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this module has connecable air locks a landing pad with incomming ship and is under seige by a alien creature.
I took inspirtion from Dune and Star Wars for the ground dwelling creature.
This small hybrid module, located in the button of your power drill, does all the power control for the motor... and a good part of the price of your drill.
Constructing the module used for the modular dodecahedron.
Ricardo, I hope this helps you build it as fast as possible. :)
There are some hiccups, it could go smoother, but I hope you see the fast way to build the triangle base and the way to add 2-3 bars at a time and add the spheres later, all to save time.
Furthermore, this method of always building with a 'string' of bars and creating closed loops ensures that the final module is automatically the strongest possible because there are no strong polarities conflicting inside.
SPI module ready, Only a few tests to be done and then installed in a small black box.
SPI clock: 500 KHz
Refresch time scan min : 52 usec
Inputs: 24, 3K3 pullups, 12 inputs with 10nF filter.
Input Levels: TTL or 5V
Power to input devices: 5V
Scenes from the Artemis I mission going beyond the Moon and back to Earth taken at ESA's mission evaluation room housed in the Erasmus support facility at ESA's technical heart ESTEC in The Netherlands.
Experts from ESA, Airbus and Thales Alenia Space constantly watch the European Service Module’s systems from countdown to launch and during flight. The operational team is located in the Erasmus Support Facility, a multi-purpose control centre which supports users from the International Space Station European Robotic Arm, ESA’s Columbus Space Station module and public relations teams.
After its launch on November 16, the Orion spacecraft has been heading toward the Moon on its 25-day Artemis I mission. Orion was launched by the NASA Space Launch System (SLS) rocket at 7:47 CET (06:47 GMT) from launchpad 39B at NASA’s Kennedy Space Center in Florida, USA.4
The European Service Module is powering Orion, providing propulsion, temperature control, electricity as well as storage and delivery for essential supplies such as fuel, water and air. This first Artemis mission is an uncrewed test mission, putting the spacecraft through its paces preparing to send astronauts forward to the Moon.
The uncrewed mission to learn as much as possible about Orion and its European Service Module’s performance. The primary objectives are to demonstrate Orion’s heat shield on reentry, demonstrate operations and facilities during all mission phases, and retrieve the spacecraft after splashdown.
More on the ESA control centre here: www.esa.int/Science_Exploration/Human_and_Robotic_Explora...
Credits: ESA–A. Conigli
DSC_1547proc
The Orion crew and service module stack for Artemis I was lifted out of the Final Assembly and Test (FAST) cell on Monday, November 11. The spacecraft has been stationed in the FAST cell since July 2019 for mating and closeout processing.
The service module and crew module were moved separately into the cell, stacked and connected together for the mission.
After lifting out of the cell, Orion will be attached to a tool called a verticator that rotates the stack from its vertical configuration to a horizontal configuration for transport to NASA’s Plum Brook Station in Sandusky, Ohio, USA, where it will undergo full environmental testing to certify the complete vehicle for flight.
Once the vehicle returns to NASA's Kennedy Space Centre it will return to the FAST cell for installation of final panels left off for environmental testing purposes and the service module’s four solar arrays.
Credit: NASA–Rad Sinyak
Display T35 Module (3.5" with touchscreen)
Embedded Electronics Starter Kit from GHI Electronics
FEZ Spider Starter Kit
www.ghielectronics.com/catalog/product/297
FEZ Spider Starter Kit is the first commercially available .NET Gadgeteer-compatible kit. it includes everything necessary for educators, hobbyists and even professionals. Embedded development is fast & easy (FEZ) thanks to .NET Micro Framework, .NET Gadgeteer and the numerous GHI value added features such as WiFi and USB Host.
The kit includes:
FEZ Spider Mainboard
Display T35 Module (3.5" with touchscreen)
USB Client DP Module (with USB cable)
Camera Module
2x Multicolor LED Module (DaisyLink)
2x Button Module
Ethernet J11D Module
SD Card Module
USB Host Module
Extender Module
Joystick Module
10cm IDC cables (included with modules).
Assorted IDC Cable Pack:
4x 5cm IDC cables
3x 20cm IDC cables
1x 50cm IDC cable
Reusable Plastic Storage Box
FEZ Spider Mainboard is a .NET Gadgeteer-compatible mainboard based on GHI Electronics' EMX module. This makes FEZ Spider Mainboard the most feature-full .NET Gadgeteer compatible device in the market. It contains all of .NET Micro Framework core features and adds many exclusive features, such as USB host, WiFi and RLP (loading native code). All these features combine to provide a rapid prototyping platform.
Key Features:
14 .NET Gadgeteer compatible sockets that include these types: X, Y, A, C, D, E, F, H, I, K, O, P, S, T, U, R, G, B and Z.
Configurable on-board LED
Configuration switches.
Based on GHI Electronics EMX module
72MHz 32-bit ARM7 processor
4.5 MB Flash
16 MB RAM
LCD controller
Full TCP/IP Stack with SSL, HTTP, TCP, UDP, DHCP
Ethernet, WiFi driver and PPP ( GPRS/ 3G modems) and DPWS
USB host
USB Device with specialized libraries to emulate devices like thumb-drive, virtual COM (CDC), mouse, keyboard
76 GPIO Pin
2 SPI (8/16bit)
I2C
4 UART
2 CAN Channels
7 10-bit Analog Inputs
10-bit Analog Output (capable of WAV audio playback)
4-bit SD/MMC Memory card interface
6 PWM
OneWire interface (available on any IO)
Built-in Real Time Clock (RTC) with the suitable crystal
Processor register access
OutputCompare for generating waveforms with high accuracy
RLP allowing users to load native code (C/Assembly) for real-time requirements
Extended double-precision math class
FAT File System
Cryptography (AES and XTEA)
Low power and hibernate support
In-field update (from SD, network or other)
Dimensions: W 2.25" x L 2.05" x H 0.5"
Power
Low power and hibernate modes
Active power consumption 160 mA
Idle power consumption 120 mA
Hibernate power consumption 40 mA
Enviromental:
Requires .NET Gadgeteer standard red power modules.
RoHS compliant /Lead-free compliant
Most EMX software features are GHI exclusive, see software documentation for details.
For more information about .NET Gadgeteer visit:
Photograph taken by Michael Kappel
These modules are for a 100 system I am putting together. The old Buchla sounds nothing like the new Buchla.
Sjøhus, (sea houses, litterally translated) are industrial buildings from the times when boats were the only efficient way of transport. These cladded, timber frame buildings were used for all kinds of purposes connected to trade and fisheries on the Norwegian coast. The typical protruding part of the gable (vindehus) is protecting the hoist mechanism.
Front view with equipment removed. (From L to R) - Lab, Collector Pod, Shutt;e Pod, Sensor bouys, Sensor module, cabin module, storage module, and cabin module.
Photo by Bullard photography.
The Sweetening Deck Module for the Buzzard Oilfield is towed out of Hartlepool aboard the barge Giant 4. The module was built at Heerema Hartlepool Fabrication Yard 29th April 2010.
Sjøhus, (sea houses, litterally translated) are industrial buildings from the times when boats were the only efficient way of transport. These cladded, timber frame buildings were used for all kinds of purposes connected to trade and fisheries on the Norwegian coast. The typical protruding part of the gable (vindehus) is protecting the hoist mechanism.
Building consists of 4 modules.
→ More info can be found here.
→ More photos can be found in this album.