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(Es crea la pàgina amb «= Introducción = [https://www.binefa.cat/training/snapcon2023/20230719_IoT-Vertebrae_SnapCon2023.pdf IoT-Vertebrae - Bridging OT & IT. Snap!Con 2023] and [https://you...».) |
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| (Hi ha 3 revisions intermèdies del mateix usuari que no es mostren) | |||
| Línia 1: | Línia 1: | ||
| + | = Enlaces = | ||
| + | * Página principal del curso [[Digitalización e Internet de las Cosas]] | ||
| + | * Página de la documentación del [[Gemelo digital del IoT-Vertebrae]] | ||
| + | * Entorno web del [https://binefa.com/iot-v/ gemelo digital del IoT-Vertebrae] | ||
| + | |||
= Introducción = | = Introducción = | ||
[https://www.binefa.cat/training/snapcon2023/20230719_IoT-Vertebrae_SnapCon2023.pdf IoT-Vertebrae - Bridging OT & IT. Snap!Con 2023] and [https://youtu.be/hoDaJh98o3k video] (July / 17 / 2023) | [https://www.binefa.cat/training/snapcon2023/20230719_IoT-Vertebrae_SnapCon2023.pdf IoT-Vertebrae - Bridging OT & IT. Snap!Con 2023] and [https://youtu.be/hoDaJh98o3k video] (July / 17 / 2023) | ||
| Línia 21: | Línia 26: | ||
[[Image:iotvertebrae00.jpg|center|thumb|Concepto IoT-Vertebrae]] | [[Image:iotvertebrae00.jpg|center|thumb|Concepto IoT-Vertebrae]] | ||
| − | [[Maquinari de l'IoT-Vertebrae]] | + | [[Maquinari de l'IoT-Vertebrae | Hardware del IoT-Vertebrae]] |
= Detección de direcciones I2C en la Raspberry Pi = | = Detección de direcciones I2C en la Raspberry Pi = | ||
| Línia 149: | Línia 154: | ||
[[CanBus a l'IoT-Vertebrae]] | [[CanBus a l'IoT-Vertebrae]] | ||
| − | [[Pantalla OLED al cap de l'IoT-Vertebrae]] | + | [[Pantalla OLED al cap de l'IoT-Vertebrae | Pantalla OLED en el head del IoT-Vertebrae]] |
| − | [https://snap.binefa.cat/snap.html#open:https://raw.githubusercontent.com/jordibinefa/ms-drivers-and-tools/master/arinyo_20240724_00.xml Ejemplo usando | + | [https://snap.binefa.cat/snap.html#open:https://raw.githubusercontent.com/jordibinefa/ms-drivers-and-tools/master/arinyo_20240724_00.xml Ejemplo usando objetos] |
[https://snap.berkeley.edu/snap/snap.html#present:Username=jordibinefa&ProjectName=iotv_Carbonell00 iotv_Carbonell00] [https://snap.berkeley.edu/snap/snap.html#present:Username=jordibinefa&ProjectName=iotv_Carbonell00b iotv_Carbonell00b] | [https://snap.berkeley.edu/snap/snap.html#present:Username=jordibinefa&ProjectName=iotv_Carbonell00 iotv_Carbonell00] [https://snap.berkeley.edu/snap/snap.html#present:Username=jordibinefa&ProjectName=iotv_Carbonell00b iotv_Carbonell00b] | ||
| Línia 157: | Línia 162: | ||
[[ModBUS RTU a l'IoT-Vertebrae]] | [[ModBUS RTU a l'IoT-Vertebrae]] | ||
| − | [https://virtualcommissioning.com/what-is-virtual-commissioning/ | + | [https://virtualcommissioning.com/what-is-virtual-commissioning/ Qué es la puesta en servicio virtual (Virtual Comissioning)?] |
[[IoT-Vertebrae PLC Edu]] | [[IoT-Vertebrae PLC Edu]] | ||
Revisió de 21:52, 25 feb 2026
Contingut
Enlaces
- Página principal del curso Digitalización e Internet de las Cosas
- Página de la documentación del Gemelo digital del IoT-Vertebrae
- Entorno web del gemelo digital del IoT-Vertebrae
Introducción
IoT-Vertebrae - Bridging OT & IT. Snap!Con 2023 and video (July / 17 / 2023)
IoT-Vertebrae Bridging OT & IT. DLM 2023 (29 / abril / 2023) - Diada de la Llibertat del Maquinari 2023
- Compatibilidad con versiones de Raspberry Pi:
RPi 2: I2C Sí CAN Sí RPi 3: I2C No CAN Sí RPi 4: I2C Sí CAN Sí RPi 5: pendiente de probar
Material
Colección de información sobre l'IoT-Vertebrae (usuario: EdT, contraseña: EdT2324)
Snap! con ejemplo IoT-Vertebrae (Abrir Interacción con IoT-Vertebrae" en Ejemplos) (MAC ESP32: 70B8F662BC7C )
Detección de direcciones I2C en la Raspberry Pi
pi@raspberrypi:~ $ i2cdetect -y 1
0 1 2 3 4 5 6 7 8 9 a b c d e f
00: -- -- -- -- -- -- -- --
10: 10 -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
20: 20 -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
30: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
40: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
50: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
60: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
Python
pi@raspberrypi:~/iot-vertebrae $ python
Python 3.11.2 (main, Mar 13 2023, 12:18:29) [GCC 12.2.0] on linux
Type "help", "copyright", "credits" or "license" for more information.
>>> import iotv
>>> iotv.aversion("0000")
Analog rib version: 1.0
'0000000100000000'
>>> iotv.dversion("0000")
Digital rib version: 1.2
'0000000100000010'
>>> iotv.getdsetup("0000")
A digital output, B digital input
'00010010'
>>> iotv.getasetup("0000")
respA: 0x1, respB: 0x2
A rib is ADC, B rib is DAC.
'00010010'
>>> iotv.dsetup("0000","aout","bin")
ain, aout
Setup has not been changed
False
>>> iotv.getdsetup("0000")
A digital output, B digital input
'00010010'
>>> iotv.dsetup("0000","ain","bout")
ain, bout
True
>>> iotv.getdsetup("0000")
A digital input, B digital output
'00100001'
>>> iotv.dsetup("0000","aout","bin")
aout, bin
True
>>> iotv.getdsetup("0000")
A digital output, B digital input
'00010010'
>>> iotv.ain("0000",'a',1)
19881
>>> iotv.ainv("0000",'a',1)
i2cAddr: 0x10, addrChannel: 0x1
res: 0x4DAA: 19882
0x4DAA --> 19882 --> 4.94V
19882
>>> iotv.ainv("0000",'a',2)
i2cAddr: 0x10, addrChannel: 0x21
res: 0x4DBE: 19902
0x4DBE --> 19902 --> 4.95V
19902
>>> iotv.aout("0000",'b',2,4095)
dacCommand: 0x32
It has been sent 0xFFF (10.00 volts) to DAC 2
>>> iotv.ainv("0000",'a',2)
i2cAddr: 0x10, addrChannel: 0x21
res: 0x6781: 26497
0x6781 --> 26497 --> 9.90V
26497
>>> iotv.aout("0000",'b',2,2047)
dacCommand: 0x32
It has been sent 0x7FF (5.00 volts) to DAC 2
>>> iotv.ainv("0000",'a',2)
i2cAddr: 0x10, addrChannel: 0x21
res: 0x4DBB: 19899
0x4DBB --> 19899 --> 4.95V
19899
>>> iotv.din("0000",'b')
'00000000'
>>> iotv.din("0000",'b')
'00100100'
>>> iotv.din("0000",'b')
'00000000'
>>> iotv.dout("0000",'a',0x5A)
>>> iotv.dsetup("0000","aoutpwm","bin")
aoutpwm, bin
True
>>> iotv.getdsetup("0000")
A PWM output, B digital input
'00010100'
>>> iotv.doutpwm('0000','a',255)
>>> iotv.doutpwm('0000','a',55)
>>> iotv.doutpwm('0000','a',0)
>>> iotv.dsetup("0000","aout","bin")
aout, bin
True
>>> iotv.getdsetup("0000")
A digital output, B digital input
'00010010'
>>> iotv.doutbit('0000','a',0,1)
>>> iotv.doutbit('0000','a',0,0)
>>> iotv.dsetup("0000","aoutpwm","bin")
aoutpwm, bin
True
>>> iotv.getdsetup("0000")
A PWM output, B digital input
'00010100'
>>> iotv.doutbitpwm('0000','a',0,55)
>>> iotv.doutbitpwm('0000','a',0,255)
>>> iotv.doutbitpwm('0000','a',0,0)
>>> iotv.dsetup("0000","aout","bin")
aout, bin
True
>>> iotv.getdsetup("0000")
A digital output, B digital input
'00010010'
>>>
pi@raspberrypi:~/iot-vertebrae $
API de Python per a l'IoT-Vertebrae
Ejemplos de uso
Control via Snap! (MQTT al cap + CanBus) (MAC ESP32: 70B8F662BC7C )
Smart Toys (MQTT a la Raspberry Pi + I2C)
Pantalla OLED en el head del IoT-Vertebrae
iotv_Carbonell00 iotv_Carbonell00b
Qué es la puesta en servicio virtual (Virtual Comissioning)?
