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author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Tue, 06 Jun 2023 01:47:36 +0000 |
parents | 78c2cc6ebbb8 |
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2020-09 update: we have now produced our own DUART28 adapter that takes the place of PLDkit FT2232D breakout boards. The article that follows was written in 2019-12, before our DUART28 was even conceived, and it was written for PLDkit FT2232D adapters. The new cable that needs to be used with DUART28 is different: DUART28 brings out a 10-pin header in the same pinout as our Calypso boards, thus the connection between the two boards becomes a straight-through 10-wire ribbon cable. Original 2019-12 article follows ================================ The Calypso chip has two UARTs, called MODEM and IrDA in the chip docs. The primary UART (MODEM) has 4 signals (TxD, RxD, RTS and CTS), whereas the other UART (IrDA) has data leads only (TxD and RxD). TI's C-Sample and D-Sample boards have also established a convention whereby Calypso GPIOs 2 and 3 have been assigned as supplementary modem control signals for the primary MODEM UART, with GPIO 2 being an output from Calypso signaling DCD to the host and with GPIO 3 being an input to Calypso receiving DTR from the host. Note that DSR and RI are still missing in this arrangement. In FreeCalypso we have further established our own convention: all FC hardware products that bring out both Calypso UARTs do so by way of a single 10-pin (2x5) 2.54 mm header in a fixed pinout given below. This convention was started with FCDEV3B, our first FC hw product, and is now being continued with MMTB1 and other boards. Our standardized DUART header pinout is as follows: Header pin Calypso signal 1 GND 2 GND 3 TX_IRDA 4 TX_MODEM 5 RX_IRDA 6 RX_MODEM 7 GPIO2_DCD 8 RTS_MODEM 9 GPIO3_DTR 10 CTS_MODEM Pins 7 and 9 were originally left unused (they are unconnected on FCDEV3B), but they have been assigned as DCD and DTR (from the host's perspective) starting with MMTB1. Note that while DCD and DTR in the table above are named from the host's perspective, all Calypso signals ending with _MODEM or _IRDA are from the chip's perspective, i.e., the opposite. Our standard recommended practice for connecting to our two UARTs from a regular PC or laptop is to use FT2232D breakout boards from the following vendor: http://pldkit.com/other/ft2232d-module FT2232D is a versatile USB-to-various-things adapter, but in its default configuration which we use here it acts as a bridge from USB to two UARTs, presenting both UARTs behind a single USB device. The breakout board made and sold by PLDkit has two rows of header pins, featuring 15 pins on each side, and the two sides of the board neatly correspond to the A and B sides of FT2232D. Our standard recommended method for connecting our two UARTs to a PLDkit FT2232D board is to use a 10-wire ribbon cable that is custom-assembled as follows: * One end is terminated with a 10-pin female connector that mates with the DUART header on our modem boards; * The other end is split into two parts as described below, and each split end is terminated with a 15-pin female connector that mates with one side of the FT2232D breakout board. The split between A and B sides on the FT2232D end is not symmetric, instead 7 wires go to side A for the MODEM UART and 3 wires go to side B for the IrDA UART. Assuming the standard color code, the 10-wire ribbon cable gets split between violet and grey wires: brown to violet go to side A, grey to black go to side B. After each wire has been stripped and fitted with a crimp-on female terminal, FT2232D side A wires need to be inserted into the connector housing as follows: Wire Pin position FT2232D signal UART signal (host perspective) brown 2 ADBUS0 TxD red 3 ADBUS1 RxD orange 4 ADBUS2 RTS yellow 5 ADBUS3 CTS green 6 ADBUS4 DTR blue 8 ADBUS6 DCD violet 15 GND GND FT2232D side B wires need to be inserted into the other connector housing as follows: Wire Pin position FT2232D signal UART signal (host perspective) grey 2 BDBUS0 TxD white 3 BDBUS1 RxD black 15 GND GND The wires on the other end of the cable (also stripped and fitted with crimp-on female terminals) need to be inserted into another connector housing that will mate with the DUART connector on FreeCalypso modem boards; the pin assignment is as follows: Pin position Calypso signal Wire 1 GND black 2 GND violet 3 TX_IRDA white 4 TX_MODEM red 5 RX_IRDA grey 6 RX_MODEM brown 7 GPIO2_DCD blue 8 RTS_MODEM yellow 9 GPIO3_DTR green 10 CTS_MODEM orange