/**
* @file
*
* @ingroup RTEMSBSPsARMLPC24XX
*
* @brief BSP start EMC dynamic memory configuration.
*/
/*
* Copyright (c) 2011-2012 embedded brains GmbH. All rights reserved.
*
* embedded brains GmbH
* Obere Lagerstr. 30
* 82178 Puchheim
* Germany
* <rtems@embedded-brains.de>
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.org/license/LICENSE.
*/
#include <bsp/start-config.h>
#include <bsp/lpc24xx.h>
/*
* FIXME: The NXP example code uses different values for the follwing two
* defines. In the NXP example code they depend on the EMCCLK. It is unclear
* how these values are determined. The values from the NXP example code do
* not work.
*/
/* Use command delayed strategy */
#define LPC24XX_EMC_DYNAMIC_READCONFIG_DEFAULT 0x1
#define LPC24XX_EMCDLYCTL_DEFAULT 0x1112
BSP_START_DATA_SECTION const lpc24xx_emc_dynamic_config
lpc24xx_start_config_emc_dynamic [] = {
#if defined(LPC24XX_EMC_MT48LC4M16A2)
/* Dynamic Memory 0: Micron M T48LC 4M16 A2 P 75 IT */
{
/* 15.6 us */
.refresh = LPC24XX_PS_TO_EMCCLK(15600000, 0) / 16,
.readconfig = LPC24XX_EMC_DYNAMIC_READCONFIG_DEFAULT,
/* Precharge command period 20 ns */
.trp = 1,
/* Active to precharge command period 44 ns */
.tras = 3,
/* FIXME */
.tsrex = 5,
/* FIXME */
.tapr = 2,
/* Data-in to active command period tWR + tRP */
.tdal = 4,
/* Write recovery time 15 ns */
.twr = 1,
/* Active to active command period 66 ns */
.trc = 4,
/* Auto refresh period 66 ns */
.trfc = 4,
/* Exit self refresh to active command period 75 ns */
.txsr = 5,
/* Active bank a to active bank b command period 15 ns */
.trrd = 1,
/* Load mode register to active or refresh command period 2 tCK */
.tmrd = 1
}
#elif defined(LPC24XX_EMC_IS42S32800D7)
/* Dynamic Memory 0: ISSI IS42S32800D7 */
{
/* 15.6 us */
.refresh = LPC24XX_PS_TO_EMCCLK(15600000, 0) / 16,
.readconfig = LPC24XX_EMC_DYNAMIC_READCONFIG_DEFAULT,
/* 20ns */
.trp = LPC24XX_PS_TO_EMCCLK(20000, 1),
/* 45ns */
.tras = LPC24XX_PS_TO_EMCCLK(45000, 1),
/* 70ns (tXSR) */
.tsrex = LPC24XX_PS_TO_EMCCLK(70000, 1),
/* 20ns (tRCD) */
.tapr = LPC24XX_PS_TO_EMCCLK(20000, 1),
/* n clock cycles -> 38.8ns >= 35ns */
.tdal = LPC24XX_PS_TO_EMCCLK(35000, 0),
/* 14ns (tDPL) */
.twr = LPC24XX_PS_TO_EMCCLK(14000, 1),
/* 67.5ns */
.trc = LPC24XX_PS_TO_EMCCLK(67500, 1),
/* 67.5ns (tRC) */
.trfc = LPC24XX_PS_TO_EMCCLK(67500, 1),
/* 70ns */
.txsr = LPC24XX_PS_TO_EMCCLK(70000, 1),
/* 14ns */
.trrd = LPC24XX_PS_TO_EMCCLK(14000, 1),
/* 14ns */
.tmrd = LPC24XX_PS_TO_EMCCLK(14000, 1),
.emcdlyctl = LPC24XX_EMCDLYCTL_DEFAULT
}
#elif defined(LPC24XX_EMC_W9825G2JB75I)
/* Dynamic Memory 0: Winbond W9825G2JB75I */
{
/* 15.6 us */
.refresh = LPC24XX_PS_TO_EMCCLK(15600000, 0) / 16,
.readconfig = LPC24XX_EMC_DYNAMIC_READCONFIG_DEFAULT,
/* 20ns */
.trp = LPC24XX_PS_TO_EMCCLK(20000, 1),
/* 45ns */
.tras = LPC24XX_PS_TO_EMCCLK(45000, 1),
/* 75ns (tXSR) */
.tsrex = LPC24XX_PS_TO_EMCCLK(75000, 1),
/* 20ns (tRCD) */
.tapr = LPC24XX_PS_TO_EMCCLK(20000, 1),
/* tWR + tRP -> 2 * tCK + 20ns */
.tdal = 2 + LPC24XX_PS_TO_EMCCLK(20000, 0),
/* (n + 1) clock cycles == 2 * tCK */
.twr = 1,
/* 65ns */
.trc = LPC24XX_PS_TO_EMCCLK(65000, 1),
/* 65ns (tRC) */
.trfc = LPC24XX_PS_TO_EMCCLK(65000, 1),
/* 75ns */
.txsr = LPC24XX_PS_TO_EMCCLK(50000, 1),
/* (n + 1) clock cycles == 2 * tCK */
.trrd = 1,
/* (n + 1) clock cycles == 2 * tCK (tRSC)*/
.tmrd = 1,
.emcdlyctl = LPC24XX_EMCDLYCTL_DEFAULT
}
#elif defined(LPC24XX_EMC_K4S561632E)
{
.refresh = 35,
.readconfig = LPC24XX_EMC_DYNAMIC_READCONFIG_DEFAULT,
.trp = 2,
.tras = 4,
.tsrex = 5,
.tapr = 1,
.tdal = 5,
.twr = 3,
.trc = 5,
.trfc = 5,
.txsr = 5,
.trrd = 3,
.tmrd = 2
}
#elif defined(LPC24XX_EMC_IS42S32800B)
{
/* 15.6us */
.refresh = LPC24XX_PS_TO_EMCCLK(15600000, 0) / 16,
.readconfig = LPC24XX_EMC_DYNAMIC_READCONFIG_DEFAULT,
/* 20ns */
.trp = LPC24XX_PS_TO_EMCCLK(20000, 1),
/* 45ns */
.tras = LPC24XX_PS_TO_EMCCLK(45000, 1),
/* 70ns (tRC) */
.tsrex = LPC24XX_PS_TO_EMCCLK(70000, 1),
/* FIXME */
.tapr = LPC24XX_PS_TO_EMCCLK(40000, 1),
/* tWR + tRP -> 2 * tCK + 20ns */
.tdal = 2 + LPC24XX_PS_TO_EMCCLK(20000, 0),
/* (n + 1) clock cycles == 2 * tCK */
.twr = 1,
/* 70ns */
.trc = LPC24XX_PS_TO_EMCCLK(70000, 1),
/* 70ns */
.trfc = LPC24XX_PS_TO_EMCCLK(70000, 1),
/* 70ns (tRC) */
.txsr = LPC24XX_PS_TO_EMCCLK(70000, 1),
/* 14ns */
.trrd = LPC24XX_PS_TO_EMCCLK(14000, 1),
/* (n + 1) clock cycles == 2 * tCK */
.tmrd = 1,
.emcdlyctl = LPC24XX_EMCDLYCTL_DEFAULT
}
#endif
};
BSP_START_DATA_SECTION const lpc24xx_emc_dynamic_chip_config
lpc24xx_start_config_emc_dynamic_chip [] = {
#if defined(LPC24XX_EMC_MT48LC4M16A2)
{
.chip_select = (volatile lpc_emc_dynamic *) &EMC_DYN_CFG0,
/*
* Use SDRAM, 0 0 001 01 address mapping, disabled buffer, unprotected
* writes. 4 banks, 12 row lines, 8 column lines.
*/
.config = 0x280,
.rascas = EMC_DYN_RASCAS_RAS(2) | EMC_DYN_RASCAS_CAS(2, 0),
.mode = 0xa0000000 | (0x23 << (1 + 2 + 8))
}
#elif defined(LPC24XX_EMC_W9825G2JB75I) \
|| defined(LPC24XX_EMC_IS42S32800D7) \
|| defined(LPC24XX_EMC_IS42S32800B)
{
.chip_select = (volatile lpc_emc_dynamic *) &EMC_DYN_CFG0,
/* 32-bit data bus, 4 banks, 12 row lines, 9 column lines, RBC */
.config = 0x4480,
/* RAS based on tRCD = 20ns */
.rascas = EMC_DYN_RASCAS_RAS(2) | EMC_DYN_RASCAS_CAS(2, 0),
/* CAS 2, burst length 4 */
.mode = 0xa0000000 | (0x22 << (2 + 2 + 9))
}
#elif defined(LPC24XX_EMC_K4S561632E)
{
.chip_select = (volatile lpc_emc_dynamic *) &EMC_DYN_CFG0,
.config = 0x680,
.rascas = EMC_DYN_RASCAS_RAS(3) | EMC_DYN_RASCAS_CAS(3, 0),
.mode = 0xa0000000 | (0x33 << 12)
}
#endif
};
BSP_START_DATA_SECTION const size_t
lpc24xx_start_config_emc_dynamic_chip_count =
sizeof(lpc24xx_start_config_emc_dynamic_chip)
/ sizeof(lpc24xx_start_config_emc_dynamic_chip [0]);