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(Page créée avec « {{ENG-CANSAT-PICO-NAV}} {{traduction}} == Cansat V2 kit in few words == The CanSat-V2-Kit is build around the '''Raspberry-Pi Pico''' plateform. The '''Raspberry-Pi Pic… ») |
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== Cansat V2 kit in few words == | == Cansat V2 kit in few words == | ||
| − | The CanSat-V2-Kit is build around the '''Raspberry-Pi Pico''' plateform. | + | The {{pl|2428|CanSat-V2-Kit}} is build around the '''Raspberry-Pi Pico''' plateform. |
| − | The '''Raspberry-Pi Pico''' is a powerful dual core microcontroller created by the Raspberry-Pi foundation. The Pico goes far beyond the Arduino Uno in terms of power and capabilities. | + | The '''Raspberry-Pi Pico''' is a powerful dual core microcontroller created by the Raspberry-Pi foundation. |
| + | |||
| + | The Pico goes far beyond the Arduino Uno in terms of power and capabilities. | ||
It is distributed with the MicroPython firmware but can also be programmed with C++ and Arduino. | It is distributed with the MicroPython firmware but can also be programmed with C++ and Arduino. | ||
| − | [[fichier:ENG-CANSAT-V2-CONTENT-10.jpg| | + | [[fichier:ENG-CANSAT-V2-CONTENT-10a.jpg|360px]] [[fichier:ENG-CANSAT-V2-CONTENT-10c.jpg|360px]] [[fichier:ENG-CANSAT-V2-CONTENT-10b.jpg|360px]] [[fichier:ENG-CANSAT-V2-CONTENT-10.jpg|480px]] |
<div style="margin: 15px 0; background: rgba(255,204,102,.3); display: block; padding: 15px 15px 15px 15px; -webkit-border-radius: 2px; -moz-border-radius: 2px; border-radius: 2px; border: 1px solid #ff9900;" >Just care about voltage, the '''Pico is 3.3V logic'''. Do not apply any voltage greater than 3.3V to any GPIO on the Pico.</div> | <div style="margin: 15px 0; background: rgba(255,204,102,.3); display: block; padding: 15px 15px 15px 15px; -webkit-border-radius: 2px; -moz-border-radius: 2px; border-radius: 2px; border: 1px solid #ff9900;" >Just care about voltage, the '''Pico is 3.3V logic'''. Do not apply any voltage greater than 3.3V to any GPIO on the Pico.</div> | ||
| Ligne 16 : | Ligne 18 : | ||
MicroPython is a very robust environment natively compiling and running python script on microcontroller. MicroPython fits a compiler, a python virtual machine and a file system to store the scripts. Thanks to MicroPython, everything learned with Python language or any MicroPython boards can be applied to the Pico. | MicroPython is a very robust environment natively compiling and running python script on microcontroller. MicroPython fits a compiler, a python virtual machine and a file system to store the scripts. Thanks to MicroPython, everything learned with Python language or any MicroPython boards can be applied to the Pico. | ||
| − | The | + | The Cansat-V2 is built around CANSAT-V2-BASE a pre-assembled board featuring: |
| − | + | * Lipo battery charger | |
| − | |||
| − | * Lipo battery | ||
* Radio module | * Radio module | ||
| − | * 3V 600 mA voltage | + | * 3V 600 mA voltage regulator '''power enable''' to switch off the Power. |
| − | * Plug-able microcontroler/nano-computer board (namely MCU board) | + | * Plug-able microcontroler/nano-computer board (namely the MCU board) |
* Connectors for I2C bus, Serial/UART, Digital I/O, Analog inputs | * Connectors for I2C bus, Serial/UART, Digital I/O, Analog inputs | ||
| − | * Breakout of all MCU | + | * Breakout of all MCU signals (offering additional I/O to your project). |
| + | * Pre-solder connector antenna (and set of antenna for testing). | ||
| + | |||
| + | === Retro Compatibility === | ||
| + | Despite obvious visual changes, the CANSAT V2 kit is backwards compatible with the previous version. | ||
| + | |||
| + | [[Fichier:ENG-CANSAT-V2-Backwards-Compatible.png]] | ||
| + | |||
| + | The same pins are used to control the same device. | ||
| + | |||
| + | === Electronic Aspect === | ||
| + | |||
| + | [[fichier:ENG-CANSAT-V2-CONTENT-11a.jpg|800px]] [[fichier:ENG-CANSAT-V2-CONTENT-11b.jpg|800px]] | ||
| − | + | The kit is designed to ease the prototyping thanks to the well known connectors: | |
| − | + | * Grove connectors : supporting 3V3 compatible '''SeeedStudio''' sensors and '''M5Stack''' sensors (all compatible 3V3). | |
| − | [[ | + | * Qwiic/StemmaQt : which is I2C bus only. Supporting the Adafruit Industries StemmaQt sensors and SparkFun Qwiic sensors. thanks to Grove-to-Male wires. |
| + | ** [https://www.adafruit.com/category/1005 StemmaQT sensors] are available at [https://www.adafruit.com Adafruit Industries USA] and its distributor network. | ||
| + | ** [https://www.sparkfun.com/qwiic#products Qwiic sensors] are available at [https://www.sparkfun.com SparkFun electronic USA] and its distributor network. | ||
| − | The "Cansat | + | The "Cansat V2 Board" features a '''MCU board connector''' where to plug the MCU board. |
| − | + | [[fichier:ENG-CANSAT-V2-CONTENT-11j.jpg|480px]] | |
| − | |||
| − | |||
| − | + | Remark: the MCU board must be oriented with the USB connector toward the "USB" word on the silkscreen. | |
| − | |||
| − | |||
| − | + | Presently, only the '''Pico MCU board''' is available, alternative MCU board will exists in the future. | |
| − | + | [[fichier:ENG-CANSAT-V2-CONTENT-11h.jpg|480px]] | |
| − | + | Many of the Pin of Pico are available on Grove connectors. | |
| − | + | All the pins of the Pico are broken out to the CANSAT-BASE. | |
| − | + | The [[ENG-CANSAT-V2-PINOUT|Pinout description]] and [[xx|Schematics]] will provide lot of useful information. | |
| − | + | === About Raspberry-pi Pico === | |
| − | + | The Raspberry-Pi Pico is at the earth of this kit. One is soldered onto the Cansat MCU sub-Kit, the other is free for use to make prototyping or creating the receiving base station. | |
| − | + | [[fichier:ENG-CANSAT-PICO-CONTENT-00.jpg|640px]] | |
| − | + | See the [[ENG-CANSAT-PICO-USER-GUIDE|Cansat Pico User Guide]] section for more information on its integration. | |
| − | [ | + | See the [https://www.raspberrypi.com/documentation/microcontrollers/ Official Pico MicroPython starter guide] for learning more about MicroPython on Pico. |
| − | === | + | === Mechanical Aspect === |
| − | + | When the kit was designed, we did foreseen the fact that the project could be assembled in many way. | |
| − | + | The CANSAT-BASE is accompagned of several other board designed to quickly create the CanSat structure. | |
| − | + | [[fichier:ENG-CANSAT-PICO-CONTENT-12a.jpg|800px]] | |
| − | + | The following picture shows the mechanical evolution of CANSAT-LETTUCE from version 1 to version 2. | |
| − | + | [[fichier:ENG-CANSAT-MECHANICAL-CHANGES.jpg|640px]] | |
| − | |||
| − | |||
| − | + | As you may notice it: | |
| + | # The 3 external fixing points stays the same than version 1. | ||
| + | # The general diameter reduced to 60mm (instead of 64mm) leaving '''more room for 3D Print wall'''. | ||
| + | # The 6.4mm central hole accross all the CanSat V2 boards to build a '''central reinforcement column'''. | ||
| − | + | More information about mechanical in the [[ENG-CANSAT-V2-DIMENSION|Dimensions page]]. | |
| − | + | == Cansat V2 Pico Kit content == | |
| − | [[fichier:ENG-CANSAT- | + | The '''Cansat V2 Pico Kit''' is designed to be compact, evolutive, customisable, sizable (in height) and '''programmed in Python''' (thank to MicroPython). |
| + | |||
| + | [[fichier:ENG-CANSAT-V2-CONTENT-01.png|640px]] | ||
| + | |||
| + | {{traduction}} | ||
| + | |||
| + | The '''CanSat V2 Pico Kit''' is made of various products sold separately. The boards with SMD components are soldered and tested. | ||
| − | + | Some of the product like {{pl|2821|PICO-CANSAT-MCU}} or {{pl|2823|PICO-RFM69-433-BOOT}} should still have their connectors and/or MCU solder to the user. | |
| − | + | Thankfully, when included into the '''{{pl|2824|Cansat V2 Pico kit}}''' the connectors are also soldered for you. | |
== Kit content == | == Kit content == | ||
| + | Here the list of the items included into the {{pl|2824|CANSAT-PICO-KIT-V2}} : Kit CANSAT V2 avec Raspberry-Pi Pico. | ||
{{parts-begin}} | {{parts-begin}} | ||
| + | |||
| + | {{parts-item | ||
| + | |name=CANSAT-BASE-V2 | ||
| + | |descr=Base board for CanSat V2. Plug your Cansat-MCU and you are ready to connect sensors, the battery, start coding with MicroPython and emit data to the base station. | ||
| + | |img=PICO-CANSAT-BASE-V2.png | ||
| + | |link=https://shop.mchobby.be/product.php?id_product=2817 | ||
| + | |qty=1 | ||
| + | }} | ||
| + | |||
| + | {{parts-item | ||
| + | |name=CANSAT-PICO-MCU | ||
| + | |descr=Pico MCU holder kit. Kit to prepare a Pico based CANSAT MCU board. The provided Pico will be soldered for you. | ||
| + | |img=CANSAT-PICO-MCU.png | ||
| + | |link=https://shop.mchobby.be/product.php?id_product=2821 | ||
| + | |qty=1 | ||
| + | }} | ||
{{parts-item | {{parts-item | ||
|name=Raspberry-Pi Pico | |name=Raspberry-Pi Pico | ||
| − | |descr=Dual core RP2040 MCU @ 133 MHz with 264Ko RAM & 2 Mo Flash. One Pico is used on the | + | |descr=Dual core RP2040 MCU @ 133 MHz with 264Ko RAM & 2 Mo Flash. One Pico is used on the PICO-CANSAT-MCU, the other is used for prototyping and base station. |
|img=RASPBERRY-PICO.png | |img=RASPBERRY-PICO.png | ||
|link=https://shop.mchobby.be/product.php?id_product=2025 | |link=https://shop.mchobby.be/product.php?id_product=2025 | ||
| Ligne 99 : | Ligne 133 : | ||
{{parts-item | {{parts-item | ||
| − | |name= | + | |name=CANSAT-BUN-V2 |
| − | |descr= | + | |descr=Top/parachute Cansat V2 board. |
| − | |img=PICO-CANSAT- | + | |img=PICO-CANSAT-BUN-V2.png |
| − | |link=https://shop.mchobby.be/product.php?id_product= | + | |link=https://shop.mchobby.be/product.php?id_product=2609 |
|qty=1 | |qty=1 | ||
}} | }} | ||
{{parts-item | {{parts-item | ||
| − | |name= | + | |name=CANSAT-LETTUCE-V2 |
| − | |descr=Prototyping board | + | |descr=Prototyping board for CanSat V2. |
| − | |img=PICO-CANSAT- | + | |img=PICO-CANSAT-LETTUCE-V2.png |
| − | |link=https://shop.mchobby.be/product.php?id_product= | + | |link=https://shop.mchobby.be/product.php?id_product=2611 |
|qty=1 | |qty=1 | ||
}} | }} | ||
{{parts-item | {{parts-item | ||
| − | |name= | + | |name=PICO-RFM69-433-BOOT |
| − | |descr=This | + | |descr=RFM69HCW 433MHz expansion for Pico. Plug your Pico, Connect your antenna and your ready to emit.<br />SMA connector is pre-solder within the kit. |
| − | |img= | + | |img=PICO-RFM69-433-BOOT.png |
| − | |link=https://shop.mchobby.be/product.php?id_product= | + | |link=https://shop.mchobby.be/product.php?id_product=2822 |
| + | |qty=1 | ||
| + | }} | ||
| + | |||
| + | {{parts-item | ||
| + | |name=CON-SMA-PCB-ANT | ||
| + | |descr=Antenna connector for the PICO-RFM69-433-BOOT.<br />This connector is pre-solder within the kit. | ||
| + | |img=CON-SMA-PCB-ANT.png | ||
| + | |link=https://shop.mchobby.be/product.php?id_product=1419 | ||
| + | |qty=1 | ||
| + | }} | ||
| + | |||
| + | {{parts-item | ||
| + | |name=433Mhz-ANT-SMA | ||
| + | |descr=433 Mhz antenna with SMA connector. | ||
| + | |img=433Mhz-ANT-SMA.png | ||
| + | |link=https://shop.mchobby.be/product.php?id_product=1047 | ||
| + | |qty=2 | ||
| + | }} | ||
| + | |||
| + | {{parts-item | ||
| + | |name=uFL-to-SMA | ||
| + | |descr=antenna connector adapter µFl to SMA. | ||
| + | |img=uFL-to-SMA.png | ||
| + | |link=https://shop.mchobby.be/product.php?id_product=1497 | ||
|qty=1 | |qty=1 | ||
}} | }} | ||
| Ligne 144 : | Ligne 202 : | ||
|link=https://shop.mchobby.be/product.php?id_product=82 | |link=https://shop.mchobby.be/product.php?id_product=82 | ||
|qty=1 | |qty=1 | ||
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}} | }} | ||
| Ligne 175 : | Ligne 217 : | ||
|img=FIL-JSTSH4-100mm.png | |img=FIL-JSTSH4-100mm.png | ||
|link=https://shop.mchobby.be/product.php?id_product=2112 | |link=https://shop.mchobby.be/product.php?id_product=2112 | ||
| + | |qty=1 | ||
| + | }} | ||
| + | |||
| + | {{parts-item | ||
| + | |name=Grove to Male pin wire | ||
| + | |descr=A great wire adapter to prototype/test electronic from grove connector. | ||
| + | |img=FIL-GRO-TO-MALE.png | ||
| + | |link=https://shop.mchobby.be/product.php?id_product=2826 | ||
|qty=1 | |qty=1 | ||
}} | }} | ||
| Ligne 192 : | Ligne 242 : | ||
|link=https://shop.mchobby.be/product.php?id_product=82 | |link=https://shop.mchobby.be/product.php?id_product=82 | ||
|qty=1 | |qty=1 | ||
| − | |||
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}} | }} | ||
Version actuelle datée du 25 août 2025 à 21:32
 | Page(s) en cours de traduction/élaboration. Page(s) under translation/construction |
Cansat V2 kit in few words
The CanSat-V2-Kit is build around the Raspberry-Pi Pico plateform.
The Raspberry-Pi Pico is a powerful dual core microcontroller created by the Raspberry-Pi foundation.
The Pico goes far beyond the Arduino Uno in terms of power and capabilities.
It is distributed with the MicroPython firmware but can also be programmed with C++ and Arduino.
Just care about voltage, the Pico is 3.3V logic. Do not apply any voltage greater than 3.3V to any GPIO on the Pico.
MicroPython is a very robust environment natively compiling and running python script on microcontroller. MicroPython fits a compiler, a python virtual machine and a file system to store the scripts. Thanks to MicroPython, everything learned with Python language or any MicroPython boards can be applied to the Pico.
The Cansat-V2 is built around CANSAT-V2-BASE a pre-assembled board featuring:
- Lipo battery charger
- Radio module
- 3V 600 mA voltage regulator power enable to switch off the Power.
- Plug-able microcontroler/nano-computer board (namely the MCU board)
- Connectors for I2C bus, Serial/UART, Digital I/O, Analog inputs
- Breakout of all MCU signals (offering additional I/O to your project).
- Pre-solder connector antenna (and set of antenna for testing).
Retro Compatibility
Despite obvious visual changes, the CANSAT V2 kit is backwards compatible with the previous version.
The same pins are used to control the same device.
Electronic Aspect
The kit is designed to ease the prototyping thanks to the well known connectors:
- Grove connectors : supporting 3V3 compatible SeeedStudio sensors and M5Stack sensors (all compatible 3V3).
- Qwiic/StemmaQt : which is I2C bus only. Supporting the Adafruit Industries StemmaQt sensors and SparkFun Qwiic sensors. thanks to Grove-to-Male wires.
- StemmaQT sensors are available at Adafruit Industries USA and its distributor network.
- Qwiic sensors are available at SparkFun electronic USA and its distributor network.
The "Cansat V2 Board" features a MCU board connector where to plug the MCU board.
Remark: the MCU board must be oriented with the USB connector toward the "USB" word on the silkscreen.
Presently, only the Pico MCU board is available, alternative MCU board will exists in the future.
Many of the Pin of Pico are available on Grove connectors.
All the pins of the Pico are broken out to the CANSAT-BASE.
The Pinout description and Schematics will provide lot of useful information.
About Raspberry-pi Pico
The Raspberry-Pi Pico is at the earth of this kit. One is soldered onto the Cansat MCU sub-Kit, the other is free for use to make prototyping or creating the receiving base station.
See the Cansat Pico User Guide section for more information on its integration.
See the Official Pico MicroPython starter guide for learning more about MicroPython on Pico.
Mechanical Aspect
When the kit was designed, we did foreseen the fact that the project could be assembled in many way.
The CANSAT-BASE is accompagned of several other board designed to quickly create the CanSat structure.
The following picture shows the mechanical evolution of CANSAT-LETTUCE from version 1 to version 2.
As you may notice it:
- The 3 external fixing points stays the same than version 1.
- The general diameter reduced to 60mm (instead of 64mm) leaving more room for 3D Print wall.
- The 6.4mm central hole accross all the CanSat V2 boards to build a central reinforcement column.
More information about mechanical in the Dimensions page.
Cansat V2 Pico Kit content
The Cansat V2 Pico Kit is designed to be compact, evolutive, customisable, sizable (in height) and programmed in Python (thank to MicroPython).
| | Page(s) en cours de traduction/élaboration. Page(s) under translation/construction |
The CanSat V2 Pico Kit is made of various products sold separately. The boards with SMD components are soldered and tested.
Some of the product like PICO-CANSAT-MCU or PICO-RFM69-433-BOOT should still have their connectors and/or MCU solder to the user.
Thankfully, when included into the Cansat V2 Pico kit the connectors are also soldered for you.
Kit content
Here the list of the items included into the CANSAT-PICO-KIT-V2 : Kit CANSAT V2 avec Raspberry-Pi Pico.
| Description | Quantité | |
CANSAT-BASE-V2
|
Base board for CanSat V2. Plug your Cansat-MCU and you are ready to connect sensors, the battery, start coding with MicroPython and emit data to the base station. disponible ici chez MCHobby |
1 |
CANSAT-PICO-MCU
|
Pico MCU holder kit. Kit to prepare a Pico based CANSAT MCU board. The provided Pico will be soldered for you. disponible ici chez MCHobby |
1 |
Raspberry-Pi Pico
|
Dual core RP2040 MCU @ 133 MHz with 264Ko RAM & 2 Mo Flash. One Pico is used on the PICO-CANSAT-MCU, the other is used for prototyping and base station. disponible ici chez MCHobby |
2 |
CANSAT-BUN-V2
|
Top/parachute Cansat V2 board. disponible ici chez MCHobby |
1 |
CANSAT-LETTUCE-V2
|
Prototyping board for CanSat V2. disponible ici chez MCHobby |
1 |
PICO-RFM69-433-BOOT
|
RFM69HCW 433MHz expansion for Pico. Plug your Pico, Connect your antenna and your ready to emit. SMA connector is pre-solder within the kit. disponible ici chez MCHobby |
1 |
CON-SMA-PCB-ANT
|
Antenna connector for the PICO-RFM69-433-BOOT. This connector is pre-solder within the kit. disponible ici chez MCHobby |
1 |
433Mhz-ANT-SMA
|
433 Mhz antenna with SMA connector. disponible ici chez MCHobby |
2 |
uFL-to-SMA
|
antenna connector adapter µFl to SMA. disponible ici chez MCHobby |
1 |
USB A/microB 1m cable
|
Can be used to plug your pico on a computer to program it or to reload the Lipo. disponible ici chez MCHobby |
1 |
Half Size Breadboard
|
Solderless breadboard are used for fast prototyping. disponible ici chez MCHobby |
1 |
Multi-functional breadboard wires
|
Set of wires with plug that can be modified from female to male. disponible ici chez MCHobby |
1 |
Lithium Polymer Battery
|
Transform the Feather into an autonomous plateform with this 1300mAh Lipo. disponible ici chez MCHobby |
1 |
JST-SH fast connexion wire
|
This 100mm wire can be used to connect Qwiic or StemmaQt board to the Pico in a snap disponible ici chez MCHobby |
1 |
Grove to Male pin wire
|
A great wire adapter to prototype/test electronic from grove connector. disponible ici chez MCHobby |
1 |
BMP280 – Barometric pressure sensor
|
Easily evaluate pressure, altitude and temperature. This board expose a StemmaQt connector disponible ici chez MCHobby |
1 |
TMP36 – analog temperature sensor
|
Transform the sensor voltage read on analog input into an easy-to-read temperature. disponible ici chez MCHobby |
1 |
Written by Meurisse D. for MCHobby