This is an ESP32 (ESP32-WROOM-32 module) with LAN8720A PHY project intended to be an ESP-NOW to (wired) MQTT gateway.
It was designed to be produced in my PCB mill. If your PCB mill can handle QFN24 footprints and double-sided PCB's then you might be able to duplicate this. Or you can just order a PCB from pretty much anywhere. I had a few made by Oshpark.
For simplicity, it uses the GPIO17 PLL clock technique rather than the GPIO0-based crystal, and includes a second 3.3v regulator to control the entire ethernet power rail independently. It needs stable USB power, although at some point I might take a stab at a PoE version.
The CH340C runs off the first regulator along with the ESP32. The HT7233 is rated for 300mA, which is just marginal for an ESP32, but so far I haven't noticed any power issues (power consumption for the whole board averages maybe 250mA). I've thrown in some USB ESD protection, a fuse, and some reverse protection (I know that's not supposed to be a problem with USB... things happen, don't ask). ESD protection for the Ethernet port would be a nice-to-have at some point.
The CH340C supports the usual auto-programming. Note that you'll need to dial back the default upload baud rate.
I've added a small (1.25mm pitch) header with 3V3, GND, and two GPIO's to allow for things like environmental sensors. Note that temperature sensors will need to stay a minimum of 10cm off the board to avoid the heat thrown by this board. I've also broken out the USB interface with a small header because stuff... happened.
Most of the components are from LCSC. There's an interactive BOM page which should tell you what you need. Passives are 0603 with a few 0805 for the larger capacitors.
The Arduino-ESP32 ETH_LAN8720 sketch should work with the following configuration:
#define LED_BUILTIN 2 // or use a NodeMCU-type of board definition
#define ETH_CLK_MODE ETH_CLOCK_GPIO17_OUT
#define ETH_POWER_PIN 12
#define ETH_TYPE ETH_PHY_LAN8720
#define ETH_ADDR 1
#define ETH_MDC_PIN 23
#define ETH_MDIO_PIN 18
ETH.begin(ETH_ADDR, ETH_POWER_PIN, ETH_MDC_PIN, ETH_MDIO_PIN,
ETH_TYPE, ETH_CLK_MODE)
I flash mine with the ESP32 clock set at 80MHz, which seems to be more stable at 100Mbps connection speeds and draws approximately 25% less power.