/************************************************************************************ * arch/z16/src/z16f/chip.h * include/arch/chip/chip.h * * Copyright (C) 2008 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name NuttX nor the names of its contributors may be * used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * ************************************************************************************/ #ifndef __Z16F_CHIP_H #define __Z16F_CHIP_H /************************************************************************************ * Included Files ************************************************************************************/ #include #include /************************************************************************************ * Definitions ************************************************************************************/ /* Hexadecimal Representation *******************************************************/ #ifdef __ASSEMBLY__ # define _HX32(w) %##w # define _HX8(b) %##b #else # define _HX32(w) 0x##w # define _HX8(b) 0x##b #endif /* Z16F Chip Variants ***************************************************************/ #if defined(CONFIG_ARCH_CHIP_Z16F2810) # define Z16F_INVMEM_SIZE (128*1024) # define Z16F_IRAM_SIZE (4*1024) # undef Z16F_HAVE_EXTMEM # undef Z16F_HAVE_GPIO_PORTJ # undef Z16F_HAVE_GPIO_PORTK #elif defined(CONFIG_ARCH_CHIP_Z16F2811) # define Z16F_INVMEM_SIZE (128*1024) # define Z16F_IRAM_SIZE (4*1024) # define Z16F_HAVE_EXTMEM 1 # define Z16F_HAVE_GPIO_PORTJ 1 # define Z16F_HAVE_GPIO_PORTK 1 #elif defined(CONFIG_ARCH_CHIP_Z16F3211) # define Z16F_INVMEM_SIZE (32*1024) # define Z16F_IRAM_SIZE (2*1024) # define Z16F_HAVE_EXTMEM 1 #elif defined(CONFIG_ARCH_CHIP_Z16F6411) # define Z16F_INVMEM_SIZE (64*1024) # define Z16F_IRAM_SIZE (4*1024) # define Z16F_HAVE_EXTMEM 1 #else # error "Z16F chip variant not specified" #endif /* Flash option settings at address 0x00000000 ************************************/ #define Z16F_FLOPTION0 rom char _flash_option0 _At 0x0 #define Z16F_FLOPTION1 rom char _flash_option1 _At 0x1 #define Z16F_FLOPTION2 rom char _flash_option2 _At 0x2 #define Z16F_FLOPTION3 rom char _flash_option3 _At 0x3 #define Z16F_FLOPTION0_EXTRNRC _HX8(00) /* Bits 6-7: OSC_SEL */ #define Z16F_FLOPTION0_LOWFREQ _HX8(40) #define Z16F_FLOPTION0_MEDFREQ _HX8(80) #define Z16F_FLOPTION0_MAXPWR _HX8(c0) #define Z16F_FLOPTION0_WDTRES _HX8(20) /* Bit 5 */ #define Z16F_FLOPTION0_WDTA0 _HX8(10) /* Bit 4 */ #define Z16F_FLOPTION0_VBOA0 _HX8(08) /* Bit 3 */ #define Z16F_FLOPTION0_DBGUART _HX8(04) /* Bit 2 */ #define Z16F_FLOPTION0_FWP _HX8(02) /* Bit 1 */ #define Z16F_FLOPTION0_RP _HX8(01) /* Bit 0 */ #define Z16F_FLOPTION1_RESVD _HX8(f8) /* Bits 3-7: reserved */ #define Z16F_FLOPTION1_MCEN _HX8(04) /* Bit 2: Motor control pins enable */ #define Z16F_FLOPTION1_OFFH _HX8(02) /* High side OFF */ #define Z16F_FLOPTION1_OFFL _HX8(01) /* Low side OFF */ #define Z16F_FLOPTION2_RESVD _HX8(ff) /* Bits 0-7: reserved */ #define Z16F_FLOPTION3_RESVD _HX8(bf) /* Bits 0-5,7: reserved */ #define Z16F_FLOPTION3_NORMAL _HX8(40) /* Bit 6: 1:Normal 0:Low power mode */ /* Memory areas ******************************************************************* * * Internal non-volatile memory starts at address zero. The size * of the internal non-volatile memory is chip-dependent. */ #define Z16F_INVMEM_BASE _HX32(00000000) /* Most chip variants support external memory */ #ifdef Z16F_HAVE_EXTMEM # define Z16F_EXTMEMCS0_BASE _HX32(00020000) /* External memory at CS0 */ # define Z16F_EXTMEMCS0_SIZE _HX32(007e0000) /* (actual depends on board) */ # define Z16F_EXTMEMCS1_BASE _HX32(ff800000) /* External memory at CS1 */ # define Z16F_EXTMEMCS1_SIZE _HX32(00700000) /* (actual depends on board) */ # define Z16F_EXTMEMCS2A_BASE _HX32(fff00000) /* External memory at CS2 */ # define Z16F_EXTMEMCS2A_SIZE _HX32(000f8000) /* (actual depends on board) */ # define Z16F_EXTMEMCS2B_BASE _HX32(ffffc000) /* External memory at CS2 */ # define Z16F_EXTMEMCS2B_SIZE _HX32(00000800) /* (actual depends on board) */ #endif /* Internal RAM always ends at 0xffbfff. The IRAM base address depends * on the size of the IRAM supported by the chip. */ #define Z16F_IRAM_BASE (_HX32(ffffc000) - Z16F_IRAM_SIZE) /* External memory mapped peripherals, internal I/O memory and SFRS */ #define Z16F_EXTIO_BASE _HX32(ffffc800) /* External peripherals CS3-5 */ #define Z16F_EXTIO_SIZE _HX32(00001800) #define Z16F_IIO_BASE _HX32(ffffe000) /* Internal I/O memory and SFRs */ #define Z16F_IIO_SIZE _HX32(00001fff) /* Control Registers ***************************************************************/ #define Z16F_CNTRL_PCOV _HX32(ffffe004) /* 32-bits: Program counter overflow */ #define Z16F_CNTRL_SPOV _HX32(ffffe00c) /* 32-bits: Stack pointer overflow */ #define Z16F_CNTRL_FLAGS _HX32(ffffe100) /* 8-bits: flags */ #define Z16F_CNTRL_CPUCTL _HX32(ffffe102) /* 8-bits: CPU control */ /* Flag register bits ***************************************************************/ #define Z16F_CNTRL_FLAGS_C _HX8(80) /* Bit 7: Carry flag */ #define Z16F_CNTRL_FLAGS_Z _HX8(40) /* Bit 6: Zero flag */ #define Z16F_CNTRL_FLAGS_S _HX8(20) /* Bit 5: Sign flag */ #define Z16F_CNTRL_FLAGS_V _HX8(10) /* Bit 4: Overflow flag */ #define Z16F_CNTRL_FLAGS_B _HX8(08) /* Bit 3: Blank flag */ #define Z16F_CNTRL_FLAGS_F1 _HX8(04) /* Bit 2: User flag 1 */ #define Z16F_CNTRL_FLAGS_CIRQE _HX8(02) /* Bit 1: Chained interrupt enable */ #define Z16F_CNTRL_FLAGS_IRQE _HX8(01) /* Bit 0: Master interrupt enable */ /* CPU control register bits ********************************************************/ /* Bits 7-2: Reserved, must be zero */ /* Bits 1-0: DMA bandwidth control */ #define Z16F_CNTRL_CPUCTL_BWALL _HX8(00) /* DMA can consume 100% bandwidth */ #define Z16F_CNTRL_CPUCTL_BW11 _HX8(01) /* DMA can do 1 transaction per 1 cycle */ #define Z16F_CNTRL_CPUCTL_BW12 _HX8(01) /* DMA can do 1 transaction per 2 cycles */ #define Z16F_CNTRL_CPUCTL_BW13 _HX8(01) /* DMA can do 1 transaction per 3 cycles */ /* Trace registers ******************************************************************/ #define Z16F_TRACE_CTL _HX32(ffffe013) /* 8-bit: Trace Control */ #define Z16F_TRACE_ADDR _HX32(ffffe014) /* 32-bit: Trace Address */ /* Interrupt controller registers ***************************************************/ #define Z16F_SYSEXCP _HX32(ffffe020) /* 16-bit: System Exception Status */ #define Z16F_SYSEXCPH _HX32(ffffe020) /* 8-bit: System Exception Status High */ #define Z16F_SYSEXCPL _HX32(ffffe021) /* 8-bit: System Exception Status Low */ #define Z16F_LASTIRQ _HX32(ffffe023) /* 8-bit: Last IRQ Register */ #define Z16F_IRQ0 _HX32(ffffe030) /* 8-bit: Interrupt Request 0 */ #define Z16F_IRQ0_SET _HX32(ffffe031) /* 8-bit: Interrupt Request 0 Set */ #define Z16F_IRQ0_EN _HX32(ffffe032) /* 16-bit: IRQ0 Enable */ #define Z16F_IRQ0_ENH _HX32(ffffe032) /* 8-bit: IRQ0 Enable High Bit */ #define Z16F_IRQ0_ENL _HX32(ffffe033) /* 8-bit: IRQ0 Enable Low Bit */ #define Z16F_IRQ1 _HX32(ffffe034) /* 8-bit: Interrupt Request 1 */ #define Z16F_IRQ1_SET _HX32(ffffe035) /* 8-bit: Interrupt Request 1 Set */ #define Z16F_IRQ1_EN _HX32(ffffe036) /* 16-bit: IRQ1 Enable */ #define Z16F_IRQ1_ENH _HX32(ffffe036) /* 8-bit: IRQ1 Enable High Bit */ #define Z16F_IRQ1_ENL _HX32(ffffe037) /* 8-bit: IRQ1 Enable Low Bit */ #define Z16F_IRQ2 _HX32(ffffe038) /* 8-bit: Interrupt Request 2 */ #define Z16F_IRQ2_SET _HX32(ffffe039) /* 8-bit Interrupt Request 2 Set */ #define Z16F_IRQ2_EN _HX32(ffffe03a) /* 16-bit: IRQ2 Enable */ #define Z16F_IRQ2_ENH _HX32(ffffe03a) /* 8-bit: IRQ2 Enable High Bit */ #define Z16F_IRQ2_ENL _HX32(ffffe03c) /* 8-bit: IRQ2 Enable Low Bit */ /* System exception status register bit definitions *********************************/ #define Z16F_SYSEXCPH_SPOVF _HX8(80) /* Bit 7: Stack pointer overflow */ #define Z16F_SYSEXCPH_PCOVF _HX8(40) /* Bit 6: Program counter overflow */ #define Z16F_SYSEXCPH_DIV0 _HX8(20) /* Bit 5: Divide by zero */ #define Z16F_SYSEXCPH_DIVOVF _HX8(10) /* Bit 4: Divide overflow */ #define Z16F_SYSEXCPH_ILL _HX8(08) /* Bit 3: Illegal instruction */ /* Bits 0-2: Reserved */ /* Bits 3-7: Reserved */ #define Z16F_SYSEXCPL_WDTOSC _HX8(04) /* Bit 2: WDT oscillator failure */ #define Z16F_SYSEXCPL_PRIOSC _HX8(02) /* Bit 1: Primary oscillator failure */ #define Z16F_SYSEXCPL_WDT _HX8(01) /* Bit 0: Watchdog timer interrupt */ #define Z16F_SYSEXCP_SPOVF (Z16F_SYSEXCPH_SPOVF << 8) #define Z16F_SYSEXCP_PCOVF (Z16F_SYSEXCPH_PCOVF << 8) #define Z16F_SYSEXCP_DIV0 (Z16F_SYSEXCPH_DIV0 << 8) #define Z16F_SYSEXCP_DIVOVF (Z16F_SYSEXCPH_DIVOVF << 8) #define Z16F_SYSEXCP_ILL (Z16F_SYSEXCPH_ILL << 8) #define Z16F_SYSEXCP_WDTOSC Z16F_SYSEXCPL_WDTOSC #define Z16F_SYSEXCP_PRIOSC Z16F_SYSEXCPL_PRIOSC #define Z16F_SYSEXCP_WDT Z16F_SYSEXCPL_WDT /* Oscillator control registers *****************************************************/ #define Z16F_OSC_CTL _HX32(ffffe0A0) /* 8-bit: Oscillator Control */ #define Z16F_OSC_DIV _HX32(ffffe0A1) /* 8-bit: Oscillator Divide */ /* Oscillator control register bits *************************************************/ #define Z16F_OSCCTL_INTEN _HX8(80) /* Bit 7: Internal oscillator enabled */ #define Z16F_OSCCTL_XTLEN _HX8(40) /* Bit 6: Crystal oscillator enabled */ #define Z16F_OSCCTL_WDTEN _HX8(20) /* Bit 5: Watchdog timer enabled */ #define Z16F_OSCCTL_POFEN _HX8(10) /* Bit 4: Failure detection enabled */ #define Z16F_OSCCTL_WDFEN _HX8(08) /* Bit 3: WD Failuare detection enabled*/ #define Z16F_OSCCTL_FLPEN _HX8(04) /* Bit 2: Flash low power enabled */ #define Z16F_OSCCTL_INT56 _HX8(00) /* Bits 0-1=0: Intenal 5.6 MHz */ #define Z16F_OSCCTL_EXTCLK _HX8(02) /* Bits 0-1=2: Extenal clock */ #define Z16F_OSCCTL_WDT10KHZ _HX8(03) /* Bits 0-1=3: WD Timer 10 KHz*/ /* GPIO Port A-K ********************************************************************/ #define Z16F_GPIOA_IN _HX32(ffffe100) /* 8-bits: Port A Input Data */ #define Z16F_GPIOA_OUT _HX32(ffffe101) /* 8-bits: Port A Output Data */ #define Z16F_GPIOA_DD _HX32(ffffe102) /* 8-bits: Port A Data Direction */ #define Z16F_GPIOA_HDE _HX32(ffffe103) /* 8-bits: Port A High Drive Enable */ #define Z16F_GPIOA_AF _HX32(ffffe104) /* 16-bits: Port A Alternate Function */ #define Z16F_GPIOA_AFH _HX32(ffffe104) /* 8-bits: Port A Alternate Function High */ #define Z16F_GPIOA_AFL _HX32(ffffe105) /* 8-bits: Port A Alternate Function Low */ #define Z16F_GPIOA_OC _HX32(ffffe106) /* 8-bits: Port A Output Control */ #define Z16F_GPIOA_PUE _HX32(ffffe107) /* 8-bits: Port A Pull-Up Enable */ #define Z16F_GPIOA_SMRE _HX32(ffffe108) /* 8-bits: Port A Stop Mode Recovery En */ #define Z16F_GPIOA_IMUX1 _HX32(ffffe10c) /* 8-bits: Port A IRQ Mux 1 */ #define Z16F_GPIOA_IMUX _HX32(ffffe10e) /* 8-bits: Port A IRQ Mux */ #define Z16F_GPIOA_IEDGE _HX32(ffffe10f) /* 8-bits: Port A IRQ Edge */ #define Z16F_GPIOB_IN _HX32(ffffe110) /* 8-bits: Port B Input Data */ #define Z16F_GPIOB_OUT _HX32(ffffe111) /* 8-bits: Port B Output Data */ #define Z16F_GPIOB_DD _HX32(ffffe112) /* 8-bits: Port B Data Direction */ #define Z16F_GPIOB_HDE _HX32(ffffe113) /* 8-bits: Port B High Drive Enable */ #define Z16F_GPIOB_AFL _HX32(ffffe115) /* 8-bits: Port B Alternate Function Low */ #define Z16F_GPIOB_OC _HX32(ffffe116) /* 8-bits: Port B Output Control */ #define Z16F_GPIOB_PUE _HX32(ffffe117) /* 8-bits: Port B Pull-Up Enable */ #define Z16F_GPIOB_SMRE _HX32(ffffe118) /* 8-bits: Port B Stop Mode Recovery En */ #define Z16F_GPIOC_IN _HX32(ffffe120) /* 8-bits: Port C Input Data */ #define Z16F_GPIOC_OUT _HX32(ffffe121) /* 8-bits: Port C Output Data */ #define Z16F_GPIOC_DD _HX32(ffffe122) /* 8-bits: Port C Data Direction */ #define Z16F_GPIOC_HDE _HX32(ffffe123) /* 8-bits: Port C High Drive Enable */ #define Z16F_GPIOC_AF _HX32(ffffe124) /* 16-bits: Port C Alternate Function */ #define Z16F_GPIOC_AFH _HX32(ffffe124) /* 8-bits: Port C Alternate Function High */ #define Z16F_GPIOC_AFL _HX32(ffffe125) /* 8-bits: Port C Alternate Function Low */ #define Z16F_GPIOC_OC _HX32(ffffe126) /* 8-bits: Port C Output Control */ #define Z16F_GPIOC_PUE _HX32(ffffe127) /* 8-bits: Port C Pull-Up Enable */ #define Z16F_GPIOC_SMRE _HX32(ffffe128) /* 8-bits: Port C Stop Mode Recovery En */ #define Z16F_GPIOC_IMUX _HX32(ffffe12e) /* 8-bits: Port C IRQ Mux */ #define Z16F_GPIOD_IN _HX32(ffffe130) /* 8-bits: Port D Input Data */ #define Z16F_GPIOD_OUT _HX32(ffffe131) /* 8-bits: Port D Output Data */ #define Z16F_GPIOD_DD _HX32(ffffe132) /* 8-bits: Port D Data Direction */ #define Z16F_GPIOD_HDE _HX32(ffffe133) /* 8-bits: Port D High Drive Enable */ #define Z16F_GPIOD_AF _HX32(ffffe134) /* 16-bits: Port D Alternate Function */ #define Z16F_GPIOD_AFH _HX32(ffffe134) /* 8-bits: Port D Alternate Function High */ #define Z16F_GPIOD_AFL _HX32(ffffe135) /* 8-bits: Port D Alternate Function Low */ #define Z16F_GPIOD_OC _HX32(ffffe136) /* 8-bits: Port D Output Control */ #define Z16F_GPIOD_PUE _HX32(ffffe137) /* 8-bits: Port D Pull-Up Enable */ #define Z16F_GPIOD_SMRE _HX32(ffffe138) /* 8-bits: Port D Stop Mode Recovery En */ #define Z16F_GPIOE_IN _HX32(ffffe140) /* 8-bits: Port E Input Data */ #define Z16F_GPIOE_OUT _HX32(ffffe141) /* 8-bits: Port E Output Data */ #define Z16F_GPIOE_DD _HX32(ffffe142) /* 8-bits: Port E Data Direction */ #define Z16F_GPIOE_HDE _HX32(ffffe143) /* 8-bits: Port E High Drive Enable */ #define Z16F_GPIOE_OC _HX32(ffffe146) /* 8-bits: Port E Output Control */ #define Z16F_GPIOE_PUE _HX32(ffffe147) /* 8-bits: Port E Pull-Up Enable */ #define Z16F_GPIOE_SMRE _HX32(ffffe148) /* 8-bits: Port E Stop Mode Recovery En */ #define Z16F_GPIOF_IN _HX32(ffffe150) /* 8-bits: Port F Input Data */ #define Z16F_GPIOF_OUT _HX32(ffffe151) /* 8-bits: Port F Output Data */ #define Z16F_GPIOF_DD _HX32(ffffe152) /* 8-bits: Port F Data Direction */ #define Z16F_GPIOF_HDE _HX32(ffffe153) /* 8-bits: Port F High Drive Enable */ #define Z16F_GPIOF_AFL _HX32(ffffe155) /* 8-bits: Port F Alternate Function Low */ #define Z16F_GPIOF_OC _HX32(ffffe156) /* 8-bits: Port F Output Control */ #define Z16F_GPIOF_PUE _HX32(ffffe157) /* 8-bits: Port F Pull-Up Enable */ #define Z16F_GPIOF_SMRE _HX32(ffffe158) /* 8-bits: Port F Stop Mode Recovery En */ #define Z16F_GPIOG_IN _HX32(ffffe160) /* 8-bits: Port G Input Data */ #define Z16F_GPIOG_OUT _HX32(ffffe161) /* 8-bits: Port G Output Data */ #define Z16F_GPIOG_DD _HX32(ffffe162) /* 8-bits: Port G Data Direction */ #define Z16F_GPIOG_HDE _HX32(ffffe163) /* 8-bits: Port G High Drive Enable */ #define Z16F_GPIOG_AFL _HX32(ffffe165) /* 8-bits: Port G Alternate Function Low */ #define Z16F_GPIOG_OC _HX32(ffffe166) /* 8-bits: Port G Output Control */ #define Z16F_GPIOG_PUE _HX32(ffffe167) /* 8-bits: Port G Pull-Up Enable */ #define Z16F_GPIOG_SMRE _HX32(ffffe168) /* 8-bits: Port G Stop Mode Recovery En */ #define Z16F_GPIOH_IN _HX32(ffffe170) /* 8-bits: Port H Input Data */ #define Z16F_GPIOH_OUT _HX32(ffffe171) /* 8-bits: Port H Output Data */ #define Z16F_GPIOH_DD _HX32(ffffe172) /* 8-bits: Port H Data Direction */ #define Z16F_GPIOH_HDE _HX32(ffffe173) /* 8-bits: Port H High Drive Enable */ #define Z16F_GPIOH_AF _HX32(ffffe174) /* 16-bits: Port H Alternate Function */ #define Z16F_GPIOH_AFH _HX32(ffffe174) /* 8-bits: Port H Alternate Function High */ #define Z16F_GPIOH_AFL _HX32(ffffe175) /* 8-bits: Port H Alternate Function LOw */ #define Z16F_GPIOH_OC _HX32(ffffe176) /* 8-bits: Port H Output Control */ #define Z16F_GPIOH_PUE _HX32(ffffe177) /* 8-bits: Port H Pull-Up Enable */ #define Z16F_GPIOH_SMRE _HX32(ffffe178) /* 8-bits: Port H Stop Mode Recovery En */ #ifdef Z16F_HAVE_GPIO_PORTJ # define Z16F_GPIOJ_IN _HX32(ffffe180) /* 8-bits: Port J Input Data */ # define Z16F_GPIOJ_OUT _HX32(ffffe181) /* 8-bits: Port J Output Data */ # define Z16F_GPIOJ_DD _HX32(ffffe182) /* 8-bits: Port J Data Direction */ # define Z16F_GPIOJ_HDE _HX32(ffffe183) /* 8-bits: Port J High Drive Enable */ # define Z16F_GPIOJ_OC _HX32(ffffe186) /* 8-bits: Port J Output Control */ # define Z16F_GPIOJ_PUE _HX32(ffffe187) /* 8-bits: Port J Pull-Up Enable */ # define Z16F_GPIOJ_SMRE _HX32(ffffe188) /* 8-bits: Port J Stop Mode Recovery En */ #endif #ifdef Z16F_HAVE_GPIO_PORTK # define Z16F_GPIOK_IN _HX32(ffffe190) /* 8-bits: Port K Input Data */ # define Z16F_GPIOK_OUT _HX32(ffffe191) /* 8-bits: Port K Output Data */ # define Z16F_GPIOK_DD _HX32(ffffe192) /* 8-bits: Port K Data Direction */ # define Z16F_GPIOK_HDE _HX32(ffffe193) /* 8-bits: Port K High Drive Enable */ # define Z16F_GPIOK_AFL _HX32(ffffe195) /* 8-bits: Port K Alternate Function Low */ # define Z16F_GPIOK_OC _HX32(ffffe196) /* 8-bits: Port K Output Control */ # define Z16F_GPIOK_PUE _HX32(ffffe197) /* 8-bits: Port K Pull-Up Enable */ # define Z16F_GPIOK_SMRE _HX32(ffffe198) /* 8-bits: Port K Stop Mode Recovery En */ #endif /* UART Register Offsets *************************************************************/ #define Z16F_UART_TXD _HX8(00) /* 8-bits: UART Transmit Data */ #define Z16F_UART_RXD _HX8(00) /* 8-bits: UART Receive Data */ #define Z16F_UART_STAT0 _HX8(01) /* 8-bits: UART Status 0 */ #define Z16F_UART_CTL _HX8(02) /* 16-bits: UART Control */ #define Z16F_UART_CTL0 _HX8(02) /* 8-bits: UART Control 0 */ #define Z16F_UART_CTL1 _HX8(03) /* 8-bits: UART COntrol 1 */ #define Z16F_UART_MDSTAT _HX8(04) /* 8-bits: UART Mode Select & Status */ #define Z16F_UART_ADDR _HX8(05) /* 8-bits: UART Address Compare */ #define Z16F_UART_BR _HX8(06) /* 16-bits: UART Baud Rate */ #define Z16F_UART_BRH _HX8(06) /* 8-bits: UART Baud Rate High Byte */ #define Z16F_UART_BRL _HX8(07) /* 8-bits: UART Baud Rate Low Byte */ #define Z16F_UART0_BASE _HX32(ffffe200) /* UART0 Register Base Address */ #define Z16F_UART1_BASE _HX32(ffffe210) /* UART1 Register Base Address */ /* UART0/1 Registers ****************************************************************/ #define Z16F_UART0_TXD _HX32(ffffe200) /* 8-bits: UART0 Transmit Data */ #define Z16F_UART0_RXD _HX32(ffffe200) /* 8-bits: UART0 Receive Data */ #define Z16F_UART0_STAT0 _HX32(ffffe201) /* 8-bits: UART0 Status 0 */ #define Z16F_UART0_CTL _HX32(ffffe202) /* 16-bits: UART0 Control */ #define Z16F_UART0_CTL0 _HX32(ffffe202) /* 8-bits: UART0 Control 0 */ #define Z16F_UART0_CTL1 _HX32(ffffe203) /* 8-bits: UART0 COntrol 1 */ #define Z16F_UART0_MDSTAT _HX32(ffffe204) /* 8-bits: UART0 Mode Select & Status */ #define Z16F_UART0_ADDR _HX32(ffffe205) /* 8-bits: UART0 Address Compare */ #define Z16F_UART0_BR _HX32(ffffe206) /* 16-bits: UART0 Baud Rate */ #define Z16F_UART0_BRH _HX32(ffffe206) /* 8-bits: UART0 Baud Rate High Byte */ #define Z16F_UART0_BRL _HX32(ffffe207) /* 8-bits: UART0 Baud Rate Low Byte */ #define Z16F_UART1_TXD _HX32(ffffe210) /* 8-bits: UART1 Transmit Data */ #define Z16F_UART1_RXD _HX32(ffffe210) /* 8-bits: UART1 Receive Data */ #define Z16F_UART1_STAT0 _HX32(ffffe211) /* 8-bits: UART1 Status 0 */ #define Z16F_UART1_CTL _HX32(ffffe212) /* 16-bits: UART1 Control */ #define Z16F_UART1_CTL0 _HX32(ffffe212) /* 8-bits: UART1 Control 0 */ #define Z16F_UART1_CTL1 _HX32(ffffe213) /* 8-bits: UART1 COntrol 1 */ #define Z16F_UART1_MDSTAT _HX32(ffffe214) /* 8-bits: UART1 Mode Select & Status */ #define Z16F_UART1_ADDR _HX32(ffffe215) /* 8-bits: UART1 Address Compare */ #define Z16F_UART1_BR _HX32(ffffe216) /* 16-bits: UART1 Baud Rate */ #define Z16F_UART1_BRH _HX32(ffffe216) /* 8-bits: UART1 Baud Rate High Byte */ #define Z16F_UART1_BRL _HX32(ffffe217) /* 8-bits: UART1 Baud Rate Low Byte */ /* UART0/1 Status 0 Register Bit Definitions ****************************************/ #define Z16F_UARTSTAT0_RDA _HX8(80) /* Bit 7: Receive Data Available */ #define Z16F_UARTSTAT0_PE _HX8(40) /* Bit 6: Parity Error */ #define Z16F_UARTSTAT0_OE _HX8(20) /* Bit 5: Overrun Error */ #define Z16F_UARTSTAT0_FE _HX8(10) /* Bit 4: Framing Error */ #define Z16F_UARTSTAT0_BRKD _HX8(08) /* Bit 3: Break Detect */ #define Z16F_UARTSTAT0_TDRE _HX8(04) /* Bit 2: Transmitter Data Register Empty */ #define Z16F_UARTSTAT0_TXE _HX8(02) /* Bit 1: Transmitter Empty */ #define Z16F_UARTSTAT0_CTS _HX8(01) /* Bit 0: Clear To Send */ /* UART0/1 Control 0/1 Register Bit Definitions *************************************/ #define Z16F_UARTCTL0_TEN _HX8(80) /* Bit 7: Transmit Enable */ #define Z16F_UARTCTL0_REN _HX8(40) /* Bit 6: Receive Enable */ #define Z16F_UARTCTL0_CTSE _HX8(20) /* Bit 5: CTS Enable */ #define Z16F_UARTCTL0_PEN _HX8(10) /* Bit 4: Parity Enable */ #define Z16F_UARTCTL0_PSEL _HX8(08) /* Bit 3: Odd Parity Select */ #define Z16F_UARTCTL0_SBRK _HX8(04) /* Bit 2: Send Break */ #define Z16F_UARTCTL0_STOP _HX8(02) /* Bit 1: Stop Bit Select */ #define Z16F_UARTCTL0_LBEN _HX8(01) /* Bit 0: Loopback Enable */ #define Z16F_UARTCTL1_MPMD1 _HX8(80) /* Bit 7: Multiprocessor Mode (bit1) */ #define Z16F_UARTCTL1_MPEN _HX8(40) /* Bit 6: Multiprocessor Enable */ #define Z16F_UARTCTL1_MPMD0 _HX8(20) /* Bit 5: Multiprocessor Mode (bit0) */ #define Z16F_UARTCTL1_MPBT _HX8(10) /* Bit 4: Multiprocessor Bit Transmit */ #define Z16F_UARTCTL1_DEPOL _HX8(08) /* Bit 3: Driver Enable Polarity */ #define Z16F_UARTCTL1_BRGCTL _HX8(04) /* Bit 2: Baud Rate Generator Control */ #define Z16F_UARTCTL1_RDAIRQ _HX8(02) /* Bit 1: Receive Data Interrupt Enable */ #define Z16F_UARTCTL1_IREN _HX8(01) /* Bit 0: Infrared Encoder/Decoder Eanble */ /* UART0/1 Mode Status/Select Register Bit Definitions ******************************/ #define Z16F_UARTMDSEL_NORMAL _HX8(00) /* Bits 5-7=0: Multiprocessor and Normal Mode */ #define Z16F_UARTMDSEL_FILTER _HX8(20) /* Bits 5-7=1: Noise Filter Control/Status */ #define Z16F_UARTMDSEL_LINP _HX8(40) /* Bits 5-7=2: LIN protocol Contol/Status */ #define Z16F_UARTMDSEL_HWREV _HX8(e0) /* Bits 5-7=7: LIN-UART Hardware Revision */ /* Bits 0-4: Mode dependent status */ /* Timer0/1/2 registers *************************************************************/ #define Z16F_TIMER0_HL _HX32(ffffe300) /* 16-bit: Timer 0 */ #define Z16F_TIMER0_H _HX32(ffffe300) /* 8-bit: Timer 0 High Byte */ #define Z16F_TIMER0_L _HX32(ffffe301) /* 8-bit: Timer 0 Low Byte */ #define Z16F_TIMER0_R _HX32(ffffe302) /* 16-bit: Timer 0 Reload */ #define Z16F_TIMER0_RH _HX32(ffffe302) /* 8-bit: Timer 0 Reload High Byte */ #define Z16F_TIMER0_RL _HX32(ffffe303) /* 8-bit: Timer 0 Reload Low Byte */ #define Z16F_TIMER0_PWM _HX32(ffffe304) /* 16-bit: Timer 0 PWM */ #define Z16F_TIMER0_PWMH _HX32(ffffe304) /* 8-bit: Timer 0 PWM High Byte */ #define Z16F_TIMER0_PWML _HX32(ffffe305) /* 8-bit: Timer 0 PWM Low Byte */ #define Z16F_TIMER0_CTL _HX32(ffffe306) /* 16-bit: Timer 0 Control */ #define Z16F_TIMER0_CTL0 _HX32(ffffe306) /* 8-bit: Timer 0 Control 0 */ #define Z16F_TIMER0_CTL1 _HX32(ffffe307) /* 8-bit: Timer 0 Control 1 */ #define Z16F_TIMER1_HL _HX32(ffffe310) /* 16-bit: Timer 1 */ #define Z16F_TIMER1_H _HX32(ffffe310) /* 8-bit: Timer 1 High Byte */ #define Z16F_TIMER1_L _HX32(ffffe311) /* 8-bit: Timer 1 Low Byte */ #define Z16F_TIMER1_R _HX32(ffffe312) /* 16-bit: Timer 1 Reload */ #define Z16F_TIMER1_RH _HX32(ffffe312) /* 8-bit: Timer 1 Reload High Byte */ #define Z16F_TIMER1_RL _HX32(ffffe313) /* 8-bit: Timer 1 Reload Low Byte */ #define Z16F_TIMER1_PWM _HX32(ffffe314) /* 16-bit: Timer 1 PWM */ #define Z16F_TIMER1_PWMH _HX32(ffffe314) /* 8-bit: Timer 1 PWM High Byte */ #define Z16F_TIMER1_PWML _HX32(ffffe315) /* 8-bit: Timer 1 PWM Low Byte */ #define Z16F_TIMER1_CTL _HX32(ffffe316) /* 16-bit: Timer 1 Control */ #define Z16F_TIMER1_CTL0 _HX32(ffffe316) /* 8-bit: Timer 1 Control 0 */ #define Z16F_TIMER1_CTL1 _HX32(ffffe317) /* 8-bit: Timer 1 Control 1 */ #define Z16F_TIMER2_HL _HX32(ffffe320) /* 16-bit: Timer 2 */ #define Z16F_TIMER2_H _HX32(ffffe320) /* 8-bit: Timer 2 High Byte */ #define Z16F_TIMER2_L _HX32(ffffe321) /* 8-bit: Timer 2 Low Byte */ #define Z16F_TIMER2_R _HX32(ffffe322) /* 16-bit: Timer 2 Reload */ #define Z16F_TIMER2_RH _HX32(ffffe322) /* 8-bit: Timer 2 Reload High Byte */ #define Z16F_TIMER2_RL _HX32(ffffe323) /* 8-bit: Timer 2 Reload Low Byte */ #define Z16F_TIMER2_PWM _HX32(ffffe324) /* 16-bit: Timer 2 PWM */ #define Z16F_TIMER2_PWMH _HX32(ffffe324) /* 8-bit: Timer 2 PWM High Byte */ #define Z16F_TIMER2_PWML _HX32(ffffe325) /* 8-bit: Timer 2 PWM Low Byte */ #define Z16F_TIMER2_CTL _HX32(ffffe326) /* 16-bit: Timer 2 Control */ #define Z16F_TIMER2_CTL0 _HX32(ffffe326) /* 8-bit: Timer 2 Control 0 */ #define Z16F_TIMER2_CTL1 _HX32(ffffe327) /* 8-bit: Timer 2 Control 1 */ /* Common timer0/1/2 register bit definitions ***************************************/ #define Z16F_TIMERCTL0_TMODE _HX8(80) /* Bit 7: Timer mode */ /* Bits 5-6: Timer configuration, * Interpretation depends on timer mode */ #define Z16F_TIMERCTL0_RELOAD _HX8(00) /* Interrupt occurs on reload or capture */ #define Z16F_TIMERCTL0_IDISABLED _HX8(40) /* Disabled */ #define Z16F_TIMERCTL0_IINACTIVE _HX8(40) /* Interrrupt occurs on inactive gate edge */ #define Z16F_TIMERCTL0_ICAPTURE _HX8(40) /* Interrupt occurs on capture */ #define Z16F_TIMERCTL0_IRELOAD _HX8(60) /* Interrupt occurs on reload */ #define Z16F_TIMERCTL0_CASCADE _HX8(10) /* Bit 4: Timer is cascaded */ /* Bits 1-2: PW mode */ #define Z16F_TIMERCTL0_NODELAY _HZ8(00) /* No delay */ #define Z16F_TIMERCTL0_DELAY2 _HZ8(01) /* 2 cycle delay */ #define Z16F_TIMERCTL0_DELAY4 _HZ8(02) /* 4 cycle delay */ #define Z16F_TIMERCTL0_DELAY8 _HZ8(03) /* 8 cycle delay */ #define Z16F_TIMERCTL0_DELAY16 _HZ8(04) /* 16 cycle delay */ #define Z16F_TIMERCTL0_DELAY32 _HZ8(05) /* 32 cycle delay */ #define Z16F_TIMERCTL0_DELAY64 _HZ8(06) /* 64 cycle delay */ #define Z16F_TIMERCTL0_DELAY128 _HZ8(07) /* 128 cycle delay */ #define Z16F_TIMERCTL1_TEN _HX8(80) /* Bit 7: Timer enable */ #define Z16F_TIMERCTL1_TPOL _HX8(40) /* Bit 6: Input output polarity */ /* Bits 3-5: Timer prescale value */ #define Z16F_TIMERSCTL1_DIV1 _HX8(00) /* Divide by 1 */ #define Z16F_TIMERSCTL1_DIV2 _HX8(08) /* Divide by 2 */ #define Z16F_TIMERSCTL1_DIV4 _HX8(10) /* Divide by 4 */ #define Z16F_TIMERSCTL1_DIV8 _HX8(18) /* Divide by 8 */ #define Z16F_TIMERSCTL1_DIV16 _HX8(20) /* Divide by 16 */ #define Z16F_TIMERSCTL1_DIV32 _HX8(28) /* Divide by 32 */ #define Z16F_TIMERSCTL1_DIV64 _HX8(30) /* Divide by 64 */ #define Z16F_TIMERSCTL1_DIV128 _HX8(38) /* Divide by 128 */ /* Bits 0-2: Timer mode + CTL0 TMODE bit*/ #define Z16F_TIMERSCTL1_ONESHOT _HX8(00) /* One shot mode (CTL0 TMOD = 0) */ #define Z16F_TIMERSCTL1_PWMDO _HX8(00) /* One shot mode (CTL0 TMOD = 1) */ #define Z16F_TIMERSCTL1_CONT _HX8(01) /* Continuous mode (CTL0 TMOD = 0)*/ #define Z16F_TIMERSCTL1_CAPRST _HX8(01) /* Capture restart mode (CTL0 TMOD = 1)*/ #define Z16F_TIMERSCTL1_COUNTER _HX8(02) /* Counter mode (CTL0 TMOD = 0)*/ #define Z16F_TIMERSCTL1_CMPCNTR _HX8(02) /* Comparator counter mode (CTL0 TMOD = 1)*/ #define Z16F_TIMERSCTL1_PWMSO _HX8(03) /* PWM single output mode (CTL0 TMOD = 0)*/ #define Z16F_TIMERSCTL1_TRIGOS _HX8(03) /* Triggered one shot (CTL0 TMOD = 1)*/ #define Z16F_TIMERSCTL1_CAPTURE _HX8(04) /* Capture mode (CTL0 TMOD = 0)*/ #define Z16F_TIMERSCTL1_COMPARE _HX8(05) /* Compare mode (CTL0 TMOD = 0)*/ #define Z16F_TIMERSCTL1_GATED _HX8(06) /* Gated mode (CTL0 TMOD = 0)*/ #define Z16F_TIMERSCTL1_CAPCMP _HX8(07) /* Capture/Compare mode (CTL0 TMOD = 0)*/ /* Register access macros ***********************************************************/ #ifndef __ASSEMBLY__ # define getreg8(a) (*(ubyte volatile _Near*)((a) & 0xffff)) # define putreg8(v,a) (*(ubyte volatile _Near*)((a) & 0xffff) = (v)) # define getreg16(a) (*(uint16 volatile _Near*)((a) & 0xffff)) # define putreg16(v,a) (*(uint16 volatile _Near*)((a) & 0xffff) = (v)) # define getreg32(a) (*(uint32 volatile _Near*)((a) & 0xffff)) # define putreg32(v,a) (*(uint32 volatile _Near*)((a) & 0xffff) = (v)) #endif /* __ASSEMBLY__ */ /************************************************************************************ * Public Function Prototypes ************************************************************************************/ #ifndef __ASSEMBLY__ #ifdef __cplusplus #define EXTERN extern "C" extern "C" { #else #define EXTERN extern #endif /* The following two routines are called from the low-level reset logic. z16f_lowinit() * must be provided by the board-specific logic; z16f_lowuartinit() is called only if * debugging support for up_lowputc (or getc) is enabled. */ EXTERN void z16f_lowinit(void); #if defined(CONFIG_ARCH_LOWPUTC) || defined(CONFIG_ARCH_LOWGETC) EXTERN void z16f_lowuartinit(void); #endif /* This function handles Z16F system execeptions */ EXTERN void z16f_sysexec(FAR chipreg_t *regs); /* Entry point to reset the processor */ EXTERN void z16f_reset(void); #undef EXTERN #ifdef __cplusplus } #endif #endif /* __ASSEMBLY__ */ #endif /* __Z16F_CHIP_H */