#microservo
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Project Iron Spine: Technical Blueprint
Concept Summary: Iron Spine is a lifelong, bio-integrated spinal augmentation unit designed to interface with the human nervous system using ionic and laser-based micro-needle technology. The system interprets brain signals non-invasively and assists with physical support, nerve stimulation, and strength augmentation. It draws inspiration from the durability of early twentieth-century mechanical design while leveraging cutting-edge medical, AI, and materials science advancements.
I. Structural Framework
Material: Aerospace-grade titanium alloy chassis
Support Frame: Carbon-composite skeletal harness with flexible segments and vibration-damping micro-pivots
Surface Shell: Graphene-infused smart fabric over memory metal honeycomb
Function: Lightweight, corrosion-resistant, shock-absorbent, long-term biocompatibility
II. Sensory & Needle Interface
Needles: Medical-grade laser-sharpened ionic micro-needles
Function: Penetrate dermal layer for neural stimulation or suppression without tissue damage
Sterilization: Self-cleaning ports using UV-C micro-pulse tech; retractable needle array
Infection Control: Antibacterial nano-coating around all ports and skin contact points
III. Comfort and Environmental Control
Temperature Regulation: Phase-changing thermogel padding
Sweat Management: Breathable, moisture-wicking graphene mesh lining
Adaptive Fit: Muscle-tracking smart-fabric straps with microservo adjusters
IV. Neural Interface System
Signal Interpretation: Non-invasive dry EEG sensors on upper neck and scalp perimeter
AI Core: Onboard redundant learning model interprets brain-to-spine electrical signals
AI Safety Layer: Fail-safes for nerve misfire prevention and automatic shutoff under stress
Interface Port: Optional external plug-in for diagnostics and software updates
V. Mobility and Strength Augmentation
Actuation: Artificial muscle fibers along spinal channel augment movement and strength
Load Bearing: Dynamic load distribution module for spinal pressure relief
Balance Assist: Internal gyro-sensor array linked to AI for stability monitoring
VI. Power and Energy
Primary Source: Solid-state lithium-ceramic power cell (20-year life)
Backup System: Kinetic energy recovery loop (walking, movement) and solar skin panels
Efficiency Management: Smart power routing and auto-shutdown of non-critical systems
VII. Durability and Longevity
Philosophy: Built to outlast its wearer if maintained
Maintenance: Modular internal units with user-friendly access points
Diagnostics: AI-run integrity scans with manual override
Design Principle: Repairable, not disposable. Parts are standardized and field-serviceable.
VIII. Optional Modules and Future Add-ons
Wireless Comms: Low-range neural command module for use with external devices
Emergency Protocol: Shock-dampening fail-safes, fall detection, and SOS beacon
Integrated Tools: Micro-med modules for basic injections, localized numbing, etc.
Aesthetic Philosophy: Steampunk-meets-space-age—visible gears, elegant form, and a timeless, practical beauty. A living relic that performs like a machine from the future, but feels like it came from the hands of an artisan.
Status: In Conceptual Prototyping Phase Ready for refinement with biomechanics experts, AI interfacing engineers, materials scientists, and medical device regulators.
Owner: [User] Codename: Iron Spine Initiative
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3 micro servos, 3 mini tact push buttons, 1 mini 170 tie point breadboard, 1 development board by @avnet #azurespheremt3620 a custom laser cut short prevention plate & motor enclosure. We love 💕 electronics and contests. #element14 #hackster #microsoftazure #microsoft #electronics #microservo #robotics #cryptography #iotdevice Laser cutting tools used: @fullspectrumlaser (at Tampa, Florida) https://www.instagram.com/p/B2VMdJNJ5cU/?igshid=1w9iq4u499cft
#azurespheremt3620#element14#hackster#microsoftazure#microsoft#electronics#microservo#robotics#cryptography#iotdevice
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The kit I bought to start working on the project:
- Wheel with DC 3-6V Gear Motor
- 9g Micro Servo Motor
- IR Infrared Obstacle Avoidance Sensor
- HC-SR04 Ultrasonic Distance Sensor
- L298N Dual H Bridge Stepper Motor Driver
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Challenge #02700-G143: All Possible Help
A: I must ask, what are those around you arms and legs?
B: I’m testing something I call “exo-suit” of course it’s not complete yet, but I’m done with the torso.
A: you made a hole through titanium.
B: and it’s not neurologically-linked yet -- Anon Guest
Of course Human Asty was up to something in the workshop. The ship-shuddering boom was a dead giveaway. Companion Zee decided to see what the devastation was about this time before it came to major structural damage.
There was a solid titanium plate with a fist-sized hole in it and a triumphant Human Asty extracting the fist. They were wearing something gleaming and vaguely skeletal over their body. "Ha! Yes! Excellent."
"What are you wearing?" said Companion Zee. On closer examination, Zee could see that it was a series of frames around Asty's body, appearing to be high-grade battle-ready cerametal with microservos along its glistening substructure. "What are you wearing?"
[Be sure to visit internutter (dot) org for a link to the rest of this story, and details on how to support this artist. Or visit peakd (dot) com (slash at) internutter for the stories at their freshest]
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Challenge #02700-G143: All Possible Help
A: I must ask, what are those around you arms and legs?
B: I’m testing something I call “exo-suit” of course it’s not complete yet, but I’m done with the torso.
A: you made a hole through titanium.
B: and it’s not neurologically-linked yet -- Anon Guest
Of course Human Asty was up to something in the workshop. The ship-shuddering boom was a dead giveaway. Companion Zee decided to see what the devastation was about this time before it came to major structural damage.
There was a solid titanium plate with a fist-sized hole in it and a triumphant Human Asty extracting the fist. They were wearing something gleaming and vaguely skeletal over their body. "Ha! Yes! Excellent."
"What are you wearing?" said Companion Zee. On closer examination, Zee could see that it was a series of frames around Asty's body, appearing to be high-grade battle-ready cerametal with microservos along its glistening substructure. "What are you wearing?"
[Be sure to visit internutter (dot) org for a link to the rest of this story, and details on how to support this artist. Or visit peakd (dot) com (slash at) internutter for the stories at their freshest]
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If you’re into #dlg #flying check out our CLS0309W #servos. They weight just 8.6 grams but put out 48.6 oz-in. of torque. Now only #34.95. Follow the link on our bio to go to the store 💪👍🛩 #rcfn #rcsf #rcflyernews #rcsportflyer #discuslaunchglider #soaring #microservo #gliders (at RC Flyer News)
#flying#dlg#gliders#rcsportflyer#rcflyernews#34#rcsf#rcfn#discuslaunchglider#microservo#servos#soaring
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Are you in the need of a Micro Servo that's SBUS compatible and made by a brand you can trust? FUTABA brings out the S3777SV! #futaba #servo #micro #microservo #futabaservo #mini #miniservo #racing #surface #robot #control #rc #rcservo #rccar #rccars #rctruck #tinycar #tinytruck #rcplane #rcflight #rchobby #rchobbies #rchub @rchub @futabarc
#micro#tinycar#rccar#futaba#rcflight#servo#control#tinytruck#rccars#miniservo#robot#rc#microservo#rchobby#rchobbies#racing#rchub#mini#surface#rctruck#rcservo#rcplane#futabaservo
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[He pauses- microservos still for a moment- and he shivers. He looks out the wide window of his new hab, seeing a flicker in the stars that makes his tanks roil.]
...By the pricking of my platin’, somethin’ wicked lays in waitin’.
[A shiver, a flutter of plating.]
Gettin’ superstitious in my old age. Just need some rest.
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“Left wrist microservos are jammed with silicon dust, your jaw gearing is misaligned and you’ve had a coolant breach in your neural rebalancers. There’s a few other things too.” Saburo stated, wearing his headset microscope. “Got in another firefight with the pigs?”
@thenihilistofthevoid (because you expressed interest in cyberpunk dabi)
There are few places he felt safe, one of those being with his technician. With so many augmentations he had to be in quite often.
"Alright, what's there damage this time." Not that he really needed to know, he could feel something grinding in his left wrist and in his jaw. And something leaking from the mechanics in his throat.
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【着弾】POWER HD TR-4 - マイクロサーボ
【着弾】POWER HD TR-4 – マイクロサーボ
今日は着弾物が一杯有りました。 家のインターホンがなる度に「ビクッ」となり、妻よりも先に受け取りに出るという作戦を決行し、なんとかごまかすことが出来ました。
最終的に4パッケージ。 アメリカから1点 中国から3点でした。
2点目はゴールデンウィーク開けの5/10に注文してあったマイクローサーボでした。
http://www.chd.hk/Product_Detail.aspx?id=183 POWER HD TR-4 Waterproof
以前以下の記事で紹介しました。
https://rccrawlers.net/2020/05/23/microservo-thinking-scx10%e2%85%b2/
ポイントはなんと言っても、マイクロサーボでは少ない防水仕様という事。 そして、7.4V駆動が可能という点です。 ただ、現在のマイクロサーボは6.0V…
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Ooh sounds exciting! Adafruit often has a ton of learn guides for various sensors with wiring diagrams and example code
I know what you mean with the distance sensor (assuming ultrasonic?), when I looked for tutorials on it a few years back all I could find was circuitpython examples (I’m lucky that I learn this at uni now). This link should hopefully help you though! (just remember that most ultrasonics have a range of 0.1 -> 2.5 metres. There are some that do double that but are pretty pricey)
https://arduinogetstarted.com/tutorials/arduino-ultrasonic-sensor
As for bigger servos, I get most of mine as salvage from broken RC cars (the batteries die on them and people just chuck them out, but the rest of the electronics are usually still good! Although many will just have a regular motor for the steering, mainly just have to keep an eye out). Not sure where sells servos where you live (I’m in australia which is pretty far from everything), but most hobby stores that sell RC cars will often have very strong servos with other RC car part replacements, the pinout for servos is standardised so it should wire up the same
Something you’ll want to keep in mind too is that servos are very power hungry, and will generally need their own power supply (wiring as red or orange to positive power, black or brown to ground, and white or yellow to one of the arduino PWM pins (signified by a wavy line next to the number)), larger servos can often run at 12V so you’d probably have to do this anyways, but always check the datasheet to make sure! (i had a project in the past with a light sensor (3V) and a microservo (5-7V) where whenever the servo moved it caused the entire light reading section to freak out from undervoltage)
Was poking around with servos today, blacked out, and suddenly 6 hours later I made a sentry (yes it does beep! Just a tad quiet)
Has both an automatic and a manual mode that it toggles between with a press of a button! The led lights up when automatic mode is active
Currently working out some small bugs like if it's been in manual mode for a while, switching back to auto mode makes the servo speed Very Fast for no reason (fixed upon reset, requires some serial prints to figure out the problem), wiring the pot in backwards (it should turn left when moved left and vice versa; literally 3 second fix) and various button debounce issues, but nothing too big
Final servo will be bigger than this, this one was just for testing
This will be for @teet-feet-two 's engineer cosplay! :)
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Muñeca textil y microservo para pruebas de movimiento con Arduino
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Arduino: Project 22: Control Servo with potentiometer
Arduino: Project 22: Control Servo with potentiometer
Hello everyone!! Welcome to this post on Arduino Projects!! Need a short introduction to what the Arduino is then click on LINK Check out the breadboard intro right HERE
Soo in this project I just got a microservo to turn according to the voltage across a potentiometer.
Demo:
Things Required:
Arduino UNO
Jumper Wires
microservo
10k ohm resistor
Arduino IDE on computer
Code:
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Prototyping the Jaw Servo
The last major component that needed to be addressed for the Babblefish before moving onto the final merged microcontroller system was the servo that would drive jaw movement.
Overall, the servo ended up being pretty simple to figure out. The main consideration was to move from a smaller microservo, the SG90, to a larger, more powerful one that would be able to provide more torque and hopefully make less noise, called the HiTec HS430BH High Voltage Servo.
The final design would use the default, built-in servo library.
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So sie sind da die ja Alternative für die microservos für den Text-4 oder summit
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Building a Shape Arcade Testing the motorized function of my prototype cabinet. Right now I have a square taped to an SG90 microservo that is mapped to the player controller. The hope is to have several shapes moving on the side of the cabinet as you play. It’s very cool, but kind of gimmicky at the moment. If it manages to perform well in testing without distracting players (the servos are pretty noisy), I’ll keep it :)
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