Temperature and Humidity Sensor Design

flux

1:05

Accessing knowledge base.

Cíl: přidám spodní keep‑out Ø38 mm, symetrizuji Hole5/Hole6, přesunu Q1/Q2 na spodní stranu nad oblast chladiče a ponechám J1J4 nahoře, poté spustím DRC.
  • Spodní keep‑out: kruh Ø38 mm, blokuje měď, průchodky i součástky; pouze bottom vrstvy.
  • M3 NPTH: Hole5/Hole6 symetricky, 1.5 mm copper keep‑out.
  • Výkon: flip Q1/Q2 na spodní, osadit nad keep‑out; přidat hustý via‑plot u okraje (na GND).
  • Ostatní: J1J4 a malé signály zůstanou nahoře; ověřím krátké di/dt smyčky; spustím DRC.
Klikněte Start na liště plánu a provedu změny.
Vytvořit keep-out zónu
Symetrické NPTH díry
Flip komponentů
Thermal via fence
Spustit DRC
180 days

Started implementing a plan

#Goal

- Modify the existing Ø73 mm circular PCB for the Desirable Apricot Holodeck by adding a bottom-side heatsink keep-out area, relocating the power MOSFETs (Q1/Q2) to the bottom over the designated area, and maintaining all connectors and small-signal parts (J1–J4 and others) on the top. Validate the layout via DRC to ensure design rule compliance.

#Implementation plan

1. Define heatsink keep-out zone on the bottom layer:

1. Create a centered circular keep-out region (Ø38 mm) on the bottom layer that prevents copper, vias, and component placement within the heatsink area.

2. Lock the keep-out to affect only the bottom layer.

2. Update NPTH hole placement for symmetric mounting:

1. Position NPTH holes Hole5 and Hole6 symmetrically around the board center.

2. Add a 1.5 mm copper keep-out or clearance ring around each of these holes to avoid interference with the bottom heatsink area.

3. Relocate power MOSFETs:

1. Move Q1 and Q2 (IPT012N08N5) to the bottom side, positioning them over the defined heatsink keep-out zone.

2. Add a dense thermal via fence around the perimeter of the keep-out area, connecting to the bottom layer GND (L2), to enhance thermal performance.

4. Maintain connectors and small-signal components on the top side:

1. Ensure that J1–J4 (282837-2 and 0022232031) and small-signal parts (e.g., U2 INA180A1, U5 LM393ADR, other passive components) remain on the top layer.

2. Verify that power supply routing and high di/dt loops remain short, as per design requirements.

5. Run DRC validation:

1. Execute a Design Rule Check (DRC) to identify and resolve any clearance or placement violations due to the modifications.

#Success criteria

- The bottom layer features a clearly defined Ø38 mm keep-out area for the heatsink that blocks copper, vias, and components.

- Power MOSFETs Q1/Q2 are relocated to the bottom layer and positioned over the heatsink keep-out, with an adjacent thermal via fence tied to GND.

- All connectors and small-signal components remain exclusively on the top layer.

- DRC results show no rule violations related to clearance, component placement, or keep-out conflicts.

180 days

Adding bottom keep-out zone...

0:44

Started: Add a circular keep-out region on the bottom layer, 38 mm diameter, centered on the board

180 days

Updated 1 layout rule

0:27

180 days

Stopped due to a problem. Please try again.

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Desirable Apricot Holodeck thumbnail
Optimized EMI Synchronous Buck Converter for CC/CV 4S4P Li-ion Battery Charging & Load Testing (150W, 18–60V to 16.8V/11.5A)

Properties

Diagram



  
    
  
  
    
  






















Input Source
Synchronous Buck Controller
MOSFETs
Inductor
Output
"Voltage Feedback (CV)"
"Current Feedback (CC)"
Soft-Start
Protections
Measurement Points

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