Group 18 - Syma S033G RC Chopper (Battery Powered)

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[[File:SymaRCchopper1.jpg|thumb|Syma S033 RC Helicopter]]
 
[[File:SymaRCchopper1.jpg|thumb|Syma S033 RC Helicopter]]
  
 
 
 
 
 
 
 
 
 
 
 
 
=Course Project: Gate 1: Project Planning=
 
       
 
Table 1: Preparation and Initial Assessment Questions
 
 
Create a complexity profile for the product(s):
 
 
The Syma S033G R/C Helicopter is made up of a number of components. Which includes main rotor, tail rotor, gears, motors,
 
landing skids, PCB-box, Main blades, charger, tail blade, metal frame, mAH-Li-poly battery (7.4V), balance bar, inner shaft, connect
 
buckle, tail support pipe, tail competent, top blades grip set, light circuit, power transistors, under blades grip set, motor protect slice,
 
yellow head cover, tail motor set, base, yellow tail decorated blades, and a battery case. The components are not very complex,
 
easy to understand. Easily broken down and to build back up again, as it says, for ages 14+. The component’s interactions is not
 
very complex.
 
 
Create a user interaction profile for the product(s):
 
   
 
The Syma S033G R/C Helicopter is easy to use. The user has to charge the the helicopter. When it is fully charged the LED light will
 
turn from a red light to a green light (make sure to always turn off the helicopter power first). Once that is done,the user has to install
 
batteries into the remote control (Four size 1.5V AA batteries). Batteries have to be purchased separately. Now it is ready to fly.
 
 
To fly this R/C helicopter is an easy job. Push the rudder stick toward left to turn counter clockwise. Push the rudder stick toward
 
right to turn clockwise. When you push the right control lever (steering rudder), the nose incline to down, the helicopter is moving forward.
 
When you push down the right control lever (steering rudder), the nose inclines up, the helicopter is moving backward. When you push the
 
left stick (throttle) the speed of the main rotor blade will increase and the helicopter will go up. When you pull down the left stick (throttle)
 
the speed of the motor rotor blade will decrease and the helicopter will go down. The helicopter has two flight modes, for Beginner and for
 
Master-hand. The Beginner mode which is the factory’s default state.
 
   
 
Although regular maintenance is required, it is an easy task. All the user has to do is, clean the helicopter with a clean and soft cloth. Do
 
not put the helicopter under the direct sun or strong lighting. Do not soak the toys in water, or the electronic parts will be destructed.
 
Regularly check the plug and other spare parts.
 
  
 
== Group Members ==
 
== Group Members ==
Vishnu Nair Aravindakshan
 
  
Yu Jin Goh
 
  
Meng Duan
+
{| class="wikitable"
 +
| '''Name''' ||  '''Email''' 
 +
|-
 +
| Vishnu Nair Aravindakshan  || vishnuna@buffalo.edu
 +
|-
 +
| Yu Jin Goh  || yujingoh@buffalo.edu 
 +
|-
 +
| Meng Duan || mengduan@buffalo.edu
 +
|-
 +
| Zelei Li || zeleili@buffalo.edu 
 +
|-
 +
| Man Kit Wu  || mankitwu@buffalo.edu 
 +
|}
  
Zelei Li
+
== Gates ==
  
Man Kit Wu
 
  
 +
To ensure the smooth flow of the project throughout the semester, 5 project gates have been set where certain tasks must be completed by the due date for evaluation. The 5 gates are the following:
  
== Gates ==
 
  
 
[[Gate 1 - Project Planning (Group 18)]]
 
[[Gate 1 - Project Planning (Group 18)]]

Revision as of 21:19, 7 October 2012

Contents

Purpose

The purpose of this project is to allow students to broaden their perspectives on engineering decisions, hone their engineering skills and relate the material thought in class to the successful accomplishment of this project. Students also get to experience what it would be like to work as an engineer in the future as they are required to work in groups, overcome challenges faced together and meet the set deadlines.


Product

The product that was chosen to be dissected for this project is the Syma S033G RC Chopper. The reason for this choice is this product has many mechanical components and we decided it would be interesting for us to learn how these mechanical components make this RC helicopter fly. A product proposal was written and handed over to the instructors of the MAE 277 course, Professor Phillip Cormier and Professor Andrew Olewnik, and was approved by them.

Syma S033 RC Helicopter


Group Members

Name Email
Vishnu Nair Aravindakshan vishnuna@buffalo.edu
Yu Jin Goh yujingoh@buffalo.edu
Meng Duan mengduan@buffalo.edu
Zelei Li zeleili@buffalo.edu
Man Kit Wu mankitwu@buffalo.edu

Gates

To ensure the smooth flow of the project throughout the semester, 5 project gates have been set where certain tasks must be completed by the due date for evaluation. The 5 gates are the following:


Gate 1 - Project Planning (Group 18)

Gate 2 - Product Dissection (Group 18)

Gate 3 - Product Analysis (Group 18)

Gate 4 - Product Explanation (Group 18)

Gate 5 - Delivery (Group 18)

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