Chat

Welcome to Flux

Treat Flux like your intern. Tell it what you'd like to build and it'll get to work. You can also ask it questions, brainstorm ideas, and teach it your preferences. Learn More

Explain project
Write a project description
Find schematic issues
Create a test plan
Simulate a circuit
Prepare for Manufacturing
Component Selection Workflow
New Subsystem Wizard
Write I2C initialization code
Generate firmware skeleton
Sign up to send
create a high level mermaid block diagram of this project. Include key component...
adarshgd

adarshgd

@copilot create a high level mermaid block diagram of this project. Include key component's manufacturer part number in each block whenever possible.
2y

copilot

Creating a high-level mermaid block diagram for your project involves structuring the various components into a clear representation. Here's how the components of your project can be represented in a mermaid block diagram format, highlighting key components and their manufacturer part numbers (MPNs) whenever provided. Note that for simplicity, connections between every pin may not be detailed, and power nets or grounds may be represented generally to focus on functional blocks and interactions.
Diagram



  
    
  
  
    
  


























































































3
Texas Instruments Inc. ARDUINO_NANO
Phoenix Contact 1843664
Phoenix Contact 1843664
DS1307
Sensors
PROXIMITY
HUMAN PRESENCE
Manual Override
Diodes
Yangjie Technology node_1N4007
Yangjie Technology node_1N4007
Diotec Semiconductor M7
Diotec Semiconductor M7
Diotec Semiconductor M7
Diotec Semiconductor M7
Transistors
Transistor MMBT3904
Transistor MMBT3904
Transistor MMBT3904
Transistor MMBT3904
Transistor MMBT3904
Transistor MMBT3904
Optocouplers
Taiwan Semiconductor Corporation PC817C
Taiwan Semiconductor Corporation PC817C
Taiwan Semiconductor Corporation PC817C
Taiwan Semiconductor Corporation PC817C
RELAYS
Hongfa HFD2/012-S-L2-D
Hongfa HFD2/012-S-L2-D
Jumpers
JP5
node_5VJP
node_12VJP
Resistors
SMD_0603_1608Metric 500Ω
SMD_0603_1608Metric 500Ω
SMD_0603_1608Metric 500Ω
R4
R5
R6
SMD_0603_1608Metric 500Ω
R8
SMD_0603_1608Metric 500Ω
R10
SMD_0603_1608Metric 500Ω
R12
R13
R14
Note: This diagram simplifies connections and focuses on the main components. The Arduino Nano acts as the central controller, interacting with sensors, controlling relays, LEDs, and interfacing with communication modules like the DS1307 (Real-Time Clock) and AT24C256 (EEPROM). Every resistor, diode, and transistor is represented in groups for clarity, without detailing each connection to the microcontroller. The "Diodes" block includes all diodes used in the project with their respective MPNs where available. Similarly, the "Transistors" block collectively represents NPN transistors used. PowerNet elements and grounds are generally represented to focus on the functional connections and interactions.
This arrangement provides a high-level overview, useful for understanding the project components and their interactions at a glance.
2y
2
create a high level mermaid block diagram of this project. Include key component...
adarshgd

adarshgd

@copilot create a high level mermaid block diagram of this project. Include key component's manufacturer part number in each block whenever possible.
2y

copilot

Creating a high-level Mermaid block diagram of your project involves organizing the main components and their relationships in a simplified manner. Let's focus on key components and their connections based on your project's description. Given the broad scope and complexity of the project with numerous components and nets, I'll highlight essential elements and their connections for clarity.
Please note, Mermaid diagrams in this context are textual representations used for simplicity. To visualize this Mermaid diagram, you'd use a tool or platform that supports Mermaid syntax.
Diagram



  
    
  
  
    
  
























D9

D3, D2

D10

VIN

A4

D13/SCK

D12/MISO

I2C

A

Control

Control

Control

Control

B

Override



























3
ARDUINO_NANO
S8550 Buzzer Module
PROXIMITY
500 Ω
1843664
AT24C256
500 Ω
500 Ω
1843664
DS1307
WP7113SRD/D
SRD-12VDC-SL-C
SRD-12VDC-SL-C
XY301V-A-5.0-3P
HFD2/012-S-L2-D
HFD2/012-S-L2-D
1N4007
1N4007
MMBT3904
R4
MMBT3904
MANUAL_OVERRIDE
PC817C
node_5VJP
PC817C
node_12VJP
This diagram highlights the core functional blocks and their interconnections, including control paths from the Arduino Nano to other components like the buzzer module, proximity sensor interface, relays, and the LED. It also shows the power management components connecting to various power jumper headers (JP), and the interaction between the AT24C256 EEPROM and the DS1307 Real-Time Clock via I2C. The relays and their control paths are also highlighted, indicating how they are driven by the Arduino and potentially manual override interfaces.
The chosen components for depiction in the block diagram are based on their role in control, sensing, and power management, considering their importance in the overall project functionality. This abstract representation might not include every detail of the project or the specific data lines used for connection but attempts to provide a simplified overview of the system's architecture.
2y
3
PowerNet5
LED1
PowerNet2
PowerNet4
PROXIMITY
BUZZER
R15
Resistance
Resistance

No results...

Learn to Add a Component

FINAL-PTL

Welcome to your new project. Imagine what you can build here.

Properties

Properties describe core aspects of the project.

Pricing & Availability

Distributor

Qty 1

Arrow

$0.04–$0.36

Digi-Key

$2.50–$3.17

LCSC

$5.45–$5.74

Mouser

$0.90

Verical

$0.04–$19.20

Controls