From 2f4c472899b5e0cc78cbd354b15aad16ed1de829 Mon Sep 17 00:00:00 2001 From: Harald Welte Date: Sat, 24 Dec 2011 00:36:06 +0100 Subject: add README file --- README | 89 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 89 insertions(+) create mode 100644 README diff --git a/README b/README new file mode 100644 index 0000000..5dfa82d --- /dev/null +++ b/README @@ -0,0 +1,89 @@ +osmo-e1-xcvr -- (C) 2011 by Harald Welte +====================================================================== + +This is a simple hardware project that aims to generate a reusable module +for interfacing E1/T1/J1 lines from various custom FPGA/CPLD/microcontroller +projects. + +The board contains tranformers, the analog circuitry, the LIU (line interface +unit), an oscillator as well as an integrated transceiver chip. + +It exposes the control interface (SPI) as well as the decoded synchronous +Rx/Tx bitstreams each on a 2x5pin header. + +Framer, Multiplexe,r HDLC decoder or anything like that is out-of-scope for +now. The idea relaly is to provide an interface as low-level as possible. + +One of the ideas is to create a "soft E1" interface, where the Rx/Tx bitstreams +are interfaced with the SSC of an AT91SAM3S and subsequently passed into a PC +via USB. The 2Mbps signal is very low-bandwidth, so that a pure software +implementation should be absolutely no problem for todays computing power. + +== Status == + +The project is in design phase. Initial design has finished, but needs to be +reviewed. First prototype PCBs will be expected in January 2012 + +== Hardware Documentation == + +=== JP2: TDM interface === + +JP2 contains the serial TDM bitstream + clock for Rx and Tx direction. The signals are +||Pin||Name||Description|| +||1||GND||Ground|| +||2||nRST||low-active reset line, uC can reset the transceiver by pulling this low|| +||3||NC|||| +||4||LOS||Loss of Signal|| +||5||TDN||Transmit Data Negative|| +||6||RCLK||Receive Clock|| +||7||TD/TDP||Transmit Data / Transmit Data Positive|| +||8||RD/RDP||Receive Data / Receive Data Positive|| +||9||TCLK||Transmitter Clock. Depending on JP9, this is an input into the board, or an output +||10||RDN/CV||Receive Data Negative / Code Violation|| + +=== JP1: SPI control === + +This is how the external microcontroller can control the transceiver chip. + +||Pin||Name||Description|| +||1||GND||Ground|| +||2||NC||Not connected|| +||3||NC||Not connected|| +||4||nINT||low-active interrupt output, when transceiver wants to interrupt uC"" +||5||NC||Not connected|| +||6||nCS||low-active chip-select of the SPI|| +||7||NC||Not connected|| +||8||SDO||Serial Data Out (MISO)|| +||9||SDI||Serial Data In (MOSI)|| +||10||SCLK||Serial Clock|| + +=== JP9 === + +JP10 switches the master clock (MCLK) of the transceiver between two on-board oscillators +of 2.048 MHz and 1.544 MHz. This is required for selecting between E1 or T1/J1 mode. + +||1-2||2.048 MHz (E1) mode|| +||2-3||1.544 MHz (T1/J1) mode|| + +=== JP10 === + +This jumper decides if the 2.048/1.544 MHz MCLK should also be used as TDM Transmit Clock. + +||closed||use MCLK as TCLK source, TCLK pin on JP2 is output|| +||open||external circuit provides TCLK on JP2|| + +=== JP3 + JP4 === + +JP3+JP4 can be used to select which of the pins on the RJ45 connector should be used: + +They should either all be in setting 1-2, or all be in 2-3, but never mixed. + +||1-2||Use pins 3+6 as one pair|| +||2-3||Use pins 1+2 as one pair|| + +=== JP5, JP6, JP7, JP8 == + +Those select between TE mode and NT mode. + +They should either all be in setting 1-2, or all be in 2-3, but never mixed. + -- cgit v1.2.3