// // Copyright 2012-2013 Ettus Research LLC // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #ifndef INCLUDED_B200_REGS_HPP #define INCLUDED_B200_REGS_HPP #include #define TOREG(x) ((x)*4) #define localparam static const int localparam SR_CORE_SPI = 8; localparam SR_CORE_MISC = 16; localparam SR_CORE_COMPAT = 24; localparam SR_CORE_GPSDO_ST = 40; localparam SR_CORE_SYNC = 48; localparam RB32_CORE_SPI = 8; localparam RB32_CORE_MISC = 16; localparam RB32_CORE_STATUS = 20; localparam RB32_CORE_PLL = 24; localparam SR_SPI = 8; localparam SR_ATR = 12; localparam SR_TEST = 21; localparam SR_CODEC_IDLE = 22; localparam SR_READBACK = 32; localparam SR_TX_CTRL = 64; localparam SR_RX_CTRL = 96; localparam SR_RX_DSP = 144; localparam SR_TX_DSP = 184; localparam SR_TIME = 128; localparam SR_RX_FMT = 136; localparam SR_TX_FMT = 138; localparam SR_FP_GPIO = 200; localparam RB32_TEST = 0; localparam RB64_TIME_NOW = 8; localparam RB64_TIME_PPS = 16; localparam RB64_CODEC_READBACK = 24; localparam RB32_FP_GPIO = 32; //pll constants static const int AD9361_SLAVENO = (1 << 0); static const int ADF4001_SLAVENO = (1 << 1); static const double AD9361_SPI_RATE = 1e6; static const double ADF4001_SPI_RATE = 10e3; //slow for large time constant on spi lines /* ATR Control Bits */ static const uint32_t TX_ENABLE1 = (1 << 7); static const uint32_t SFDX1_RX = (1 << 6); static const uint32_t SFDX1_TX = (1 << 5); static const uint32_t SRX1_RX = (1 << 4); static const uint32_t SRX1_TX = (1 << 3); static const uint32_t LED_RX1 = (1 << 2); static const uint32_t LED_TXRX_RX1 = (1 << 1); static const uint32_t LED_TXRX_TX1 = (1 << 0); static const uint32_t TX_ENABLE2 = (1 << 7); static const uint32_t SFDX2_RX = (1 << 6); static const uint32_t SFDX2_TX = (1 << 5); static const uint32_t SRX2_RX = (1 << 4); static const uint32_t SRX2_TX = (1 << 3); static const uint32_t LED_RX2 = (1 << 2); static const uint32_t LED_TXRX_RX2 = (1 << 1); static const uint32_t LED_TXRX_TX2 = (1 << 0); /* ATR State Definitions. */ static const uint32_t STATE_OFF = 0x00; ///////////////////////// side 1 /////////////////////////////////// static const uint32_t STATE_RX1_RX2 = (SFDX1_RX | SFDX1_TX | LED_RX1); static const uint32_t STATE_RX1_TXRX = (SRX1_RX | SRX1_TX | LED_TXRX_RX1); static const uint32_t STATE_FDX1_TXRX = (TX_ENABLE1 | SFDX1_RX | SFDX1_TX | LED_TXRX_TX1 | LED_RX1); static const uint32_t STATE_TX1_TXRX = (TX_ENABLE1 | SFDX1_RX | SFDX1_TX | LED_TXRX_TX1); ///////////////////////// side 2 /////////////////////////////////// static const uint32_t STATE_RX2_RX2 = (SFDX2_RX | SRX2_TX | LED_RX2); static const uint32_t STATE_RX2_TXRX = (SRX2_TX | SRX2_RX | LED_TXRX_RX2); static const uint32_t STATE_FDX2_TXRX = (TX_ENABLE2 | SFDX2_RX | SFDX2_TX | LED_TXRX_TX2 | LED_RX2); static const uint32_t STATE_TX2_TXRX = (TX_ENABLE2 | SFDX2_RX | SFDX2_TX | LED_TXRX_TX2); #endif /* INCLUDED_B200_REGS_HPP */