Great — I’ll treat PropSensorFlex.kicad_sch as the source of truth for the complete pinout and compare it against the current project spec before building the Flux schematic.
Got it — I’ll use PropSensorFlex.kicad_sch as the complete pinout source.
I can see the asset is attached, but Flux hasn’t exposed its internal KiCad contents to me yet, so I can’t extract the exact nets/pins directly from it in this chat. Next best step: either import/rebuild the schematic from that KiCad file in Flux, or paste/upload the pinout text/netlist and I’ll wire the Flux schematic from it.
Design a flexible PCB sensor interface board that connects to an Adafruit Feather M0 Adalogger. The flex board includes two Texas Instruments ADS1232 24-bit ADCs, one Analog Devices/Maxim DS3231M RTC, one ST H3LIS331 accelerometer, and a CR2020 coin cell holder for RTC keep-alive power.
1 × DS3231M RTC, preferred compact DS3231MZ 8-SOIC variant unless a 16-SOIC DS3231M package is required
1 × H3LIS331DLTR high-g accelerometer, LGA-16
1 × CR2020-compatible coin-cell holder for RTC VBAT backup
Direct plug-in interface to the Adafruit Feather M0 Adalogger headers, using the Feather header footprint/pin locations rather than an FPC or board-to-board connector
Assumed Architecture
Main logic rail: 3.3 V supplied by the Adafruit Feather M0 Adalogger.
The Adafruit Feather M0 Adalogger onboard battery connector receptacle is removed. The remaining Feather battery solder pads are wired to a separate main LiPo battery holder.
Main battery wiring: two 6 inch, 22 AWG wires leave from the two battery contacts under the removed JST battery connector footprint/pads, route over the center of the Adalogger M0, and exit near the Micro USB connector just to the right of the pin 13 LED. Red wire = battery positive; black wire = ground. These wires connect to a battery holder that is separate from the sensor and Adalogger assembly. No strain relief is required.
DS3231M connects over the Feather M0 Adalogger I2C bus using the dedicated SDA and SCL header pins, and uses the CR2020 only on VBAT for timekeeping backup.
H3LIS331 connects over the same Feather M0 Adalogger I2C bus using the dedicated SDA and SCL header pins.
ADS1232 devices use separate digital control/data lines to the Feather. Their analog bridge/sensor inputs require external sensor connector definitions before final wiring.
Common ground between flex board and Feather.
The separate main LiPo battery holder feeding the Feather battery pads is distinct from the CR2020 coin cell, which is only for DS3231M RTC keep-alive backup.
Mechanical/electrical interface: flex board plugs directly into the Feather headers. The layout should include appropriate stiffener/support around the header contact area because flex material alone is not mechanically robust for repeated plug/unplug cycles.
Open Requirements Before Schematic Capture
Confirm the Feather M0 Adalogger pin assignments available for ADS1232 DOUT/SCLK/PDWN/SPEED/GAIN/A0/TEMP. The RTC and H3LIS331 are assigned to the dedicated SDA/SCL I2C pins.
Confirm whether each ADS1232 connects to one bridge sensor or two differential inputs, and define sensor connector type/pinout.
Confirm ADS1232 excitation/reference strategy: use 3.3 V directly, a filtered 3.3 V analog rail, or a dedicated reference/excitation supply.
Confirm flex-board mechanical constraints: outline, bend zones, stiffener areas, minimum bend radius, and whether coin cell/ICs must sit on stiffened rigid areas.
Confirm whether the flex board should mate to Feather female headers via male pins, plug into Feather stacking headers, or be soldered directly to the Feather header pads.
Battery wiring details confirmed: removed connector is the JST battery connector footprint/pads; use 22 AWG red/black 6 inch leads; red = battery positive, black = ground; no strain relief required.
Flex PCB Notes
Place the coin cell holder, TSSOP ADCs, SOIC RTC, LGA accelerometer, and Feather header plug-in region on stiffened non-bending zones.
Avoid traces crossing bend regions where possible; where unavoidable, route perpendicular/straight with generous width and no vias in bend areas.
Keep analog bridge input routing away from digital clocks and connector edges.
Initial Library Findings
ADS1232IPW is available in the Flux library with datasheet.
DS3231M/DS3231MZ variants are available; DS3231MZ+TRL 8-SOIC is likely preferred for compact layout.
H3LIS331DLTR is available in the Flux library.
CR2020-compatible/generic coin-cell holders are available.
Connector decision updated: use direct Feather-header plug-in. FPC/FFC and mezzanine connectors are no longer the baseline architecture.
Overview
Key Components
Assumed Architecture
Open Requirements Before Schematic Capture
Flex PCB Notes
Initial Library Findings
Reviews
Documents
Project Specification
Doc 1
Assets
PropSensorFlex.kicad_sch
PropSensorFlex
Flex Sensor Adalogger Interface
Flexible PCB interface board carrying two ADS1232 24-bit bridge ADCs, a DS3231M RTC with CR2020 keep-alive cell, and an H3LIS331 accelerometer for connection to an Adafruit Feather M0 Adalogger.
Properties
Properties describe core aspects of the project.
Pricing & Availability
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Controls
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