Difference between revisions of "Team:ZJU-China/Demonstrate"
SaltedFish (Talk | contribs) |
|||
| Line 172: | Line 172: | ||
<div class="content3" style="font-size:20px"> | <div class="content3" style="font-size:20px"> | ||
<div align="center"><img src="https://static.igem.org/mediawiki/2016/thumb/6/69/Whole_view.jpg/800px-Whole_view.jpg"></div> | <div align="center"><img src="https://static.igem.org/mediawiki/2016/thumb/6/69/Whole_view.jpg/800px-Whole_view.jpg"></div> | ||
| − | In addition to the microfluidic device as the core part, we have designed the mechanical device for the project. The whole system consists of four parts: the main body, lighting board, shading baffle and microfluidic chip. The design details for each part are described in the hardware page. | + | <br>In addition to the microfluidic device as the core part, we have designed the mechanical device for the project. The whole system consists of four parts: the main body, lighting board, shading baffle and microfluidic chip. The design details for each part are described in the hardware page.<br> |
When assembled, four LED lights into the corresponding four holes, four single-pole double-throw switch on the external circuit board can switch the light color (red or green), the power switch is on the battery box. Microfluidic chip inserted into the above slot, the shading baffle, which has the same size as the microfluidic chip, is inserted into the following slot, to avoid the stray light interference. When used, the overall device will be placed in 37 ° incubator, press the four switches to adjust the LED light into the appropriate color, waiting for flora to respond to light signals. Later, take out the baffle and observer the color of each trap, and that is the "cipher text" we get. | When assembled, four LED lights into the corresponding four holes, four single-pole double-throw switch on the external circuit board can switch the light color (red or green), the power switch is on the battery box. Microfluidic chip inserted into the above slot, the shading baffle, which has the same size as the microfluidic chip, is inserted into the following slot, to avoid the stray light interference. When used, the overall device will be placed in 37 ° incubator, press the four switches to adjust the LED light into the appropriate color, waiting for flora to respond to light signals. Later, take out the baffle and observer the color of each trap, and that is the "cipher text" we get. | ||
Revision as of 16:35, 3 October 2016
DEMONSTRATE
Overview
Schematic
In addition to the microfluidic device as the core part, we have designed the mechanical device for the project. The whole system consists of four parts: the main body, lighting board, shading baffle and microfluidic chip. The design details for each part are described in the hardware page.
When assembled, four LED lights into the corresponding four holes, four single-pole double-throw switch on the external circuit board can switch the light color (red or green), the power switch is on the battery box. Microfluidic chip inserted into the above slot, the shading baffle, which has the same size as the microfluidic chip, is inserted into the following slot, to avoid the stray light interference. When used, the overall device will be placed in 37 ° incubator, press the four switches to adjust the LED light into the appropriate color, waiting for flora to respond to light signals. Later, take out the baffle and observer the color of each trap, and that is the "cipher text" we get.
