diff --git a/docs/assets/img/PRT-26784_Qwiic_Power_Switch_ESP32_ZED-F9P_Hardware_Hookup.jpg b/docs/assets/img/PRT-26784_Qwiic_Power_Switch_ESP32_ZED-F9P_Hardware_Hookup.jpg new file mode 100644 index 0000000..e2e1234 Binary files /dev/null and b/docs/assets/img/PRT-26784_Qwiic_Power_Switch_ESP32_ZED-F9P_Hardware_Hookup.jpg differ diff --git a/docs/hardware_hookup.md b/docs/hardware_hookup.md index caef647..795db35 100644 --- a/docs/hardware_hookup.md +++ b/docs/hardware_hookup.md @@ -5,6 +5,19 @@ In this section, we will go over how to connect to the Qwiic Power Switch. Insert a Qwiic cable between your Arduino microcontroller and the Qwiic Power Switch's IN port. In this case, we used the SparkFun Thing Plus ESP32- USB-C for the Arduino microcontroller. Then connect Qwiic cable between the Qwiic Power Switch's OUT port to the second Qwiic-enabled device. In this case, we used the ZED-F9P SMA breakout board when toggling power and isolating the I2C lines. We also connected an external multiband antenna to the ZED-F9P. When ready, connect a USB cable to the Arduino to program, power, and control the Qwiic Power Switch through a serial terminal. +
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Thing Plus ESP32, Qwiic Power Switch, ZED-F9P Connected via Qwiic
Thing Plus ESP32, Qwiic Power Switch, ZED-F9P Connected via Qwiic
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+ + + !!! note To isolate any Qwiic-enabled device, you will need to connect the Qwiic-enabled device from the OUT port.