/* -*- c++ -*- */ /* * Copyright 2003,2004 Free Software Foundation, Inc. * * This file is part of GNU Radio * * GNU Radio is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * GNU Radio is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GNU Radio; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #ifndef INCLUDED_FPGA_REGS_COMMON_H #define INCLUDED_FPGA_REGS_COMMON_H // This file defines registers common to all FPGA configurations. // Registers 0 to 31 are reserved for use in this file. // The FPGA needs to know the rate that samples are coming from and // going to the A/D's and D/A's. div = 128e6 / sample_rate #define FR_TX_SAMPLE_RATE_DIV 0 #define FR_RX_SAMPLE_RATE_DIV 1 // 2 is available. // 3 is available. #define FR_MASTER_CTRL 4 // master enable and reset controls # define bmFR_MC_ENABLE_TX (1 << 0) # define bmFR_MC_ENABLE_RX (1 << 1) # define bmFR_MC_RESET_TX (1 << 2) # define bmFR_MC_RESET_RX (1 << 3) // i/o direction registers for pins that go to daughterboards. // Setting the bit makes it an output from the FPGA to the d'board. // top 16 is mask, low 16 is value #define FR_OE_0 5 // slot 0 #define FR_OE_1 6 #define FR_OE_2 7 #define FR_OE_3 8 // i/o registers for pins that go to daughterboards. // top 16 is a mask, low 16 is value #define FR_IO_0 9 // slot 0 #define FR_IO_1 10 #define FR_IO_2 11 #define FR_IO_3 12 #define FR_MODE 13 # define bmFR_MODE_NORMAL 0 # define bmFR_MODE_LOOPBACK (1 << 0) // enable digital loopback # define bmFR_MODE_RX_COUNTING (1 << 1) // Rx is counting # define bmFR_MODE_RX_COUNTING_32BIT (1 << 2) // Rx is counting with a 32 bit counter // low and high 16 bits are multiplexed across channel I and Q // If the corresponding bit is set, internal FPGA debug circuitry // controls the i/o pins for the associated bank of daughterboard // i/o pins. Typically used for debugging FPGA designs. #define FR_DEBUG_EN 14 # define bmFR_DEBUG_EN_TX_A (1 << 0) // debug controls TX_A i/o # define bmFR_DEBUG_EN_RX_A (1 << 1) // debug controls RX_A i/o # define bmFR_DEBUG_EN_TX_B (1 << 2) // debug controls TX_B i/o # define bmFR_DEBUG_EN_RX_B (1 << 3) // debug controls RX_B i/o // If the corresponding bit is set, enable the automatic DC // offset correction control loop. // // The 4 low bits are significant: // // ADC0 = (1 << 0) // ADC1 = (1 << 1) // ADC2 = (1 << 2) // ADC3 = (1 << 3) // // This control loop works if the attached daugherboard blocks DC. // Currently all daughterboards do block DC. This includes: // basic rx, dbs_rx, tv_rx, flex_xxx_rx. #define FR_DC_OFFSET_CL_EN 15 // DC Offset Control Loop Enable // offset corrections for ADC's and DAC's (2's complement) #define FR_ADC_OFFSET_0 16 #define FR_ADC_OFFSET_1 17 #define FR_ADC_OFFSET_2 18 #define FR_ADC_OFFSET_3 19 // ------------------------------------------------------------------------ // Automatic Transmit/Receive switching // // If automatic transmit/receive (ATR) switching is enabled in the // FR_ATR_CTL register, the presence or absence of data in the FPGA // transmit fifo selects between two sets of values for each of the 4 // banks of daughterboard i/o pins. // // Each daughterboard slot has 3 16-bit registers associated with it: // FR_ATR_MASK_*, FR_ATR_TXVAL_* and FR_ATR_RXVAL_* // // FR_ATR_MASK_{0,1,2,3}: // // These registers determine which of the daugherboard i/o pins are // affected by ATR switching. If a bit in the mask is set, the // corresponding i/o bit is controlled by ATR, else it's output // value comes from the normal i/o pin output register: // FR_IO_{0,1,2,3}. // // FR_ATR_TXVAL_{0,1,2,3}: // FR_ATR_RXVAL_{0,1,2,3}: // // If the Tx fifo contains data, then the bits from TXVAL that are // selected by MASK are output. Otherwise, the bits from RXVAL that // are selected by MASK are output. #define FR_ATR_MASK_0 20 // slot 0 #define FR_ATR_TXVAL_0 21 #define FR_ATR_RXVAL_0 22 #define FR_ATR_MASK_1 23 // slot 1 #define FR_ATR_TXVAL_1 24 #define FR_ATR_RXVAL_1 25 #define FR_ATR_MASK_2 26 // slot 2 #define FR_ATR_TXVAL_2 27 #define FR_ATR_RXVAL_2 28 #define FR_ATR_MASK_3 29 // slot 3 #define FR_ATR_TXVAL_3 30 #define FR_ATR_RXVAL_3 31 #endif /* INCLUDED_FPGA_REGS_COMMON_H */