Post-Assembly

• Check all required components are assembled and DNP components are not assembled
• Verify components oriented correctly (polarity, pin 1 designators, etc.)
• Verify there are no bridges between parts/pins creating unwanted shorts
• Verify general soldering quality - no stray solder, burns, etc., all pins and pads connected with enough solder

Unpowered Tests

• Verify power rails are not shorted to GND or with each other
• Verify EN/RST/SHDN pins are not shorted to either GND or a power rail, unless it is supposed to be
• Verify communication protocol lines (i.e. SDA & SCL for I2C, MISO MOSI SCLK & CS for SPI, etc.) are not shorted with each other, with a power rail, or GND

Basic Powered Tests

General Tests:

• Program microcontroller
• Verify the TVS diode function protects against overvoltage on analog lines
• Do a full system test with all of the rails powered and make sure nothing explodes

48V Power

• Power onboard + touch test, verify components and the board itself does not get too hot
• Verify all ICs, details, LEDs, etc. are powered on successfully. Communicate with all peripherals

STM:

• Verify the enable pins (N-CH MOSFET gate) can be driven high and low (PC1, PC3, PC5, PA6)
• Verify the analog read of the current sense amplifier outputs (PC0, PC2, PA5, PA7)
• Verify the analog read of the VBAT rail (PC4)

Electrical:

• Verify the 48V outputs can be enabled and disabled via N-CH FET (can draw load from the output when enabled, can’t otherwise)
• Verify the analog output of the amplifier matches expectations

5V Power:

• Power onboard + touch test, verify components and the board itself does not get too hot
• 5V_1
• 5V_2
• Verify all ICs, details, LEDs, etc. are powered on successfully. Communicate with all peripherals
• 5V_1
• 5V_2

STM:

• Verify the enable pins can be driven high and low (PC14, PC11, PB9, PD2)
• Verify the STM can read the state of the OC pins accurately (PC13, PC12, PC10, PB8)
• Verify the analog reads of both of the 5V rails (PB7, PC15)

Electrical

• Verify enable condition on all 4 switches (can draw load from the output when enabled, can’t otherwise)
• Verify output current limit (2.4A)
• Verify the OC pin goes low in this condition

Problems:

• at 1A load, the 5V output is dropping to 4.3V

  • Actually even at the power supply input it is 4.3V, so maybe it’s the power supply

  • Does it even when connecting power supply directly to the reload, maybe power drop through wires

    • Ya it is, its 5v right at the power supply terminal but

• Highside switched shut down the output at 2A not 2.3 or whatever

17V Power

• Power onboard + touch test, verify components and the board itself does not get too hot
• Current sense amplifier blew up when powerd
• Verify all ICs, details, LEDs, etc. are powered on successfully. Communicate with all peripherals

STM:

• Verify the enable pin (N-CH MOSFET gate) can be driven high and low (PB2)
• Verify the analog read of the current sense amplifier output (PB1)
• Verify the analog read of the 17V rail (PB0)

Electrical:

• Verify the 17V output can be enabled and disabled vis N-CH FET (can draw load from the output when enabled, can’t otherwise)
• Verify the analog output of the amplifier matches expectations
• Verify the TVS diode function protects against an oversimplification of signal

Problem:

• When 17V was powered without 48V, there was a leakage to 48V, only 100 ohms between the rails

  • IC VCC is 48, though it is measuring at 17

• When 48V was supplied without 17V, nothing

• When both 17V and 48V were connected, IC blew up, shorted 48V though the IC,

• I think pull resistors on N-CH/P-CH load switch has the output enabled by default

  • No, they are off by default

Changes for Next Rev

• R44 and R45 are 0603 and should be 0805

• Change 0.1uF 10V to 50V for consistency (5V high side switched)

• 3.3k (r2) 0603 part number

• There are 16V, 50V and 100V 1uF caps on the board

• It should probably double the power rating on the current sense resistors for the 24V buck

• Add label to 3v3 led

• N-Ch fet description says 340mS instead of 340 mA

• Add polarity indicators to terminals

• STM reset button footprint is wrong, shorts itself out

• Add testpoint labels where convenient

• SHDN on CAN should have a test point

• RST pin on microcontroller should have testpoint w label

• Add clippy testpoints to all of the voltage rails

• reduce the small terminal through hole size for better alignment

• Both 5V rail ADC pins do not go to ADC capable pins

• Current sens +/- pin name wrong

• N-CH footprint is wrong

• LED doens’t work

• 17V current sense should be supplier by 17V so it doesn’t blow up