Pseudo-Medical Monitor Hand-Held External Unit Design

From LVL1
Revision as of 15:19, 10 December 2021 by Unknown user (talk)
Jump to navigation Jump to search
UNIT
Device Notes Port Description Connection Diagram

Hand-Held Grip and Reflex Sensor

  • Steady Hold
  • Grip Strength
  • User Response Switch
  • Vibration Generation
Pin Mapping
Line # Device Signal Function
1 3.3V Power
2 GND Power
3 MPU6050/ATTiny85 Token I2C-SDA
4 MPU6050/ATTiny85 Token I2C-SCL
5 MPU6050-INT GPIO
6 Vibrating Motor I/O GPIO
7 Momentary Push Button GPIO
8 Grip Sensor Analog

This Amazing, Affordable, Earth Changing Device, for which no endorsement is to be inferred, is designed as a shot in the dark.

Hand-Held Grip and Reflex External Unit

Components and Materials

General Components
Device Name Use
Momentary Switch 
Provide user response
Vibrating Motor 
Provide sensory input to user
ATTiny85 Token 
Identify External Unit to Main Unit
Single RJ45 Port 
Connection to Main Unit
Foam Sheet 
Outer Cover
Copper Tape 
Conductive surface for Velostat sheet readings
Polycarbonate Tube (Size/Length/Diameter/Thickness varied according to use) 
Grip Structure

Sensors

Sensors
Device Name Description Interface
MPU6050 6 DOF Micro Electro-Mechanical Systems (MEMS) 3-axis Accelerometer and 3-axis Gyroscope I2C Address 0x68 or 0x69
Velostat Pressure-Sensitive Conductive Sheet Resistance measurement between points Analog Voltage Output

Wiring

Sub-Assembly Elements Schematic

Hand Held Unit PCB

  • MPU6050
  • Vibrating Motor Circuit
  • Velostat Wrap
  • Copper Rings
  • Momentary Switch
  • ATTiny85 Token

Assembly

Build

Retrieved from "http://wiki.lvl1.org/index.php?title=Pseudo-Medical_Monitor_Hand-Held_External_Unit_Design&oldid=14415"