Akila Kasunjith Hettiarachchi
/
ADE9000
Interfacing ADE9000 with mbed platform
Revision 0:32e7a5fadacc, committed 2018-04-20
- Comitter:
- ksnjth
- Date:
- Fri Apr 20 08:45:34 2018 +0000
- Commit message:
- ADE9000 SPI
Changed in this revision
diff -r 000000000000 -r 32e7a5fadacc ADE9000.h --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/ADE9000.h Fri Apr 20 08:45:34 2018 +0000 @@ -0,0 +1,629 @@ +/******************************************************************************* + Copyright(c) 2014 Analog Devices, Inc. All Rights Reserved. + + This software is proprietary and confidential. By using this software you agree + to the terms of the associated Analog Devices License Agreement. +-------------------------------------------------------------------------------- +Filename : ade9000.h +Abstract : The file define the address of ADE90XX register, and deafult value of each register + +Author : Yiyi.zhao +Accomplished date: 06/09/2015 +*******************************************************************************/ + + +//address of ADE90XX registers +#define ADDR_AIGAIN 0x000 +#define ADDR_AIGAIN0 0x001 +#define ADDR_AIGAIN1 0x002 +#define ADDR_AIGAIN2 0x003 +#define ADDR_AIGAIN3 0x004 +#define ADDR_AIGAIN4 0x005 +#define ADDR_APHCAL0 0x006 +#define ADDR_APHCAL1 0x007 +#define ADDR_APHCAL2 0x008 +#define ADDR_APHCAL3 0x009 +#define ADDR_APHCAL4 0x00A +#define ADDR_AVGAIN 0x00B +#define ADDR_AIRMSOS 0x00C +#define ADDR_AVRMSOS 0x00D +#define ADDR_APGAIN 0x00E +#define ADDR_AWATTOS 0x00F +#define ADDR_AVAROS 0x010 +#define ADDR_AFWATTOS 0x011 +#define ADDR_AFVAROS 0x012 +#define ADDR_AIFRMSOS 0x013 +#define ADDR_AVFRMSOS 0x014 +#define ADDR_AVRMSONEOS 0x015 +#define ADDR_AIRMSONEOS 0x016 +#define ADDR_AVRMS1012OS 0x017 +#define ADDR_AIRMS1012OS 0x018 +#define ADDR_BIGAIN 0x020 +#define ADDR_BIGAIN0 0x021 +#define ADDR_BIGAIN1 0x022 +#define ADDR_BIGAIN2 0x023 +#define ADDR_BIGAIN3 0x024 +#define ADDR_BIGAIN4 0x025 +#define ADDR_BPHCAL0 0x026 +#define ADDR_BPHCAL1 0x027 +#define ADDR_BPHCAL2 0x028 +#define ADDR_BPHCAL3 0x029 +#define ADDR_BPHCAL4 0x02A +#define ADDR_BVGAIN 0x02B +#define ADDR_BIRMSOS 0x02C +#define ADDR_BVRMSOS 0x02D +#define ADDR_BPGAIN 0x02E +#define ADDR_BWATTOS 0x02F +#define ADDR_BVAROS 0x030 +#define ADDR_BFWATTOS 0x031 +#define ADDR_BFVAROS 0x032 +#define ADDR_BIFRMSOS 0x033 +#define ADDR_BVFRMSOS 0x034 +#define ADDR_BVRMSONEOS 0x035 +#define ADDR_BIRMSONEOS 0x036 +#define ADDR_BVRMS1012OS 0x037 +#define ADDR_BIRMS1012OS 0x038 +#define ADDR_CIGAIN 0x040 +#define ADDR_CIGAIN0 0x041 +#define ADDR_CIGAIN1 0x042 +#define ADDR_CIGAIN2 0x043 +#define ADDR_CIGAIN3 0x044 +#define ADDR_CIGAIN4 0x045 +#define ADDR_CPHCAL0 0x046 +#define ADDR_CPHCAL1 0x047 +#define ADDR_CPHCAL2 0x048 +#define ADDR_CPHCAL3 0x049 +#define ADDR_CPHCAL4 0x04A +#define ADDR_CVGAIN 0x04B +#define ADDR_CIRMSOS 0x04C +#define ADDR_CVRMSOS 0x04D +#define ADDR_CPGAIN 0x04E +#define ADDR_CWATTOS 0x04F +#define ADDR_CVAROS 0x050 +#define ADDR_CFWATTOS 0x051 +#define ADDR_CFVAROS 0x052 +#define ADDR_CIFRMSOS 0x053 +#define ADDR_CVFRMSOS 0x054 +#define ADDR_CVRMSONEOS 0x055 +#define ADDR_CIRMSONEOS 0x056 +#define ADDR_CVRMS1012OS 0x057 +#define ADDR_CIRMS1012OS 0x058 +#define ADDR_CONFIG0 0x060 +#define ADDR_MTTHR_L0 0x061 +#define ADDR_MTTHR_L1 0x062 +#define ADDR_MTTHR_L2 0x063 +#define ADDR_MTTHR_L3 0x064 +#define ADDR_MTTHR_L4 0x065 +#define ADDR_MTTHR_H0 0x066 +#define ADDR_MTTHR_H1 0x067 +#define ADDR_MTTHR_H2 0x068 +#define ADDR_MTTHR_H3 0x069 +#define ADDR_MTTHR_H4 0x06A +#define ADDR_NIRMSOS 0x06B +#define ADDR_ISUMRMSOS 0x06C +#define ADDR_NIGAIN 0x06D +#define ADDR_NPHCAL 0x06E +#define ADDR_NIRMSONEOS 0x06F +#define ADDR_NIRMS1012OS 0x070 +#define ADDR_VNOM 0x071 +#define ADDR_DICOEFF 0x072 +#define ADDR_ISUMLVL 0x073 +#define ADDR_AI_PCF 0x20A +#define ADDR_AV_PCF 0x20B +#define ADDR_AIRMS 0x20C +#define ADDR_AVRMS 0x20D +#define ADDR_AIFRMS 0x20E +#define ADDR_AVFRMS 0x20F +#define ADDR_AWATT 0x210 +#define ADDR_AVAR 0x211 +#define ADDR_AVA 0x212 +#define ADDR_AFWATT 0x213 +#define ADDR_AFVAR 0x214 +#define ADDR_AFVA 0x215 +#define ADDR_APF 0x216 +#define ADDR_AVTHD 0x217 +#define ADDR_AITHD 0x218 +#define ADDR_AIRMSONE 0x219 +#define ADDR_AVRMSONE 0x21A +#define ADDR_AIRMS1012 0x21B +#define ADDR_AVRMS1012 0x21C +#define ADDR_AMTREGION 0x21D +#define ADDR_BI_PCF 0x22A +#define ADDR_BV_PCF 0x22B +#define ADDR_BIRMS 0x22C +#define ADDR_BVRMS 0x22D +#define ADDR_BIFRMS 0x22E +#define ADDR_BVFRMS 0x22F +#define ADDR_BWATT 0x230 +#define ADDR_BVAR 0x231 +#define ADDR_BVA 0x232 +#define ADDR_BFWATT 0x233 +#define ADDR_BFVAR 0x234 +#define ADDR_BFVA 0x235 +#define ADDR_BPF 0x236 +#define ADDR_BVTHD 0x237 +#define ADDR_BITHD 0x238 +#define ADDR_BIRMSONE 0x239 +#define ADDR_BVRMSONE 0x23A +#define ADDR_BIRMS1012 0x23B +#define ADDR_BVRMS1012 0x23C +#define ADDR_BMTREGION 0x23D +#define ADDR_CI_PCF 0x24A +#define ADDR_CV_PCF 0x24B +#define ADDR_CIRMS 0x24C +#define ADDR_CVRMS 0x24D +#define ADDR_CIFRMS 0x24E +#define ADDR_CVFRMS 0x24F +#define ADDR_CWATT 0x250 +#define ADDR_CVAR 0x251 +#define ADDR_CVA 0x252 +#define ADDR_CFWATT 0x253 +#define ADDR_CFVAR 0x254 +#define ADDR_CFVA 0x255 +#define ADDR_CPF 0x256 +#define ADDR_CVTHD 0x257 +#define ADDR_CITHD 0x258 +#define ADDR_CIRMSONE 0x259 +#define ADDR_CVRMSONE 0x25A +#define ADDR_CIRMS1012 0x25B +#define ADDR_CVRMS1012 0x25C +#define ADDR_CMTREGION 0x25D +#define ADDR_NI_PCF 0x265 +#define ADDR_NIRMS 0x266 +#define ADDR_NIRMSONE 0x267 +#define ADDR_NIRMS1012 0x268 +#define ADDR_ISUMRMS 0x269 +#define ADDR_VERSION2 0x26A +#define ADDR_AWATT_ACC 0x2E5 +#define ADDR_AWATTHR_LO 0x2E6 +#define ADDR_AWATTHR_HI 0x2E7 +#define ADDR_AVAR_ACC 0x2EF +#define ADDR_AVARHR_LO 0x2F0 +#define ADDR_AVARHR_HI 0x2F1 +#define ADDR_AVA_ACC 0x2F9 +#define ADDR_AVAHR_LO 0x2FA +#define ADDR_AVAHR_HI 0x2FB +#define ADDR_AFWATT_ACC 0x303 +#define ADDR_AFWATTHR_LO 0x304 +#define ADDR_AFWATTHR_HI 0x305 +#define ADDR_AFVAR_ACC 0x30D +#define ADDR_AFVARHR_LO 0x30E +#define ADDR_AFVARHR_HI 0x30F +#define ADDR_AFVA_ACC 0x317 +#define ADDR_AFVAHR_LO 0x318 +#define ADDR_AFVAHR_HI 0x319 +#define ADDR_BWATT_ACC 0x321 +#define ADDR_BWATTHR_LO 0x322 +#define ADDR_BWATTHR_HI 0x323 +#define ADDR_BVAR_ACC 0x32B +#define ADDR_BVARHR_LO 0x32C +#define ADDR_BVARHR_HI 0x32D +#define ADDR_BVA_ACC 0x335 +#define ADDR_BVAHR_LO 0x336 +#define ADDR_BVAHR_HI 0x337 +#define ADDR_BFWATT_ACC 0x33F +#define ADDR_BFWATTHR_LO 0x340 +#define ADDR_BFWATTHR_HI 0x341 +#define ADDR_BFVAR_ACC 0x349 +#define ADDR_BFVARHR_LO 0x34A +#define ADDR_BFVARHR_HI 0x34B +#define ADDR_BFVA_ACC 0x353 +#define ADDR_BFVAHR_LO 0x354 +#define ADDR_BFVAHR_HI 0x355 +#define ADDR_CWATT_ACC 0x35D +#define ADDR_CWATTHR_LO 0x35E +#define ADDR_CWATTHR_HI 0x35F +#define ADDR_CVAR_ACC 0x367 +#define ADDR_CVARHR_LO 0x368 +#define ADDR_CVARHR_HI 0x369 +#define ADDR_CVA_ACC 0x371 +#define ADDR_CVAHR_LO 0x372 +#define ADDR_CVAHR_HI 0x373 +#define ADDR_CFWATT_ACC 0x37B +#define ADDR_CFWATTHR_LO 0x37C +#define ADDR_CFWATTHR_HI 0x37D +#define ADDR_CFVAR_ACC 0x385 +#define ADDR_CFVARHR_LO 0x386 +#define ADDR_CFVARHR_HI 0x387 +#define ADDR_CFVA_ACC 0x38F +#define ADDR_CFVAHR_LO 0x390 +#define ADDR_CFVAHR_HI 0x391 +#define ADDR_PWATT_ACC 0x397 +#define ADDR_NWATT_ACC 0x39B +#define ADDR_PVAR_ACC 0x39F +#define ADDR_NVAR_ACC 0x3A3 +#define ADDR_IPEAK 0x400 +#define ADDR_VPEAK 0x401 +#define ADDR_STATUS0 0x402 +#define ADDR_STATUS1 0x403 +#define ADDR_EVENT_STATUS 0x404 +#define ADDR_MASK0 0x405 +#define ADDR_MASK1 0x406 +#define ADDR_EVENT_MASK 0x407 +#define ADDR_OILVL 0x409 +#define ADDR_OIA 0x40A +#define ADDR_OIB 0x40B +#define ADDR_OIC 0x40C +#define ADDR_OIN 0x40D +#define ADDR_USER_PERIOD 0x40E +#define ADDR_VLEVEL 0x40F +#define ADDR_DIP_LVL 0x410 +#define ADDR_DIPA 0x411 +#define ADDR_DIPB 0x412 +#define ADDR_DIPC 0x413 +#define ADDR_SWELL_LVL 0x414 +#define ADDR_SWELLA 0x415 +#define ADDR_SWELLB 0x416 +#define ADDR_SWELLC 0x417 +#define ADDR_APERIOD 0x418 +#define ADDR_BPERIOD 0x419 +#define ADDR_CPERIOD 0x41A +#define ADDR_COM_PERIOD 0x41B +#define ADDR_ACT_NL_LVL 0x41C +#define ADDR_REACT_NL_LVL 0x41D +#define ADDR_APP_NL_LVL 0x41E +#define ADDR_PHNOLOAD 0x41F +#define ADDR_WTHR 0x420 +#define ADDR_VARTHR 0x421 +#define ADDR_VATHR 0x422 +#define ADDR_LAST_DATA_32 0x423 +#define ADDR_ADC_REDIRECT 0x424 +#define ADDR_CF_LCFG 0x425 +#define ADDR_TEMP_TRIM 0x474 +#define ADDR_RUN 0x480 +#define ADDR_CONFIG1 0x481 +#define ADDR_ANGL_VA_VB 0x482 +#define ADDR_ANGL_VB_VC 0x483 +#define ADDR_ANGL_VA_VC 0x484 +#define ADDR_ANGL_VA_IA 0x485 +#define ADDR_ANGL_VB_IB 0x486 +#define ADDR_ANGL_VC_IC 0x487 +#define ADDR_ANGL_IA_IB 0x488 +#define ADDR_ANGL_IB_IC 0x489 +#define ADDR_ANGL_IA_IC 0x48A +#define ADDR_DIP_CYC 0x48B +#define ADDR_SWELL_CYC 0x48C +#define ADDR_OISTATUS 0x48F +#define ADDR_CFMODE 0x490 +#define ADDR_COMPMODE 0x491 +#define ADDR_ACCMODE 0x492 +#define ADDR_CONFIG3 0x493 +#define ADDR_CF1DEN 0x494 +#define ADDR_CF2DEN 0x495 +#define ADDR_CF3DEN 0x496 +#define ADDR_CF4DEN 0x497 +#define ADDR_ZXTOUT 0x498 +#define ADDR_ZXTHRSH 0x499 +#define ADDR_ZX_LP_SEL 0x49A +#define ADDR_SEQ_CYC 0x49C +#define ADDR_PHSIGN 0x49D +#define ADDR_WFB_CFG 0x4A0 +#define ADDR_WFB_PG_IRQEN 0x4A1 +#define ADDR_WFB_TRG_CFG 0x4A2 +#define ADDR_WFB_TRG_STAT 0x4A3 +#define ADDR_CONFIG5 0x4A4 +#define ADDR_CRC_RSLT 0x4A8 +#define ADDR_CRC_SPI 0x4A9 +#define ADDR_LAST_DATA_16 0x4AC +#define ADDR_LAST_CMD 0x4AE +#define ADDR_CONFIG2 0x4AF +#define ADDR_EP_CFG 0x4B0 +#define ADDR_PWR_TIME 0x4B1 +#define ADDR_EGY_TIME 0x4B2 +#define ADDR_CRC_FORCE 0x4B4 +#define ADDR_CRC_OPTEN 0x4B5 +#define ADDR_TEMP_CFG 0x4B6 +#define ADDR_TEMP_RSLT 0x4B7 +#define ADDR_PSM2_CFG 0x4B8 +#define ADDR_PGA_GAIN 0x4B9 +#define ADDR_CHNL_DIS 0x4BA +#define ADDR_WR_LOCK 0x4BF +#define ADDR_VAR_DIS 0x4E0 +#define ADDR_RESERVED1 0x4F0 +#define ADDR_VERSION 0x4FE +#define ADDR_AI_SINC_DAT 0x500 +#define ADDR_AV_SINC_DAT 0x501 +#define ADDR_BI_SINC_DAT 0x502 +#define ADDR_BV_SINC_DAT 0x503 +#define ADDR_CI_SINC_DAT 0x504 +#define ADDR_CV_SINC_DAT 0x505 +#define ADDR_NI_SINC_DAT 0x506 +#define ADDR_AI_LPF_DAT 0x510 +#define ADDR_AV_LPF_DAT 0x511 +#define ADDR_BI_LPF_DAT 0x512 +#define ADDR_BV_LPF_DAT 0x513 +#define ADDR_CI_LPF_DAT 0x514 +#define ADDR_CV_LPF_DAT 0x515 +#define ADDR_NI_LPF_DAT 0x516 +#define ADDR_AV_PCF_1 0x600 +#define ADDR_BV_PCF_1 0x601 +#define ADDR_CV_PCF_1 0x602 +#define ADDR_NI_PCF_1 0x603 +#define ADDR_AI_PCF_1 0x604 +#define ADDR_BI_PCF_1 0x605 +#define ADDR_CI_PCF_1 0x606 +#define ADDR_AIRMS_1 0x607 +#define ADDR_BIRMS_1 0x608 +#define ADDR_CIRMS_1 0x609 +#define ADDR_AVRMS_1 0x60A +#define ADDR_BVRMS_1 0x60B +#define ADDR_CVRMS_1 0x60C +#define ADDR_NIRMS_1 0x60D +#define ADDR_AWATT_1 0x60E +#define ADDR_BWATT_1 0x60F +#define ADDR_CWATT_1 0x610 +#define ADDR_AVA_1 0x611 +#define ADDR_BVA_1 0x612 +#define ADDR_CVA_1 0x613 +#define ADDR_AVAR_1 0x614 +#define ADDR_BVAR_1 0x615 +#define ADDR_CVAR_1 0x616 +#define ADDR_AFVAR_1 0x617 +#define ADDR_BFVAR_1 0x618 +#define ADDR_CFVAR_1 0x619 +#define ADDR_APF_1 0x61A +#define ADDR_BPF_1 0x61B +#define ADDR_CPF_1 0x61C +#define ADDR_AVTHD_1 0x61D +#define ADDR_BVTHD_1 0x61E +#define ADDR_CVTHD_1 0x61F +#define ADDR_AITHD_1 0x620 +#define ADDR_BITHD_1 0x621 +#define ADDR_CITHD_1 0x622 +#define ADDR_AFWATT_1 0x623 +#define ADDR_BFWATT_1 0x624 +#define ADDR_CFWATT_1 0x625 +#define ADDR_AFVA_1 0x626 +#define ADDR_BFVA_1 0x627 +#define ADDR_CFVA_1 0x628 +#define ADDR_AFIRMS_1 0x629 +#define ADDR_BFIRMS_1 0x62A +#define ADDR_CFIRMS_1 0x62B +#define ADDR_AFVRMS_1 0x62C +#define ADDR_BFVRMS_1 0x62D +#define ADDR_CFVRMS_1 0x62E +#define ADDR_AIRMSONE_1 0x62F +#define ADDR_BIRMSONE_1 0x630 +#define ADDR_CIRMSONE_1 0x631 +#define ADDR_AVRMSONE_1 0x632 +#define ADDR_BVRMSONE_1 0x633 +#define ADDR_CVRMSONE_1 0x634 +#define ADDR_NIRMSONE_1 0x635 +#define ADDR_AIRMS1012_1 0x636 +#define ADDR_BIRMS1012_1 0x637 +#define ADDR_CIRMS1012_1 0x638 +#define ADDR_AVRMS1012_1 0x639 +#define ADDR_BVRMS1012_1 0x63A +#define ADDR_CVRMS1012_1 0x63B +#define ADDR_NIRMS1012_1 0x63C +#define ADDR_AV_PCF_2 0x680 +#define ADDR_AI_PCF_2 0x681 +#define ADDR_AIRMS_2 0x682 +#define ADDR_AVRMS_2 0x683 +#define ADDR_AWATT_2 0x684 +#define ADDR_AVA_2 0x685 +#define ADDR_AVAR_2 0x686 +#define ADDR_AFVAR_2 0x687 +#define ADDR_APF_2 0x688 +#define ADDR_AVTHD_2 0x689 +#define ADDR_AITHD_2 0x68A +#define ADDR_AFWATT_2 0x68B +#define ADDR_AFVA_2 0x68C +#define ADDR_AFIRMS_2 0x68D +#define ADDR_AFVRMS_2 0x68E +#define ADDR_AIRMSONE_2 0x68F +#define ADDR_AVRMSONE_2 0x690 +#define ADDR_AIRMS1012_2 0x691 +#define ADDR_AVRMS1012_2 0x692 +#define ADDR_BV_PCF_2 0x693 +#define ADDR_BI_PCF_2 0x694 +#define ADDR_BIRMS_2 0x695 +#define ADDR_BVRMS_2 0x696 +#define ADDR_BWATT_2 0x697 +#define ADDR_BVA_2 0x698 +#define ADDR_BVAR_2 0x699 +#define ADDR_BFVAR_2 0x69A +#define ADDR_BPF_2 0x69B +#define ADDR_BVTHD_2 0x69C +#define ADDR_BITHD_2 0x69D +#define ADDR_BFWATT_2 0x69E +#define ADDR_BFVA_2 0x69F +#define ADDR_BFIRMS_2 0x6A0 +#define ADDR_BFVRMS_2 0x6A1 +#define ADDR_BIRMSONE_2 0x6A2 +#define ADDR_BVRMSONE_2 0x6A3 +#define ADDR_BIRMS1012_2 0x6A4 +#define ADDR_BVRMS1012_2 0x6A5 +#define ADDR_CV_PCF_2 0x6A6 +#define ADDR_CI_PCF_2 0x6A7 +#define ADDR_CIRMS_2 0x6A8 +#define ADDR_CVRMS_2 0x6A9 +#define ADDR_CWATT_2 0x6AA +#define ADDR_CVA_2 0x6AB +#define ADDR_CVAR_2 0x6AC +#define ADDR_CFVAR_2 0x6AD +#define ADDR_CPF_2 0x6AE +#define ADDR_CVTHD_2 0x6AF +#define ADDR_CITHD_2 0x6B0 +#define ADDR_CFWATT_2 0x6B1 +#define ADDR_CFVA_2 0x6B2 +#define ADDR_CFIRMS_2 0x6B3 +#define ADDR_CFVRMS_2 0x6B4 +#define ADDR_CIRMSONE_2 0x6B5 +#define ADDR_CVRMSONE_2 0x6B6 +#define ADDR_CIRMS1012_2 0x6B7 +#define ADDR_CVRMS1012_2 0x6B8 +#define ADDR_NI_PCF_2 0x6B9 +#define ADDR_NIRMS_2 0x6BA +#define ADDR_NIRMSONE_2 0x6BB +#define ADDR_NIRMS1012_2 0x6BC + + +#define DATA_AIGAIN 0x000 +#define DATA_AIGAIN0 0x000 +#define DATA_AIGAIN1 0x000 +#define DATA_AIGAIN2 0x000 +#define DATA_AIGAIN3 0x000 +#define DATA_AIGAIN4 0x000 +#define DATA_APHCAL0 0x000 +#define DATA_APHCAL1 0x000 +#define DATA_APHCAL2 0x000 +#define DATA_APHCAL3 0x000 +#define DATA_APHCAL4 0x000 +#define DATA_AVGAIN 0x000 +#define DATA_AIRMSOS 0x000 +#define DATA_AVRMSOS 0x000 +#define DATA_APGAIN 0x000 +#define DATA_AWATTOS 0x000 +#define DATA_AVAROS 0x000 +#define DATA_AFWATTOS 0x000 +#define DATA_AFVAROS 0x000 +#define DATA_AIFRMSOS 0x000 +#define DATA_AVFRMSOS 0x000 +#define DATA_AVRMSONEOS 0x000 +#define DATA_AIRMSONEOS 0x000 +#define DATA_AVRMS1012OS 0x000 +#define DATA_AIRMS1012OS 0x000 +#define DATA_BIGAIN 0x000 +#define DATA_BIGAIN0 0x000 +#define DATA_BIGAIN1 0x000 +#define DATA_BIGAIN2 0x000 +#define DATA_BIGAIN3 0x000 +#define DATA_BIGAIN4 0x000 +#define DATA_BPHCAL0 0x000 +#define DATA_BPHCAL1 0x000 +#define DATA_BPHCAL2 0x000 +#define DATA_BPHCAL3 0x000 +#define DATA_BPHCAL4 0x000 +#define DATA_BVGAIN 0x000 +#define DATA_BIRMSOS 0x000 +#define DATA_BVRMSOS 0x000 +#define DATA_BPGAIN 0x000 +#define DATA_BWATTOS 0x000 +#define DATA_BVAROS 0x000 +#define DATA_BFWATTOS 0x000 +#define DATA_BFVAROS 0x000 +#define DATA_BIFRMSOS 0x000 +#define DATA_BVFRMSOS 0x000 +#define DATA_BVRMSONEOS 0x000 +#define DATA_BIRMSONEOS 0x000 +#define DATA_BVRMS1012OS 0x000 +#define DATA_BIRMS1012OS 0x038 +#define DATA_CIGAIN 0x000 +#define DATA_CIGAIN0 0x000 +#define DATA_CIGAIN1 0x000 +#define DATA_CIGAIN2 0x000 +#define DATA_CIGAIN3 0x000 +#define DATA_CIGAIN4 0x000 +#define DATA_CPHCAL0 0x000 +#define DATA_CPHCAL1 0x000 +#define DATA_CPHCAL2 0x000 +#define DATA_CPHCAL3 0x000 +#define DATA_CPHCAL4 0x000 +#define DATA_CVGAIN 0x000 +#define DATA_CIRMSOS 0x000 +#define DATA_CVRMSOS 0x000 +#define DATA_CPGAIN 0x000 +#define DATA_CWATTOS 0x000 +#define DATA_CVAROS 0x000 +#define DATA_CFWATTOS 0x000 +#define DATA_CFVAROS 0x000 +#define DATA_CIFRMSOS 0x000 +#define DATA_CVFRMSOS 0x000 +#define DATA_CVRMSONEOS 0x000 +#define DATA_CIRMSONEOS 0x000 +#define DATA_CVRMS1012OS 0x000 +#define DATA_CIRMS1012OS 0x000 +#define DATA_CONFIG0 0x000 +#define DATA_MTTHR_L0 0x000 +#define DATA_MTTHR_L1 0x000 +#define DATA_MTTHR_L2 0x000 +#define DATA_MTTHR_L3 0x000 +#define DATA_MTTHR_L4 0x000 +#define DATA_MTTHR_H0 0x000 +#define DATA_MTTHR_H1 0x000 +#define DATA_MTTHR_H2 0x000 +#define DATA_MTTHR_H3 0x000 +#define DATA_MTTHR_H4 0x000 +#define DATA_NIRMSOS 0x000 +#define DATA_ISUMRMSOS 0x000 +#define DATA_NIGAIN 0x000 +#define DATA_NPHCAL 0x000 +#define DATA_NIRMSONEOS 0x000 +#define DATA_NIRMS1012OS 0x000 +#define DATA_VNOM 0x000 +#define DATA_DICOEFF 0x000 +#define DATA_ISUMLVL 0x000 + +#define DATA_STATUS0 0x0 +#define DATA_STATUS1 0x0 +#define DATA_MASK0 0x0 +#define DATA_MASK1 0x0 +#define DATA_EVENT_MASK 0x0 +#define DATA_OILVL 0x0 +#define DATA_USER_PERIOD 0x500000 +#define DATA_VLEVEL 0x45D45 +#define DATA_DIP_LVL 0x00FFFFFF +#define DATA_SWELL_LVL 0x0 +#define DATA_ACT_NL_LVL 0x0 +#define DATA_REACT_NL_LVL 0x0 +#define DATA_APP_NL_LVL 0x0 +#define DATA_WTHR 0x100000 +#define DATA_VARTHR 0x100000 +#define DATA_VATHR 0x100000 +#define DATA_BSDIN_CFG 0x1FFFFF +#define DATA_CF_LCFG 0x0 + + +#define DATA_RUN 0x0 +#define DATA_CONFIG1 0x0 +#define DATA_DIP_CYC 0xFFFF +#define DATA_SWELL_CYC 0xFFFF +#define DATA_CFMODE 0x8 +#define DATA_COMPMODE 0x0FFF +#define DATA_ACCMODE 0x0 +#define DATA_MMODE 0x0 +#define DATA_CF1DEN 0x0F3E +#define DATA_CF2DEN 0x0F3E +#define DATA_CF3DEN 0x0F3E +#define DATA_CF4DEN 0x0F3E +#define DATA_ZXTOUT 0xFFFF +#define DATA_ZXTHRSH 0x9 +#define DATA_ZX_CFG 0x1E +#define DATA_SEQ_CYC 0x00FF +#define DATA_WFB_CFG 0x0 +#define DATA_WFB_PG_IRQEN 0x0 +#define DATA_WFB_TRG_CFG 0x0 +#define DATA_CONFIG2 0x0C00 +#define DATA_EP_CFG 0x0 +#define DATA_PWR_TIME 0x001 +#define DATA_EGY_TIME 0x001 +#define DATA_CONFIG4 0x0 +#define DATA_CONFIG_STC_CRC 0x0 +#define DATA_CONFIG_TSENS 0x0 +#define DATA_CONFIG_3V3 0x001F +#define DATA_PGA_GAIN 0x0 +#define DATA_CHNL_DIS 0x0 +#define DATA_WR_LOCK 0x0 + +#define Register_32 0x04 +#define Register_16 0x02 + + typedef union{ + uint8_t uc_Register[4]; + uint16_t us_Register[2]; + uint32_t ul_Register; + }ADE_REGISTER_UNION; + + typedef union{ + uint8_t uc_Address[2]; + uint16_t us_Address; + }ADE_ADDRESS_UNION; + + typedef union{ + uint8_t uc_Data[8]; + uint64_t ull_Data; + }ADE_Energy_UNION; + + +
diff -r 000000000000 -r 32e7a5fadacc main.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/main.cpp Fri Apr 20 08:45:34 2018 +0000 @@ -0,0 +1,503 @@ +#include "mbed.h" +#include "ADE9000.h" +DigitalOut CS(p14); +#define MOSI_pin p11 +#define MISO p12 +#define SCLK_pin p13 +SPI spi(p11, p12, p13); // mosi, miso, sclk + + DigitalOut myled(LED1); + +#define ADE9000_Reset_wait_ms_Value 10000 +#define ADE9000_SS_wait_ms_Value 1000 +#define ADE9000_Comu_Delay_Value 1 +#define ADE9000_Start_Delay_Value 10 + +void Init_ADE9000(void); +void Read_ADE9000_SPI(uint16_t us_ADE_Addr, uint16_t us_Nr_Bytes, uint8_t *puc_Reg_Data); +uint16_t Read_ADE9000_CRC_SPI(uint16_t us_ADE_Addr, uint16_t us_Nr_Bytes, uint8_t *puc_Reg_Data); +void Write_ADE9000_SPI(uint16_t us_ADE_Addr, uint8_t uc_Nr_Bytes, uint8_t *puc_Reg_Data); +void Read_OTest_ADE9000_SPI(uint16_t us_ADE_Addr, uint16_t us_Nr_Bytes, uint8_t *puc_Reg_Data); + +void printReadData(uint8_t length); +void int2bin( int value, char* buffer, int bufferSize); +long decConvert(uint8_t length); +void readData(); +//uint8_t IsADE9078OrADE9000(void); +uint8_t uc_ADEChipID; + +uint8_t uc_Read_Data[4]; +uint8_t uc_Write_Data[4]; + +// const byte CS = 53; +// const byte MOSI_pin=51; +// const byte SCLK_pin = 52; + +long data = 0; + + + +void configure() +{ + // uint8_t bitRead; + + //wait for reset after power on + printf("Initializing ADE\n"); + wait_ms(2000); + + //Read PGA gain + printf("2. PGA gain\n"); + Read_ADE9000_SPI(ADDR_PGA_GAIN,0x2,uc_Read_Data); + printReadData(0x02); + + // Read config0 + printf("4-7 Config0\n"); + uc_Write_Data[0]=0b0; + uc_Write_Data[1]=0b0; + uc_Write_Data[2]=0b0; + uc_Write_Data[3]=0b0; + Write_ADE9000_SPI(ADDR_CONFIG0,0x04,uc_Write_Data); + Read_ADE9000_SPI(ADDR_CONFIG0,0x04,uc_Read_Data); + printReadData(0x04); + +//read config 2 + printf("CONFIG2\n"); + Read_ADE9000_SPI(ADDR_CONFIG2,0x04,uc_Read_Data); + printReadData(0x04); + + // Write dynamic range adjustment + printf("VLEVEL\n"); + uc_Write_Data[0]=0b0; + uc_Write_Data[1]=0b00001000; + uc_Write_Data[2]=0b11000010; + uc_Write_Data[3]=0b01011010; + Write_ADE9000_SPI(ADDR_VLEVEL,0x04,uc_Write_Data); + Read_ADE9000_SPI(ADDR_VLEVEL,0x04,uc_Read_Data); + printReadData(0x04); + + // vconsel adjust + printf("VCONSEL IN ACCMODE\n"); +Read_ADE9000_SPI(ADDR_ACCMODE,0x02,uc_Read_Data); + printReadData(0x02); + + + + //Callibrate AIGAIN + printf("AIGAIN\n"); + uc_Write_Data[0]=0b0; + uc_Write_Data[1]=0b11001100; + uc_Write_Data[2]=0b11001100; + uc_Write_Data[3]=0b11001101; + Write_ADE9000_SPI(ADDR_AIGAIN,0x04,uc_Write_Data); + Read_ADE9000_SPI(ADDR_AIGAIN,0x04,uc_Read_Data); + printReadData(0x04); + + +//Callibrate BIGAIN + printf("BIGAIN\n"); + uc_Write_Data[0]=0b0; + uc_Write_Data[1]=0b10001110; + uc_Write_Data[2]=0b01111010; + uc_Write_Data[3]=0b10110111; + Write_ADE9000_SPI(ADDR_BIGAIN,0x04,uc_Write_Data); + Read_ADE9000_SPI(ADDR_BIGAIN,0x04,uc_Read_Data); + printReadData(0x04); + +//Callibrate CIGAIN + printf("CIGAIN\n"); + uc_Write_Data[0]=0b0; + uc_Write_Data[1]=0b11111011; + uc_Write_Data[2]=0b11001000; + uc_Write_Data[3]=0b10010110; + Write_ADE9000_SPI(ADDR_CIGAIN,0x04,uc_Write_Data); + Read_ADE9000_SPI(ADDR_CIGAIN,0x04,uc_Read_Data); + printReadData(0x04); + + //Callibrate NIGAIN + printf("NIGAIN\n"); + uc_Write_Data[0]=0b10; + uc_Write_Data[1]=0b01010110; + uc_Write_Data[2]=0b00101101; + uc_Write_Data[3]=0B10111001; + Write_ADE9000_SPI(ADDR_NIGAIN,0x04,uc_Write_Data); + Read_ADE9000_SPI(ADDR_NIGAIN,0x04,uc_Read_Data); + printReadData(0x04); + + + //Callibrate AVGAIN + printf("AVGAIN\n"); + uc_Write_Data[0]=0b00000010; + uc_Write_Data[1]=0b10001111; + uc_Write_Data[2]=0b00000001; + uc_Write_Data[3]=0b10010011; + Write_ADE9000_SPI(ADDR_AVGAIN,0x04,uc_Write_Data); + Read_ADE9000_SPI(ADDR_AVGAIN,0x04,uc_Read_Data); + printReadData(0x04); + + //Callibrate BVGAIN + printf("BVGAIN\n"); + uc_Write_Data[0]=0b00000010; + uc_Write_Data[1]=0b10000000; + uc_Write_Data[2]=0b11000000; + uc_Write_Data[3]=0b10101011; + Write_ADE9000_SPI(ADDR_BVGAIN,0x04,uc_Write_Data); + Read_ADE9000_SPI(ADDR_BVGAIN,0x04,uc_Read_Data); + printReadData(0x04); + + //Callibrate BVGAIN + printf("CVGAIN\n"); + uc_Write_Data[0]=0b00000010; + uc_Write_Data[1]=0b10010000; + uc_Write_Data[2]=0b10000001; + uc_Write_Data[3]=0b11010001; + Write_ADE9000_SPI(ADDR_CVGAIN,0x04,uc_Write_Data); + Read_ADE9000_SPI(ADDR_CVGAIN,0x04,uc_Read_Data); + printReadData(0x04); + + // RUN + printf("run\n"); + uc_Write_Data[0]=0b0; + uc_Write_Data[1]=0b1; + + Write_ADE9000_SPI(ADDR_RUN,0x02,uc_Write_Data); + Read_ADE9000_SPI(ADDR_RUN,0x02,uc_Read_Data); + printReadData(0x02); + +//TEMP CONFIG READ +Read_ADE9000_SPI(ADDR_CVGAIN,0x04,uc_Read_Data); +printf("TEMP_TRIM CONFIG\n"); +printReadData(0x04); + +} + +void printReadData(uint8_t length) +{ + for(int k=0;k<length;k++){ + // printf(uc_Read_Data[k],BIN); + char binaryBuffer[9]; // 8 bits plus null terminator + int2bin(uc_Read_Data[k], binaryBuffer, 9) ; + printf("%s \n",binaryBuffer); + } +} + +void int2bin( int value, char* buffer, int bufferSize) { + char *nextChar = buffer + bufferSize-2; // location to write the least significant bit + + for (int i = 0; i<(bufferSize-1); i++) { // for each bit + (value & (1<<i)) ? *nextChar = '1' : *nextChar = '0'; // if set set to '1' else '0' + nextChar --; + } + + *(buffer + bufferSize-1) = 0; // add the null terminator + } + +long decConvert(uint8_t length) +{ + long temp_data =0; + for(int i=0;i<length;i++ ) + { + temp_data = temp_data*256+ uc_Read_Data[i]; + } + return temp_data; +} + + + + +void Read_ADE9000_SPI(uint16_t us_ADE_Addr, uint16_t us_Nr_Bytes, uint8_t *puc_Reg_Data) +{ + uint16_t us_iCounter; + uint16_t us_iAddress; + uint8_t *puc_TempData; + uint8_t uc_LS_Addr,uc_MS_Addr; + +//printf("address to read"); +//printf(us_ADE_Addr,HEX); + us_iAddress = us_ADE_Addr; + us_iAddress = (us_iAddress << 4); + us_iAddress = (us_iAddress | 0x08); + puc_TempData = puc_Reg_Data; + + uc_LS_Addr = (uint8_t) us_iAddress; //captures the least sig 8 bits only + uc_MS_Addr =(uint8_t) (us_iAddress >> 8); //flush the lsbs and capture the rest + + wait_ms(ADE9000_Start_Delay_Value); + CS=0; + wait_ms(ADE9000_Start_Delay_Value); + /* printf("Address read"); + printf("MS addr"); + printf(uc_MS_Addr,BIN); + printf("LSAddr"); + printf(uc_LS_Addr,BIN);*/ + spi.write(uc_MS_Addr); + + + //send LS byte of address + spi.write(uc_LS_Addr); + + //MOSI_pin = 1; //ADE90xx comm data format: MSB--LSB ; So need send out the MSB first. + // puc_TempData=puc_TempData+(us_Nr_Bytes-1); + + for (us_iCounter=0;us_iCounter<us_Nr_Bytes;us_iCounter++) + { + *puc_TempData=spi.write(0); + puc_TempData++; + } + // MOSI_pin=1; + //Disable_ADE_CS;; + CS=1; + wait_ms(ADE9000_Comu_Delay_Value); + //enable back the interrupts because the communcation has finished + //__enable_interrupt(); + +} + +uint8_t IsADE9078OrADE9000(void) +{ + + uint8_t uc_Read_Data[4]; + uint8_t uc_iChipID = 0; + + Read_ADE9000_SPI(0x472,0x4,uc_Read_Data); + + for(int k=0;k<4;k++){ + printf("Return Byte"); + //printf(k); + // printf(uc_Read_Data[k],BIN); + } + if(uc_Read_Data[2] == 0x10) + uc_iChipID = 1; + + + + return uc_iChipID; + +} + +void Write_ADE9000_SPI(uint16_t us_ADE_Addr, uint8_t uc_Nr_Bytes, uint8_t *puc_Reg_Data) +{ + uint8_t uc_iCounter; + uint16_t us_iAddress; + uint8_t uc_MS_Addr; + uint8_t uc_LS_Addr; + + us_iAddress = us_ADE_Addr; + us_iAddress = (us_iAddress << 4); + us_iAddress = (us_iAddress & 0xFFF7); + + + uc_LS_Addr = (uint8_t) us_iAddress; + uc_MS_Addr =(uint8_t) (us_iAddress >> 8); + + wait_ms(ADE9000_Start_Delay_Value); + //Enable_ADE_CS; + CS=0; + wait_ms(ADE9000_Start_Delay_Value); + + + //send MS byte of address + spi.write(uc_MS_Addr); + + //send LS byte of address + spi.write(uc_LS_Addr); + + + //ADE90xx comm data format: MSB--LSB ; So need send out the MSB first. + puc_Reg_Data=puc_Reg_Data; + for(uc_iCounter=0;uc_iCounter<uc_Nr_Bytes;uc_iCounter++) + { + spi.write(*puc_Reg_Data); + puc_Reg_Data++; + } + + // Disable_ADE_CS; + CS=1; + wait_ms(ADE9000_Start_Delay_Value); + //enable back the interrupts because the communcation has finished + //__enable_interrupt(); + +} + +static unsigned char SPI_MCUReadByte(void) +{ + + unsigned char i,rbyte=0; + /* + for(i=0;i<8;i++) //8 bit read + { + Low_ADE_SCLK; //Simulate clock signal + SPI_Delay(ADE9000_Comu_Delay_Value); + High_ADE_SCLK; + SPI_Delay(ADE9000_Comu_Delay_Value); + rByte<<=1; + rByte|=ADE_MISO_Data; //get read bit from MISO port + } */ + rbyte = spi.write(0); + return rbyte; //return data + +} + +void readData(){ + // printf("AVRMS"); + Read_ADE9000_SPI(ADDR_AVRMS,0x04,uc_Read_Data); + //printReadData(0x04); + data = decConvert(0x04); + //printf(data); + printf("\nAVRMS: "); + // printf(data); + float data1 = data*13.416/1000000; + printf("%f \n",data1); + // delay(500); + + // printf("BVRMS"); + Read_ADE9000_SPI(ADDR_BVRMS,0x04,uc_Read_Data); + //printReadData(0x04); + data = decConvert(0x04); + //printf(data); + printf("BVRMS: "); + // printf(data); + data1 = data*13.417/1000000; + printf("%f \n",data1); + // delay(500); + + + // printf("CVRMS"); + Read_ADE9000_SPI(ADDR_CVRMS,0x04,uc_Read_Data); + //printReadData(0x04); + data = decConvert(0x04); + //printf(data); + printf("CVRMS: "); + // printf(data); + data1 = data*13.417/1000000; + printf("%f \n",data1); + // delay(500); + + // printf("AIRMS"); + Read_ADE9000_SPI(ADDR_AIRMS,0x04,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x04); + printf("Current A RMS : "); + // printf(data); + data1 = data*2.945/1000000; + printf("%f \n",data1); + wait_ms(250); + + // printf("IRMS"); + Read_ADE9000_SPI(ADDR_BIRMS,0x04,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x04); + // printf(data); + printf("Current B RMS : "); + // printf(data); + data1 = data*2.8238/1000000; + printf("%f \n",data1); + wait_ms(250); + + // printf("IRMS"); + Read_ADE9000_SPI(ADDR_CIRMS,0x04,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x04); + // printf(data); + printf("Current C RMS : "); + // printf(data); + data1 = data*2.8869/1000000; + printf("%f \n",data1); + wait_ms(250); + + // printf("IRMS"); + Read_ADE9000_SPI(ADDR_NIRMS,0x04,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x04); + printf("Current N RMS : "); + //printf(data); + data1 = data*6.8815/1000000; + printf("%f \n",data1); + wait_ms(250); + + // printf("IRMS"); + Read_ADE9000_SPI(ADDR_CWATT,0x04,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x04); + // printf(data); + printf("ACTIVE : "); + data1 = data*11.97/1000; + printf("%f \n",data1); + wait_ms(250); + + // printf("IRMS"); + Read_ADE9000_SPI(ADDR_CVAR,0x04,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x04); + // printf(data); + printf("REACTIVE : "); + data1 = data*11.97/1000; + printf("%f \n",data1); + wait_ms(250); + + // printf("IRMS"); + Read_ADE9000_SPI(ADDR_CVA,0x04,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x04); + // printf(data); + printf("APPARENT : "); + data1 = data*11.97/1000; + printf("%f \n",data1); + wait_ms(250); + + // printf("IRMS"); + Read_ADE9000_SPI(ADDR_APERIOD,0x04,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x04); + // printf(data); + printf("AV FREQUENCY : "); + data1 = (8000.00*65536.00)/(data+1); + printf("%f \n",data1); + + Read_ADE9000_SPI(ADDR_BPERIOD,0x04,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x04); + // printf(data); + printf("BV FREQUENCY : "); + data1 = (8000.00*65536.00)/(data+1); + printf("%f \n",data1); + + Read_ADE9000_SPI(ADDR_CPERIOD,0x04,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x04); + // printf(data); + printf("CV FREQUENCY : "); + data1 = (8000.00*65536.00)/(data+1.00); + printf("%f \n",data1); + wait_ms(250); + + uc_Write_Data[0]= 0b01110000; + uc_Write_Data[1]=0b0; + Write_ADE9000_SPI(ADDR_TEMP_CFG,0X02,uc_Write_Data); + Read_ADE9000_SPI(ADDR_TEMP_RSLT,0x02,uc_Read_Data); + // printReadData(0x04); + data = decConvert(0x02); + // printf(data); + printf("TEMPERATURE : "); + data1 = data*(-33233.00/65536.00)+656.00/32.00; + printf("%f \n",data1); + wait_ms(250); + + + printf("************************"); + + } + + + + + + +int main() { + + configure(); + + while(1){ + readData(); + myled=!myled; + } +} \ No newline at end of file
diff -r 000000000000 -r 32e7a5fadacc mbed.bld --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/mbed.bld Fri Apr 20 08:45:34 2018 +0000 @@ -0,0 +1,1 @@ +http://mbed.org/users/mbed_official/code/mbed/builds/7130f322cb7e \ No newline at end of file