002000CDBF03D000C0F894FFCF5D +:10002A0044E041B940B95FE966E871E05150604087 +:0A003A007040E1F700C00000F5CFB0 +:02004400DDCF0E +:00000001FF +\end{verbatim} +The content of this hex isn't the focus of this passage. Instead, I want you to review the +results of a D for Dump Memory, by the Arduino Loader. +\begin{verbatim} + +Current memory state: + +registers, SRAM + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +0000: 05 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0010: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0020: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0030: 00 00 00 00 00 00 03 00 00 79 00 03 00 00 00 00 +0040: B7 AD AE FA 58 70 63 6B FB 5A B4 1B FF FF 35 3F +0050: 67 D7 33 43 DF 5F FB 72 C9 7D FE E9 9D C5 00 12 +NVM lock + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F00: FF FF +configuration + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F40: FF FF +calibration + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F80: 79 FF +device ID + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3FC0: 1E 90 03 FF +program + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +4000: 0A C0 20 C0 1F C0 1E C0 1D C0 1C C0 1B C0 1A C0 +4010: 19 C0 18 C0 17 C0 11 27 1F BF CF E5 D0 E0 DE BF +4020: CD BF 03 D0 00 C0 F8 94 FF CF 44 E0 41 B9 40 B9 +4030: 5F E9 66 E8 71 E0 51 50 60 40 70 40 E1 F7 00 C0 +4040: 00 00 F5 CF DD CF FF FF FF FF FF FF FF FF FF FF +4050: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +4060: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +(...some memory omitted here for brevity...) +43E0: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +43F0: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +\end{verbatim} + +Notice that the "AC020C01F" is set. That is from the hex. But the 01000... +before it seems to be missing. Some deciphering of how the Arduino programs +the Attiny is in order here. It also doesn't end the same. + +Regardless, when programming, the Arduino reports 70 bytes written, and in the Mplab project memorymap.xml file, it notes 70 bytes +for the sketch. This lines up.\footnote{Although for an unknown reason, every command registers twice on the Arduino serial monitor, but this appears to be harmless.} + +The blinking LED works. Let's move on. + +\textcolor{green!60!blue!70}{\subsubsection{Conclusion on Arduino Programming Attiny10}} +It's possible, but you have to make a dedicated jig (almost), so it might be easier to use the official programming tools. However, based on this https://www.avrfreaks.net/forum/pickit-4-and-avr-mcu I might not have a choice. So I will use the Arduino for now. But will have to devise what on board parts are req'd for programming, and incorporate into proto board layout. \textbf{NOTE: This was before I build the proto pcb.} + +\textcolor{green!60!blue!70}{ \subsubsection{IO Port Switching Speed}} +Using the above code without any delay\_ms, I get the following results from a default clock +speed, and a 128KHz clock speed. This test was done to confirm that I could change the clock with +\begin{lstlisting} + //Write CCP + CCP = 0xD8; + //change CLK to 128KHz + CLKMSR = 0b01; +\end{lstlisting} + + +There was no issue. +\begin{verbatim} +Default CLK (8MHz? or 1MHz?): 160KHz square wave +128KHz CLK: 2.5KHz square wave on GPIO +\end{verbatim} +I am going to pursue 128KHz for starters, for lower current dissipation. Note that with the Arduino loader, it is cumbersome to test and change code as you move along. It is +therefore going to be necessary to use a programmer, with a dedicated header on board. \textbf{NOTE: this was before the proto board, which made programming slightly faster. Still not 100\%, but usable in terms of agility.} +\textcolor{green!60!blue!70}{ \subsubsection{VCC 1.8V}} +The lowest power supported: 1.8V can be applied, without any configuration +needed. It does not affect IO switching speed (although obviously amplitude is affected). +\begin{verbatim} +128KHz CLK (5.0V): 2.5256 KHz IO switch +128KHz CLK (3.3V): 2.5477 KHz IO switch +128KHz CLK (1.8V): 2.5849 KHz IO switch +\end{verbatim} +As voltage drops, IO speed increases. +\\ +\\ +\textbf{VCC Dropout voltage:} +\\ +From 1.5, it drops out at 1.248V or so. Comes back at about 1.34V +\\ +\\ +Test size of 1. +\\ +\\ +Can't run this with one (AA) battery, but you could with 2. +\\ +\\ +Current Draw: 128KHz - IO test, 1.8V, 0.08mA (~78uA) (tested w/ HP 3478A) +\\ +\\ +\textcolor{green!60!blue!70}{\subsection{Application}} +First, I need a board for these and a programmer, to quickly program. Second, I need an application. I want extremely low power. Hopefully, solar with no batteries, to start. This is extremely low - that is the point. Let's keep this ridiculous. + +Given the power requirements put me under 1mA (with my current panels), I'm considering the following: EEPROMs would require SPI protocol. Doable, but overcomplicated for now. +\\ +\\ +Eink (need to find a small and cheap enough option. So far, they have either too many pins, and/or use too much current. Something like what stores use to display prices would work, but that doesn't get the data out, only makes it readable.), +\\ +\\ +Third option would be RF. That is a viable path, but not today. Let's skip that for now. +\\ +\\ +Fourth option that comes to mind is IR. IR diodes, as in TV remotes, would work well here. I am choosing this as the first project. I will have dumb clients, that consist of - Attiny / IR / Sensor powered by solar. I will have a BBB that receives the IR data, and does all intelligent data gathering. To keep things simple, the IR will be binary ADC data, or otherwise sensor numbers. No SPI, no protocol complexity. That would require space on the Attiny. +\\ +\\ +Let's build some boards based on the above. +\\ +\\ +For sensors: +While building, I came across an option. Hall effect sensors. I think also capacitive sensors can be used. This may find a use in a gate sensor, for when a driveway gate is opened or closed. With a small battery, it would work for years. + +Footprints: I had to make a footprint for this module on board package for one sensor. The solution to get footprints right? copy graphic image and make it into silkscreen on the board. Easy. + +The sensor I looked at was a temp and humidity sensor SHT11 (SHT10 is obsolete). It is low power enough. However, it's \$20. So not in my price range. Otherwise, it would work here. Looks like communication is a shift register, or SPI. + +\textcolor{green!60!blue!70}{ +\subsubsection{Magnetic Current Sensor}} +There is this: +BM14270AMUV-LB +Which is low enough current here (\textless 1mA). But \$7 in qty, and req's I2C. Not today. + +\textcolor{green!60!blue!70}{ +\subsubsection{Accelerometers}} +These are an option. + +Best pinout (for deadbug) is LIS344ALHTR (but lacks vcc down to 1.8) +2nd Best pinout with full 1.8 -3.6 vcc is ADXL337BCPZ-RL7 +(Keep in mind, these are low end options only) +(Analog output only. keep it simple for now.) +Runner up to all above, is KXTC9-2050-FR . But has worse pinout. + +Going with AD part. \$5 in single qty. +Digital output Accelmeters are cheaper. + +All have tiny package sizes. + +Since I am grabbing 1 output only, will need to orient or choose correct output. + +PINOUT: When I said best pinout, I meant that you can solder this by hand or with hot air, without much difficulty, because the layout does not require all pins to be connected (hoping I don't get bit by floating pins, though). Or, the layout has PWR and GND together, which means some pins can be bridged. + +\begin{center} + \includegraphics[scale=1]{../pics/adxl_pinout.png} + \captionof{figure}{Some pinouts are easier than others. That said, this would still benefit from a custom breakout board. Bridge the V+ and GND, omit NC, RES pins and then you will want hot air and solder paste. Those looking for trouble can try magnet wire in a pinch.} +\end{center} + +\textcolor{green!60!blue!70}{ +\subsubsection{Temperature Sensors}} +Temperature can be boring, but why not. Let's throw one of these on: LMT84LP . Pin compatible with LM35. Supply current is maybe 8uA. Extremely low. +LM84 (1.5V starts, to 5.5), LM85 (1.8V to 5.5) + +\textcolor{green!60!blue!70}{ +\subsubsection{Gas Sensors}} +Lowest is 5mV as of writing on dkey. Skipping. The SHT would work, but its too expensive. + +\textcolor{green!60!blue!70}{ +\subsubsection{Supercap}} +For now, trying whatever I have in my junk box, as super caps are expensive. If I had money, I'd try: +FG0V155ZF + + + + + +\textcolor{green!60!blue!70}{ +\subsubsection{Hall Effect Sensors - Push Pull vs Open Drain Outputs}} +\begin{verbatim} +9.1.1OutputTypeTradeoffs +The push-pulloutputallowsfor the lowestsystempowerconsumption +becausethereis no currentleakagepathwhenthe outputdriveshighor + low. The open-drainoutputinvolvesa leakagepaththroughthe + externalpullupresistorwhenthe outputdriveslow.The + open-drainoutputsof multipledevicescan be tied + togetherto forma logicalAND.In this setup,if any +sensordriveslow, the voltageon the sharednodebecomeslow. + Thiscan allowa singleGPIOto measurean arrayofsensors +\end{verbatim} From DRV5032 data sheet. + +\textcolor{green!60!blue!70}{ +\subsubsection{Conclusion: Starting Sensors}} +So as a recap, to start with affordable, low power sensors for my project, I have the following types: +\begin{itemize} +\item Temp sensor (cheapest) +\item Magnetic Sensor (hall effect) +\item Movement Sensor (accellerometer) (analog output) (tiny package) +\item capacitive sensor (azoteq)(may only be short range) +\end{itemize} + +Output, I have not determined yet. IR will not work, as its too high power. Unless I dedicate a battery just for the IR diode... Or make it battery powered. I'll start with batteries, but for solar panel and supercap, it will likely not be viable, unless I transmit extremely rarely. That is also an option, however. + +\subsubsection{Farad to mA} +1.5F supercap can supply 1.5A for 1 second. That is 0.025A for 60 seconds, or 25mA for a minute. +Let's stay I use half that, so 12mA for 60 seconds is my supply. If I transmit once every other hour (when in sunlight)...\footnote{However, upon my testing, I found that the super cap is only useful while there is light. After dark, it won't hold for very long. Perhaps 1 hour.} + +\begin{center} + \includegraphics[scale=0.25]{../pics/DSCN2984.JPG} + \captionof{figure}{The silk screen pinout and instructions help.} + \end{center} + + +\subsection{PCB} +I have built rev 2 of the board today. Using an Uno, user must remember to include VCC and GND. So the programming takes up all 6 pins. The 0.1'' headers were slightly close to the resistors, and the top row of VCC and GND headers are separated, so I labeled them V+2, and GND2.\footnote{Forgetting to plug in GND, and or 5v+ (for Uno), while still plugging in the TPI pins, did not break the Attiny10, in my tests.} + +The 0.05'' pin headers work perfect for scope probes. The extra breakout I made demonstrates this. + +\subsubsection{PCB Programming} + +By default, the Attiny10 idles around 1.5mA (5V), before programming. + +First thing to do, is to program it into a low power mode. + +In order to use low power, whilst using the Uno, I will need to add a jumper to the PCB, +so that you can switch between V+2, and V+1. Three pin jumper. Outside pins are each V+, internal goes to Attiny V+. I'll need to remove the trace on gerber rev2, that goes from 4 to VCC. + +\subsubsection{PCB programming and use} +It's not possible to leave the Arduino plugged in, while testing the Attiny10. +example: Even if you power down the Uno, and use a jumper to change V+ rails, +the power dissipation through the TPI pins (10,11,12,13) will cause a draw of about 545uA, and the Attiny10 will not toggle its led. +Therefore, not only a power jumper is required to use the Attiny, but also +a 4 or 5 pin 0.1" cable for the TPI pins, must be disconnected before using the Attiny. +\footnote{In code section, mplab - tests2, the power draw of the 128KHz internal CLK with PB2 flipping at about 400us a cycle, at 3V VCC is about 115uA. At 2V it is ~95uA.} + +\subsubsection{PCB Rev3} +\begin{itemize} +\item Added jumper to switch between different power rails, so that + Arduino can be left sort of plugged in (turns out, it is still required to disconnect 9,10,11,12,13 pins, so use a 4/5 pin cable). This makes testing low power (2-3V) code, easier, while still programming with the 5V Uno. +\item Added SOT23-6 breakout + \item Moved Resistors further from 9,10,11,12,13 pins. + \item Added separate board for analog Accelerometer. + \item Moved VCC breakout (0.5'' header pins) to connect directly to tiny, not to bottom Voltage rail. + \item Added note about VCC and GND must be connected when programming. + \item Added accelerometer pcb breakout. Package is small, but thanks to pinout/unused pins - is reasonable to solder with hot air. I knew this when I chose it... Then I forgot it earlier today. +\end{itemize} + +\subsubsection{RF Comms} +I want to use RF to communicate with this device. The IR would work, but would require batteries. If I'm going to use batteries I may as well use RF. Ideally, RF without batteries would be nice. + +I searched for LoRa modules, and came across this +\\ + +https://www.disk91.com/2015/technology/ +networks/first-step-in-lora-land-microchip-rn2483-test/ + +I've added the datasheets. The RN2483 can be set with a UART, which means two pins on the Attiny. I will want to use a transistor to turn off the module (not using sleep mode), when not in use, so that's another pin. The 4th pin would be for whatever sensor I'm using. Right now, I'm thinking an accelerometer to watch for motion on a door or gate. I may need more pins, as I'd like to be able to switch the accel ic on and off as well. + +There is the Attiny40, and also an Attiny402. Different, but both worth considering. The Attiny40 is covered by my programmer, the 402 is not. 40 is from early 2010's, the 202/402 is from 2017. Also the Attiny20, which is less pins than the 40. But covered by my programmer. I would lean towards the 10 or the 20. 40 is too much IO. + +Attiny10 has I2C on board (TWI). I'm going to stick with the 10. Keep it simple. + +\subsubsection{Present Questions} +Questions: +is a two pin UART the best I can expect to find for simple rf comms +is lora a reasonable solution here? I want as low power as possible, + Lora is not the lowest but if I transmit rarely, and for a short time perhaps it won't matter. + +Is there some other way to transmit data? I don't want to use ultrasonic waves, and IR seems to be too much current, as well +as requiring line of sight / lens. + +\subsubsection{Plan of attack} +I'm going to prototype with the Microchip RF modules for now, and see if I can get this working off a solar panel. I have an ADC, and with RESET disabled another IO. Goal is now: + +Configure RF modules w/arduino. + + +Configure RF module (one Uno receiver, other tiny transmitter) + + +Attach any sensor that uses ADC. (temp sensor, resistor light or thermocouple, current sensor (monitoring power supply), and I have the ones I already tested today (but will hold off on - the accelerometer, and hall effect). + +Desired applications +- Temp of hot surface (boiler) monitoring +- Solar current input monitoring. + +As I've already worked with a current sense before in my battery project (Electronics\_Projects\_2019), I will use again the INA169. It seems to be low enough power for my needs, though I will double check in practice. The data sheet lacks obvious power dissipation figures, while sensing, though quiescient is about 50uA. + +\subsubsection{Other Sensors} +I need to verify that the following sensors could be used with low power: + +Light dependent Resistor / Diode + + +Sound sensor (mic) + +\subsubsection{RF Searching} +RF Transceiver ICs require assembly/programming/time, so we want RF Transceiver modules instead. There are a number of roughly 10mA TX active, but that is the lowest I can find. Among these ics (not modules), most are SPI, have their own ARM core... The modules are a bit better in having some that can be controlled by serial. I like the TRM-433-LT, but I will skip this for now (\$20 each). + +I also like the RC11xx-RC232, though the latter is about 30mA TX. That may be the best I can hope for. These two are 433MHz (ISM is 433 - 434MHz). The radiocrafts product is essentially a simplified solution, preprogrammed with a uart which can be used to adjust settings. This option appears to be on part with the microchip offering I've looked at, the RN2483, in fact they both came up on my search results, next to each other. RN doesn't have what IC they use but RC, uses CC1110. + +Another option: + +ZETAPLUS-433-SO is faster than others (500Kbs), and has lower TX (18mA). Up to 2KM range... + +There's more options (over \$18), but for the following specifications, the above three are basically what you can choose from. Ignoring those with high TX power rates (sparkfun), or requires SPI (stmicro) +Specs: +\begin{itemize} +\item In stock +\item Frequency 433-434MHz +\item battery powered vcc range (2) +\end{itemize} +\footnote{There's only 25.} + +I will start with two Radiocraft modules. Let's see how that plays out.\footnote{A set of Dev boards for the radiocraft are \$250. Ouch.} + +\includegraphics[scale=0.30]{../pics/DSCN0132.JPG} +\captionof{figure}{RF Transmitter w/ PCB Rev 4} + +\subsubsection{PCB Rev 5} +\begin{itemize} +\item Added instructions to back of board to speed up getting back to this project after some time. +\item Moved resistors to be further away from programming header +\item Fixed missed connection from JMP to V1 / V2 when I moved barrel plug, and added back the bottom right mounting hole in rev4. +\item Changed prg/jmp/vcc to v1/jmp/v2 (either v rail can be used for programming) +\end{itemize} + +\subsubsection{Input Protection on Accidental Reverse Cable Hookup} +I'm going to want something to block plugging in the dupont cable backwards from breaking things. I had a square wave outputting on one pin of the Attiny10, and programming was going well, with the cable left in, until I removed, then connected it in backwards. The square wave blew something on the Atmega328p of the uno. This led me to quick replacement of the Uno atmega's here: electronics\_projects\_2020/AVRdragon\_Optiboot\_Atmega328 + +I don't know what's better. Make it foolproof, or let people learn the hard way. With the latter, they at least get a way to reprogram blank Atmegas (quite useful with Unos). + +Perhaps instead, a mated connector would be enough on the breakout... + +\subsubsection{Nuts \& Volts 433MHz RF Transmitters} +A recent nuts and volts issue (2019), covered a few sections on RF in one magazine. They covered, transmitters, as well as measuring power output of a transmitter (in separate articles). The RF transmitters they covered were 433MHz, ebay transmitters. The transmitters output the square wave you feed to them. Extremely basic. But also open to modifications and adaptations. The part count is very low, with minimal ICs. (The receivers do have an IC, though.) + +I've bought some of these, and will do some testing. One benefit (or drawback) of these, is that they output whatever you feed them. They don't require UART. +\begin{center} +\includegraphics[scale=1.5]{../pics/rxtx_433.jpg} +\captionof{figure}{simple rx tx on 433mhz} +\end{center} + +\subsection{Connecting to Programmer Tips} +When connecting, have a base setup that works as a sanity check. Then work on a second setup. +\\ + + +It may be possible to blow out atmega328p pins if you leave attiny running, then plug in the cable back to front (i.e. pin 13 in 9). +\\ + +Make sure the cable is connected well. Loose cables, will cause the programmer to fail. Solder wires to Uno if necessary. + + +\subsection{Attiny10 Timer Fail} +\textbf{Note: this is a segway, where I tried to get a 6KHz clock out of one of the Attinys for the 60Hz project).} +\\ +\\ + +The goal was to get a 6KHz square wave out of the Attiny10 (first using the timer). After a night of trying to wrangle with timer 0 and CTC mode of the Attiny10 timer (which failed to work as expected). I've decided to buy a 6KHz oscillator. I was able to get 60.3KHz out of the Attiny using no optimization in mplab and IO as fast as possible. I was able to get 6.13Khz using optimization and a for loop (unfortunately the nops got optimized out). + +I learned that the cable I was using to program the attiny10 was giving me connection trouble. I soldered one side to an uno. That out of the way, When programming the attiny10 with my protoboard, it's as easy as, 1) connect cable to protoboard, 2) press P in serial monitor of Uno, 3) paste hex contents of mplab build into serial monitor. No need to ever reset the uno, even if it doesn't print that it detects the attiny. It's pretty good about this, and if connected correctly, will just write to the chip, when P is pressed. Then disconnect the cable, and the sketch will run. When it's time to reprogram, reconnect the cable, hit P, and paste contents, etc... +\textbf{End Segway.} + +\subsubsection{AVR-objdump -S} +Here's some code from lowpower\_tx433mhz\_2/3: +\lstset{language=[x86masm]Assembler, +basicstyle=\tiny} +\begin{lstlisting} + PORTB = bitRead(*strctPtr, i) << 2; + 8c: 40 a1 lds r20, 0x40 ; 0x800040 <__DATA_REGION_ORIGIN__> + 8e: 51 a1 lds r21, 0x41 ; 0x800041 <__DATA_REGION_ORIGIN__+0x1> + 90: 62 a1 lds r22, 0x42 ; 0x800042 <__DATA_REGION_ORIGIN__+0x2> + 92: 73 a1 lds r23, 0x43 ; 0x800043 <__DATA_REGION_ORIGIN__+0x3> + 94: 08 2f mov r16, r24 + 96: 04 c0 rjmp .+8 ; 0xa0 + 98: 76 95 lsr r23 + 9a: 67 95 ror r22 + 9c: 57 95 ror r21 + 9e: 47 95 ror r20 + a0: 0a 95 dec r16 + a2: d2 f7 brpl .-12 ; 0x98 + a4: 41 70 andi r20, 0x01 ; 1 + a6: 44 0f add r20, r20 + a8: 44 0f add r20, r20 + aa: 42 b9 out 0x02, r20 ; 2 + #else + //round up by default + __ticks_dc = (uint32_t)(ceil(fabs(__tmp))); + #endif + + __builtin_avr_delay_cycles(__ticks_dc); + ac: 43 e0 ldi r20, 0x03 ; 3 + ae: 4a 95 dec r20 + b0: f1 f7 brne .-4 ; 0xae + b2: 00 00 nop + b4: 8f 5f subi r24, 0xFF ; 255 + b6: 9f 4f sbci r25, 0xFF ; 255 + uint8_t i = 0; + + while(1) + { + + for(i=0;i<32;i++){ + b8: 80 32 cpi r24, 0x20 ; 32 + ba: 91 07 cpc r25, r17 + bc: 39 f7 brne .-50 ; 0x8c + be: e4 cf rjmp .-56 ; 0x88 + \end{lstlisting} +\lstset{language=C, +basicstyle=\small} +It's easy to read. See at the end, are the two jumps +back in the loop 0x8c (for loop), and 0x88 (while 1). See the read +on PORTB, and see the delay, which was \_delay\_us(10), but expands to the avr library definition.\footnote{I've noticed that the asm output is not 1:1 with code complexity. Small code changes can cause a lot more assembler code to be generated by the compiler. The asm should be watched.} + + +\subsection{Attiny10 w/Solar and w/433MHz TX} +There was an issue with 433MHz\_1 and 2 that the output was not on time. I have a 32 bit struct, and when reading the bits, the first 10 bits slowly ramp up from say 500us to 2ms for a 1 or 0. This was resolved by putting in a delay in between reads. + +\begin{center} +\includegraphics[scale=0.3]{../pics/DSCN0200.JPG} +\captionof{figure}{With a \_delay\_ms, there is no ramping up. But, the delay had to be a minimum, otherwise some ramping did occur. It's very slow, but usable for things without a lot of data to transmit.} +\end{center} + +Some code revision notes: + +433MHz\_3: 128000 KHz, 3ms delay in between bit reads being output to PORTB >> 2 (PB2). Timing is now perfect, albeit slow. +433MHz\_4: 8Mhz: 60us delay in between bit reads. faster, but has a slight time difference. RX seems to not be working right. + +I have 433MHz \#4 running under a LED light w/solar panel. 1.4Volts on the Attiny and its able to transmit successfully (when the rx is right next to it on the bench). 1.3Volts and noise appears on RX. So about 1.4Volts is the lower limit... Perhaps. + +433MHz\_7: I confirmed in 6 and 7 that 8MHz is not working (at least consistently). Sticking with 128KHz for now. Seems to work as long as all wires are connected. Sometimes I power cycle if something is knocked. + +433MHz\_8: adding sleep in place of delay\_ms(100). Will have Watchdog +power back on. + + + +\subsubsection{433MHz Module TX Max Speed} +2KHz was OK. Beyond that, the RX'd signal goes out of phase, i.e. can't keep up. 5KHz is unusable. Tested with sig gen. + +\subsubsection{433MHz at any bus you like} +The speed issues out of the way, this transmitter outputs whatever digital you feed to it. Want a UART protocol? Tie your UART TX to the transmitter. SPI? Sure, that too. You aren't locked to using UART, as in some modules. This is a great flexibility. Need encryption? Add it to the code, and you have encryption. Essentially, this 433MHz Transmitter, replaces a wire. And that is the point of RF, sometimes. + +It also makes the concept simple. RF is not meant to be an end in and of itself. Sometimes, it's just meant to replace wires. Your wifi device, could technically have a WIFIOUT, which would be everything on 2.4GHz. But it should be possible to have a wired WIFI. You should be able to put a wire on that WIFIOUT to a WIFIIN receiver, and have it work. The RF is still binary. It replaces a wire. + +The fact that its RF, that its photons, or EMR is not important. It's just replacing a wire. Signal in, signal out. RF modulation, encryption, spread spectrum, all that is details. What matters is - signal in - signal out. Wired or wireless. + +And you should be able to replace a wireless connection with a wire, and have it function. These modules are limited to 2KHz apparently, but they can do this. + + +\subsection{Further Notes} +https://www.eevblog.com/forum/microcontrollers/powering-devices-via-gpio-pins/msg2720044/\#msg2720044 - Using GPIO to power devices. + +leonerd TODO LINK HERE (bookmarks in main mach) attiny815 with rf. notice the coiled antennas + +https://www.eevblog.com/forum/beginners/rf-very-low-power-comms-simple/msg3016400/\#msg3016400 - Forum post regarding this project. + +https://trmm.net/ATtiny10 - Programming Attiny10 with free / open source toolchain + +https://blog.podkalicki.com/attiny13-blinky-with-timer-compa/ - Similar example for Attiny13, adapted but did not work with Attiny10. + +\end{document} + diff --git a/Attiny_Solar_Energy_Harvest/docs/57.tex~ b/Attiny_Solar_Energy_Harvest/docs/57.tex~ new file mode 100644 index 0000000..c307673 --- /dev/null +++ b/Attiny_Solar_Energy_Harvest/docs/57.tex~ @@ -0,0 +1,548 @@ + +\documentclass[11pt]{article} +%Gummi|065|=) +\usepackage{graphicx} +\usepackage{caption} +\usepackage{xcolor} +\usepackage[vcentering,dvips]{geometry} +\usepackage{listings} +\lstset{language=C, +basicstyle=\small} +\lstset{ + frame=tb, % draw a frame at the top and bottom of the code block + tabsize=4, % tab space width + showstringspaces=false, % don't mark spaces in strings + numbers=left, % display line numbers on the left + commentstyle=\color{green!60!blue!70}, % comment color + keywordstyle=\color{red!20!blue!100}, % keyword color + stringstyle=\color{red} % string color +} +\geometry{papersize={6in,9in},total={4.5in,6.8in}} +%\title{\textbf{Door Alarm}} +\author{Steak Electronics} +\date{} +\begin{document} + +%\maketitle + +\tableofcontents +\textcolor{green!60!blue!70}{ + \section{Attiny Solar Energy Harvest Tests}} + +I have the following: +\begin{itemize} +\item Solar panels +\item Attiny 10 +\end{itemize} +To this list, I will add a supercap, and maybe an energy harvesting IC. The goal being to load the super cap during the day, and to run 24/7. I will need an exceptionally low power micro. The super cap will need to be about 3.3V or 5V. +\textcolor{green!60!blue!70}{ +\subsection{Micro Considerations}} +The Arduino Atmega328P is not an option. I'm looking to have a current draw of only 1mA max, (ideally 500uA) when active. Moteino is also not an option for this. Those are made for batteries. I want to be battery free \footnote{I might backtrack on this, but I think I'll do one with and one without batteries.}. A super cap, however can be used to store energy. I'll get to that shortly. + +For micros, I have some Attiny10 on hand, and these have a reasonably low power pull in active mode. Let's build those up first. What will the micro do? Not sure yet. + +\textcolor{green!60!blue!70}{ +\subsubsection{Micro Notes}} +Must run at 1.8V / 1MHz per front page of data sheet, for 200uA draw in active mode. +\\ +\\ + + +\textcolor{green!60!blue!70}{ +\subsubsection{Energy Storage}} +I don't want a battery. Let's go with a super cap. The solar panels will only be active some of the time, so I will want to harvest energy with some kind of IC into the cap when the sun is out.\footnote{Reference: www.analog.com/media/en/technical-documentation/technical-articles/solarenergyharvesting.pdf is a start. I'll need to do more research.} + +\textcolor{green!60!blue!70}{ \subsubsection{Make parts, not scrap}} I want to make sure that all parts I build are perf board parts, not +breadboard scrap (to be torn down and rebuilt again). This is an Attiny, so no need to test much, yet. Breadboards never really worked for me, so far. Too much build up, then tear down... I like things that are built to last. Parts, not scrap. + +\textcolor{green!60!blue!70}{ +\subsection{Programming}} +To program the Attiny10, I'll use the Arduino adapter from the Junk + Arduino blog. I built it up\footnote{Had slight error where the Arduino + board wouldn't read - pins too short on headers, then the arduino wouldn't boot - due to bad connection on perf board shield. Thankfully, the USB port didn't try to run. Protection circuitry cut in on the laptop. This was all on a perf board. My proto pcb doesn't have this issue.}, and was able to read the memory. In order to upload to the board, you will need a compiler setup. You can possibly do it in AVRGCC, but instead I opted for either Arduino IDE (via Attiny10Core which didn't work), and then went to Mplab. In order for mplab 5.25 to work, it will need XC8 compiler, and there is a pack that can be downloaded through the IDE to get Attiny10 support. After that you can get .hex files to upload. + +It appears the AVR Dragon (which I have) can not be used. However, other programmers can be used. Pickit 4, Mkavrii, stk600, I think. + + +\textcolor{green!60!blue!70}{ \subsubsection{Testing Arduino Loader}} +Tested this with the blink\_LED.c in code folder. The code is as simple as possible. +It is the following: +\begin{lstlisting} +//#include +#include +#include + +int main(void) +{ + // PB2 output + DDRB = 1<<2; + + while(1) + { + // Toggle PB2 + PINB = 1<<2; + _delay_ms(500); + } +} +\end{lstlisting} +\footnote{As a recap, this code is setting the 2nd bit of DDRB register high (1), and also the PINB register, bit 2. From this we get blinky, aka a square wave.} +When programmed in Mplab, with XC8 compiler, and Attiny10 support, I get the following +hex output: +\begin{verbatim} +:100000000AC020C01FC01EC01DC01CC01BC01AC01B +:1000100019C018C017C011271FBFCFE5D0E0DEBF41 +:0A002000CDBF03D000C0F894FFCF5D +:10002A0044E041B940B95FE966E871E05150604087 +:0A003A007040E1F700C00000F5CFB0 +:02004400DDCF0E +:00000001FF +\end{verbatim} +The content of this hex isn't the focus of this passage. Instead, I want you to review the +results of a D for Dump Memory, by the Arduino Loader. +\begin{verbatim} + +Current memory state: + +registers, SRAM + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +0000: 05 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0010: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0020: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0030: 00 00 00 00 00 00 03 00 00 79 00 03 00 00 00 00 +0040: B7 AD AE FA 58 70 63 6B FB 5A B4 1B FF FF 35 3F +0050: 67 D7 33 43 DF 5F FB 72 C9 7D FE E9 9D C5 00 12 +NVM lock + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F00: FF FF +configuration + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F40: FF FF +calibration + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F80: 79 FF +device ID + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3FC0: 1E 90 03 FF +program + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +4000: 0A C0 20 C0 1F C0 1E C0 1D C0 1C C0 1B C0 1A C0 +4010: 19 C0 18 C0 17 C0 11 27 1F BF CF E5 D0 E0 DE BF +4020: CD BF 03 D0 00 C0 F8 94 FF CF 44 E0 41 B9 40 B9 +4030: 5F E9 66 E8 71 E0 51 50 60 40 70 40 E1 F7 00 C0 +4040: 00 00 F5 CF DD CF FF FF FF FF FF FF FF FF FF FF +4050: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +4060: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +(...some memory omitted here for brevity...) +43E0: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +43F0: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +\end{verbatim} + +Notice that the "AC020C01F" is set. That is from the hex. But the 01000... +before it seems to be missing. Some deciphering of how the Arduino programs +the Attiny is in order here. It also doesn't end the same. + +Regardless, when programming, the Arduino reports 70 bytes written, and in the Mplab project memorymap.xml file, it notes 70 bytes +for the sketch. This lines up.\footnote{Although for an unknown reason, every command registers twice on the Arduino serial monitor, but this appears to be harmless.} + +The blinking LED works. Let's move on. + +\textcolor{green!60!blue!70}{\subsubsection{Conclusion on Arduino Programming Attiny10}} +It's possible, but you have to make a dedicated jig (almost), so it might be easier to use the official programming tools. However, based on this https://www.avrfreaks.net/forum/pickit-4-and-avr-mcu I might not have a choice. So I will use the Arduino for now. But will have to devise what on board parts are req'd for programming, and incorporate into proto board layout. \textbf{NOTE: This was before I build the proto pcb.} + +\textcolor{green!60!blue!70}{ \subsubsection{IO Port Switching Speed}} +Using the above code without any delay\_ms, I get the following results from a default clock +speed, and a 128KHz clock speed. This test was done to confirm that I could change the clock with +\begin{lstlisting} + //Write CCP + CCP = 0xD8; + //change CLK to 128KHz + CLKMSR = 0b01; +\end{lstlisting} + + +There was no issue. +\begin{verbatim} +Default CLK (8MHz? or 1MHz?): 160KHz square wave +128KHz CLK: 2.5KHz square wave on GPIO +\end{verbatim} +I am going to pursue 128KHz for starters, for lower current dissipation. Note that with the Arduino loader, it is cumbersome to test and change code as you move along. It is +therefore going to be necessary to use a programmer, with a dedicated header on board. \textbf{NOTE: this was before the proto board, which made programming slightly faster. Still not 100\%, but usable in terms of agility.} +\textcolor{green!60!blue!70}{ \subsubsection{VCC 1.8V}} +The lowest power supported: 1.8V can be applied, without any configuration +needed. It does not affect IO switching speed (although obviously amplitude is affected). +\begin{verbatim} +128KHz CLK (5.0V): 2.5256 KHz IO switch +128KHz CLK (3.3V): 2.5477 KHz IO switch +128KHz CLK (1.8V): 2.5849 KHz IO switch +\end{verbatim} +As voltage drops, IO speed increases. +\\ +\\ +\textbf{VCC Dropout voltage:} +\\ +From 1.5, it drops out at 1.248V or so. Comes back at about 1.34V +\\ +\\ +Test size of 1. +\\ +\\ +Can't run this with one (AA) battery, but you could with 2. +\\ +\\ +Current Draw: 128KHz - IO test, 1.8V, 0.08mA (~78uA) (tested w/ HP 3478A) +\\ +\\ +\textcolor{green!60!blue!70}{\subsection{Application}} +First, I need a board for these and a programmer, to quickly program. Second, I need an application. I want extremely low power. Hopefully, solar with no batteries, to start. This is extremely low - that is the point. Let's keep this ridiculous. + +Given the power requirements put me under 1mA (with my current panels), I'm considering the following: EEPROMs would require SPI protocol. Doable, but overcomplicated for now. +\\ +\\ +Eink (need to find a small and cheap enough option. So far, they have either too many pins, and/or use too much current. Something like what stores use to display prices would work, but that doesn't get the data out, only makes it readable.), +\\ +\\ +Third option would be RF. That is a viable path, but not today. Let's skip that for now. +\\ +\\ +Fourth option that comes to mind is IR. IR diodes, as in TV remotes, would work well here. I am choosing this as the first project. I will have dumb clients, that consist of - Attiny / IR / Sensor powered by solar. I will have a BBB that receives the IR data, and does all intelligent data gathering. To keep things simple, the IR will be binary ADC data, or otherwise sensor numbers. No SPI, no protocol complexity. That would require space on the Attiny. +\\ +\\ +Let's build some boards based on the above. +\\ +\\ +For sensors: +While building, I came across an option. Hall effect sensors. I think also capacitive sensors can be used. This may find a use in a gate sensor, for when a driveway gate is opened or closed. With a small battery, it would work for years. + +Footprints: I had to make a footprint for this module on board package for one sensor. The solution to get footprints right? copy graphic image and make it into silkscreen on the board. Easy. + +The sensor I looked at was a temp and humidity sensor SHT11 (SHT10 is obsolete). It is low power enough. However, it's \$20. So not in my price range. Otherwise, it would work here. Looks like communication is a shift register, or SPI. + +\textcolor{green!60!blue!70}{ +\subsubsection{Magnetic Current Sensor}} +There is this: +BM14270AMUV-LB +Which is low enough current here (\textless 1mA). But \$7 in qty, and req's I2C. Not today. + +\textcolor{green!60!blue!70}{ +\subsubsection{Accelerometers}} +These are an option. + +Best pinout (for deadbug) is LIS344ALHTR (but lacks vcc down to 1.8) +2nd Best pinout with full 1.8 -3.6 vcc is ADXL337BCPZ-RL7 +(Keep in mind, these are low end options only) +(Analog output only. keep it simple for now.) +Runner up to all above, is KXTC9-2050-FR . But has worse pinout. + +Going with AD part. \$5 in single qty. +Digital output Accelmeters are cheaper. + +All have tiny package sizes. + +Since I am grabbing 1 output only, will need to orient or choose correct output. + +PINOUT: When I said best pinout, I meant that you can solder this by hand or with hot air, without much difficulty, because the layout does not require all pins to be connected (hoping I don't get bit by floating pins, though). Or, the layout has PWR and GND together, which means some pins can be bridged. + +\begin{center} + \includegraphics[scale=1]{../pics/adxl_pinout.png} + \captionof{figure}{Some pinouts are easier than others. That said, this would still benefit from a custom breakout board. Bridge the V+ and GND, omit NC, RES pins and then you will want hot air and solder paste. Those looking for trouble can try magnet wire in a pinch.} +\end{center} + +\textcolor{green!60!blue!70}{ +\subsubsection{Temperature Sensors}} +Temperature can be boring, but why not. Let's throw one of these on: LMT84LP . Pin compatible with LM35. Supply current is maybe 8uA. Extremely low. +LM84 (1.5V starts, to 5.5), LM85 (1.8V to 5.5) + +\textcolor{green!60!blue!70}{ +\subsubsection{Gas Sensors}} +Lowest is 5mV as of writing on dkey. Skipping. The SHT would work, but its too expensive. + +\textcolor{green!60!blue!70}{ +\subsubsection{Supercap}} +For now, trying whatever I have in my junk box, as super caps are expensive. If I had money, I'd try: +FG0V155ZF + + + + + +\textcolor{green!60!blue!70}{ +\subsubsection{Hall Effect Sensors - Push Pull vs Open Drain Outputs}} +\begin{verbatim} +9.1.1OutputTypeTradeoffs +The push-pulloutputallowsfor the lowestsystempowerconsumption +becausethereis no currentleakagepathwhenthe outputdriveshighor + low. The open-drainoutputinvolvesa leakagepaththroughthe + externalpullupresistorwhenthe outputdriveslow.The + open-drainoutputsof multipledevicescan be tied + togetherto forma logicalAND.In this setup,if any +sensordriveslow, the voltageon the sharednodebecomeslow. + Thiscan allowa singleGPIOto measurean arrayofsensors +\end{verbatim} From DRV5032 data sheet. + +\textcolor{green!60!blue!70}{ +\subsubsection{Conclusion: Starting Sensors}} +So as a recap, to start with affordable, low power sensors for my project, I have the following types: +\begin{itemize} +\item Temp sensor (cheapest) +\item Magnetic Sensor (hall effect) +\item Movement Sensor (accellerometer) (analog output) (tiny package) +\item capacitive sensor (azoteq)(may only be short range) +\end{itemize} + +Output, I have not determined yet. IR will not work, as its too high power. Unless I dedicate a battery just for the IR diode... Or make it battery powered. I'll start with batteries, but for solar panel and supercap, it will likely not be viable, unless I transmit extremely rarely. That is also an option, however. + +\subsubsection{Farad to mA} +1.5F supercap can supply 1.5A for 1 second. That is 0.025A for 60 seconds, or 25mA for a minute. +Let's stay I use half that, so 12mA for 60 seconds is my supply. If I transmit once every other hour (when in sunlight)...\footnote{However, upon my testing, I found that the super cap is only useful while there is light. After dark, it won't hold for very long. Perhaps 1 hour.} + +\begin{center} + \includegraphics[scale=0.25]{../pics/DSCN2984.JPG} + \captionof{figure}{The silk screen pinout and instructions help.} + \end{center} + + +\subsection{PCB} +I have built rev 2 of the board today. Using an Uno, user must remember to include VCC and GND. So the programming takes up all 6 pins. The 0.1'' headers were slightly close to the resistors, and the top row of VCC and GND headers are separated, so I labeled them V+2, and GND2.\footnote{Forgetting to plug in GND, and or 5v+ (for Uno), while still plugging in the TPI pins, did not break the Attiny10, in my tests.} + +The 0.05'' pin headers work perfect for scope probes. The extra breakout I made demonstrates this. + +\subsubsection{PCB Programming} + +By default, the Attiny10 idles around 1.5mA (5V), before programming. + +First thing to do, is to program it into a low power mode. + +In order to use low power, whilst using the Uno, I will need to add a jumper to the PCB, +so that you can switch between V+2, and V+1. Three pin jumper. Outside pins are each V+, internal goes to Attiny V+. I'll need to remove the trace on gerber rev2, that goes from 4 to VCC. + +\subsubsection{PCB programming and use} +It's not possible to leave the Arduino plugged in, while testing the Attiny10. +example: Even if you power down the Uno, and use a jumper to change V+ rails, +the power dissipation through the TPI pins (10,11,12,13) will cause a draw of about 545uA, and the Attiny10 will not toggle its led. +Therefore, not only a power jumper is required to use the Attiny, but also +a 4 or 5 pin 0.1" cable for the TPI pins, must be disconnected before using the Attiny. +\footnote{In code section, mplab - tests2, the power draw of the 128KHz internal CLK with PB2 flipping at about 400us a cycle, at 3V VCC is about 115uA. At 2V it is ~95uA.} + +\subsubsection{PCB Rev3} +\begin{itemize} +\item Added jumper to switch between different power rails, so that + Arduino can be left sort of plugged in (turns out, it is still required to disconnect 9,10,11,12,13 pins, so use a 4/5 pin cable). This makes testing low power (2-3V) code, easier, while still programming with the 5V Uno. +\item Added SOT23-6 breakout + \item Moved Resistors further from 9,10,11,12,13 pins. + \item Added separate board for analog Accelerometer. + \item Moved VCC breakout (0.5'' header pins) to connect directly to tiny, not to bottom Voltage rail. + \item Added note about VCC and GND must be connected when programming. + \item Added accelerometer pcb breakout. Package is small, but thanks to pinout/unused pins - is reasonable to solder with hot air. I knew this when I chose it... Then I forgot it earlier today. +\end{itemize} + +\subsubsection{RF Comms} +I want to use RF to communicate with this device. The IR would work, but would require batteries. If I'm going to use batteries I may as well use RF. Ideally, RF without batteries would be nice. + +I searched for LoRa modules, and came across this +\\ + +https://www.disk91.com/2015/technology/ +networks/first-step-in-lora-land-microchip-rn2483-test/ + +I've added the datasheets. The RN2483 can be set with a UART, which means two pins on the Attiny. I will want to use a transistor to turn off the module (not using sleep mode), when not in use, so that's another pin. The 4th pin would be for whatever sensor I'm using. Right now, I'm thinking an accelerometer to watch for motion on a door or gate. I may need more pins, as I'd like to be able to switch the accel ic on and off as well. + +There is the Attiny40, and also an Attiny402. Different, but both worth considering. The Attiny40 is covered by my programmer, the 402 is not. 40 is from early 2010's, the 202/402 is from 2017. Also the Attiny20, which is less pins than the 40. But covered by my programmer. I would lean towards the 10 or the 20. 40 is too much IO. + +Attiny10 has I2C on board (TWI). I'm going to stick with the 10. Keep it simple. + +\subsubsection{Present Questions} +Questions: +is a two pin UART the best I can expect to find for simple rf comms +is lora a reasonable solution here? I want as low power as possible, + Lora is not the lowest but if I transmit rarely, and for a short time perhaps it won't matter. + +Is there some other way to transmit data? I don't want to use ultrasonic waves, and IR seems to be too much current, as well +as requiring line of sight / lens. + +\subsubsection{Plan of attack} +I'm going to prototype with the Microchip RF modules for now, and see if I can get this working off a solar panel. I have an ADC, and with RESET disabled another IO. Goal is now: + +Configure RF modules w/arduino. + + +Configure RF module (one Uno receiver, other tiny transmitter) + + +Attach any sensor that uses ADC. (temp sensor, resistor light or thermocouple, current sensor (monitoring power supply), and I have the ones I already tested today (but will hold off on - the accelerometer, and hall effect). + +Desired applications +- Temp of hot surface (boiler) monitoring +- Solar current input monitoring. + +As I've already worked with a current sense before in my battery project (Electronics\_Projects\_2019), I will use again the INA169. It seems to be low enough power for my needs, though I will double check in practice. The data sheet lacks obvious power dissipation figures, while sensing, though quiescient is about 50uA. + +\subsubsection{Other Sensors} +I need to verify that the following sensors could be used with low power: + +Light dependent Resistor / Diode + + +Sound sensor (mic) + +\subsubsection{RF Searching} +RF Transceiver ICs require assembly/programming/time, so we want RF Transceiver modules instead. There are a number of roughly 10mA TX active, but that is the lowest I can find. Among these ics (not modules), most are SPI, have their own ARM core... The modules are a bit better in having some that can be controlled by serial. I like the TRM-433-LT, but I will skip this for now (\$20 each). + +I also like the RC11xx-RC232, though the latter is about 30mA TX. That may be the best I can hope for. These two are 433MHz (ISM is 433 - 434MHz). The radiocrafts product is essentially a simplified solution, preprogrammed with a uart which can be used to adjust settings. This option appears to be on part with the microchip offering I've looked at, the RN2483, in fact they both came up on my search results, next to each other. RN doesn't have what IC they use but RC, uses CC1110. + +Another option: + +ZETAPLUS-433-SO is faster than others (500Kbs), and has lower TX (18mA). Up to 2KM range... + +There's more options (over \$18), but for the following specifications, the above three are basically what you can choose from. Ignoring those with high TX power rates (sparkfun), or requires SPI (stmicro) +Specs: +\begin{itemize} +\item In stock +\item Frequency 433-434MHz +\item battery powered vcc range (2) +\end{itemize} +\footnote{There's only 25.} + +I will start with two Radiocraft modules. Let's see how that plays out.\footnote{A set of Dev boards for the radiocraft are \$250. Ouch.} + +\includegraphics[scale=0.30]{../pics/DSCN0132.JPG} +\captionof{figure}{RF Transmitter w/ PCB Rev 4} + +\subsubsection{PCB Rev 5} +\begin{itemize} +\item Added instructions to back of board to speed up getting back to this project after some time. +\item Moved resistors to be further away from programming header +\item Fixed missed connection from JMP to V1 / V2 when I moved barrel plug, and added back the bottom right mounting hole in rev4. +\item Changed prg/jmp/vcc to v1/jmp/v2 (either v rail can be used for programming) +\end{itemize} + +\subsubsection{Input Protection on Accidental Reverse Cable Hookup} +I'm going to want something to block plugging in the dupont cable backwards from breaking things. I had a square wave outputting on one pin of the Attiny10, and programming was going well, with the cable left in, until I removed, then connected it in backwards. The square wave blew something on the Atmega328p of the uno. This led me to quick replacement of the Uno atmega's here: electronics\_projects\_2020/AVRdragon\_Optiboot\_Atmega328 + +I don't know what's better. Make it foolproof, or let people learn the hard way. With the latter, they at least get a way to reprogram blank Atmegas (quite useful with Unos). + +Perhaps instead, a mated connector would be enough on the breakout... + +\subsubsection{Nuts \& Volts 433MHz RF Transmitters} +A recent nuts and volts issue (2019), covered a few sections on RF in one magazine. They covered, transmitters, as well as measuring power output of a transmitter (in separate articles). The RF transmitters they covered were 433MHz, ebay transmitters. The transmitters output the square wave you feed to them. Extremely basic. But also open to modifications and adaptations. The part count is very low, with minimal ICs. (The receivers do have an IC, though.) + +I've bought some of these, and will do some testing. One benefit (or drawback) of these, is that they output whatever you feed them. They don't require UART. +\begin{center} +\includegraphics[scale=1.5]{../pics/rxtx_433.jpg} +\captionof{figure}{simple rx tx on 433mhz} +\end{center} + +\subsection{Connecting to Programmer Tips} +When connecting, have a base setup that works as a sanity check. Then work on a second setup. +\\ + + +It may be possible to blow out atmega328p pins if you leave attiny running, then plug in the cable back to front (i.e. pin 13 in 9). +\\ + +Make sure the cable is connected well. Loose cables, will cause the programmer to fail. Solder wires to Uno if necessary. + + +\subsection{Attiny10 Timer Fail} +\textbf{Note: this is a segway, where I tried to get a 6KHz clock out of one of the Attinys for the 60Hz project).} +\\ +\\ + +The goal was to get a 6KHz square wave out of the Attiny10 (first using the timer). After a night of trying to wrangle with timer 0 and CTC mode of the Attiny10 timer (which failed to work as expected). I've decided to buy a 6KHz oscillator. I was able to get 60.3KHz out of the Attiny using no optimization in mplab and IO as fast as possible. I was able to get 6.13Khz using optimization and a for loop (unfortunately the nops got optimized out). + +I learned that the cable I was using to program the attiny10 was giving me connection trouble. I soldered one side to an uno. That out of the way, When programming the attiny10 with my protoboard, it's as easy as, 1) connect cable to protoboard, 2) press P in serial monitor of Uno, 3) paste hex contents of mplab build into serial monitor. No need to ever reset the uno, even if it doesn't print that it detects the attiny. It's pretty good about this, and if connected correctly, will just write to the chip, when P is pressed. Then disconnect the cable, and the sketch will run. When it's time to reprogram, reconnect the cable, hit P, and paste contents, etc... +\textbf{End Segway.} + +\subsubsection{AVR-objdump -S} +Here's some code from lowpower\_tx433mhz\_2/3: +\lstset{language=[x86masm]Assembler, +basicstyle=\tiny} +\begin{lstlisting} + PORTB = bitRead(*strctPtr, i) << 2; + 8c: 40 a1 lds r20, 0x40 ; 0x800040 <__DATA_REGION_ORIGIN__> + 8e: 51 a1 lds r21, 0x41 ; 0x800041 <__DATA_REGION_ORIGIN__+0x1> + 90: 62 a1 lds r22, 0x42 ; 0x800042 <__DATA_REGION_ORIGIN__+0x2> + 92: 73 a1 lds r23, 0x43 ; 0x800043 <__DATA_REGION_ORIGIN__+0x3> + 94: 08 2f mov r16, r24 + 96: 04 c0 rjmp .+8 ; 0xa0 + 98: 76 95 lsr r23 + 9a: 67 95 ror r22 + 9c: 57 95 ror r21 + 9e: 47 95 ror r20 + a0: 0a 95 dec r16 + a2: d2 f7 brpl .-12 ; 0x98 + a4: 41 70 andi r20, 0x01 ; 1 + a6: 44 0f add r20, r20 + a8: 44 0f add r20, r20 + aa: 42 b9 out 0x02, r20 ; 2 + #else + //round up by default + __ticks_dc = (uint32_t)(ceil(fabs(__tmp))); + #endif + + __builtin_avr_delay_cycles(__ticks_dc); + ac: 43 e0 ldi r20, 0x03 ; 3 + ae: 4a 95 dec r20 + b0: f1 f7 brne .-4 ; 0xae + b2: 00 00 nop + b4: 8f 5f subi r24, 0xFF ; 255 + b6: 9f 4f sbci r25, 0xFF ; 255 + uint8_t i = 0; + + while(1) + { + + for(i=0;i<32;i++){ + b8: 80 32 cpi r24, 0x20 ; 32 + ba: 91 07 cpc r25, r17 + bc: 39 f7 brne .-50 ; 0x8c + be: e4 cf rjmp .-56 ; 0x88 + \end{lstlisting} +\lstset{language=C, +basicstyle=\small} +It's easy to read. See at the end, are the two jumps +back in the loop 0x8c (for loop), and 0x88 (while 1). See the read +on PORTB, and see the delay, which was \_delay\_us(10), but expands to the avr library definition.\footnote{I've noticed that the asm output is not 1:1 with code complexity. Small code changes can cause a lot more assembler code to be generated by the compiler. The asm should be watched.} + + +\subsection{Attiny10 w/Solar and w/433MHz TX} +There was an issue with 433MHz\_1 and 2 that the output was not on time. I have a 32 bit struct, and when reading the bits, the first 10 bits slowly ramp up from say 500us to 2ms for a 1 or 0. This was resolved by putting in a delay in between reads. + +\begin{center} +\includegraphics[scale=0.3]{../pics/DSCN0200.JPG} +\captionof{figure}{With a \_delay\_ms, there is no ramping up. But, the delay had to be a minimum, otherwise some ramping did occur. It's very slow, but usable for things without a lot of data to transmit.} +\end{center} + +Some code revision notes: + +433MHz\_3: 128000 KHz, 3ms delay in between bit reads being output to PORTB >> 2 (PB2). Timing is now perfect, albeit slow. +433MHz\_4: 8Mhz: 60us delay in between bit reads. faster, but has a slight time difference. RX seems to not be working right. + +I have 433MHz \#4 running under a LED light w/solar panel. 1.4Volts on the Attiny and its able to transmit successfully (when the rx is right next to it on the bench). 1.3Volts and noise appears on RX. So about 1.4Volts is the lower limit... Perhaps. + +433MHz\_7: I confirmed in 6 and 7 that 8MHz is not working (at least consistently). Sticking with 128KHz for now. Seems to work as long as all wires are connected. Sometimes I power cycle if something is knocked. + +433MHz\_8: adding sleep in place of delay\_ms(100). Will have Watchdog +power back on. + + + +\subsubsection{433MHz Module TX Max Speed} +2KHz was OK. Beyond that, the RX'd signal goes out of phase, i.e. can't keep up. 5KHz is unusable. Tested with sig gen. + +\subsubsection{433MHz at any bus you like} +The speed issues out of the way, this transmitter outputs whatever you feed to it. Want a UART protocol? Tie your UART TX to the transmitter. SPI? Sure, that too. You aren't locked to using UART, as in some modules. This is a great flexibility. Need encryption? Add it to the code, and you have encryption. Essentially, this 433MHz Transmitter, replaces a wire. And that is the point of RF, in some respects. + +It also makes the concept simple. RF is not meant to be an end in and of itself. Sometimes, it's just meant to replace wires. Your wifi device, could technically have a WIFIOUT, which would be everything on 2.4GHz. But it should be possible to have a wired WIFI. You should be able to put a wire on that WIFIOUT to a WIFIIN receiver, and have it work. The RF is still binary. It replaces a wire. + + +\subsection{Further Notes} +https://www.eevblog.com/forum/microcontrollers/powering-devices-via-gpio-pins/msg2720044/\#msg2720044 - Using GPIO to power devices. + +leonerd TODO LINK HERE (bookmarks in main mach) attiny815 with rf. notice the coiled antennas + +https://www.eevblog.com/forum/beginners/rf-very-low-power-comms-simple/msg3016400/\#msg3016400 - Forum post regarding this project. + +https://trmm.net/ATtiny10 - Programming Attiny10 with free / open source toolchain + +https://blog.podkalicki.com/attiny13-blinky-with-timer-compa/ - Similar example for Attiny13, adapted but did not work with Attiny10. + +\end{document} + diff --git a/Attiny_Solar_Energy_Harvest/docs/57.toc b/Attiny_Solar_Energy_Harvest/docs/57.toc new file mode 100644 index 0000000..8a26aef --- /dev/null +++ b/Attiny_Solar_Energy_Harvest/docs/57.toc @@ -0,0 +1,38 @@ +\contentsline {section}{\numberline {1}Attiny Solar Energy Harvest Tests}{2}% +\contentsline {subsection}{\numberline {1.1}Micro Considerations}{2}% +\contentsline {subsubsection}{\numberline {1.1.1}Micro Notes}{2}% +\contentsline {subsubsection}{\numberline {1.1.2}Energy Storage}{3}% +\contentsline {subsubsection}{\numberline {1.1.3}Make parts, not scrap}{3}% +\contentsline {subsection}{\numberline {1.2}Programming}{3}% +\contentsline {subsubsection}{\numberline {1.2.1}Testing Arduino Loader}{4}% +\contentsline {subsubsection}{\numberline {1.2.2}Conclusion on Arduino Programming Attiny10}{6}% +\contentsline {subsubsection}{\numberline {1.2.3}IO Port Switching Speed}{6}% +\contentsline {subsubsection}{\numberline {1.2.4}VCC 1.8V}{7}% +\contentsline {subsection}{\numberline {1.3}Application}{7}% +\contentsline {subsubsection}{\numberline {1.3.1}Magnetic Current Sensor}{8}% +\contentsline {subsubsection}{\numberline {1.3.2}Accelerometers}{8}% +\contentsline {subsubsection}{\numberline {1.3.3}Temperature Sensors}{10}% +\contentsline {subsubsection}{\numberline {1.3.4}Gas Sensors}{10}% +\contentsline {subsubsection}{\numberline {1.3.5}Supercap}{10}% +\contentsline {subsubsection}{\numberline {1.3.6}Hall Effect Sensors - Push Pull vs Open Drain Outputs}{10}% +\contentsline {subsubsection}{\numberline {1.3.7}Conclusion: Starting Sensors}{10}% +\contentsline {subsubsection}{\numberline {1.3.8}Farad to mA}{11}% +\contentsline {subsection}{\numberline {1.4}PCB}{12}% +\contentsline {subsubsection}{\numberline {1.4.1}PCB Programming}{12}% +\contentsline {subsubsection}{\numberline {1.4.2}PCB programming and use}{12}% +\contentsline {subsubsection}{\numberline {1.4.3}PCB Rev3}{13}% +\contentsline {subsubsection}{\numberline {1.4.4}RF Comms}{13}% +\contentsline {subsubsection}{\numberline {1.4.5}Present Questions}{14}% +\contentsline {subsubsection}{\numberline {1.4.6}Plan of attack}{14}% +\contentsline {subsubsection}{\numberline {1.4.7}Other Sensors}{15}% +\contentsline {subsubsection}{\numberline {1.4.8}RF Searching}{15}% +\contentsline {subsubsection}{\numberline {1.4.9}PCB Rev 5}{16}% +\contentsline {subsubsection}{\numberline {1.4.10}Input Protection on Accidental Reverse Cable Hookup}{17}% +\contentsline {subsubsection}{\numberline {1.4.11}Nuts \& Volts 433MHz RF Transmitters}{17}% +\contentsline {subsection}{\numberline {1.5}Connecting to Programmer Tips}{18}% +\contentsline {subsection}{\numberline {1.6}Attiny10 Timer Fail}{18}% +\contentsline {subsubsection}{\numberline {1.6.1}AVR-objdump -S}{19}% +\contentsline {subsection}{\numberline {1.7}Attiny10 w/Solar and w/433MHz TX}{20}% +\contentsline {subsubsection}{\numberline {1.7.1}433MHz Module TX Max Speed}{21}% +\contentsline {subsubsection}{\numberline {1.7.2}433MHz at any bus you like}{21}% +\contentsline {subsection}{\numberline {1.8}Further Notes}{22}% diff --git a/Attiny_Solar_Energy_Harvest/docs/58.aux b/Attiny_Solar_Energy_Harvest/docs/58.aux new file mode 100644 index 0000000..63ece77 --- /dev/null +++ b/Attiny_Solar_Energy_Harvest/docs/58.aux @@ -0,0 +1,44 @@ +\relax +\@writefile{toc}{\contentsline {section}{\numberline {1}Attiny Solar Energy Harvest Tests}{2}\protected@file@percent } +\@writefile{toc}{\contentsline {subsection}{\numberline {1.1}Micro Considerations}{2}\protected@file@percent } +\@writefile{toc}{\contentsline {subsubsection}{\numberline {1.1.1}Micro Notes}{2}\protected@file@percent } +\@writefile{toc}{\contentsline {subsubsection}{\numberline {1.1.2}Energy Storage}{3}\protected@file@percent } +\@writefile{toc}{\contentsline {subsubsection}{\numberline {1.1.3}Make parts, not scrap}{3}\protected@file@percent } +\@writefile{toc}{\contentsline {subsection}{\numberline {1.2}Programming}{3}\protected@file@percent } +\@writefile{toc}{\contentsline {subsubsection}{\numberline {1.2.1}Testing Arduino Loader}{4}\protected@file@percent } +\@writefile{toc}{\contentsline {subsubsection}{\numberline {1.2.2}Conclusion on Arduino Programming Attiny10}{6}\protected@file@percent } +\@writefile{toc}{\contentsline {subsubsection}{\numberline {1.2.3}IO Port Switching Speed}{6}\protected@file@percent } +\@writefile{toc}{\contentsline {subsubsection}{\numberline {1.2.4}VCC 1.8V}{7}\protected@file@percent } +\@writefile{toc}{\contentsline {subsection}{\numberline {1.3}Application}{7}\protected@file@percent } +\@writefile{toc}{\contentsline {subsubsection}{\numberline {1.3.1}Magnetic Current Sensor}{8}\protected@file@percent } +\@writefile{toc}{\contentsline {subsubsection}{\numberline {1.3.2}Accelerometers}{8}\protected@file@percent } +\@writefile{lof}{\contentsline {figure}{\numberline {1}{\ignorespaces Some pinouts are easier than others. 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The goal being to load the super cap during the day, and to run 24/7. I will need an exceptionally low power micro. The super cap will need to be about 3.3V or 5V. +\textcolor{green!60!blue!70}{ +\subsection{Micro Considerations}} +The Arduino Atmega328P is not an option. I'm looking to have a current draw of only 1mA max, (ideally 500uA) when active. Moteino is also not an option for this. Those are made for batteries. I want to be battery free \footnote{I might backtrack on this, but I think I'll do one with and one without batteries.}. A super cap, however can be used to store energy. I'll get to that shortly. + +For micros, I have some Attiny10 on hand, and these have a reasonably low power pull in active mode. Let's build those up first. What will the micro do? Not sure yet. + +\textcolor{green!60!blue!70}{ +\subsubsection{Micro Notes}} +Must run at 1.8V / 1MHz per front page of data sheet, for 200uA draw in active mode. +\\ +\\ + + +\textcolor{green!60!blue!70}{ +\subsubsection{Energy Storage}} +I don't want a battery. Let's go with a super cap. The solar panels will only be active some of the time, so I will want to harvest energy with some kind of IC into the cap when the sun is out.\footnote{Reference: www.analog.com/media/en/technical-documentation/technical-articles/solarenergyharvesting.pdf is a start. I'll need to do more research.} + +\textcolor{green!60!blue!70}{ \subsubsection{Make parts, not scrap}} I want to make sure that all parts I build are perf board parts, not +breadboard scrap (to be torn down and rebuilt again). This is an Attiny, so no need to test much, yet. Breadboards never really worked for me, so far. Too much build up, then tear down... I like things that are built to last. Parts, not scrap. + +\textcolor{green!60!blue!70}{ +\subsection{Programming}} +To program the Attiny10, I'll use the Arduino adapter from the Junk + Arduino blog. I built it up\footnote{Had slight error where the Arduino + board wouldn't read - pins too short on headers, then the arduino wouldn't boot - due to bad connection on perf board shield. Thankfully, the USB port didn't try to run. Protection circuitry cut in on the laptop. This was all on a perf board. My proto pcb doesn't have this issue.}, and was able to read the memory. In order to upload to the board, you will need a compiler setup. You can possibly do it in AVRGCC, but instead I opted for either Arduino IDE (via Attiny10Core which didn't work), and then went to Mplab. In order for mplab 5.25 to work, it will need XC8 compiler, and there is a pack that can be downloaded through the IDE to get Attiny10 support. After that you can get .hex files to upload. + +It appears the AVR Dragon (which I have) can not be used. However, other programmers can be used. Pickit 4, Mkavrii, stk600, I think. + + +\textcolor{green!60!blue!70}{ \subsubsection{Testing Arduino Loader}} +Tested this with the blink\_LED.c in code folder. The code is as simple as possible. +It is the following: +\begin{lstlisting} +//#include +#include +#include + +int main(void) +{ + // PB2 output + DDRB = 1<<2; + + while(1) + { + // Toggle PB2 + PINB = 1<<2; + _delay_ms(500); + } +} +\end{lstlisting} +\footnote{As a recap, this code is setting the 2nd bit of DDRB register high (1), and also the PINB register, bit 2. From this we get blinky, aka a square wave.} +When programmed in Mplab, with XC8 compiler, and Attiny10 support, I get the following +hex output: +\begin{verbatim} +:100000000AC020C01FC01EC01DC01CC01BC01AC01B +:1000100019C018C017C011271FBFCFE5D0E0DEBF41 +:0A002000CDBF03D000C0F894FFCF5D +:10002A0044E041B940B95FE966E871E05150604087 +:0A003A007040E1F700C00000F5CFB0 +:02004400DDCF0E +:00000001FF +\end{verbatim} +The content of this hex isn't the focus of this passage. Instead, I want you to review the +results of a D for Dump Memory, by the Arduino Loader. +\begin{verbatim} + +Current memory state: + +registers, SRAM + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +0000: 05 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0010: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0020: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0030: 00 00 00 00 00 00 03 00 00 79 00 03 00 00 00 00 +0040: B7 AD AE FA 58 70 63 6B FB 5A B4 1B FF FF 35 3F +0050: 67 D7 33 43 DF 5F FB 72 C9 7D FE E9 9D C5 00 12 +NVM lock + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F00: FF FF +configuration + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F40: FF FF +calibration + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F80: 79 FF +device ID + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3FC0: 1E 90 03 FF +program + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +4000: 0A C0 20 C0 1F C0 1E C0 1D C0 1C C0 1B C0 1A C0 +4010: 19 C0 18 C0 17 C0 11 27 1F BF CF E5 D0 E0 DE BF +4020: CD BF 03 D0 00 C0 F8 94 FF CF 44 E0 41 B9 40 B9 +4030: 5F E9 66 E8 71 E0 51 50 60 40 70 40 E1 F7 00 C0 +4040: 00 00 F5 CF DD CF FF FF FF FF FF FF FF FF FF FF +4050: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +4060: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +(...some memory omitted here for brevity...) +43E0: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +43F0: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +\end{verbatim} + +Notice that the "AC020C01F" is set. That is from the hex. But the 01000... +before it seems to be missing. Some deciphering of how the Arduino programs +the Attiny is in order here. It also doesn't end the same. + +Regardless, when programming, the Arduino reports 70 bytes written, and in the Mplab project memorymap.xml file, it notes 70 bytes +for the sketch. This lines up.\footnote{Although for an unknown reason, every command registers twice on the Arduino serial monitor, but this appears to be harmless.} + +The blinking LED works. Let's move on. + +\textcolor{green!60!blue!70}{\subsubsection{Conclusion on Arduino Programming Attiny10}} +It's possible, but you have to make a dedicated jig (almost), so it might be easier to use the official programming tools. However, based on this https://www.avrfreaks.net/forum/pickit-4-and-avr-mcu I might not have a choice. So I will use the Arduino for now. But will have to devise what on board parts are req'd for programming, and incorporate into proto board layout. \textbf{NOTE: This was before I build the proto pcb.} + +\textcolor{green!60!blue!70}{ \subsubsection{IO Port Switching Speed}} +Using the above code without any delay\_ms, I get the following results from a default clock +speed, and a 128KHz clock speed. This test was done to confirm that I could change the clock with +\begin{lstlisting} + //Write CCP + CCP = 0xD8; + //change CLK to 128KHz + CLKMSR = 0b01; +\end{lstlisting} + + +There was no issue. +\begin{verbatim} +Default CLK (8MHz? or 1MHz?): 160KHz square wave +128KHz CLK: 2.5KHz square wave on GPIO +\end{verbatim} +I am going to pursue 128KHz for starters, for lower current dissipation. Note that with the Arduino loader, it is cumbersome to test and change code as you move along. It is +therefore going to be necessary to use a programmer, with a dedicated header on board. \textbf{NOTE: this was before the proto board, which made programming slightly faster. Still not 100\%, but usable in terms of agility.} +\textcolor{green!60!blue!70}{ \subsubsection{VCC 1.8V}} +The lowest power supported: 1.8V can be applied, without any configuration +needed. It does not affect IO switching speed (although obviously amplitude is affected). +\begin{verbatim} +128KHz CLK (5.0V): 2.5256 KHz IO switch +128KHz CLK (3.3V): 2.5477 KHz IO switch +128KHz CLK (1.8V): 2.5849 KHz IO switch +\end{verbatim} +As voltage drops, IO speed increases. +\\ +\\ +\textbf{VCC Dropout voltage:} +\\ +From 1.5, it drops out at 1.248V or so. Comes back at about 1.34V +\\ +\\ +Test size of 1. +\\ +\\ +Can't run this with one (AA) battery, but you could with 2. +\\ +\\ +Current Draw: 128KHz - IO test, 1.8V, 0.08mA (~78uA) (tested w/ HP 3478A) +\\ +\\ +\textcolor{green!60!blue!70}{\subsection{Application}} +First, I need a board for these and a programmer, to quickly program. Second, I need an application. I want extremely low power. Hopefully, solar with no batteries, to start. This is extremely low - that is the point. Let's keep this ridiculous. + +Given the power requirements put me under 1mA (with my current panels), I'm considering the following: EEPROMs would require SPI protocol. Doable, but overcomplicated for now. +\\ +\\ +Eink (need to find a small and cheap enough option. So far, they have either too many pins, and/or use too much current. Something like what stores use to display prices would work, but that doesn't get the data out, only makes it readable.), +\\ +\\ +Third option would be RF. That is a viable path, but not today. Let's skip that for now. +\\ +\\ +Fourth option that comes to mind is IR. IR diodes, as in TV remotes, would work well here. I am choosing this as the first project. I will have dumb clients, that consist of - Attiny / IR / Sensor powered by solar. I will have a BBB that receives the IR data, and does all intelligent data gathering. To keep things simple, the IR will be binary ADC data, or otherwise sensor numbers. No SPI, no protocol complexity. That would require space on the Attiny. +\\ +\\ +Let's build some boards based on the above. +\\ +\\ +For sensors: +While building, I came across an option. Hall effect sensors. I think also capacitive sensors can be used. This may find a use in a gate sensor, for when a driveway gate is opened or closed. With a small battery, it would work for years. + +Footprints: I had to make a footprint for this module on board package for one sensor. The solution to get footprints right? copy graphic image and make it into silkscreen on the board. Easy. + +The sensor I looked at was a temp and humidity sensor SHT11 (SHT10 is obsolete). It is low power enough. However, it's \$20. So not in my price range. Otherwise, it would work here. Looks like communication is a shift register, or SPI. + +\textcolor{green!60!blue!70}{ +\subsubsection{Magnetic Current Sensor}} +There is this: +BM14270AMUV-LB +Which is low enough current here (\textless 1mA). But \$7 in qty, and req's I2C. Not today. + +\textcolor{green!60!blue!70}{ +\subsubsection{Accelerometers}} +These are an option. + +Best pinout (for deadbug) is LIS344ALHTR (but lacks vcc down to 1.8) +2nd Best pinout with full 1.8 -3.6 vcc is ADXL337BCPZ-RL7 +(Keep in mind, these are low end options only) +(Analog output only. keep it simple for now.) +Runner up to all above, is KXTC9-2050-FR . But has worse pinout. + +Going with AD part. \$5 in single qty. +Digital output Accelmeters are cheaper. + +All have tiny package sizes. + +Since I am grabbing 1 output only, will need to orient or choose correct output. + +PINOUT: When I said best pinout, I meant that you can solder this by hand or with hot air, without much difficulty, because the layout does not require all pins to be connected (hoping I don't get bit by floating pins, though). Or, the layout has PWR and GND together, which means some pins can be bridged. + +\begin{center} + \includegraphics[scale=1]{../pics/adxl_pinout.png} + \captionof{figure}{Some pinouts are easier than others. That said, this would still benefit from a custom breakout board. Bridge the V+ and GND, omit NC, RES pins and then you will want hot air and solder paste. Those looking for trouble can try magnet wire in a pinch.} +\end{center} + +\textcolor{green!60!blue!70}{ +\subsubsection{Temperature Sensors}} +Temperature can be boring, but why not. Let's throw one of these on: LMT84LP . Pin compatible with LM35. Supply current is maybe 8uA. Extremely low. +LM84 (1.5V starts, to 5.5), LM85 (1.8V to 5.5) + +\textcolor{green!60!blue!70}{ +\subsubsection{Gas Sensors}} +Lowest is 5mV as of writing on dkey. Skipping. The SHT would work, but its too expensive. + +\textcolor{green!60!blue!70}{ +\subsubsection{Supercap}} +For now, trying whatever I have in my junk box, as super caps are expensive. If I had money, I'd try: +FG0V155ZF + + + + + +\textcolor{green!60!blue!70}{ +\subsubsection{Hall Effect Sensors - Push Pull vs Open Drain Outputs}} +\begin{verbatim} +9.1.1OutputTypeTradeoffs +The push-pulloutputallowsfor the lowestsystempowerconsumption +becausethereis no currentleakagepathwhenthe outputdriveshighor + low. The open-drainoutputinvolvesa leakagepaththroughthe + externalpullupresistorwhenthe outputdriveslow.The + open-drainoutputsof multipledevicescan be tied + togetherto forma logicalAND.In this setup,if any +sensordriveslow, the voltageon the sharednodebecomeslow. + Thiscan allowa singleGPIOto measurean arrayofsensors +\end{verbatim} From DRV5032 data sheet. + +\textcolor{green!60!blue!70}{ +\subsubsection{Conclusion: Starting Sensors}} +So as a recap, to start with affordable, low power sensors for my project, I have the following types: +\begin{itemize} +\item Temp sensor (cheapest) +\item Magnetic Sensor (hall effect) +\item Movement Sensor (accellerometer) (analog output) (tiny package) +\item capacitive sensor (azoteq)(may only be short range) +\end{itemize} + +Output, I have not determined yet. IR will not work, as its too high power. Unless I dedicate a battery just for the IR diode... Or make it battery powered. I'll start with batteries, but for solar panel and supercap, it will likely not be viable, unless I transmit extremely rarely. That is also an option, however. + +\subsubsection{Farad to mA} +1.5F supercap can supply 1.5A for 1 second. That is 0.025A for 60 seconds, or 25mA for a minute. +Let's stay I use half that, so 12mA for 60 seconds is my supply. If I transmit once every other hour (when in sunlight)...\footnote{However, upon my testing, I found that the super cap is only useful while there is light. After dark, it won't hold for very long. Perhaps 1 hour.} + +\begin{center} + \includegraphics[scale=0.25]{../pics/DSCN2984.JPG} + \captionof{figure}{The silk screen pinout and instructions help.} + \end{center} + + +\subsection{PCB} +I have built rev 2 of the board today. Using an Uno, user must remember to include VCC and GND. So the programming takes up all 6 pins. The 0.1'' headers were slightly close to the resistors, and the top row of VCC and GND headers are separated, so I labeled them V+2, and GND2.\footnote{Forgetting to plug in GND, and or 5v+ (for Uno), while still plugging in the TPI pins, did not break the Attiny10, in my tests.} + +The 0.05'' pin headers work perfect for scope probes. The extra breakout I made demonstrates this. + +\subsubsection{PCB Programming} + +By default, the Attiny10 idles around 1.5mA (5V), before programming. + +First thing to do, is to program it into a low power mode. + +In order to use low power, whilst using the Uno, I will need to add a jumper to the PCB, +so that you can switch between V+2, and V+1. Three pin jumper. Outside pins are each V+, internal goes to Attiny V+. I'll need to remove the trace on gerber rev2, that goes from 4 to VCC. + +\subsubsection{PCB programming and use} +It's not possible to leave the Arduino plugged in, while testing the Attiny10. +example: Even if you power down the Uno, and use a jumper to change V+ rails, +the power dissipation through the TPI pins (10,11,12,13) will cause a draw of about 545uA, and the Attiny10 will not toggle its led. +Therefore, not only a power jumper is required to use the Attiny, but also +a 4 or 5 pin 0.1" cable for the TPI pins, must be disconnected before using the Attiny. +\footnote{In code section, mplab - tests2, the power draw of the 128KHz internal CLK with PB2 flipping at about 400us a cycle, at 3V VCC is about 115uA. At 2V it is ~95uA.} + +\subsubsection{PCB Rev3} +\begin{itemize} +\item Added jumper to switch between different power rails, so that + Arduino can be left sort of plugged in (turns out, it is still required to disconnect 9,10,11,12,13 pins, so use a 4/5 pin cable). This makes testing low power (2-3V) code, easier, while still programming with the 5V Uno. +\item Added SOT23-6 breakout + \item Moved Resistors further from 9,10,11,12,13 pins. + \item Added separate board for analog Accelerometer. + \item Moved VCC breakout (0.5'' header pins) to connect directly to tiny, not to bottom Voltage rail. + \item Added note about VCC and GND must be connected when programming. + \item Added accelerometer pcb breakout. Package is small, but thanks to pinout/unused pins - is reasonable to solder with hot air. I knew this when I chose it... Then I forgot it earlier today. +\end{itemize} + +\subsubsection{RF Comms} +I want to use RF to communicate with this device. The IR would work, but would require batteries. If I'm going to use batteries I may as well use RF. Ideally, RF without batteries would be nice. + +I searched for LoRa modules, and came across this +\\ + +https://www.disk91.com/2015/technology/ +networks/first-step-in-lora-land-microchip-rn2483-test/ + +I've added the datasheets. The RN2483 can be set with a UART, which means two pins on the Attiny. I will want to use a transistor to turn off the module (not using sleep mode), when not in use, so that's another pin. The 4th pin would be for whatever sensor I'm using. Right now, I'm thinking an accelerometer to watch for motion on a door or gate. I may need more pins, as I'd like to be able to switch the accel ic on and off as well. + +There is the Attiny40, and also an Attiny402. Different, but both worth considering. The Attiny40 is covered by my programmer, the 402 is not. 40 is from early 2010's, the 202/402 is from 2017. Also the Attiny20, which is less pins than the 40. But covered by my programmer. I would lean towards the 10 or the 20. 40 is too much IO. + +Attiny10 has I2C on board (TWI). I'm going to stick with the 10. Keep it simple. + +\subsubsection{Present Questions} +Questions: +is a two pin UART the best I can expect to find for simple rf comms +is lora a reasonable solution here? I want as low power as possible, + Lora is not the lowest but if I transmit rarely, and for a short time perhaps it won't matter. + +Is there some other way to transmit data? I don't want to use ultrasonic waves, and IR seems to be too much current, as well +as requiring line of sight / lens. + +\subsubsection{Plan of attack} +I'm going to prototype with the Microchip RF modules for now, and see if I can get this working off a solar panel. I have an ADC, and with RESET disabled another IO. Goal is now: + +Configure RF modules w/arduino. + + +Configure RF module (one Uno receiver, other tiny transmitter) + + +Attach any sensor that uses ADC. (temp sensor, resistor light or thermocouple, current sensor (monitoring power supply), and I have the ones I already tested today (but will hold off on - the accelerometer, and hall effect). + +Desired applications +- Temp of hot surface (boiler) monitoring +- Solar current input monitoring. + +As I've already worked with a current sense before in my battery project (Electronics\_Projects\_2019), I will use again the INA169. It seems to be low enough power for my needs, though I will double check in practice. The data sheet lacks obvious power dissipation figures, while sensing, though quiescient is about 50uA. + +\subsubsection{Other Sensors} +I need to verify that the following sensors could be used with low power: + +Light dependent Resistor / Diode + + +Sound sensor (mic) + +\subsubsection{RF Searching} +RF Transceiver ICs require assembly/programming/time, so we want RF Transceiver modules instead. There are a number of roughly 10mA TX active, but that is the lowest I can find. Among these ics (not modules), most are SPI, have their own ARM core... The modules are a bit better in having some that can be controlled by serial. I like the TRM-433-LT, but I will skip this for now (\$20 each). + +I also like the RC11xx-RC232, though the latter is about 30mA TX. That may be the best I can hope for. These two are 433MHz (ISM is 433 - 434MHz). The radiocrafts product is essentially a simplified solution, preprogrammed with a uart which can be used to adjust settings. This option appears to be on part with the microchip offering I've looked at, the RN2483, in fact they both came up on my search results, next to each other. RN doesn't have what IC they use but RC, uses CC1110. + +Another option: + +ZETAPLUS-433-SO is faster than others (500Kbs), and has lower TX (18mA). Up to 2KM range... + +There's more options (over \$18), but for the following specifications, the above three are basically what you can choose from. Ignoring those with high TX power rates (sparkfun), or requires SPI (stmicro) +Specs: +\begin{itemize} +\item In stock +\item Frequency 433-434MHz +\item battery powered vcc range (2) +\end{itemize} +\footnote{There's only 25.} + +I will start with two Radiocraft modules. Let's see how that plays out.\footnote{A set of Dev boards for the radiocraft are \$250. Ouch.} + +\includegraphics[scale=0.30]{../pics/DSCN0132.JPG} +\captionof{figure}{RF Transmitter w/ PCB Rev 4} + +\subsubsection{PCB Rev 5} +\begin{itemize} +\item Added instructions to back of board to speed up getting back to this project after some time. +\item Moved resistors to be further away from programming header +\item Fixed missed connection from JMP to V1 / V2 when I moved barrel plug, and added back the bottom right mounting hole in rev4. +\item Changed prg/jmp/vcc to v1/jmp/v2 (either v rail can be used for programming) +\end{itemize} + +\subsubsection{Input Protection on Accidental Reverse Cable Hookup} +I'm going to want something to block plugging in the dupont cable backwards from breaking things. I had a square wave outputting on one pin of the Attiny10, and programming was going well, with the cable left in, until I removed, then connected it in backwards. The square wave blew something on the Atmega328p of the uno. This led me to quick replacement of the Uno atmega's here: electronics\_projects\_2020/AVRdragon\_Optiboot\_Atmega328 + +I don't know what's better. Make it foolproof, or let people learn the hard way. With the latter, they at least get a way to reprogram blank Atmegas (quite useful with Unos). + +Perhaps instead, a mated connector would be enough on the breakout... + +\subsubsection{Nuts \& Volts 433MHz RF Transmitters} +A recent nuts and volts issue (2019), covered a few sections on RF in one magazine. They covered, transmitters, as well as measuring power output of a transmitter (in separate articles). The RF transmitters they covered were 433MHz, ebay transmitters. The transmitters output the square wave you feed to them. Extremely basic. But also open to modifications and adaptations. The part count is very low, with minimal ICs. (The receivers do have an IC, though.) + +I've bought some of these, and will do some testing. One benefit (or drawback) of these, is that they output whatever you feed them. They don't require UART. +\begin{center} +\includegraphics[scale=1.5]{../pics/rxtx_433.jpg} +\captionof{figure}{simple rx tx on 433mhz} +\end{center} + +\subsection{Connecting to Programmer Tips} +When connecting, have a base setup that works as a sanity check. Then work on a second setup. +\\ + + +It may be possible to blow out atmega328p pins if you leave attiny running, then plug in the cable back to front (i.e. pin 13 in 9). +\\ + +Make sure the cable is connected well. Loose cables, will cause the programmer to fail. Solder wires to Uno if necessary. + + +\subsection{Attiny10 Timer Fail} +\textbf{Note: this is a segway, where I tried to get a 6KHz clock out of one of the Attinys for the 60Hz project).} +\\ +\\ + +The goal was to get a 6KHz square wave out of the Attiny10 (first using the timer). After a night of trying to wrangle with timer 0 and CTC mode of the Attiny10 timer (which failed to work as expected). I've decided to buy a 6KHz oscillator. I was able to get 60.3KHz out of the Attiny using no optimization in mplab and IO as fast as possible. I was able to get 6.13Khz using optimization and a for loop (unfortunately the nops got optimized out). + +I learned that the cable I was using to program the attiny10 was giving me connection trouble. I soldered one side to an uno. That out of the way, When programming the attiny10 with my protoboard, it's as easy as, 1) connect cable to protoboard, 2) press P in serial monitor of Uno, 3) paste hex contents of mplab build into serial monitor. No need to ever reset the uno, even if it doesn't print that it detects the attiny. It's pretty good about this, and if connected correctly, will just write to the chip, when P is pressed. Then disconnect the cable, and the sketch will run. When it's time to reprogram, reconnect the cable, hit P, and paste contents, etc... +\textbf{End Segway.} + +\subsubsection{AVR-objdump -S} +Here's some code from lowpower\_tx433mhz\_2/3: +\lstset{language=[x86masm]Assembler, +basicstyle=\tiny} +\begin{lstlisting} + PORTB = bitRead(*strctPtr, i) << 2; + 8c: 40 a1 lds r20, 0x40 ; 0x800040 <__DATA_REGION_ORIGIN__> + 8e: 51 a1 lds r21, 0x41 ; 0x800041 <__DATA_REGION_ORIGIN__+0x1> + 90: 62 a1 lds r22, 0x42 ; 0x800042 <__DATA_REGION_ORIGIN__+0x2> + 92: 73 a1 lds r23, 0x43 ; 0x800043 <__DATA_REGION_ORIGIN__+0x3> + 94: 08 2f mov r16, r24 + 96: 04 c0 rjmp .+8 ; 0xa0 + 98: 76 95 lsr r23 + 9a: 67 95 ror r22 + 9c: 57 95 ror r21 + 9e: 47 95 ror r20 + a0: 0a 95 dec r16 + a2: d2 f7 brpl .-12 ; 0x98 + a4: 41 70 andi r20, 0x01 ; 1 + a6: 44 0f add r20, r20 + a8: 44 0f add r20, r20 + aa: 42 b9 out 0x02, r20 ; 2 + #else + //round up by default + __ticks_dc = (uint32_t)(ceil(fabs(__tmp))); + #endif + + __builtin_avr_delay_cycles(__ticks_dc); + ac: 43 e0 ldi r20, 0x03 ; 3 + ae: 4a 95 dec r20 + b0: f1 f7 brne .-4 ; 0xae + b2: 00 00 nop + b4: 8f 5f subi r24, 0xFF ; 255 + b6: 9f 4f sbci r25, 0xFF ; 255 + uint8_t i = 0; + + while(1) + { + + for(i=0;i<32;i++){ + b8: 80 32 cpi r24, 0x20 ; 32 + ba: 91 07 cpc r25, r17 + bc: 39 f7 brne .-50 ; 0x8c + be: e4 cf rjmp .-56 ; 0x88 + \end{lstlisting} +\lstset{language=C, +basicstyle=\small} +It's easy to read. See at the end, are the two jumps +back in the loop 0x8c (for loop), and 0x88 (while 1). See the read +on PORTB, and see the delay, which was \_delay\_us(10), but expands to the avr library definition.\footnote{I've noticed that the asm output is not 1:1 with code complexity. Small code changes can cause a lot more assembler code to be generated by the compiler. The asm should be watched.} + + +\subsection{Attiny10 w/Solar and w/433MHz TX} +There was an issue with 433MHz\_1 and 2 that the output was not on time. I have a 32 bit struct, and when reading the bits, the first 10 bits slowly ramp up from say 500us to 2ms for a 1 or 0. This was resolved by putting in a delay in between reads. + +\begin{center} +\includegraphics[scale=0.3]{../pics/DSCN0200.JPG} +\captionof{figure}{With a \_delay\_ms, there is no ramping up. But, the delay had to be a minimum, otherwise some ramping did occur. It's very slow, but usable for things without a lot of data to transmit.} +\end{center} + +Some code revision notes: + +433MHz\_3: 128000 KHz, 3ms delay in between bit reads being output to PORTB >> 2 (PB2). Timing is now perfect, albeit slow. +433MHz\_4: 8Mhz: 60us delay in between bit reads. faster, but has a slight time difference. RX seems to not be working right. + +I have 433MHz \#4 running under a LED light w/solar panel. 1.4Volts on the Attiny and its able to transmit successfully (when the rx is right next to it on the bench). 1.3Volts and noise appears on RX. So about 1.4Volts is the lower limit... Perhaps. + +433MHz\_7: I confirmed in 6 and 7 that 8MHz is not working (at least consistently). Sticking with 128KHz for now. Seems to work as long as all wires are connected. Sometimes I power cycle if something is knocked. + +433MHz\_8: adding sleep in place of delay\_ms(100). Will have Watchdog +power back on. + + + +\subsubsection{433MHz Module TX Max Speed} +2KHz was OK. Beyond that, the RX'd signal goes out of phase, i.e. can't keep up. 5KHz is unusable. Tested with sig gen. + +\subsubsection{Transmit any bus you like} +The speed issues out of the way, this transmitter outputs whatever digital you feed to it. Want a UART protocol? Tie your UART TX to the transmitter. SPI? Sure, that too. You aren't locked to using UART, as in some modules. This is a great flexibility. Need encryption? Add it to the code, and you have encryption. Essentially, this 433MHz Transmitter, replaces a wire. And that is the point of RF, sometimes. + +It also makes the concept simple. RF is not meant to be an end in and of itself. Sometimes, it's just meant to replace wires. Your wifi device, could technically have a WIFIOUT pin, which would be everything on 2.4GHz. But it should be possible to have a wired WIFI. You should be able to put a wire on that WIFIOUT to a WIFIIN receiver, and have it work. The RF is still binary. It replaces a wire.\footnote{Let's forget that RF can go on different frequencies. That complicates things slightly... But not much. Perhaps, frequencies are just different wires.} + +The fact that its RF, that its photons, or EMR is not important. It's just replacing a wire. Signal in, signal out. RF modulation, encryption, spread spectrum, all that is details. What matters is - signal in - signal out. Wired or wireless. + +And you should be able to replace a wireless connection with a wire, and have it function. These modules are limited to 2KHz apparently, but they can do this. + + +\subsection{Further Notes} +https://www.eevblog.com/forum/microcontrollers/powering-devices-via-gpio-pins/msg2720044/\#msg2720044 - Using GPIO to power devices. + +leonerd TODO LINK HERE (bookmarks in main mach) attiny815 with rf. notice the coiled antennas + +https://www.eevblog.com/forum/beginners/rf-very-low-power-comms-simple/msg3016400/\#msg3016400 - Forum post regarding this project. + +https://trmm.net/ATtiny10 - Programming Attiny10 with free / open source toolchain + +https://blog.podkalicki.com/attiny13-blinky-with-timer-compa/ - Similar example for Attiny13, adapted but did not work with Attiny10. + +\end{document} + diff --git a/Attiny_Solar_Energy_Harvest/docs/58.tex~ b/Attiny_Solar_Energy_Harvest/docs/58.tex~ new file mode 100644 index 0000000..d40e78e --- /dev/null +++ b/Attiny_Solar_Energy_Harvest/docs/58.tex~ @@ -0,0 +1,552 @@ + +\documentclass[11pt]{article} +%Gummi|065|=) +\usepackage{graphicx} +\usepackage{caption} +\usepackage{xcolor} +\usepackage[vcentering,dvips]{geometry} +\usepackage{listings} +\lstset{language=C, +basicstyle=\small} +\lstset{ + frame=tb, % draw a frame at the top and bottom of the code block + tabsize=4, % tab space width + showstringspaces=false, % don't mark spaces in strings + numbers=left, % display line numbers on the left + commentstyle=\color{green!60!blue!70}, % comment color + keywordstyle=\color{red!20!blue!100}, % keyword color + stringstyle=\color{red} % string color +} +\geometry{papersize={6in,9in},total={4.5in,6.8in}} +%\title{\textbf{Door Alarm}} +\author{Steak Electronics} +\date{} +\begin{document} + +%\maketitle + +\tableofcontents +\textcolor{green!60!blue!70}{ + \section{Attiny Solar Energy Harvest Tests}} + +I have the following: +\begin{itemize} +\item Solar panels +\item Attiny 10 +\end{itemize} +To this list, I will add a supercap, and maybe an energy harvesting IC. The goal being to load the super cap during the day, and to run 24/7. I will need an exceptionally low power micro. The super cap will need to be about 3.3V or 5V. +\textcolor{green!60!blue!70}{ +\subsection{Micro Considerations}} +The Arduino Atmega328P is not an option. I'm looking to have a current draw of only 1mA max, (ideally 500uA) when active. Moteino is also not an option for this. Those are made for batteries. I want to be battery free \footnote{I might backtrack on this, but I think I'll do one with and one without batteries.}. A super cap, however can be used to store energy. I'll get to that shortly. + +For micros, I have some Attiny10 on hand, and these have a reasonably low power pull in active mode. Let's build those up first. What will the micro do? Not sure yet. + +\textcolor{green!60!blue!70}{ +\subsubsection{Micro Notes}} +Must run at 1.8V / 1MHz per front page of data sheet, for 200uA draw in active mode. +\\ +\\ + + +\textcolor{green!60!blue!70}{ +\subsubsection{Energy Storage}} +I don't want a battery. Let's go with a super cap. The solar panels will only be active some of the time, so I will want to harvest energy with some kind of IC into the cap when the sun is out.\footnote{Reference: www.analog.com/media/en/technical-documentation/technical-articles/solarenergyharvesting.pdf is a start. I'll need to do more research.} + +\textcolor{green!60!blue!70}{ \subsubsection{Make parts, not scrap}} I want to make sure that all parts I build are perf board parts, not +breadboard scrap (to be torn down and rebuilt again). This is an Attiny, so no need to test much, yet. Breadboards never really worked for me, so far. Too much build up, then tear down... I like things that are built to last. Parts, not scrap. + +\textcolor{green!60!blue!70}{ +\subsection{Programming}} +To program the Attiny10, I'll use the Arduino adapter from the Junk + Arduino blog. I built it up\footnote{Had slight error where the Arduino + board wouldn't read - pins too short on headers, then the arduino wouldn't boot - due to bad connection on perf board shield. Thankfully, the USB port didn't try to run. Protection circuitry cut in on the laptop. This was all on a perf board. My proto pcb doesn't have this issue.}, and was able to read the memory. In order to upload to the board, you will need a compiler setup. You can possibly do it in AVRGCC, but instead I opted for either Arduino IDE (via Attiny10Core which didn't work), and then went to Mplab. In order for mplab 5.25 to work, it will need XC8 compiler, and there is a pack that can be downloaded through the IDE to get Attiny10 support. After that you can get .hex files to upload. + +It appears the AVR Dragon (which I have) can not be used. However, other programmers can be used. Pickit 4, Mkavrii, stk600, I think. + + +\textcolor{green!60!blue!70}{ \subsubsection{Testing Arduino Loader}} +Tested this with the blink\_LED.c in code folder. The code is as simple as possible. +It is the following: +\begin{lstlisting} +//#include +#include +#include + +int main(void) +{ + // PB2 output + DDRB = 1<<2; + + while(1) + { + // Toggle PB2 + PINB = 1<<2; + _delay_ms(500); + } +} +\end{lstlisting} +\footnote{As a recap, this code is setting the 2nd bit of DDRB register high (1), and also the PINB register, bit 2. From this we get blinky, aka a square wave.} +When programmed in Mplab, with XC8 compiler, and Attiny10 support, I get the following +hex output: +\begin{verbatim} +:100000000AC020C01FC01EC01DC01CC01BC01AC01B +:1000100019C018C017C011271FBFCFE5D0E0DEBF41 +:0A002000CDBF03D000C0F894FFCF5D +:10002A0044E041B940B95FE966E871E05150604087 +:0A003A007040E1F700C00000F5CFB0 +:02004400DDCF0E +:00000001FF +\end{verbatim} +The content of this hex isn't the focus of this passage. Instead, I want you to review the +results of a D for Dump Memory, by the Arduino Loader. +\begin{verbatim} + +Current memory state: + +registers, SRAM + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +0000: 05 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0010: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0020: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 +0030: 00 00 00 00 00 00 03 00 00 79 00 03 00 00 00 00 +0040: B7 AD AE FA 58 70 63 6B FB 5A B4 1B FF FF 35 3F +0050: 67 D7 33 43 DF 5F FB 72 C9 7D FE E9 9D C5 00 12 +NVM lock + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F00: FF FF +configuration + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F40: FF FF +calibration + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3F80: 79 FF +device ID + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +3FC0: 1E 90 03 FF +program + +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +A +B +C +D +E +F +4000: 0A C0 20 C0 1F C0 1E C0 1D C0 1C C0 1B C0 1A C0 +4010: 19 C0 18 C0 17 C0 11 27 1F BF CF E5 D0 E0 DE BF +4020: CD BF 03 D0 00 C0 F8 94 FF CF 44 E0 41 B9 40 B9 +4030: 5F E9 66 E8 71 E0 51 50 60 40 70 40 E1 F7 00 C0 +4040: 00 00 F5 CF DD CF FF FF FF FF FF FF FF FF FF FF +4050: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +4060: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +(...some memory omitted here for brevity...) +43E0: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +43F0: FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF FF +\end{verbatim} + +Notice that the "AC020C01F" is set. That is from the hex. But the 01000... +before it seems to be missing. Some deciphering of how the Arduino programs +the Attiny is in order here. It also doesn't end the same. + +Regardless, when programming, the Arduino reports 70 bytes written, and in the Mplab project memorymap.xml file, it notes 70 bytes +for the sketch. This lines up.\footnote{Although for an unknown reason, every command registers twice on the Arduino serial monitor, but this appears to be harmless.} + +The blinking LED works. Let's move on. + +\textcolor{green!60!blue!70}{\subsubsection{Conclusion on Arduino Programming Attiny10}} +It's possible, but you have to make a dedicated jig (almost), so it might be easier to use the official programming tools. However, based on this https://www.avrfreaks.net/forum/pickit-4-and-avr-mcu I might not have a choice. So I will use the Arduino for now. But will have to devise what on board parts are req'd for programming, and incorporate into proto board layout. \textbf{NOTE: This was before I build the proto pcb.} + +\textcolor{green!60!blue!70}{ \subsubsection{IO Port Switching Speed}} +Using the above code without any delay\_ms, I get the following results from a default clock +speed, and a 128KHz clock speed. This test was done to confirm that I could change the clock with +\begin{lstlisting} + //Write CCP + CCP = 0xD8; + //change CLK to 128KHz + CLKMSR = 0b01; +\end{lstlisting} + + +There was no issue. +\begin{verbatim} +Default CLK (8MHz? or 1MHz?): 160KHz square wave +128KHz CLK: 2.5KHz square wave on GPIO +\end{verbatim} +I am going to pursue 128KHz for starters, for lower current dissipation. Note that with the Arduino loader, it is cumbersome to test and change code as you move along. It is +therefore going to be necessary to use a programmer, with a dedicated header on board. \textbf{NOTE: this was before the proto board, which made programming slightly faster. Still not 100\%, but usable in terms of agility.} +\textcolor{green!60!blue!70}{ \subsubsection{VCC 1.8V}} +The lowest power supported: 1.8V can be applied, without any configuration +needed. It does not affect IO switching speed (although obviously amplitude is affected). +\begin{verbatim} +128KHz CLK (5.0V): 2.5256 KHz IO switch +128KHz CLK (3.3V): 2.5477 KHz IO switch +128KHz CLK (1.8V): 2.5849 KHz IO switch +\end{verbatim} +As voltage drops, IO speed increases. +\\ +\\ +\textbf{VCC Dropout voltage:} +\\ +From 1.5, it drops out at 1.248V or so. Comes back at about 1.34V +\\ +\\ +Test size of 1. +\\ +\\ +Can't run this with one (AA) battery, but you could with 2. +\\ +\\ +Current Draw: 128KHz - IO test, 1.8V, 0.08mA (~78uA) (tested w/ HP 3478A) +\\ +\\ +\textcolor{green!60!blue!70}{\subsection{Application}} +First, I need a board for these and a programmer, to quickly program. Second, I need an application. I want extremely low power. Hopefully, solar with no batteries, to start. This is extremely low - that is the point. Let's keep this ridiculous. + +Given the power requirements put me under 1mA (with my current panels), I'm considering the following: EEPROMs would require SPI protocol. Doable, but overcomplicated for now. +\\ +\\ +Eink (need to find a small and cheap enough option. So far, they have either too many pins, and/or use too much current. Something like what stores use to display prices would work, but that doesn't get the data out, only makes it readable.), +\\ +\\ +Third option would be RF. That is a viable path, but not today. Let's skip that for now. +\\ +\\ +Fourth option that comes to mind is IR. IR diodes, as in TV remotes, would work well here. I am choosing this as the first project. I will have dumb clients, that consist of - Attiny / IR / Sensor powered by solar. I will have a BBB that receives the IR data, and does all intelligent data gathering. To keep things simple, the IR will be binary ADC data, or otherwise sensor numbers. No SPI, no protocol complexity. That would require space on the Attiny. +\\ +\\ +Let's build some boards based on the above. +\\ +\\ +For sensors: +While building, I came across an option. Hall effect sensors. I think also capacitive sensors can be used. This may find a use in a gate sensor, for when a driveway gate is opened or closed. With a small battery, it would work for years. + +Footprints: I had to make a footprint for this module on board package for one sensor. The solution to get footprints right? copy graphic image and make it into silkscreen on the board. Easy. + +The sensor I looked at was a temp and humidity sensor SHT11 (SHT10 is obsolete). It is low power enough. However, it's \$20. So not in my price range. Otherwise, it would work here. Looks like communication is a shift register, or SPI. + +\textcolor{green!60!blue!70}{ +\subsubsection{Magnetic Current Sensor}} +There is this: +BM14270AMUV-LB +Which is low enough current here (\textless 1mA). But \$7 in qty, and req's I2C. Not today. + +\textcolor{green!60!blue!70}{ +\subsubsection{Accelerometers}} +These are an option. + +Best pinout (for deadbug) is LIS344ALHTR (but lacks vcc down to 1.8) +2nd Best pinout with full 1.8 -3.6 vcc is ADXL337BCPZ-RL7 +(Keep in mind, these are low end options only) +(Analog output only. keep it simple for now.) +Runner up to all above, is KXTC9-2050-FR . But has worse pinout. + +Going with AD part. \$5 in single qty. +Digital output Accelmeters are cheaper. + +All have tiny package sizes. + +Since I am grabbing 1 output only, will need to orient or choose correct output. + +PINOUT: When I said best pinout, I meant that you can solder this by hand or with hot air, without much difficulty, because the layout does not require all pins to be connected (hoping I don't get bit by floating pins, though). Or, the layout has PWR and GND together, which means some pins can be bridged. + +\begin{center} + \includegraphics[scale=1]{../pics/adxl_pinout.png} + \captionof{figure}{Some pinouts are easier than others. That said, this would still benefit from a custom breakout board. Bridge the V+ and GND, omit NC, RES pins and then you will want hot air and solder paste. Those looking for trouble can try magnet wire in a pinch.} +\end{center} + +\textcolor{green!60!blue!70}{ +\subsubsection{Temperature Sensors}} +Temperature can be boring, but why not. Let's throw one of these on: LMT84LP . Pin compatible with LM35. Supply current is maybe 8uA. Extremely low. +LM84 (1.5V starts, to 5.5), LM85 (1.8V to 5.5) + +\textcolor{green!60!blue!70}{ +\subsubsection{Gas Sensors}} +Lowest is 5mV as of writing on dkey. Skipping. The SHT would work, but its too expensive. + +\textcolor{green!60!blue!70}{ +\subsubsection{Supercap}} +For now, trying whatever I have in my junk box, as super caps are expensive. If I had money, I'd try: +FG0V155ZF + + + + + +\textcolor{green!60!blue!70}{ +\subsubsection{Hall Effect Sensors - Push Pull vs Open Drain Outputs}} +\begin{verbatim} +9.1.1OutputTypeTradeoffs +The push-pulloutputallowsfor the lowestsystempowerconsumption +becausethereis no currentleakagepathwhenthe outputdriveshighor + low. The open-drainoutputinvolvesa leakagepaththroughthe + externalpullupresistorwhenthe outputdriveslow.The + open-drainoutputsof multipledevicescan be tied + togetherto forma logicalAND.In this setup,if any +sensordriveslow, the voltageon the sharednodebecomeslow. + Thiscan allowa singleGPIOto measurean arrayofsensors +\end{verbatim} From DRV5032 data sheet. + +\textcolor{green!60!blue!70}{ +\subsubsection{Conclusion: Starting Sensors}} +So as a recap, to start with affordable, low power sensors for my project, I have the following types: +\begin{itemize} +\item Temp sensor (cheapest) +\item Magnetic Sensor (hall effect) +\item Movement Sensor (accellerometer) (analog output) (tiny package) +\item capacitive sensor (azoteq)(may only be short range) +\end{itemize} + +Output, I have not determined yet. IR will not work, as its too high power. Unless I dedicate a battery just for the IR diode... Or make it battery powered. I'll start with batteries, but for solar panel and supercap, it will likely not be viable, unless I transmit extremely rarely. That is also an option, however. + +\subsubsection{Farad to mA} +1.5F supercap can supply 1.5A for 1 second. That is 0.025A for 60 seconds, or 25mA for a minute. +Let's stay I use half that, so 12mA for 60 seconds is my supply. If I transmit once every other hour (when in sunlight)...\footnote{However, upon my testing, I found that the super cap is only useful while there is light. After dark, it won't hold for very long. Perhaps 1 hour.} + +\begin{center} + \includegraphics[scale=0.25]{../pics/DSCN2984.JPG} + \captionof{figure}{The silk screen pinout and instructions help.} + \end{center} + + +\subsection{PCB} +I have built rev 2 of the board today. Using an Uno, user must remember to include VCC and GND. So the programming takes up all 6 pins. The 0.1'' headers were slightly close to the resistors, and the top row of VCC and GND headers are separated, so I labeled them V+2, and GND2.\footnote{Forgetting to plug in GND, and or 5v+ (for Uno), while still plugging in the TPI pins, did not break the Attiny10, in my tests.} + +The 0.05'' pin headers work perfect for scope probes. The extra breakout I made demonstrates this. + +\subsubsection{PCB Programming} + +By default, the Attiny10 idles around 1.5mA (5V), before programming. + +First thing to do, is to program it into a low power mode. + +In order to use low power, whilst using the Uno, I will need to add a jumper to the PCB, +so that you can switch between V+2, and V+1. Three pin jumper. Outside pins are each V+, internal goes to Attiny V+. I'll need to remove the trace on gerber rev2, that goes from 4 to VCC. + +\subsubsection{PCB programming and use} +It's not possible to leave the Arduino plugged in, while testing the Attiny10. +example: Even if you power down the Uno, and use a jumper to change V+ rails, +the power dissipation through the TPI pins (10,11,12,13) will cause a draw of about 545uA, and the Attiny10 will not toggle its led. +Therefore, not only a power jumper is required to use the Attiny, but also +a 4 or 5 pin 0.1" cable for the TPI pins, must be disconnected before using the Attiny. +\footnote{In code section, mplab - tests2, the power draw of the 128KHz internal CLK with PB2 flipping at about 400us a cycle, at 3V VCC is about 115uA. At 2V it is ~95uA.} + +\subsubsection{PCB Rev3} +\begin{itemize} +\item Added jumper to switch between different power rails, so that + Arduino can be left sort of plugged in (turns out, it is still required to disconnect 9,10,11,12,13 pins, so use a 4/5 pin cable). This makes testing low power (2-3V) code, easier, while still programming with the 5V Uno. +\item Added SOT23-6 breakout + \item Moved Resistors further from 9,10,11,12,13 pins. + \item Added separate board for analog Accelerometer. + \item Moved VCC breakout (0.5'' header pins) to connect directly to tiny, not to bottom Voltage rail. + \item Added note about VCC and GND must be connected when programming. + \item Added accelerometer pcb breakout. Package is small, but thanks to pinout/unused pins - is reasonable to solder with hot air. I knew this when I chose it... Then I forgot it earlier today. +\end{itemize} + +\subsubsection{RF Comms} +I want to use RF to communicate with this device. The IR would work, but would require batteries. If I'm going to use batteries I may as well use RF. Ideally, RF without batteries would be nice. + +I searched for LoRa modules, and came across this +\\ + +https://www.disk91.com/2015/technology/ +networks/first-step-in-lora-land-microchip-rn2483-test/ + +I've added the datasheets. The RN2483 can be set with a UART, which means two pins on the Attiny. I will want to use a transistor to turn off the module (not using sleep mode), when not in use, so that's another pin. The 4th pin would be for whatever sensor I'm using. Right now, I'm thinking an accelerometer to watch for motion on a door or gate. I may need more pins, as I'd like to be able to switch the accel ic on and off as well. + +There is the Attiny40, and also an Attiny402. Different, but both worth considering. The Attiny40 is covered by my programmer, the 402 is not. 40 is from early 2010's, the 202/402 is from 2017. Also the Attiny20, which is less pins than the 40. But covered by my programmer. I would lean towards the 10 or the 20. 40 is too much IO. + +Attiny10 has I2C on board (TWI). I'm going to stick with the 10. Keep it simple. + +\subsubsection{Present Questions} +Questions: +is a two pin UART the best I can expect to find for simple rf comms +is lora a reasonable solution here? I want as low power as possible, + Lora is not the lowest but if I transmit rarely, and for a short time perhaps it won't matter. + +Is there some other way to transmit data? I don't want to use ultrasonic waves, and IR seems to be too much current, as well +as requiring line of sight / lens. + +\subsubsection{Plan of attack} +I'm going to prototype with the Microchip RF modules for now, and see if I can get this working off a solar panel. I have an ADC, and with RESET disabled another IO. Goal is now: + +Configure RF modules w/arduino. + + +Configure RF module (one Uno receiver, other tiny transmitter) + + +Attach any sensor that uses ADC. (temp sensor, resistor light or thermocouple, current sensor (monitoring power supply), and I have the ones I already tested today (but will hold off on - the accelerometer, and hall effect). + +Desired applications +- Temp of hot surface (boiler) monitoring +- Solar current input monitoring. + +As I've already worked with a current sense before in my battery project (Electronics\_Projects\_2019), I will use again the INA169. It seems to be low enough power for my needs, though I will double check in practice. The data sheet lacks obvious power dissipation figures, while sensing, though quiescient is about 50uA. + +\subsubsection{Other Sensors} +I need to verify that the following sensors could be used with low power: + +Light dependent Resistor / Diode + + +Sound sensor (mic) + +\subsubsection{RF Searching} +RF Transceiver ICs require assembly/programming/time, so we want RF Transceiver modules instead. There are a number of roughly 10mA TX active, but that is the lowest I can find. Among these ics (not modules), most are SPI, have their own ARM core... The modules are a bit better in having some that can be controlled by serial. I like the TRM-433-LT, but I will skip this for now (\$20 each). + +I also like the RC11xx-RC232, though the latter is about 30mA TX. That may be the best I can hope for. These two are 433MHz (ISM is 433 - 434MHz). The radiocrafts product is essentially a simplified solution, preprogrammed with a uart which can be used to adjust settings. This option appears to be on part with the microchip offering I've looked at, the RN2483, in fact they both came up on my search results, next to each other. RN doesn't have what IC they use but RC, uses CC1110. + +Another option: + +ZETAPLUS-433-SO is faster than others (500Kbs), and has lower TX (18mA). Up to 2KM range... + +There's more options (over \$18), but for the following specifications, the above three are basically what you can choose from. Ignoring those with high TX power rates (sparkfun), or requires SPI (stmicro) +Specs: +\begin{itemize} +\item In stock +\item Frequency 433-434MHz +\item battery powered vcc range (2) +\end{itemize} +\footnote{There's only 25.} + +I will start with two Radiocraft modules. Let's see how that plays out.\footnote{A set of Dev boards for the radiocraft are \$250. Ouch.} + +\includegraphics[scale=0.30]{../pics/DSCN0132.JPG} +\captionof{figure}{RF Transmitter w/ PCB Rev 4} + +\subsubsection{PCB Rev 5} +\begin{itemize} +\item Added instructions to back of board to speed up getting back to this project after some time. +\item Moved resistors to be further away from programming header +\item Fixed missed connection from JMP to V1 / V2 when I moved barrel plug, and added back the bottom right mounting hole in rev4. +\item Changed prg/jmp/vcc to v1/jmp/v2 (either v rail can be used for programming) +\end{itemize} + +\subsubsection{Input Protection on Accidental Reverse Cable Hookup} +I'm going to want something to block plugging in the dupont cable backwards from breaking things. I had a square wave outputting on one pin of the Attiny10, and programming was going well, with the cable left in, until I removed, then connected it in backwards. The square wave blew something on the Atmega328p of the uno. This led me to quick replacement of the Uno atmega's here: electronics\_projects\_2020/AVRdragon\_Optiboot\_Atmega328 + +I don't know what's better. Make it foolproof, or let people learn the hard way. With the latter, they at least get a way to reprogram blank Atmegas (quite useful with Unos). + +Perhaps instead, a mated connector would be enough on the breakout... + +\subsubsection{Nuts \& Volts 433MHz RF Transmitters} +A recent nuts and volts issue (2019), covered a few sections on RF in one magazine. They covered, transmitters, as well as measuring power output of a transmitter (in separate articles). The RF transmitters they covered were 433MHz, ebay transmitters. The transmitters output the square wave you feed to them. Extremely basic. But also open to modifications and adaptations. The part count is very low, with minimal ICs. (The receivers do have an IC, though.) + +I've bought some of these, and will do some testing. One benefit (or drawback) of these, is that they output whatever you feed them. They don't require UART. +\begin{center} +\includegraphics[scale=1.5]{../pics/rxtx_433.jpg} +\captionof{figure}{simple rx tx on 433mhz} +\end{center} + +\subsection{Connecting to Programmer Tips} +When connecting, have a base setup that works as a sanity check. Then work on a second setup. +\\ + + +It may be possible to blow out atmega328p pins if you leave attiny running, then plug in the cable back to front (i.e. pin 13 in 9). +\\ + +Make sure the cable is connected well. Loose cables, will cause the programmer to fail. Solder wires to Uno if necessary. + + +\subsection{Attiny10 Timer Fail} +\textbf{Note: this is a segway, where I tried to get a 6KHz clock out of one of the Attinys for the 60Hz project).} +\\ +\\ + +The goal was to get a 6KHz square wave out of the Attiny10 (first using the timer). After a night of trying to wrangle with timer 0 and CTC mode of the Attiny10 timer (which failed to work as expected). I've decided to buy a 6KHz oscillator. I was able to get 60.3KHz out of the Attiny using no optimization in mplab and IO as fast as possible. I was able to get 6.13Khz using optimization and a for loop (unfortunately the nops got optimized out). + +I learned that the cable I was using to program the attiny10 was giving me connection trouble. I soldered one side to an uno. That out of the way, When programming the attiny10 with my protoboard, it's as easy as, 1) connect cable to protoboard, 2) press P in serial monitor of Uno, 3) paste hex contents of mplab build into serial monitor. No need to ever reset the uno, even if it doesn't print that it detects the attiny. It's pretty good about this, and if connected correctly, will just write to the chip, when P is pressed. Then disconnect the cable, and the sketch will run. When it's time to reprogram, reconnect the cable, hit P, and paste contents, etc... +\textbf{End Segway.} + +\subsubsection{AVR-objdump -S} +Here's some code from lowpower\_tx433mhz\_2/3: +\lstset{language=[x86masm]Assembler, +basicstyle=\tiny} +\begin{lstlisting} + PORTB = bitRead(*strctPtr, i) << 2; + 8c: 40 a1 lds r20, 0x40 ; 0x800040 <__DATA_REGION_ORIGIN__> + 8e: 51 a1 lds r21, 0x41 ; 0x800041 <__DATA_REGION_ORIGIN__+0x1> + 90: 62 a1 lds r22, 0x42 ; 0x800042 <__DATA_REGION_ORIGIN__+0x2> + 92: 73 a1 lds r23, 0x43 ; 0x800043 <__DATA_REGION_ORIGIN__+0x3> + 94: 08 2f mov r16, r24 + 96: 04 c0 rjmp .+8 ; 0xa0 + 98: 76 95 lsr r23 + 9a: 67 95 ror r22 + 9c: 57 95 ror r21 + 9e: 47 95 ror r20 + a0: 0a 95 dec r16 + a2: d2 f7 brpl .-12 ; 0x98 + a4: 41 70 andi r20, 0x01 ; 1 + a6: 44 0f add r20, r20 + a8: 44 0f add r20, r20 + aa: 42 b9 out 0x02, r20 ; 2 + #else + //round up by default + __ticks_dc = (uint32_t)(ceil(fabs(__tmp))); + #endif + + __builtin_avr_delay_cycles(__ticks_dc); + ac: 43 e0 ldi r20, 0x03 ; 3 + ae: 4a 95 dec r20 + b0: f1 f7 brne .-4 ; 0xae + b2: 00 00 nop + b4: 8f 5f subi r24, 0xFF ; 255 + b6: 9f 4f sbci r25, 0xFF ; 255 + uint8_t i = 0; + + while(1) + { + + for(i=0;i<32;i++){ + b8: 80 32 cpi r24, 0x20 ; 32 + ba: 91 07 cpc r25, r17 + bc: 39 f7 brne .-50 ; 0x8c + be: e4 cf rjmp .-56 ; 0x88 + \end{lstlisting} +\lstset{language=C, +basicstyle=\small} +It's easy to read. See at the end, are the two jumps +back in the loop 0x8c (for loop), and 0x88 (while 1). See the read +on PORTB, and see the delay, which was \_delay\_us(10), but expands to the avr library definition.\footnote{I've noticed that the asm output is not 1:1 with code complexity. Small code changes can cause a lot more assembler code to be generated by the compiler. The asm should be watched.} + + +\subsection{Attiny10 w/Solar and w/433MHz TX} +There was an issue with 433MHz\_1 and 2 that the output was not on time. I have a 32 bit struct, and when reading the bits, the first 10 bits slowly ramp up from say 500us to 2ms for a 1 or 0. This was resolved by putting in a delay in between reads. + +\begin{center} +\includegraphics[scale=0.3]{../pics/DSCN0200.JPG} +\captionof{figure}{With a \_delay\_ms, there is no ramping up. But, the delay had to be a minimum, otherwise some ramping did occur. It's very slow, but usable for things without a lot of data to transmit.} +\end{center} + +Some code revision notes: + +433MHz\_3: 128000 KHz, 3ms delay in between bit reads being output to PORTB >> 2 (PB2). Timing is now perfect, albeit slow. +433MHz\_4: 8Mhz: 60us delay in between bit reads. faster, but has a slight time difference. RX seems to not be working right. + +I have 433MHz \#4 running under a LED light w/solar panel. 1.4Volts on the Attiny and its able to transmit successfully (when the rx is right next to it on the bench). 1.3Volts and noise appears on RX. So about 1.4Volts is the lower limit... Perhaps. + +433MHz\_7: I confirmed in 6 and 7 that 8MHz is not working (at least consistently). Sticking with 128KHz for now. Seems to work as long as all wires are connected. Sometimes I power cycle if something is knocked. + +433MHz\_8: adding sleep in place of delay\_ms(100). Will have Watchdog +power back on. + + + +\subsubsection{433MHz Module TX Max Speed} +2KHz was OK. Beyond that, the RX'd signal goes out of phase, i.e. can't keep up. 5KHz is unusable. Tested with sig gen. + +\subsubsection{433MHz at any bus you like} +The speed issues out of the way, this transmitter outputs whatever digital you feed to it. Want a UART protocol? Tie your UART TX to the transmitter. SPI? Sure, that too. You aren't locked to using UART, as in some modules. This is a great flexibility. Need encryption? Add it to the code, and you have encryption. Essentially, this 433MHz Transmitter, replaces a wire. And that is the point of RF, sometimes. + +It also makes the concept simple. RF is not meant to be an end in and of itself. Sometimes, it's just meant to replace wires. Your wifi device, could technically have a WIFIOUT, which would be everything on 2.4GHz. But it should be possible to have a wired WIFI. You should be able to put a wire on that WIFIOUT to a WIFIIN receiver, and have it work. The RF is still binary. It replaces a wire. + +The fact that its RF, that its photons, or EMR is not important. It's just replacing a wire. Signal in, signal out. RF modulation, encryption, spread spectrum, all that is details. What matters is - signal in - signal out. Wired or wireless. + +And you should be able to replace a wireless connection with a wire, and have it function. These modules are limited to 2KHz apparently, but they can do this. + + +\subsection{Further Notes} +https://www.eevblog.com/forum/microcontrollers/powering-devices-via-gpio-pins/msg2720044/\#msg2720044 - Using GPIO to power devices. + +leonerd TODO LINK HERE (bookmarks in main mach) attiny815 with rf. notice the coiled antennas + +https://www.eevblog.com/forum/beginners/rf-very-low-power-comms-simple/msg3016400/\#msg3016400 - Forum post regarding this project. + +https://trmm.net/ATtiny10 - Programming Attiny10 with free / open source toolchain + +https://blog.podkalicki.com/attiny13-blinky-with-timer-compa/ - Similar example for Attiny13, adapted but did not work with Attiny10. + +\end{document} + diff --git a/Attiny_Solar_Energy_Harvest/docs/58.toc b/Attiny_Solar_Energy_Harvest/docs/58.toc new file mode 100644 index 0000000..3219716 --- /dev/null +++ b/Attiny_Solar_Energy_Harvest/docs/58.toc @@ -0,0 +1,38 @@ +\contentsline {section}{\numberline {1}Attiny Solar Energy Harvest Tests}{2}% +\contentsline {subsection}{\numberline {1.1}Micro Considerations}{2}% +\contentsline {subsubsection}{\numberline {1.1.1}Micro Notes}{2}% +\contentsline {subsubsection}{\numberline {1.1.2}Energy Storage}{3}% +\contentsline {subsubsection}{\numberline {1.1.3}Make parts, not scrap}{3}% +\contentsline {subsection}{\numberline {1.2}Programming}{3}% +\contentsline {subsubsection}{\numberline {1.2.1}Testing Arduino Loader}{4}% +\contentsline {subsubsection}{\numberline {1.2.2}Conclusion on Arduino Programming Attiny10}{6}% +\contentsline {subsubsection}{\numberline {1.2.3}IO Port Switching Speed}{6}% +\contentsline {subsubsection}{\numberline {1.2.4}VCC 1.8V}{7}% +\contentsline {subsection}{\numberline {1.3}Application}{7}% +\contentsline {subsubsection}{\numberline {1.3.1}Magnetic Current Sensor}{8}% +\contentsline {subsubsection}{\numberline {1.3.2}Accelerometers}{8}% +\contentsline {subsubsection}{\numberline {1.3.3}Temperature Sensors}{10}% +\contentsline {subsubsection}{\numberline {1.3.4}Gas Sensors}{10}% +\contentsline {subsubsection}{\numberline {1.3.5}Supercap}{10}% +\contentsline {subsubsection}{\numberline {1.3.6}Hall Effect Sensors - Push Pull vs Open Drain Outputs}{10}% +\contentsline {subsubsection}{\numberline {1.3.7}Conclusion: Starting Sensors}{10}% +\contentsline {subsubsection}{\numberline {1.3.8}Farad to mA}{11}% +\contentsline {subsection}{\numberline {1.4}PCB}{12}% +\contentsline {subsubsection}{\numberline {1.4.1}PCB Programming}{12}% +\contentsline {subsubsection}{\numberline {1.4.2}PCB programming and use}{12}% +\contentsline {subsubsection}{\numberline {1.4.3}PCB Rev3}{13}% +\contentsline {subsubsection}{\numberline {1.4.4}RF Comms}{13}% +\contentsline {subsubsection}{\numberline {1.4.5}Present Questions}{14}% +\contentsline {subsubsection}{\numberline {1.4.6}Plan of attack}{14}% +\contentsline {subsubsection}{\numberline {1.4.7}Other Sensors}{15}% +\contentsline {subsubsection}{\numberline {1.4.8}RF Searching}{15}% +\contentsline {subsubsection}{\numberline {1.4.9}PCB Rev 5}{16}% +\contentsline {subsubsection}{\numberline {1.4.10}Input Protection on Accidental Reverse Cable Hookup}{17}% +\contentsline {subsubsection}{\numberline {1.4.11}Nuts \& Volts 433MHz RF Transmitters}{17}% +\contentsline {subsection}{\numberline {1.5}Connecting to Programmer Tips}{18}% +\contentsline {subsection}{\numberline {1.6}Attiny10 Timer Fail}{18}% +\contentsline {subsubsection}{\numberline {1.6.1}AVR-objdump -S}{19}% +\contentsline {subsection}{\numberline {1.7}Attiny10 w/Solar and w/433MHz TX}{20}% +\contentsline {subsubsection}{\numberline {1.7.1}433MHz Module TX Max Speed}{21}% +\contentsline {subsubsection}{\numberline {1.7.2}Transmit any bus you like}{21}% +\contentsline {subsection}{\numberline {1.8}Further Notes}{22}% diff --git a/Attiny_Solar_Energy_Harvest/movies/DSCN0182.webm b/Attiny_Solar_Energy_Harvest/movies/DSCN0182.webm new file mode 100644 index 0000000..8b4f6fc Binary files 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+its the Vbe TC that is used. + +on the lm334, +it's the IC, and an external diode for the TC equalizing (if you use the example circuit later on to +balance the TC) + + + +on the patent + +figure 3 is the basic example. + +fig 1 omits the current mirror. + +figure 3 is described in the details section of the patent + +figure 4 or 5 has additional balancing. + + + + +todo: build figure 20, and test to see what kind of current lowering I can get + + +todo: build transistor only circuit of this current source, based on schematic in LM334 data sheet. +might need multiple emitter transistor EDIT: I don't think so. they aren't common in standalone packages. +only on ic die. and some are not true multi emitter, but just two bonded leads to the same emitter. + +https://en.m.wikipedia.org/wiki/Multiple-emitter_transistor + + +article in edn covers what bob pease has for a circuit. similar to ti data sheet with transistor, but drives +constant current for an led + + + +current source notes: 09/20/20 + +st and ti schematic are slightly different, extra base connection on st. +lt schematic is different from those. it adds two mosfets. + +as per ken sherrif blog, theres no such thing as a standard part +in electronics, so likely every manufacturer implements the +lm134 differently. Decapping would be useful here... + +There is also a concern that ICs allow for different techniques than discrete (but I bet a discrete LM134/334 is still +possible). + +issue is that second row of transistors is not activating (the npns) + +Further research needed: +check discrete lm741 by evilmadscientist labs and evaluate how they adopted the op amp from its schematic to discrete +components: +https://shop.evilmadscientist.com/productsmenu/762 + +as discussed here: +https://www.eevblog.com/forum/beginners/555-from-transistors/msg1451815/#msg1451815 + +and +https://www.eevblog.com/forum/beginners/how-hard-is-it-a-make-a-transistor-opamp-like-lm358-chances-of-working/msg1403648/#msg1403648 + + + +Perhaps in the meantime, I could make just an op amp current limit circuit based on +the diagram in the LT data sheet notes (Page 5, basic theory of operation). Decapping and reverse engineering of a few LM334 would be useful. + + +if I had $450 I could buy a wafer... +https://www.digikey.com/products/en/integrated-circuits-ics/pmic-current-regulation-management/734 +hah + + + + + + + + diff --git a/Current_Limit_Circuit/resources/134sfc.pdf b/Current_Limit_Circuit/resources/134sfc.pdf new file mode 100644 index 0000000..b8f86e3 Binary files /dev/null and b/Current_Limit_Circuit/resources/134sfc.pdf differ diff --git a/Current_Limit_Circuit/videos/DSCN0188.webm b/Current_Limit_Circuit/videos/DSCN0188.webm new file mode 100644 index 0000000..4fd2712 Binary files /dev/null and b/Current_Limit_Circuit/videos/DSCN0188.webm differ