export TERM=xterm
using rpitx - easytest.sh
https://github.com/F5OEO/rpitx
GRAVES frequency is 143.05 MHz use USB (upper side band). 2m band is 144 MHz
using cubicsdr but had to make file /etc/modprobe.d/sdr.conf
with line: blacklist dvb_usb_rtl28xxu
and then reboot (on x220)
leave case, heatsinks and psu for later…
general: 2n3904X, 1k resistorsCHECK, protoboard for loggerX
power stuff-4A supply-what voltage?, cases-largish=size?, plugsX, sockets for final session 2.1mmX, minijack sockets bareX
3055x, heatsink bufferX, heatsinkTODO
all parts for proto-etched all colours:
3 Unpolarized capacitor, small symbol C_Small C58 100pF C_0805 1 ~ we have
9 Polarized capacitor, small symbol CP_Small C11 C13 22uF SMD-1206_Pol 2 ~ X but wider than 1206
10 C-device C12 330pF C_0805 1 X
11 Unpolarized capacitor, small symbol C_Small C42 C43 C45 C46 C47 C48 C49 C50 C52 C53 C54 C55 C56 C57 C59 C60 47nF C_0805 16 ~ have with DET
12 CP1_Small-device C24 C25 C28 C29 47u SMD-1206_Pol 4 - we have! 13 Polarized capacitor, small symbol CP_Small C5 C9 47u SMD-1206_Pol 2 ~
14 100V 0.15A standard switching diode, DO-35 1N4148 D14 1N4148 D_SOD-323 1 http://www.nxp.com/documents/data_sheet/1N4148_1N4448.pdf 15 D-device D2 D4 D6 D8 D10 D12 D13 1n4148 D_SOD-323 7 XX 16 D-device D1 D3 D15 1n914/4148 D_SOD-323 3 XX
60 Q_NPN_BEC-device Q1 Q3 Q7 Q9 Q14 Q16 Q29 Q40 Q41 MMBT3904 SOT-23 9 61 Q_NPN_BEC-device Q2 Q4 Q5 Q6 Q8 Q10 Q12 Q15 Q19 Q20 Q21 Q22 Q23 Q24 Q25 Q26 Q27 Q28 Q30 Q33 Q34 Q37 Q38 Q44 Q45 Q46 Q47 Q48 Q49 Q50 Q51 Q52 Q53 Q55 Q_NPN_BEC SOT-23 34 XX
62 PNP transistor, base/emitter/collector Q_PNP_BEC Q31 Q32 Q35 Q36 Q39 Q54 Q_PNP_BEC SOT-23 6 ~ MMBT3906 or try BC857B - but match with 847 also XX
or mouser as we need 22uF
68 R-device R38 R39 150K R_0805 2 CHECK we have 80 Resistor, small symbol R_Small R98 470K R_0805 1 ~ have with DI 81 R-device R34 R35 47K R_0805 2 CHECK - have with DET
69 Resistor, small symbol R_Small R90 R91 150K R_0805 2 ~X 74 R-device R79 R87 R107 20K R_0805 3 X 76 Resistor, small symbol R_Small R95 2K7 R_0805 1 ~X 79 R_Small-device R10 R11 R13 R16 R19 R20 R23 R24 R52 3K3 R_0805 9 X 82 Resistor, small symbol R_Small R69 R92 R93 R94 47K R_0805 4 ~X 84 Resistor, small symbol R_Small R54 50K R_0805 1 ~ use 47K X 85 R-device R82 820R R_0805 1 X
87 POT_TRIM-device RV1 RV2 1M Potentiometer_Trimmer-EVM3E 2 - prob only 500K X
88 Hex Schmitt trigger inverter 40106 U2 40106 SOIC-14_N 1 http://www.nxp.com/documents/data_sheet/HEF40106B.pdf X 89 Dual D FlipFlop, Set & reset 4013 U3 4013 1 http://www.onsemi.com/pub/Collateral/MC14013B-D.PDF X 90 4015 U7 4015 SO-16-N 1 X 91 4024 U12 4024 SOIC-14_N 1 X 92 Analog Multiplexer 8 to 1 lins 4051 U10 U14 4051 SO-16-N 2 X http://www.intersil.com/content/dam/Intersil/documents/cd40/cd4051bms-52bms-53bms.pdf 93 Triple analog Multiplexer 2 to 1 line 4053 U9 U17 4053 SO-16-N 2 http://www.intersil.com/content/dam/Intersil/documents/cd40/cd4051bms-52bms-53bms.pdf
94 Operational Amplifier, DIP-8/TO-99-8 TL071 U1 U6 U8 U11 U13 U15 TL071 SOIC-8-N 6 - we have 4 X
95 TL072-linear U4 U5 U16 U19 TL072 SOIC-8-N 4 http://www.ti.com/lit/ds/symlink/tl071.pdf - we have 12..
LED, 5 mm, low-current, 2 mA, red and yellow
neutrik: NR-J4HF
connectorx2 (REICHELT: BL 2X25G8 2,54) x22 =18 connectorx1 (REICHELT: SL 2X25G 2,54) x10
- DARK INT: POTIS (mouser)RK09K1130A5R-X , 13700 X, HC4053 X, lm358,
- for earthboot: ad8606 soic-8 X, adr423 soic-8 X, 10M 0805 X, OPA337UAG4 X
see mycelium_pcb_bom_.txt
additional + for myc: pt100, pt100 breakout (ebay), light sensor??, AD5933, AD620
- 430 ohm for temperature/MAX
- generic power sockets and plugs 2.1mm - useful workshop bits, pi, 24vac relay for fogger control
- for all_colours/other: 7490, light sensor for laser (BPW34), cheap multimeter, LED parts:
led lens: Mouser VCC 593-3000R (red), 593-3000A (amber) , red/amber 5mm LED
ssh and wpa must be in FIRST/boot partition!
mount /dev/mmcblk0p1 /media
touch /media/ssh
https://raspberrypi.stackexchange.com/questions/10251/prepare-sd-card-for-wifi-on-headless-pi
/media/wpa_supplicant.conf:
ctrl_interface=DIR=/var/run/wpa_supplicant GROUP=netdev update_config=1 country=«your_ISO-3166-1_two-letter_country_code»
network={ ssid=”«your_SSID»” psk=”«your_PSK»” key_mgmt=WPA-PSK }
nmap -sn 192.168.2.0/24 # to find address
In /etc/dhcpcd.conf:
interface eth0
static ip_address=192.168.1.14
static routers=10.0.0.1
static domain_name_servers=75.75.75.75 75.75.76.76 2001:558:feed::1 2001:558:feed::2
do gate add default gw blah also…
steghide embed -cf testfan.wav -ef ~/Downloads/latoysondorovlaf00tris_0093.jpg
steghide extract -sf testfan.wav
Spectrograms encoder: https://github.com/solusipse/spectrology
Lots: https://github.com/DominicBreuker/stego-toolkit
– Add titlebars to normal clients and dialogs { rule_any = {type = { “normal”, “dialog” } }, properties = { titlebars_enabled = false } },
When the CPU starts running (which basically happens as soon as it receives power and is reset with the RESET pin), it begins to pull instructions from memory and execute them. Where it starts in memory depends on the individual CPU, but in the case of the Z80, it simply begins at memory address 0, instead of using a reset vector like many other CPUs do. This means that any computer using the Z80 must have a ROM chip at memory address 0 which gives the initial start-up instructions to the Z80.
from: http://lateblt.tripod.com/z80proj1.htm
https://maker.pro/pic/projects/z80-computer-project-part-1-the-cpu
http://bedroomcoders.co.uk/using-an-arduino-to-run-a-z80/
useful: http://baltazarstudios.com/arduino-zilog-z80/
http://labs.domipheus.com/blog/teensy-z80-part-1-intro-memory-serial-io-and-display/
test circuit: http://www.z80.info/z80test0.htm
https://github.com/inxonic/z80fun
see emulation: http://obsolescence.wixsite.com/obsolescence/kim-uno-details
Following: https://github.com/SchrodingersGat/KiBoM
Bulk
Detektors
Darkint: /root/rsync2016/darkint/hardware/draft/partslist.org
ERDs:
Misc parts/projects:
settings for minicom from command line
minicom -b 57600 -D /dev/ttyACM0
- these notes, also messene etc. under git DONE:
add new repo in git and then in local directory of what we wish to add
git init git add whatever git commit git remote add origin https://github.com/microresearch/notes.git git push -u origin master
- re-check AD5933 also for potential eurorack module
and ignore row-defining changes…
for console - compile /C-Berry/SW/fb2cberry, run in background…1
echo -ne "help" | sudo tee /dev/tty1
cutting using mencoder
mencoder -ss 00:27:31 -endpos 00:00:37 -oac pcm -ovc copy Downloads/Princess.mp4 -o revolving.mp4
starts at 27.31 and lasts for 37 seconds
splitscan.py new code:
# horizontal
# for i in clip.iter_frames(fps=target_fps, dtype='uint8'):
# if currentX < (clip.size[0] - slitwidth):
# img[:,currentX:currentX + slitwidth,:] = i[:,currentX:currentX + slitwidth,:]
# currentX += slitwidth
# horizontal/backwards
count=0
currentX = clip.size[1]
for i in clip.iter_frames(fps=target_fps, dtype='uint8'):
print count
if currentX < (clip.size[0] - slitwidth):
img[:,currentX:currentX + slitwidth,:] = i[:,currentX:currentX + slitwidth,:]
currentX -= slitwidth
count +=1
###vertical
# for i in clip.iter_frames(fps=target_fps, dtype='uint8'):
# if currentX < (clip.size[1] - slitwidth):
# img[currentX:currentX + slitwidth,:] = i[currentX:currentX + slitwidth,:]
# currentX += slitwidthffmpeg -i input.mov -r 1 output_%04d.png
with -r 1 as 1 frame every second
convert output_00* test.mp4
ffmpeg -i source.mp4 -filter:v minterpolate -r 120 result.mp4
bindkey
shows key bindings
working with imagemagick:
http://www.imagemagick.org/Usage/layers/
http://www.imagemagick.org/Usage/transform/#edge
http://www.imagemagick.org/Usage/fonts/
awesome
mod-t = keep window always on top
kicad
- remember after we change cvpcb netlist to generate/save netlist in eeschema
https://www.pjrc.com/teensy/loader_cli.html
code: https://github.com/PaulStoffregen/teensy_loader_cli.git
./teensy_loader_cli -mmcu=mk20dx256 -w blink_slow_Teensy32.hex
for our teensy 3.2 and press reset…
using avr-gcc/example makefile: https://www.pjrc.com/teensy/gcc.html - this is not for ARM teensy
or we try using ard-make (had to re-install latest: https://github.com/sudar/Arduino-Makefile and latest Arduino
blink teensy example worked but not another serial example
For zx81 earthboot thing on teensy (emulated ROM with earthboot)
https://www.sinclairzxworld.com/viewtopic.php?t=1249
CS goes low for ROM access and then high within maybe 300nS
MREQ and A14 line (inverted) go through NAND to CS for this…
// when cs goes low we put the earth code (amped from diff amp 200x in earth) // onto D0-> D7
As ADC is slower than 3Mhz ROM/RAM we need to read it first into array and then output
Teensy Makefile: https://github.com/apmorton/teensy-template
But we needed to change the
TOOLSPATH=/root/Downloads/arduino-1.8.5/hardware/tools
as the tools included are compile for 64 bits…
zx81 3.25 MHz - 2 cycles read memory = 600 nS
https://forum.pjrc.com/threads/42865-A-set-of-scope-tested-100-500-ns-delay-macros
- display hack works - https://www.classic-computers.org.nz/blog/2016-01-03-composite-video-for-zx81.htm
- teensy is at 3.3v (no more) - some pins are not tolerant and maybe our level is low // revert to arduino/avr code if it can be fast enough
- also after replacing ROM on zx no boot - loosen and reseat is fine (and wiggles generate glitches so…)
- code on arduino doesn’t do anything (note that we would need to reboot arduino just before zx to allow buffer to fill):
– problem could be: speed of arduino, check pins are toggling, check CS lines coming in and timing (scope)
(Notes: Uno has 2k so we just use 1024 bytes for earthcode, alt approach could be to allow earthcode to change zx81 ROM, so part runs or we hand over part way…)
- level shifting or protection resistor (3.3k?) or 3.3v pullup and/or check which teensy pins are 5v tolerant…
https://www.adafruit.com/product/395?gclid=CIayxrHZ4LsCFepaMgod2TwAUg
- “The other inputs (except NMI) to the Z80 are spec’d at the standard TTL levels with 2.0V or higher a logic ‘1’”
when teensy=rom is selected we need to put byte on bus and then re-configure bus as input
- for myc - new library in eeschema for 5933 created using:
http://kicad.rohrbacher.net/quicklib.php
see also: http://kicad.txplore.com/index-p=96.html
- some success with nS delays on Arduino:
uint8_t earthcode[1024]; // we only have 2kb ram so we can't have 4096
void setup() {
pinMode(12, INPUT_PULLUP); // CS on ROM
pinMode(13, INPUT_PULLUP); // CS on ROM
pinMode(A0, INPUT);
// DDRD = B11111111;
//pinMode(2, OUTPUT);
uint16_t x;
for (x=0;x<1024;x++){
earthcode[x] = analogRead(A0)&0xff;
// earthcode[x] = rand()%0xff;
}
}
static __inline__ void /* exactly 4 cycles/loop, max 2**8 loops */
_delay_loop_1_x( uint8_t __n )
{ /* cycles per loop */
__asm__ volatile ( /* __n..one zero */
"1: dec %0" "\n\t" /* 1 1 */
" breq 2f" "\n\t" /* 1 2 */
"2: brne 1b" "\n\t" /* 2 1 */
: "=r" (__n) /* ----- ----- */
: "0" (__n) /* 4 4 */
);
}
void loop() {
int x=0;
if (!(PINB & 0x10)) { // pin 12 which is on PORTB - CS on ROM
DDRD = B11111111;
PORTD=earthcode[x++];
// turn off bus - 500 ns? - value of 2 or 3 seems to work
_delay_loop_1_x(3);
DDRD = B00000000;
PORTD=0x00;
if (x==1024) x=0;
}
// test for scope
/* DDRD=B11111111;
PORTD=255;
_delay_loop_1_x(2); // this gives us 500nS
// delayMicroseconds(10);
// _delay_loop_1_x(1);
// DDRD = B00000000;
PORTD=0;
delayMicroseconds(10);*/
}- in Kicad/pcbnew we can draw zones after selecting layer (eg. mask) so we can leave areas exposed…
- find Makefile for upload of straightC code to Arduino Uno // just question of upload:
avrdude -V -c arduino -p ATMEGA328P -P /dev/ttyACM0 -b 115200 -U flash:w:lineccd.hex
now in all_colours repo…
TODO: collate, document makefiles for avr and coremem etc. documentation! + TEH doku…
- serial monitor in Emacs? TEST!
make monitor
???
M-x serial-term
https://www.emacswiki.org/emacs/GnuScreen#toc10
(defun del-binary_characters (beg end)
"Delete binary characters in a region"
(interactive "r")
(save-excursion
(save-restriction
(narrow-to-region beg end)
(goto-char (point-min))
(while (re-search-forward "[^[:ascii:]]" nil t)
(replace-match "")))))- python script to model CPU temperature according to day’s temperature changes…
import math
# baseline - lowest temp will be base CPU temp
# read value from array of 24 hour values, run process to try to reach this if current temp is not there
# otherwise do nothing until we cool to this
# next value
# testing
x=267676383
while(1):
x=math.sqrt(x)- sensing CPU temp: psutil doesn’t import, now using sysmon: https://github.com/calthecoder/sysmon-1.0.1
https://www.mjmwired.net/kernel/Documentation/hwmon/sysfs-interface
for pi: https://projects.raspberrypi.org/en/projects/temperature-log/4
can we increase fan speed to lower temp?
https://hackernoon.com/how-to-control-a-fan-to-cool-the-cpu-of-your-raspberrypi-3313b6e7f92c
- test temp and fan thing with screen on PI!
- more finegrained temp with MAX31865 (and fix speed of arduino/MAX reading in shiftreg repo code - lost in Messene)
- Messene data dumped… all that we have
[for Messene data/temp recorded say over 24 hours we need to find max and min and re-write as values between say 0-255 limits - DONE:scaling.py]
- pi and max31865: dump temp to screen [but clash on voltage pins to fix]
https://github.com/steve71/MAX31865/blob/master/max31865.py
https://www.raspberrypi.org/documentation/usage/gpio/
CLK: 11 SDO=MISO: 9 SDI=MOSI: 10 CS: 8
Strange as ref resistor is 4301 = 4300 ohms ref rather than 430 - check others… one has 430 ohms… - 4300ohms is for PT1000
VIN to 3.3v and SPI disabled in raspi-config
- latest KICAD from source:
apt install cmake doxygen libboost-context-dev libboost-dev libboost-system-dev libboost-test-dev libcairo2-dev libcurl4-openssl-dev libgl1-mesa-dev libglew-dev libglm-dev liboce-foundation-dev liboce-ocaf-dev libssl-dev libwxbase3.0-dev libwxgtk3.0-dev python-dev python-wxgtk3.0-dev swig wx-common
remember to do ldconfig at end
- for gnuplot remember to:
set datafile separator ","
so then we can do:
plot "MONK27" using 0:2 with lines
without problems…
- MAX31865 code on PI gives jumpy values rather than on Arduino/adafruit but code looks very similar…
- now 31865 stopped working:
try with SPI enabled in config
try this from: http://nicke.pe.hu/max31865/rpi.html
import spidev
from time import sleep
import math
#CONFIGURATION
Rref = 400 # Rref = 400 for PT100, Rref = 4000 for PT1000
wire = 2 # PT100/1000 has 2 or 3 or 4 wire connection
#END OF CONFIGURATION
def configureMAX31865():
lst = [0x80]
if (wire == 2 or wire == 4):
lst.append(0xC2)
if (wire == 3):
lst.append(0xD2)
spi.writebytes(lst)
def CallendarVanDusen(R):
a = 3.9083E-03
b = -5.7750E-07
R0=Rref/4
return (-R0*a+math.sqrt(R0*R0*a*a-4*R0*b*(R0-R)))/(2*R0*b);
spi = spidev.SpiDev()
spi.open(0,0)
spi.mode=3
lst = [0x80,0xc2]
configureMAX31865()
#spi.writebytes(lst)
sleep(0.1)
for i in range(0,6):
reg = spi.readbytes(9)
del reg[0] # delete 0th dummy data
print ("Register values:",reg)
RTDdata = reg[1] << 8 | reg[2]
print("RTD data:", hex(RTDdata))
ADCcode = RTDdata >> 1
print("ADC code", hex(ADCcode))
R = ADCcode * Rref / 32768
print("Resistance:", R, "Ohms")
print("Temperature:",round(CallendarVanDusen(R),2), "deg. C\n")
sleep(1)- with PT100 ref board and older MAX31865 py/pi code we have working temperature measurement increasing own temp and we test with sqrt code: see pngs here…
- test sqrt to smoke / arduino code
- and cpu reflection of recorded temperature: max_temp_pi_thing.py - working but need to see how high we can get temps…
while true; do vcgencmd measure_clock arm; vcgencmd measure_temp; sleep 10; done& stress -c 4 -t 900s
- overclocking: edit sudo nano /boot/config.txt - uncomment arm_freq=1300 # CPU Frequency
https://howtoraspberrypi.com/how-to-overclock-raspberry-pi/
- IRF540 on GPIO pin 2 to control fan:
G-GPIO .. D=pull thru power .. -S-GND
use 2n3904 to achieve higher gate voltage EBC…
note now HIGH=OFF
- C-c C-x f for adding footnotes in org-mode
- norming jacks: erthenvar PJ301BM
so without plugin lower (if we have black at top and thin pin to right from front) is connected to upper
with plugin - top is now the signal
- KiCaD - but to be tested - for hidden power on say 40106 - we put in and connect PWR_FLGs for both VCC/12V and GND lines
- A computer processor is coerced into attempting to match its external temperature to the temperature recorded at high resolution within a pile of stones in Ancient Messene across 24 hours. The attempt lasts longer than 24 hours.
- GPU mining to achieve a recorded temperature. both temperature and earnings are expressed in smoke
- more temperature work on pi:
nohup sysbench --num-threads=8 --test=cpu --cpu-max-prime=10000000000 run & watch sudo cat /sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_cur_freq
shows that we are overclocked according to:
https://www.reddit.com/r/raspberry_pi/comments/48lhot/raspberry_pi_family_thermal_analysis_thermal/
and freezes our ssh session…
- now we resume temperature mime study with internal sensor which according to page above is:
One possible explanation for this is that the temperature sensor is located in the VideoCore-IV portion of the silicon, while I’m loading the Cortex-A53 portion. You can see this in the close-up shot at the end of the album: the top of the SoC is far hotter than the bottom. You can also see that the CPU portion of the SoC is running out of spec: its official operating temperature limit is 85°C, and the close-up reads over 100°C peak.
- last (5 days running) graph is:
final_temp1308.png
- overclocking to 130MHz causes crashes so now reverted…
- thinking of unifying All Colours design also around transistors into atmega:
http://www.electro-music.com/forum/topic-33190.html&postorder=asc - for gate/pulsing of noise or use 4066
see also from synthi:
http://www.dragonflyalley.com/synth/jurgenHaiblePages/trapezoid/trapezoid_sch.pdf
http://www.phutney.com/TechnicalInfo/Y_S1.pdf
- re-programming mutable clouds/warps with our serial adapter
make -f warps/makefile upload_combo_serial
after we change stmlib/makefile.inc
TOOLCHAIN_PATH ?= /root/ARM/gcc-arm-none-eabi-4_9-2015q2/ PGM_SERIAL_PORT ?= /dev/ttyUSB0
and we hold reset button down, hold sysboot and release reset
on our adapter from top away from usb:
0GND 0 0 0 0 RX 0 TX
- where was 5933 code which was not for Arduino: main.c in /root/projects/archived/bordeaux/new_skry (along with SD code)
- for myc - tested serial fine, now HIH=i2c TODO-working
- SD card basic open/record - need to do playback - we could just use raw read/write access
at the moment with SDHC enabled we have size issues - fixed by removing FAT etc…
- MAX31865 code (simply ported from adafruit) is working - fixed so works with SD card… DONE
- 555 on INT0 countings DONE
- other sensors/AD5933
- test rest of hardware side of things…
- waterproofing tests…
- for top of earthboot: from left: SDA, SCL, 620_OUT->ADC, GND, VDDA (for 620 -3.3V or 5V depending on platform), 5V
- test AD620->ADC:
void setup() {
Serial.begin(9600); // start serial for output
}
void loop() {
int x;
uint8_t c;
int value=analogRead(0);
Serial.write("AD620 test value ");
Serial.print(value);
Serial.write("\r\n");
}- note to test interrupt on INT0
// test incoming transistor pulse
// INT0 on MEGA
#include <Wire.h>
const byte ledPin = 13;
const byte interruptPin = 2;
volatile byte state = LOW;
void blink() {
state = !state;
}
void setup() {
pinMode(2, INPUT);
Serial.begin(9600); // start serial for output
// pinMode(inputleft, INPUT_PULLUP);
attachInterrupt(0, blink, HIGH);
}
void loop() {
int x;
uint8_t c;
digitalWrite(ledPin, state);
}- what could heatsick distro have in: stress, stress-ng, ported PI cpu python, temperature sensing?lm-sensors, psensor, forking, scalamandi, scripts for top etc. - to compile a list!
or use stresslinux distro: http://www.stresslinux.org/sl/wiki/Documentation
cpuburn? - package?
while true; do date; sensors | grep Core; echo; sleep 60; done | tee -a paste1.log
scaldamani.sh:
#!/bin/bash p=0; n=1 while true; do r=$(($p+$n)) p=$n; n=$r done
where is our livecd/and notes to build?
- zx earthboot stuff was working with arduino - test with micro arduino and implement FET later switch on of zx after buffer fill…
Arduino micro for zx/earthboot:
pins: http://pinoutguide.com/Electronics/arduino_micro_pinout.shtml
VIN can be 6-20V
works with ard-makefile
python /root/rsync2016/backup/gpsgeomancy002.py
is working version - think other just has comment out:
while (("West" not in str(satdict.values())) or ("East" not in str(satdict.values())) or ("North" not in str(satdict.values())) or ("South" not in str(satdict.values()))):
from top/end of cable with red bottom:
reset/GND sck /MOSI MISO/VCC
to our myc from right GND, SCK, MISO, MOSI, RESET, VCC (purple we have on right) and always connect VCC
avrdude -c stk500v2 -P /dev/ttyACM0 -p m168p
we access serial port on ACM0
https://raspberrypi.stackexchange.com/questions/32397/how-to-increase-the-camera-exposure-time
For pi we bring: static ip_address=192.168.1.14 (for picam)
other pi is 15 and laptop 13
raspistill -w 2592 -h 1944 -ISO 800 -ss 6000000 -br 80 -co 100 -o out.jpeg
pi cam:
sudo pip install picamera
# dark2.py
from picamera import PiCamera
from time import sleep
from fractions import Fraction
# Force sensor mode 3 (the long exposure mode), set
# the framerate to 1/6fps, the shutter speed to 6s,
# and ISO to 800 (for maximum gain)
camera = PiCamera(resolution=(1280, 720), framerate=Fraction(1, 6), sensor_mode=3)
camera.shutter_speed = 6000000
camera.iso = 800
# Give the camera a good long time to set gains and
# measure AWB (you may wish to use fixed AWB instead)
sleep(60)
camera.exposure_mode = 'off'
try:
for filename in camera.capture_continuous('/home/pi/augury/test/img{counter:03d}.jpg'):
print('Captured %s' % filename)
sleep(60) # wait 1 minute
camera.exposure_mode = 'off'
finally:
camera.close()from: https://picamera.readthedocs.io/en/release-1.13/recipes1.html?highlight=low%20light
- if porting or if code works on arduino remember that arduino makefile/ide sets up timers AND sei()
- if it behaves oddly is a memory issue - check what other files are being compiled
>>>>>>> 57be72b4e18519a1f7f7782de1e1ed05c552eae9
- simulation with ngspice in kicad: http://ngspice.sourceforge.net/ngspice-eeschema.html
- we access pololu serial on ACM1
- arduino.mk settings to program arduino mini 3.3v:
BOARD_TAG = pro5v328 ARDUINO_LIBS = Wire SPI SD MONITOR_PORT = /dev/ttyACM1 F_CPU = 8000000L
libraries are in: /usr/share/arduino/libraries
- 2n3055 with 100ohm resistor+ - 1 watt and op amp buffer - works good (needs diode up from gnd)
for cv control on nichrome wire from eurorack but 3055 will need heatsink materials
- for boards
- worm was 12hp= 60.6mm across 128.5mm up
brd was 57x109mm