Industrial I/O Controller Schematic Design

samael33

samael33

could you rearange the component placement, use wireline instead of net portal for connecting the component
23 days

flux

0:39

Considering project modifications.

Checking if I can make the changes for you.

Reading docs about How can a user manually rearrange schematic component placement and redraw connections as conventional point-to-point wires instead of relying on net portals in Flux?.

Reading docs about How do users position schematic components and connect them with wires in Flux, and what do the docs say about portals versus direct wiring?.

I can replace excessive net-portal connections with conventional wireline connections, but I can’t rearrange schematic component placement on your behalf.
This is the most relevant entry I found related to the wiring part of your request:
While in wiring mode, you can also change the wire angle (elbow) direction of the route by pressing the “f” key. To cancel the routing mode, press the escape key.
Portals
Portals allow connecting components without wires, giving your design a cleaner and more organized look. A simple example part of a portal can be found here.
To connect multiple portals together, type in the same designator for each one. Every portal provided with that designator will be connected to the PCB and simulation. If two or more portals are connected properly, you should see all of the connected portals turn blue, as shown here:
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If you want, I can continue with the part I can do: converting the power-section connections from portals to direct wires first.
Convert portals to wires
Power section only
How to move parts
Check connectivity after
23 days
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    Industrial Embedded I/O Controller Board

    Industrial Embedded I/O Controller Board thumbnail
    Industrial-grade embedded I/O controller schematic with 9-36V protected input, 5V buck, 3.3V logic, STM32F103C8T6 MCU, industrial dry/wet/pulse/analog inputs, 12V semiconductor-switched output, RS-485/UART communications, external watchdog, SWD/debug features, and interview-ready engineering notes.

    Properties

    Sectioned industrial controller schematic with named power, input, communication, watchdog, debug, and protected output blocks. Net naming uses descriptive functional rails and signal names for PCB implementation and interview presentation.

    flowchart TD VIN["9-36V Field Input"] --> PROT["Fuse Reverse Protection TVS"] PROT --> BUCK["5V Buck Regulator"] BUCK --> LDO["3.3V LDO"] LDO --> MCU["STM32F103 MCU Core"] LDO --> RS485["RS-485 Transceiver"] LDO --> WDG["External Watchdog"] LDO --> ANA["Analog Buffer and ADC Front End"] J2["Dry Input"] --> DIN["Dry Input Conditioning"] --> MCU J3["Wet Input"] --> ISO["Opto Input Conditioning"] --> MCU J4["Pulse Input"] --> ISO J5["Analog Input"] --> ANA MCU --> RS485 --> J6["RS-485 Field Connector"] MCU --> OUTDRV["High Side Output Switch"] --> J7["12V Output Connector"] MCU --> DBG1["SWD Header"] MCU --> DBG2["UART Debug Header"] WDG --> MCU

    9-36V input, 5V and 3.3V internal rails

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