# ULX3S PCB This is work-in-progress place for putting some wishes of a small (94x51 mm) FPGA board. ULX3S = University digital logic Learning eXtensible board release 3 with SDRAM, Successor of [ULX2S](http://github.com/emard/ulx2s). kicad ulx3s.pro [Schematics](/doc/schematics.pdf) is mostly complete. [PCB v1.7 is produced](/pic/ulx3st-real.jpg) and big things work like USB-JTAG, SDRAM, SDCARD, HDMI, FLASH, RTC, I2C, OLED, AUDIO, ADC but there are issues, luckily most can be fixed by [Upgrading PCB v1.7](/doc/pcb-v1.7-upgrade.md). USB2 and 433.92MHz antenna are currently untested. 3D preview ![TOP](/pic/ulx3st.jpg) ![BOTTOM](/pic/ulx3sb.jpg) [Manual](/doc/MANUAL.md). # Features FPGA: Lattice ECP5 LFE5U-45F-6BG381C USB: FTDI FT231XS (300kbit JTAG and 3Mbit USB-serial) GPIO: 56 pins (28 differential pairs), PMOD-friendly RAM: 32MB SDRAM MT48LC16M16 Flash: 4MB SPI Flash IS25LP032D for FPGA config Storage: Micro-SD slot LEDs: 11 (8 blink-LEDs, 2 USB LEDs, 1 WiFi LED) Buttons: 7 (4 direction, 2 fire, 1 power button) Audio: 3.5 mm jack with 4 contacts (analog stereo + digital audio or composite video) Video: GPDI connector with 3.3V-5V I2C bidirectional level shifter Display: placeholder for 0.96" SPI COLOR OLED WiFi+bluetooth: placeholder for ESP-32 (Standalone JTAG web interface over WiFi) ADC: 8 channels, 8 bit, 1 MSa/s MAX11123 Power: 3 Switching voltage regulators: 1.1V, 2.5V, 3.3V Clock: 25 MHz onboard, external differential clock input Low power sleep: RTC clock wakeup, power button, 32768 Hz quartz and battery GPDI is General Purpose Differential Interface, Electrically LVDS, mostly TMDS tolerant female receptacle more-or-less compatible with digital monitors/TVs # Todo Test the prototype. [x] Silkscreen Double outline for BGA chip [x] Silkscreen do not write over the solder pads [ ] Silkscreen BGA names on ESP32 placeholder and 2.54 mm headers [x] Silkscreen JTAG signal names on 6-pin 2.54 mm header [x] Silkscreen remove OLED outline [x] Solder stop mask must go inbetween all SMD chip pads [x] External differential clock input at J1_33 +/- [x] physically sprinkle VCC blocator capacitors under BGA [ ] Values on silkscreen [x] Dedicated antenna pin [x] onboard 433 antenna [x] 433 remove GND and silkscreen test point [x] Resistors for LEDs [x] Move USB LEDs from bottom to top side [x] Improve SDRAM routing - use VIAs for closest pins [x] Increase thickness of power lines (5V, 3.3V, 2.5V) [x] Compile a f32c bitstream using the schematics [x] Compile differential GPDI output [x] Connect more lines from ESP-32 to FPGA [x] Connect FPGA USB D+/D- with 1.5k pullup in USB 1.1 (full speed) mode [x] FPGA USB add 27 ohm + 3.6 V zener [x] Symmetrically place USB connectors left-right [ ] Jumpers to switch 2.5V/3.3V for left IO banks [x] External JTAG header [x] Move JTAG 2 mm left [x] Move WiFi Disable jumper closer to the BTN1 (angled header) [x] Sprinkle 2.2uF capacitors on power lines [x] Spice simulation of power-up/shutdown network [x] 27ohm D+/D- to FT231XS [x] DIP switch (4 switches) [x] MAX11123 ADC SPI [x] I2C for RTC [x] main usb connector on top side [x] space screw to other parts [x] move battery away from screw hole [x] top layer GND fill [x] R25 move away from oled screw hole [ ] board cut off notches inisde for space saving [x] DIP switch to the right near RAM [x] Move HDMI a bit closer to OLED [x] 32768Hz oscillator footprint [x] SD card footprint SCHD3A0100 [x] center the SD footprint for T&R [x] SD connect GND (thin pins) [x] move USB 0.5-1mm more out [x] DIP SW footprint correct [x] AUDIO jack footprint fits [x] AUDIO jack pin 4 (ring2) connected to 4-bit DAC [x] BTN footprint too small [x] SMPS jumpers default OFF for prototype testing [x] FPGA DONE to ESP-32 [x] Diodes manual soldering [x] R56: FT231X rev A,B,C TXDEN to GND workaround from TN140_FT231X Errata [x] PCB for LFE5UM ready (some GND will change to VCC for Serdes power supply, see LFE5U->LFE5UM migration docs) [x] Check GND/VCC for 45 and 85 packages, for example pin T11 is NC on 25U, GND on 85U and VCC ond 85UM [x] Reconnect WIFI_OFF so that jumper has priority [x] 25MHz oscillator: needs clearance from LEDs, move under USB1 [x] connect SHUTDOWN to FPGA [ ] ESP-32: GPIO12 at boot selects internal flash voltage, it is connected to J1_27+ and wrong pullup/pulldown at boot will prevent ESP32 from booting [x] ESP-32: won't boot when SD connected. Don't solder it at PCB v1.7 it should be routed differently in newer release Here is a possible SD card connection Arduino->Examples->ESP32->SD_MMC_Test https://github.com/espressif/esp-idf/blob/master/examples/storage/sd_card/README.md move blue LED from GPIO2 to GPIO17 [ ] SD card pullup pulldowns (do we need them if FPGA can pullup/pulldown) [x] I2C resistors increased 470->2.2k [ ] GPDI series C=100nF to each differential line. [x] reliable shutdown (D11=RED LED, R4=4.7k) [x] SDRAM raster back to 0.8 mm [x] connect SPI Flash Quad Mode (QSPI) [x] allow powering the board without powering FTDI chip [ ] reverse D9 at US2 to draw power from usb instead of provide it [x] micro USB extended pads for Handsoldering (already were extended) [x] move 25MHz oscillator away from USB connector for handsoldering [x] schematics gpio J..+- pins renamed to gp/gn for easier readability [ ] Make BOM outputtable from PCB->Files->Fabrication Outputs->BOM file [ ] route 16-channel ADC [x] move 8 LEDs a bit down and right [x] let SD_CLK go to FPGA clock capable pin: swap SD_CLK and SD_D2 pins [x] additional 2 differential lines for US2