Vybhav Kadaba / Mbed OS EV-PRO-MW1001_Development_v11775

Minor changes to support ADMW FWv1.17.75

inc/admw1001/admw1001_config.h@34:b60ee1e0af2b, 2019-11-19 (annotated)

Committer:
Vkadaba
Date:
Tue Nov 19 11:17:35 2019 +0000
Revision:
34:b60ee1e0af2b
Parent:
33:df7a00f1b8e1
Child:
43:e1789b7214cf
External Voltage Reference support

Who changed what in which revision?

UserRevisionLine numberNew contents of line
Vkadaba 5:0728bde67bdb 1 /*
Vkadaba 6:9d393a9677f4 2 Copyright 2019 (c) Analog Devices, Inc.
Vkadaba 5:0728bde67bdb 3
Vkadaba 5:0728bde67bdb 4 All rights reserved.
Vkadaba 5:0728bde67bdb 5
Vkadaba 5:0728bde67bdb 6 Redistribution and use in source and binary forms, with or without
Vkadaba 5:0728bde67bdb 7 modification, are permitted provided that the following conditions are met:
Vkadaba 5:0728bde67bdb 8 - Redistributions of source code must retain the above copyright
Vkadaba 5:0728bde67bdb 9 notice, this list of conditions and the following disclaimer.
Vkadaba 5:0728bde67bdb 10 - Redistributions in binary form must reproduce the above copyright
Vkadaba 5:0728bde67bdb 11 notice, this list of conditions and the following disclaimer in
Vkadaba 5:0728bde67bdb 12 the documentation and/or other materials provided with the
Vkadaba 5:0728bde67bdb 13 distribution.
Vkadaba 5:0728bde67bdb 14 - Neither the name of Analog Devices, Inc. nor the names of its
Vkadaba 5:0728bde67bdb 15 contributors may be used to endorse or promote products derived
Vkadaba 5:0728bde67bdb 16 from this software without specific prior written permission.
Vkadaba 5:0728bde67bdb 17 - The use of this software may or may not infringe the patent rights
Vkadaba 5:0728bde67bdb 18 of one or more patent holders. This license does not release you
Vkadaba 5:0728bde67bdb 19 from the requirement that you obtain separate licenses from these
Vkadaba 5:0728bde67bdb 20 patent holders to use this software.
Vkadaba 5:0728bde67bdb 21 - Use of the software either in source or binary form, must be run
Vkadaba 5:0728bde67bdb 22 on or directly connected to an Analog Devices Inc. component.
Vkadaba 5:0728bde67bdb 23
Vkadaba 5:0728bde67bdb 24 THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR
Vkadaba 5:0728bde67bdb 25 IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT,
Vkadaba 5:0728bde67bdb 26 MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
Vkadaba 5:0728bde67bdb 27 IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT,
Vkadaba 5:0728bde67bdb 28 INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
Vkadaba 5:0728bde67bdb 29 LIMITED TO, INTELLECTUAL PROPERTY RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR
Vkadaba 5:0728bde67bdb 30 SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
Vkadaba 5:0728bde67bdb 31 CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
Vkadaba 5:0728bde67bdb 32 OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
Vkadaba 5:0728bde67bdb 33 OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
Vkadaba 5:0728bde67bdb 34 */
Vkadaba 5:0728bde67bdb 35
Vkadaba 5:0728bde67bdb 36 /*!
Vkadaba 5:0728bde67bdb 37 ******************************************************************************
Vkadaba 5:0728bde67bdb 38 * @file: admw1001_config.h
Vkadaba 5:0728bde67bdb 39 * @brief: Configuration type definitions for ADMW1001.
Vkadaba 5:0728bde67bdb 40 *-----------------------------------------------------------------------------
Vkadaba 5:0728bde67bdb 41 */
Vkadaba 5:0728bde67bdb 42
Vkadaba 5:0728bde67bdb 43 #ifndef __ADMW1001_CONFIG_H__
Vkadaba 5:0728bde67bdb 44 #define __ADMW1001_CONFIG_H__
Vkadaba 5:0728bde67bdb 45
Vkadaba 5:0728bde67bdb 46 #include "admw_platform.h"
Vkadaba 5:0728bde67bdb 47 #include "admw1001_sensor_types.h"
Vkadaba 5:0728bde67bdb 48
Vkadaba 5:0728bde67bdb 49 /*! @addtogroup ADMW1001_Api
Vkadaba 5:0728bde67bdb 50 * @{
Vkadaba 5:0728bde67bdb 51 */
Vkadaba 5:0728bde67bdb 52
Vkadaba 5:0728bde67bdb 53 #ifdef __cplusplus
Vkadaba 5:0728bde67bdb 54 extern "C" {
Vkadaba 5:0728bde67bdb 55 #endif
Vkadaba 5:0728bde67bdb 56
Vkadaba 5:0728bde67bdb 57 /*! Maximum length allowed for a digital sensor command */
Vkadaba 5:0728bde67bdb 58 #define ADMW1001_SENSOR_COMMAND_MAX_LENGTH 7
Vkadaba 5:0728bde67bdb 59
Vkadaba 5:0728bde67bdb 60 /*! ADMW1001 channel priority options */
Vkadaba 34:b60ee1e0af2b 61 typedef enum {
Vkadaba 5:0728bde67bdb 62 ADMW1001_CHANNEL_PRIORITY_0 = 0,
Vkadaba 5:0728bde67bdb 63 ADMW1001_CHANNEL_PRIORITY_1,
Vkadaba 5:0728bde67bdb 64 ADMW1001_CHANNEL_PRIORITY_2,
Vkadaba 5:0728bde67bdb 65 ADMW1001_CHANNEL_PRIORITY_3,
Vkadaba 5:0728bde67bdb 66 ADMW1001_CHANNEL_PRIORITY_4,
Vkadaba 5:0728bde67bdb 67 ADMW1001_CHANNEL_PRIORITY_5,
Vkadaba 5:0728bde67bdb 68 ADMW1001_CHANNEL_PRIORITY_6,
Vkadaba 5:0728bde67bdb 69 ADMW1001_CHANNEL_PRIORITY_7,
Vkadaba 5:0728bde67bdb 70 ADMW1001_CHANNEL_PRIORITY_8,
Vkadaba 5:0728bde67bdb 71 ADMW1001_CHANNEL_PRIORITY_9,
Vkadaba 5:0728bde67bdb 72 ADMW1001_CHANNEL_PRIORITY_10,
Vkadaba 5:0728bde67bdb 73 ADMW1001_CHANNEL_PRIORITY_11,
Vkadaba 5:0728bde67bdb 74 ADMW1001_CHANNEL_PRIORITY_12,
Vkadaba 5:0728bde67bdb 75
Vkadaba 5:0728bde67bdb 76 ADMW1001_CHANNEL_PRIORITY_HIGHEST = ADMW1001_CHANNEL_PRIORITY_0,
Vkadaba 8:2f2775c34640 77 ADMW1001_CHANNEL_PRIORITY_LOWEST = ADMW1001_CHANNEL_PRIORITY_12,
Vkadaba 8:2f2775c34640 78
Vkadaba 8:2f2775c34640 79 } ADMW1001_CHANNEL_PRIORITY;
Vkadaba 5:0728bde67bdb 80
Vkadaba 5:0728bde67bdb 81 /*! ADMW1001 operating mode options */
Vkadaba 34:b60ee1e0af2b 82 typedef enum {
Vkadaba 5:0728bde67bdb 83 ADMW1001_OPERATING_MODE_SINGLECYCLE = 0,
Vkadaba 5:0728bde67bdb 84 /*!< Executes a single measurement cycle and stops */
Vkadaba 5:0728bde67bdb 85 ADMW1001_OPERATING_MODE_CONTINUOUS,
Vkadaba 5:0728bde67bdb 86 /*!< Continuously executes measurement cycles */
Vkadaba 5:0728bde67bdb 87 ADMW1001_OPERATING_MODE_MULTICYCLE,
Vkadaba 5:0728bde67bdb 88 /*!< Executes a burst of measurement cycles, repeated at defined intervals */
Vkadaba 8:2f2775c34640 89
Vkadaba 8:2f2775c34640 90 } ADMW1001_OPERATING_MODE;
Vkadaba 5:0728bde67bdb 91
Vkadaba 5:0728bde67bdb 92 /*! ADMW1001 data ready mode options */
Vkadaba 34:b60ee1e0af2b 93 typedef enum {
Vkadaba 5:0728bde67bdb 94 ADMW1001_DATAREADY_PER_CONVERSION = 0,
Vkadaba 5:0728bde67bdb 95 /*!< The DATAREADY signal is asserted after completion of each conversion
Vkadaba 5:0728bde67bdb 96 * - a single data sample only from the latest completed conversion is
Vkadaba 5:0728bde67bdb 97 * stored in this mode
Vkadaba 5:0728bde67bdb 98 */
Vkadaba 5:0728bde67bdb 99 ADMW1001_DATAREADY_PER_CYCLE,
Vkadaba 5:0728bde67bdb 100 /*!< The DATAREADY signal is asserted after completion of each measurement
Vkadaba 5:0728bde67bdb 101 * cycle
Vkadaba 5:0728bde67bdb 102 * - data samples only from the lastest completed measurement cycle are
Vkadaba 5:0728bde67bdb 103 * stored in this mode
Vkadaba 5:0728bde67bdb 104 */
Vkadaba 8:2f2775c34640 105 ADMW1001_DATAREADY_PER_FIFO_FILL,
Vkadaba 8:2f2775c34640 106 /*!< The DATAREADY signal is asserted after each fill of the data FIFO
Vkadaba 8:2f2775c34640 107 * - applicable only when @ref ADMW1001_OPERATING_MODE_CONTINUOUS or
Vkadaba 8:2f2775c34640 108 * @ref ADMW1001_OPERATING_MODE_MULTICYCLE is also selected
Vkadaba 5:0728bde67bdb 109 */
Vkadaba 8:2f2775c34640 110
Vkadaba 8:2f2775c34640 111 } ADMW1001_DATAREADY_MODE;
Vkadaba 5:0728bde67bdb 112
Vkadaba 5:0728bde67bdb 113 /*! ADMW1001 power mode options */
Vkadaba 34:b60ee1e0af2b 114 typedef enum {
Vkadaba 6:9d393a9677f4 115 ADMW1001_POWER_MODE_HIBERNATION = 0,
Vkadaba 6:9d393a9677f4 116 /*!< module has entede hibernation mode. All analog circuitry is disabled. All peripherals disabled apart from the Wake-up pin functionality. */
Vkadaba 6:9d393a9677f4 117 ADMW1001_POWER_MODE_ACTIVE,
Vkadaba 6:9d393a9677f4 118 /*!< Part is fully powered up and either cycling through a sequence or awaiting a configuration */
Vkadaba 5:0728bde67bdb 119
Vkadaba 8:2f2775c34640 120 } ADMW1001_POWER_MODE;
Vkadaba 8:2f2775c34640 121
Vkadaba 5:0728bde67bdb 122 /*! ADMW1001 measurement analog filter settling options */
Vkadaba 34:b60ee1e0af2b 123 typedef enum {
Vkadaba 5:0728bde67bdb 124 ADMW1001_FILTER_SETTLING_ALWAYS = 0,
Vkadaba 5:0728bde67bdb 125 /*!< Allow full settling time to elapse between every measurement from an analog sensor */
Vkadaba 6:9d393a9677f4 126 ADMW1001_FILTER_SETTLING_FAST,
Vkadaba 5:0728bde67bdb 127 /*!< Skip settling time between consecutive measurements from an analog sensor */
Vkadaba 8:2f2775c34640 128
Vkadaba 8:2f2775c34640 129 } ADMW1001_FILTER_SETTLING;
Vkadaba 5:0728bde67bdb 130
Vkadaba 5:0728bde67bdb 131 /*! ADMW1001 measurement unit options
Vkadaba 5:0728bde67bdb 132 *
Vkadaba 5:0728bde67bdb 133 * Optionally select a measurement unit for final conversion results.
Vkadaba 5:0728bde67bdb 134 * Currently applicable only to specific temperature sensor types.
Vkadaba 5:0728bde67bdb 135 */
Vkadaba 34:b60ee1e0af2b 136 typedef enum {
Vkadaba 5:0728bde67bdb 137 ADMW1001_MEASUREMENT_UNIT_UNSPECIFIED = 0,
Vkadaba 5:0728bde67bdb 138 /*!< No measurement unit specified */
Vkadaba 5:0728bde67bdb 139 ADMW1001_MEASUREMENT_UNIT_CELSIUS,
Vkadaba 5:0728bde67bdb 140 /*!< Celsius temperature unit - applicable to temperature sensors only */
Vkadaba 5:0728bde67bdb 141 ADMW1001_MEASUREMENT_UNIT_FAHRENHEIT,
Vkadaba 5:0728bde67bdb 142 /*!< Fahrenheit temperature unit - applicable to temperature sensors only */
Vkadaba 8:2f2775c34640 143
Vkadaba 8:2f2775c34640 144 } ADMW1001_MEASUREMENT_UNIT;
Vkadaba 5:0728bde67bdb 145
Vkadaba 5:0728bde67bdb 146 /*! ADMW1001 Open-Sensor Diagnostics frequency
Vkadaba 5:0728bde67bdb 147 *
Vkadaba 5:0728bde67bdb 148 * Select the per-cycle frequency at which open-sensor diagnostic
Vkadaba 5:0728bde67bdb 149 * checks should be performed. Open-sensor diagnostic checks typically require
Vkadaba 5:0728bde67bdb 150 * specific or time-consuming processing which cannot be executed while a
Vkadaba 5:0728bde67bdb 151 * measurement cycle is running.
Vkadaba 5:0728bde67bdb 152 *
Vkadaba 5:0728bde67bdb 153 * @note Open-sensor diagnostic checks, when performed, will add a delay to the
Vkadaba 5:0728bde67bdb 154 * start of the next measurement cycle.
Vkadaba 5:0728bde67bdb 155 */
Vkadaba 34:b60ee1e0af2b 156 typedef enum {
Vkadaba 5:0728bde67bdb 157 ADMW1001_OPEN_SENSOR_DIAGNOSTICS_DISABLED = 0,
Vkadaba 5:0728bde67bdb 158 /*!< No Open-Sensor Detection is performed */
Vkadaba 5:0728bde67bdb 159 ADMW1001_OPEN_SENSOR_DIAGNOSTICS_PER_CYCLE,
Vkadaba 5:0728bde67bdb 160 /*!< No Open-Sensor Detection is performed prior to each cycle */
Vkadaba 5:0728bde67bdb 161 ADMW1001_OPEN_SENSOR_DIAGNOSTICS_PER_100_CYCLES,
Vkadaba 5:0728bde67bdb 162 /*!< No Open-Sensor Detection is performed at intervals of 100 cycles */
Vkadaba 5:0728bde67bdb 163 ADMW1001_OPEN_SENSOR_DIAGNOSTICS_PER_1000_CYCLES,
Vkadaba 6:9d393a9677f4 164 /*!< No Open-Sensor Detection is performed at intervals of 1001 cycles */
Vkadaba 8:2f2775c34640 165
Vkadaba 8:2f2775c34640 166 } ADMW1001_OPEN_SENSOR_DIAGNOSTICS;
Vkadaba 5:0728bde67bdb 167
Vkadaba 33:df7a00f1b8e1 168
Vkadaba 34:b60ee1e0af2b 169 typedef enum {
Vkadaba 33:df7a00f1b8e1 170 ADMW1001_BUFFER_BYPASSS_DISABLED = 0,
Vkadaba 33:df7a00f1b8e1 171 /*!< Buffer Bypass Disabled */
Vkadaba 33:df7a00f1b8e1 172 ADMW1001_BUFFER_BYPASSS_ENABLED,
Vkadaba 33:df7a00f1b8e1 173 /*!< Buffer Bypass Enabled */
Vkadaba 34:b60ee1e0af2b 174
Vkadaba 33:df7a00f1b8e1 175 } ADMW1001_BUFFER_BYPASSS;
Vkadaba 33:df7a00f1b8e1 176
Vkadaba 5:0728bde67bdb 177 /*! ADMW1001 analog input signal amplification gain options
Vkadaba 5:0728bde67bdb 178 *
Vkadaba 5:0728bde67bdb 179 * @note applicable only to ADC analog sensor channels
Vkadaba 5:0728bde67bdb 180 */
Vkadaba 34:b60ee1e0af2b 181 typedef enum {
Vkadaba 6:9d393a9677f4 182 ADMW1001_ADC_RTD_CURVE_EUROPEAN = 0,
Vkadaba 6:9d393a9677f4 183 /*!< EUROPEAN RTD curve used. */
Vkadaba 6:9d393a9677f4 184 ADMW1001_ADC_RTD_CURVE_AMERICAN,
Vkadaba 6:9d393a9677f4 185 /*!< AMERICAN RTD curve used. */
Vkadaba 6:9d393a9677f4 186 ADMW1001_ADC_RTD_CURVE_JAPANESE,
Vkadaba 6:9d393a9677f4 187 /*!< JAPANESE RTD curve used. */
Vkadaba 6:9d393a9677f4 188 ADMW1001_ADC_RTD_CURVE_ITS90,
Vkadaba 6:9d393a9677f4 189 /*!< ITS90 RTD curve used. */
Vkadaba 8:2f2775c34640 190
Vkadaba 8:2f2775c34640 191 } ADMW1001_ADC_RTD_CURVE;
Vkadaba 6:9d393a9677f4 192 /*! ADMW1001 analog input signal amplification gain options
Vkadaba 6:9d393a9677f4 193 *
Vkadaba 6:9d393a9677f4 194 * @note applicable only to ADC analog sensor channels
Vkadaba 6:9d393a9677f4 195 */
Vkadaba 34:b60ee1e0af2b 196 typedef enum {
Vkadaba 5:0728bde67bdb 197 ADMW1001_ADC_GAIN_1X = 0,
Vkadaba 5:0728bde67bdb 198 /*!< no amplification gain */
Vkadaba 5:0728bde67bdb 199 ADMW1001_ADC_GAIN_2X,
Vkadaba 5:0728bde67bdb 200 /*!< x2 amplification gain */
Vkadaba 5:0728bde67bdb 201 ADMW1001_ADC_GAIN_4X,
Vkadaba 5:0728bde67bdb 202 /*!< x4 amplification gain */
Vkadaba 5:0728bde67bdb 203 ADMW1001_ADC_GAIN_8X,
Vkadaba 5:0728bde67bdb 204 /*!< x8 amplification gain */
Vkadaba 5:0728bde67bdb 205 ADMW1001_ADC_GAIN_16X,
Vkadaba 5:0728bde67bdb 206 /*!< x16 amplification gain */
Vkadaba 5:0728bde67bdb 207 ADMW1001_ADC_GAIN_32X,
Vkadaba 5:0728bde67bdb 208 /*!< x32 amplification gain */
Vkadaba 5:0728bde67bdb 209 ADMW1001_ADC_GAIN_64X,
Vkadaba 5:0728bde67bdb 210 /*!< x64 amplification gain */
Vkadaba 5:0728bde67bdb 211 ADMW1001_ADC_GAIN_128X,
Vkadaba 5:0728bde67bdb 212 /*!< x128 amplification gain */
Vkadaba 8:2f2775c34640 213
Vkadaba 8:2f2775c34640 214 } ADMW1001_ADC_GAIN;
Vkadaba 5:0728bde67bdb 215
Vkadaba 6:9d393a9677f4 216 /*! ADMW1001 analog sensor excitation state options
Vkadaba 6:9d393a9677f4 217 *
Vkadaba 6:9d393a9677f4 218 * @note applicable only to ADC analog sensor channels, and
Vkadaba 6:9d393a9677f4 219 * specific sensor types
Vkadaba 6:9d393a9677f4 220 */
Vkadaba 34:b60ee1e0af2b 221 typedef enum {
Vkadaba 33:df7a00f1b8e1 222 ADMW1001_ADC_EXC_STATE_CYCLE_POWER=0,
Vkadaba 33:df7a00f1b8e1 223 /*!< Excitation for measurement is active only during measurement */
Vkadaba 6:9d393a9677f4 224 ADMW1001_ADC_EXC_STATE_ALWAYS_ON,
Vkadaba 6:9d393a9677f4 225 /*!< Excitation for measurement is always on */
Vkadaba 8:2f2775c34640 226 } ADMW1001_ADC_EXC_STATE;
Vkadaba 6:9d393a9677f4 227
Vkadaba 5:0728bde67bdb 228 /*! ADMW1001 analog sensor excitation current output level options
Vkadaba 5:0728bde67bdb 229 *
Vkadaba 5:0728bde67bdb 230 * @note applicable only to ADC analog sensor channels, and
Vkadaba 5:0728bde67bdb 231 * specific sensor types
Vkadaba 5:0728bde67bdb 232 */
Vkadaba 34:b60ee1e0af2b 233 typedef enum {
Vkadaba 18:cbf514cce921 234 ADMW1001_ADC_NO_EXTERNAL_EXC_CURRENT = -1,
Vkadaba 34:b60ee1e0af2b 235 /*!< NO External excitation is provided */
Vkadaba 6:9d393a9677f4 236 ADMW1001_ADC_EXC_CURRENT_EXTERNAL = 0,
Vkadaba 34:b60ee1e0af2b 237 /*!< External excitation is provided */
Vkadaba 5:0728bde67bdb 238 ADMW1001_ADC_EXC_CURRENT_50uA,
Vkadaba 5:0728bde67bdb 239 /*!< 50uA excitation current enabled */
Vkadaba 5:0728bde67bdb 240 ADMW1001_ADC_EXC_CURRENT_100uA,
Vkadaba 5:0728bde67bdb 241 /*!< 100uA excitation current */
Vkadaba 5:0728bde67bdb 242 ADMW1001_ADC_EXC_CURRENT_250uA,
Vkadaba 5:0728bde67bdb 243 /*!< 250uA excitation current enabled */
Vkadaba 5:0728bde67bdb 244 ADMW1001_ADC_EXC_CURRENT_500uA,
Vkadaba 5:0728bde67bdb 245 /*!< 500uA excitation current enabled */
Vkadaba 5:0728bde67bdb 246 ADMW1001_ADC_EXC_CURRENT_1000uA,
Vkadaba 5:0728bde67bdb 247 /*!< 1mA excitation current enabled */
Vkadaba 8:2f2775c34640 248
Vkadaba 8:2f2775c34640 249 } ADMW1001_ADC_EXC_CURRENT;
Vkadaba 5:0728bde67bdb 250
Vkadaba 5:0728bde67bdb 251 /*! ADMW1001 analog sensor excitation current ratios used for diode sensor
Vkadaba 5:0728bde67bdb 252 *
Vkadaba 5:0728bde67bdb 253 * @note applicable only to a diode sensor
Vkadaba 5:0728bde67bdb 254 */
Vkadaba 34:b60ee1e0af2b 255 typedef enum {
Vkadaba 34:b60ee1e0af2b 256 ADMW1001_ADC_EXC_CURRENT_IOUT_DIODE_10UA_100UA = 0,
Vkadaba 6:9d393a9677f4 257 /**< 2 Current measurement 10uA 100uA */
Vkadaba 34:b60ee1e0af2b 258 ADMW1001_ADC_EXC_CURRENT_IOUT_DIODE_20UA_160UA,
Vkadaba 6:9d393a9677f4 259 /**< 2 Current measurement 20uA 160uA */
Vkadaba 34:b60ee1e0af2b 260 ADMW1001_ADC_EXC_CURRENT_IOUT_DIODE_50UA_300UA,
Vkadaba 6:9d393a9677f4 261 /**< 2 Current measurement 50uA 300uA */
Vkadaba 34:b60ee1e0af2b 262 ADMW1001_ADC_EXC_CURRENT_IOUT_DIODE_100UA_600UA,
Vkadaba 6:9d393a9677f4 263 /**< 2 Current measurement 100uA 600uA */
Vkadaba 34:b60ee1e0af2b 264 ADMW1001_ADC_EXC_CURRENT_IOUT_DIODE_10UA_50UA_100UA,
Vkadaba 6:9d393a9677f4 265 /**< 3 current measuremetn 10uA 50uA 100uA */
Vkadaba 34:b60ee1e0af2b 266 ADMW1001_ADC_EXC_CURRENT_IOUT_DIODE_20UA_100UA_160UA,
Vkadaba 6:9d393a9677f4 267 /**< 3 current measuremetn 20uA 100uA 160uA */
Vkadaba 34:b60ee1e0af2b 268 ADMW1001_ADC_EXC_CURRENT_IOUT_DIODE_50UA_150UA_300UA,
Vkadaba 6:9d393a9677f4 269 /**< 3 current measuremetn 50uA 150uA 300uA */
Vkadaba 6:9d393a9677f4 270 ADMW1001_ADC_EXC_CURRENT_IOUT_DIODE_100UA_300UA_600UA,
Vkadaba 6:9d393a9677f4 271 /**< 3 current measuremetn 100uA 300uA 600uA */
Vkadaba 8:2f2775c34640 272
Vkadaba 8:2f2775c34640 273 } ADMW1001_ADC_EXC_CURRENT_DIODE_RATIO;
Vkadaba 5:0728bde67bdb 274
Vkadaba 5:0728bde67bdb 275 /*! ADMW1001 analog reference selection options
Vkadaba 5:0728bde67bdb 276 *
Vkadaba 5:0728bde67bdb 277 * @note applicable only to ADC analog sensor channels, and
Vkadaba 5:0728bde67bdb 278 * specific sensor types
Vkadaba 5:0728bde67bdb 279 */
Vkadaba 34:b60ee1e0af2b 280 typedef enum {
Vkadaba 8:2f2775c34640 281 ADMW1001_ADC_REFERENCE_VOLTAGE_INTERNAL = 0,
Vkadaba 8:2f2775c34640 282 /*!< Internal VRef - 1.2V */
Vkadaba 8:2f2775c34640 283 ADMW1001_ADC_REFERENCE_VOLTAGE_EXTERNAL_1,
Vkadaba 8:2f2775c34640 284 /*!< External reference voltage #1 */
Vkadaba 8:2f2775c34640 285 ADMW1001_ADC_REFERENCE_VOLTAGE_EXTERNAL_2,
Vkadaba 8:2f2775c34640 286 /*!< External reference voltage #2 */
Vkadaba 5:0728bde67bdb 287 ADMW1001_ADC_REFERENCE_VOLTAGE_AVDD,
Vkadaba 5:0728bde67bdb 288 /*!< Analag Supply Voltage AVDD reference (typically 3.3V) is selected */
Vkadaba 5:0728bde67bdb 289
Vkadaba 8:2f2775c34640 290 } ADMW1001_ADC_REFERENCE_TYPE;
Vkadaba 5:0728bde67bdb 291
Vkadaba 6:9d393a9677f4 292 /*! ADMW1001 ADC Reference configuration
Vkadaba 6:9d393a9677f4 293 *
Vkadaba 6:9d393a9677f4 294 * @note applicable only to ADC analog sensor channels
Vkadaba 6:9d393a9677f4 295 */
Vkadaba 34:b60ee1e0af2b 296 typedef enum {
Vkadaba 6:9d393a9677f4 297 ADMW1001_ADC_GND_SW_OPEN = 0,
Vkadaba 6:9d393a9677f4 298 /*!< Ground switch not enabled for measurement. */
Vkadaba 6:9d393a9677f4 299 ADMW1001_ADC_GND_SW_CLOSED,
Vkadaba 8:2f2775c34640 300 /*!< Ground switch enabled for measurement. */
Vkadaba 8:2f2775c34640 301
Vkadaba 8:2f2775c34640 302 } ADMW1001_ADC_GND_SW;
Vkadaba 8:2f2775c34640 303
Vkadaba 8:2f2775c34640 304 /*! ADMW1001 analog filter chop mode
Vkadaba 8:2f2775c34640 305 *
Vkadaba 8:2f2775c34640 306 * @note applicable only to ADC analog sensor channels
Vkadaba 8:2f2775c34640 307 */
Vkadaba 34:b60ee1e0af2b 308 typedef enum {
Vkadaba 8:2f2775c34640 309 ADMW1001_CHOP_MD_NONE = 0,
Vkadaba 8:2f2775c34640 310 /*!< No chop performed. */
Vkadaba 8:2f2775c34640 311 ADMW1001_CHOP_MD_HW,
Vkadaba 8:2f2775c34640 312 /*!< Hardware only chop performed. */
Vkadaba 8:2f2775c34640 313 ADMW1001_CHOP_MD_SW,
Vkadaba 8:2f2775c34640 314 /*!< Software only chop performed. */
Vkadaba 8:2f2775c34640 315 ADMW1001_CHOP_MD_HWSW,
Vkadaba 8:2f2775c34640 316 /*!< Hardware and software chop performed. */
Vkadaba 34:b60ee1e0af2b 317
Vkadaba 8:2f2775c34640 318 } ADMW1001_CHOP_MD;
Vkadaba 6:9d393a9677f4 319
Vkadaba 5:0728bde67bdb 320 /*! ADMW1001 analog filter selection options
Vkadaba 5:0728bde67bdb 321 *
Vkadaba 5:0728bde67bdb 322 * @note applicable only to ADC analog sensor channels
Vkadaba 5:0728bde67bdb 323 */
Vkadaba 34:b60ee1e0af2b 324 typedef enum {
Vkadaba 6:9d393a9677f4 325 ADMW1001_ADC_FILTER_SINC4 = 0,
Vkadaba 8:2f2775c34640 326 /*!< SINC4 - 4th order sinc response filter */
Vkadaba 6:9d393a9677f4 327 ADMW1001_ADC_FILTER_SINC3,
Vkadaba 8:2f2775c34640 328 /*!< SINC3 - 3rd order sinc response filter */
Vkadaba 8:2f2775c34640 329
Vkadaba 8:2f2775c34640 330 } ADMW1001_ADC_FILTER_TYPE;
Vkadaba 8:2f2775c34640 331
Vkadaba 8:2f2775c34640 332 /*! ADMW1001 Sinc Filter range (SF)
Vkadaba 8:2f2775c34640 333 *
Vkadaba 8:2f2775c34640 334 * @note applicable only to ADC analog sensor channels
Vkadaba 34:b60ee1e0af2b 335 * @note SF must be set in conjunction with chop mode
Vkadaba 8:2f2775c34640 336 * and sinc filter type to achieve the desired sampling rate.
Vkadaba 8:2f2775c34640 337 */
Vkadaba 34:b60ee1e0af2b 338 typedef enum {
Vkadaba 8:2f2775c34640 339 ADMW1001_SF_976HZ = 0,
Vkadaba 8:2f2775c34640 340 /*!< SF setting for 976Hz sample rate. */
Vkadaba 8:2f2775c34640 341 ADMW1001_SF_488HZ = 1,
Vkadaba 8:2f2775c34640 342 /*!< SF setting for 488Hz sample rate. */
Vkadaba 8:2f2775c34640 343 ADMW1001_SF_244HZ = 3,
Vkadaba 8:2f2775c34640 344 /*!< SF setting for 244Hz sample rate. */
Vkadaba 8:2f2775c34640 345 ADMW1001_SF_122HZ = 7,
Vkadaba 8:2f2775c34640 346 /*!< SF setting for 122Hz sample rate. */
Vkadaba 8:2f2775c34640 347 ADMW1001_SF_61HZ = 31,
Vkadaba 8:2f2775c34640 348 /*!< SF setting for 61Hz sample rate. */
Vkadaba 8:2f2775c34640 349 ADMW1001_SF_30P5HZ = 51,
Vkadaba 8:2f2775c34640 350 /*!< SF setting for 61Hz sample rate. */
Vkadaba 8:2f2775c34640 351 ADMW1001_SF_10HZ = 124,
Vkadaba 8:2f2775c34640 352 /*!< SF setting for 10Hz sample rate. */
Vkadaba 8:2f2775c34640 353 ADMW1001_SF_8P24HZ = 125,
Vkadaba 8:2f2775c34640 354 /*!< SF setting for 8.24Hz sample rate. */
Vkadaba 8:2f2775c34640 355 ADMW1001_SF_5HZ = 127,
Vkadaba 8:2f2775c34640 356 /*!< SF setting for 5Hz sample rate. */
Vkadaba 8:2f2775c34640 357
Vkadaba 8:2f2775c34640 358 } ADMW1001_SINC_FILTER_RANGE;
Vkadaba 5:0728bde67bdb 359
Vkadaba 5:0728bde67bdb 360 /*! ADMW1001 I2C clock speed options
Vkadaba 5:0728bde67bdb 361 *
Vkadaba 5:0728bde67bdb 362 * @note applicable only for I2C sensors
Vkadaba 5:0728bde67bdb 363 */
Vkadaba 34:b60ee1e0af2b 364 typedef enum {
Vkadaba 8:2f2775c34640 365 ADMW1001_DIGITAL_SENSOR_COMMS_I2C_CLOCK_SPEED_100K = 0,
Vkadaba 5:0728bde67bdb 366 /*!< 100kHz I2C clock speed */
Vkadaba 8:2f2775c34640 367 ADMW1001_DIGITAL_SENSOR_COMMS_I2C_CLOCK_SPEED_400K,
Vkadaba 5:0728bde67bdb 368 /*!< 400kHz I2C clock speed */
Vkadaba 8:2f2775c34640 369
Vkadaba 8:2f2775c34640 370 } ADMW1001_DIGITAL_SENSOR_COMMS_I2C_CLOCK_SPEED;
Vkadaba 5:0728bde67bdb 371
Vkadaba 5:0728bde67bdb 372 /*! ADMW1001 SPI mode options
Vkadaba 5:0728bde67bdb 373 *
Vkadaba 5:0728bde67bdb 374 * @note applicable only for SPI sensors
Vkadaba 5:0728bde67bdb 375 */
Vkadaba 34:b60ee1e0af2b 376 typedef enum {
Vkadaba 8:2f2775c34640 377 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_MODE_0 = 0,
Vkadaba 5:0728bde67bdb 378 /*!< SPI mode 0 Clock Polarity = 0 Clock Phase = 0 */
Vkadaba 8:2f2775c34640 379 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_MODE_1,
Vkadaba 5:0728bde67bdb 380 /*!< SPI mode 0 Clock Polarity = 0 Clock Phase = 1 */
Vkadaba 8:2f2775c34640 381 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_MODE_2,
Vkadaba 5:0728bde67bdb 382 /*!< SPI mode 0 Clock Polarity = 1 Clock Phase = 0 */
Vkadaba 8:2f2775c34640 383 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_MODE_3,
Vkadaba 5:0728bde67bdb 384 /*!< SPI mode 0 Clock Polarity = 1 Clock Phase = 1 */
Vkadaba 8:2f2775c34640 385
Vkadaba 8:2f2775c34640 386 } ADMW1001_DIGITAL_SENSOR_COMMS_SPI_MODE;
Vkadaba 5:0728bde67bdb 387
Vkadaba 5:0728bde67bdb 388 /*! ADMW1001 SPI clock speed options
Vkadaba 5:0728bde67bdb 389 *
Vkadaba 5:0728bde67bdb 390 * @note applicable only for SPI sensors
Vkadaba 5:0728bde67bdb 391 */
Vkadaba 34:b60ee1e0af2b 392 typedef enum {
Vkadaba 8:2f2775c34640 393 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_8MHZ = 0,
Vkadaba 8:2f2775c34640 394 /*!< SPI Clock Speed configured to 8MHz */
Vkadaba 8:2f2775c34640 395 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_4MHZ,
Vkadaba 8:2f2775c34640 396 /*!< SPI Clock Speed configured to 4MHz */
Vkadaba 8:2f2775c34640 397 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_2MHZ,
Vkadaba 8:2f2775c34640 398 /*!< SPI Clock Speed configured to 2MHz */
Vkadaba 8:2f2775c34640 399 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_1MHZ,
Vkadaba 8:2f2775c34640 400 /*!< SPI Clock Speed configured to 1MHz */
Vkadaba 8:2f2775c34640 401 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_500KHZ,
Vkadaba 8:2f2775c34640 402 /*!< SPI Clock Speed configured to 500kHz */
Vkadaba 8:2f2775c34640 403 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_250KHZ,
Vkadaba 8:2f2775c34640 404 /*!< SPI Clock Speed configured to 250kHz */
Vkadaba 8:2f2775c34640 405 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_125KHZ,
Vkadaba 8:2f2775c34640 406 /*!< SPI Clock Speed configured to 125kHz */
Vkadaba 8:2f2775c34640 407 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_62P5KHZ,
Vkadaba 8:2f2775c34640 408 /*!< SPI Clock Speed configured to 62.5kHz */
Vkadaba 8:2f2775c34640 409 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_31P3KHZ,
Vkadaba 8:2f2775c34640 410 /*!< SPI Clock Speed configured to 31.3kHz */
Vkadaba 8:2f2775c34640 411 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_15P6KHZ,
Vkadaba 8:2f2775c34640 412 /*!< SPI Clock Speed configured to 15.6kHz */
Vkadaba 8:2f2775c34640 413 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_7P8KHZ,
Vkadaba 8:2f2775c34640 414 /*!< SPI Clock Speed configured to 7.8kHz */
Vkadaba 8:2f2775c34640 415 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_3P9KHZ,
Vkadaba 8:2f2775c34640 416 /*!< SPI Clock Speed configured to 3.9kHz */
Vkadaba 8:2f2775c34640 417 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_1P9KHZ,
Vkadaba 8:2f2775c34640 418 /*!< SPI Clock Speed configured to 1.9kHz */
Vkadaba 8:2f2775c34640 419 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_977HZ,
Vkadaba 8:2f2775c34640 420 /*!< SPI Clock Speed configured to 977Hz */
Vkadaba 8:2f2775c34640 421 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_488HZ,
Vkadaba 8:2f2775c34640 422 /*!< SPI Clock Speed configured to 488Hz */
Vkadaba 8:2f2775c34640 423 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK_244HZ,
Vkadaba 8:2f2775c34640 424 /*!< SPI Clock Speed configured to 244Hz */
Vkadaba 8:2f2775c34640 425
Vkadaba 8:2f2775c34640 426 } ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK;
Vkadaba 5:0728bde67bdb 427
Vkadaba 5:0728bde67bdb 428 /*! ADMW1001 Power Configuration options */
Vkadaba 34:b60ee1e0af2b 429 typedef struct {
Vkadaba 5:0728bde67bdb 430 ADMW1001_POWER_MODE powerMode;
Vkadaba 5:0728bde67bdb 431 /*!< Power mode selection */
Vkadaba 8:2f2775c34640 432
Vkadaba 8:2f2775c34640 433 } ADMW1001_POWER_CONFIG;
Vkadaba 5:0728bde67bdb 434
Vkadaba 5:0728bde67bdb 435 /*! ADMW1001 Multi-Cycle Configuration options
Vkadaba 5:0728bde67bdb 436 *
Vkadaba 5:0728bde67bdb 437 * @note required only when ADMW1001_OPERATING_MODE_MULTICYCLE is selected
Vkadaba 5:0728bde67bdb 438 * as the operatingMode (@ref ADMW1001_MEASUREMENT_CONFIG)
Vkadaba 5:0728bde67bdb 439 */
Vkadaba 34:b60ee1e0af2b 440 typedef struct {
Vkadaba 8:2f2775c34640 441 uint32_t cyclesPerBurst;
Vkadaba 5:0728bde67bdb 442 /*!< Number of cycles to complete for a single burst */
Vkadaba 8:2f2775c34640 443 uint32_t burstInterval;
Vkadaba 5:0728bde67bdb 444 /*!< Interval, in seconds, between each successive burst of cycles */
Vkadaba 8:2f2775c34640 445
Vkadaba 8:2f2775c34640 446 } ADMW1001_MULTICYCLE_CONFIG;
Vkadaba 5:0728bde67bdb 447
Vkadaba 5:0728bde67bdb 448 /*! ADMW1001 Measurement Configuration options */
Vkadaba 34:b60ee1e0af2b 449 typedef struct {
Vkadaba 5:0728bde67bdb 450 ADMW1001_OPERATING_MODE operatingMode;
Vkadaba 5:0728bde67bdb 451 /*!< Operating mode - specifies how measurement cycles are scheduled */
Vkadaba 5:0728bde67bdb 452 ADMW1001_DATAREADY_MODE dataReadyMode;
Vkadaba 5:0728bde67bdb 453 /*!< Data read mode - specifies how output samples are stored for reading */
Vkadaba 5:0728bde67bdb 454 ADMW1001_MULTICYCLE_CONFIG multiCycleConfig;
Vkadaba 5:0728bde67bdb 455 /*!< Multi-Cycle configuration - specifies how bursts of measurement cycles
Vkadaba 5:0728bde67bdb 456 * are scheduled. Applicable only when operatingMode is
Vkadaba 5:0728bde67bdb 457 * ADMW1001_OPERATING_MODE_MULTICYCLE
Vkadaba 5:0728bde67bdb 458 */
Vkadaba 5:0728bde67bdb 459 ADMW1001_FILTER_SETTLING filterSettling;
Vkadaba 5:0728bde67bdb 460 /*!< Analog filter settling - specifies the policy for settling time
Vkadaba 5:0728bde67bdb 461 * between consecutive measurements from an analog channel in a multi-
Vkadaba 5:0728bde67bdb 462 * channel configuration. Note that, in single analog channel
Vkadaba 5:0728bde67bdb 463 * configurations, settling time is always skipped between consecutive
Vkadaba 5:0728bde67bdb 464 * measurements in a measurement cycle.
Vkadaba 5:0728bde67bdb 465 */
Vkadaba 8:2f2775c34640 466 uint8_t reserved0[3];
Vkadaba 8:2f2775c34640 467 /*!< Reserved for future use and ensure word alignment.
Vkadaba 34:b60ee1e0af2b 468 */
Vkadaba 8:2f2775c34640 469 uint32_t cycleInterval;
Vkadaba 8:2f2775c34640 470 /*!< Cycle interval - specifies the time interval between the start of each
Vkadaba 8:2f2775c34640 471 * successive measurement cycle. Applicable only when operatingMode is
Vkadaba 8:2f2775c34640 472 * not ADMW1001_OPERATING_MODE_SINGLECYCLE
Vkadaba 8:2f2775c34640 473 */
Vkadaba 8:2f2775c34640 474 bool vBiasEnable;
Vkadaba 8:2f2775c34640 475 /*!< Enable voltage Bias output of ADC
Vkadaba 8:2f2775c34640 476 */
Vkadaba 8:2f2775c34640 477 float32_t externalRef1Value;
Vkadaba 8:2f2775c34640 478 /*!< Voltage value connected to external reference input #1.
Vkadaba 5:0728bde67bdb 479 * Applicable only if the selected reference type is
Vkadaba 8:2f2775c34640 480 * voltage.
Vkadaba 5:0728bde67bdb 481 * (see @ref ADMW1001_ADC_REFERENCE_TYPE)
Vkadaba 34:b60ee1e0af2b 482 */
Vkadaba 33:df7a00f1b8e1 483 float32_t RSenseValue;
Vkadaba 34:b60ee1e0af2b 484 /*!< Sense resistor value in Ohms. */
Vkadaba 34:b60ee1e0af2b 485 float32_t externalRefVoltage;
Vkadaba 34:b60ee1e0af2b 486 /*!< External Reference Voltage.
Vkadaba 34:b60ee1e0af2b 487 */
Vkadaba 34:b60ee1e0af2b 488 uint32_t reserved1[2];
Vkadaba 8:2f2775c34640 489
Vkadaba 8:2f2775c34640 490 } ADMW1001_MEASUREMENT_CONFIG;
Vkadaba 5:0728bde67bdb 491
Vkadaba 5:0728bde67bdb 492 /*! ADMW1001 ADC Excitation Current output configuration
Vkadaba 5:0728bde67bdb 493 *
Vkadaba 5:0728bde67bdb 494 * @note applicable only to ADC analog sensor channels, and
Vkadaba 5:0728bde67bdb 495 * specific sensor types
Vkadaba 5:0728bde67bdb 496 */
Vkadaba 34:b60ee1e0af2b 497 typedef struct {
Vkadaba 6:9d393a9677f4 498 ADMW1001_ADC_EXC_STATE excitationState;
Vkadaba 6:9d393a9677f4 499 /*!< Excitation current state */
Vkadaba 5:0728bde67bdb 500 ADMW1001_ADC_EXC_CURRENT outputLevel;
Vkadaba 5:0728bde67bdb 501 /*!< Excitation current output level */
Vkadaba 5:0728bde67bdb 502 ADMW1001_ADC_EXC_CURRENT_DIODE_RATIO diodeRatio;
Vkadaba 5:0728bde67bdb 503 /*!< Excitation current output diode ratio */
Vkadaba 8:2f2775c34640 504
Vkadaba 8:2f2775c34640 505 } ADMW1001_ADC_EXC_CURRENT_CONFIG;
Vkadaba 5:0728bde67bdb 506
Vkadaba 5:0728bde67bdb 507 /*! ADMW1001 ADC Filter configuration
Vkadaba 5:0728bde67bdb 508 *
Vkadaba 5:0728bde67bdb 509 * @note applicable only to ADC analog sensor channels
Vkadaba 5:0728bde67bdb 510 */
Vkadaba 34:b60ee1e0af2b 511 typedef struct {
Vkadaba 8:2f2775c34640 512 ADMW1001_ADC_FILTER_TYPE type;
Vkadaba 5:0728bde67bdb 513 /*!< Filter type selection */
Vkadaba 8:2f2775c34640 514 ADMW1001_SINC_FILTER_RANGE sf;
Vkadaba 8:2f2775c34640 515 /*!< SF value used along with filter type and chop mode to determine speed */
Vkadaba 17:2f0028880874 516 ADMW1001_CHOP_MD chopMode;
Vkadaba 6:9d393a9677f4 517 /*!< Enable filter chop */
Vkadaba 8:2f2775c34640 518 bool notch1p2;
Vkadaba 6:9d393a9677f4 519 /*!< Enable Notch 2 Filter Mode */
Vkadaba 8:2f2775c34640 520 ADMW1001_ADC_GND_SW groundSwitch;
Vkadaba 6:9d393a9677f4 521 /*!< Option to open or close sensor ground switch */
Vkadaba 5:0728bde67bdb 522
Vkadaba 8:2f2775c34640 523 } ADMW1001_ADC_FILTER_CONFIG;
Vkadaba 5:0728bde67bdb 524
Vkadaba 5:0728bde67bdb 525 /*! ADMW1001 ADC analog channel configuration details
Vkadaba 5:0728bde67bdb 526 *
Vkadaba 5:0728bde67bdb 527 * @note applicable only to ADC analog sensor channels
Vkadaba 5:0728bde67bdb 528 */
Vkadaba 34:b60ee1e0af2b 529 typedef struct {
Vkadaba 5:0728bde67bdb 530 ADMW1001_ADC_SENSOR_TYPE sensor;
Vkadaba 5:0728bde67bdb 531 /*!< Sensor type selection */
Vkadaba 6:9d393a9677f4 532 ADMW1001_ADC_RTD_CURVE rtdCurve;
Vkadaba 6:9d393a9677f4 533 /*!< Rtd curve selection */
Vkadaba 5:0728bde67bdb 534 ADMW1001_ADC_GAIN gain;
Vkadaba 5:0728bde67bdb 535 /*!< ADC Gain selection */
Vkadaba 5:0728bde67bdb 536 ADMW1001_ADC_EXC_CURRENT_CONFIG current;
Vkadaba 5:0728bde67bdb 537 /*!< ADC Excitation Current configuration */
Vkadaba 5:0728bde67bdb 538 ADMW1001_ADC_FILTER_CONFIG filter;
Vkadaba 5:0728bde67bdb 539 /*!< ADC Filter configuration */
Vkadaba 8:2f2775c34640 540 ADMW1001_ADC_REFERENCE_TYPE reference;
Vkadaba 11:8e6023d2e584 541 bool vBiasEnable;
Vkadaba 5:0728bde67bdb 542 /*!< ADC Reference configuration */
Vkadaba 33:df7a00f1b8e1 543 uint8_t bufferBypass;
Vkadaba 34:b60ee1e0af2b 544 /*!< Buffer Bypass configuration */
Vkadaba 33:df7a00f1b8e1 545 uint8_t reserved0[2];
Vkadaba 8:2f2775c34640 546 /*!< Reserved for future use and ensure word alignment. */
Vkadaba 8:2f2775c34640 547 uint32_t reserved1[6];
Vkadaba 8:2f2775c34640 548 /*!< Reserved for future use and ensure word alignment. */
Vkadaba 8:2f2775c34640 549
Vkadaba 8:2f2775c34640 550 } ADMW1001_ADC_CHANNEL_CONFIG;
Vkadaba 8:2f2775c34640 551
Vkadaba 8:2f2775c34640 552 /*! ADMW1001 look-up table selection
Vkadaba 8:2f2775c34640 553 * Select table used to linearise the measurement.
Vkadaba 8:2f2775c34640 554 */
Vkadaba 34:b60ee1e0af2b 555 typedef enum {
Vkadaba 8:2f2775c34640 556 ADMW1001_LUT_DEFAULT = 0,
Vkadaba 8:2f2775c34640 557 /*!< Default LUT */
Vkadaba 8:2f2775c34640 558 ADMW1001_LUT_UNITY = 1,
Vkadaba 8:2f2775c34640 559 /*!< Unity LUT */
Vkadaba 8:2f2775c34640 560 ADMW1001_LUT_CUSTOM = 2,
Vkadaba 8:2f2775c34640 561 /*!< User defined custom LUT */
Vkadaba 8:2f2775c34640 562 ADMW1001_LUT_RESERVED = 3,
Vkadaba 8:2f2775c34640 563 /*!< Reserved for future use */
Vkadaba 34:b60ee1e0af2b 564
Vkadaba 8:2f2775c34640 565 } ADMW1001_LUT_SELECT;
Vkadaba 5:0728bde67bdb 566
Vkadaba 5:0728bde67bdb 567 /*! ADMW1001 digital sensor data encoding
Vkadaba 5:0728bde67bdb 568 *
Vkadaba 5:0728bde67bdb 569 * @note applicable only to SPI and I2C digital sensor channels
Vkadaba 5:0728bde67bdb 570 */
Vkadaba 34:b60ee1e0af2b 571 typedef enum {
Vkadaba 8:2f2775c34640 572 ADMW1001_DIGITAL_SENSOR_DATA_CODING_NONE = 0,
Vkadaba 5:0728bde67bdb 573 /**< None/Invalid - data format is ignored if coding is set to this value */
Vkadaba 5:0728bde67bdb 574 ADMW1001_DIGITAL_SENSOR_DATA_CODING_UNIPOLAR,
Vkadaba 5:0728bde67bdb 575 /**< Unipolar - unsigned integer values */
Vkadaba 5:0728bde67bdb 576 ADMW1001_DIGITAL_SENSOR_DATA_CODING_TWOS_COMPLEMENT,
Vkadaba 5:0728bde67bdb 577 /**< Twos-complement - signed integer values */
Vkadaba 5:0728bde67bdb 578 ADMW1001_DIGITAL_SENSOR_DATA_CODING_OFFSET_BINARY,
Vkadaba 5:0728bde67bdb 579 /**< Offset Binary - used to represent signed values with unsigned integers,
Vkadaba 5:0728bde67bdb 580 * with the mid-range value representing 0 */
Vkadaba 8:2f2775c34640 581
Vkadaba 8:2f2775c34640 582 } ADMW1001_DIGITAL_SENSOR_DATA_CODING;
Vkadaba 5:0728bde67bdb 583
Vkadaba 5:0728bde67bdb 584 /*! ADMW1001 digital sensor data format configuration
Vkadaba 5:0728bde67bdb 585 *
Vkadaba 5:0728bde67bdb 586 * @note applicable only to SPI and I2C digital sensor channels
Vkadaba 5:0728bde67bdb 587 */
Vkadaba 34:b60ee1e0af2b 588 typedef struct {
Vkadaba 5:0728bde67bdb 589 ADMW1001_DIGITAL_SENSOR_DATA_CODING coding;
Vkadaba 5:0728bde67bdb 590 /**< Data Encoding of Sensor Result */
Vkadaba 5:0728bde67bdb 591 bool littleEndian;
Vkadaba 5:0728bde67bdb 592 /**< Set as true if data format is little-endian, false otherwise */
Vkadaba 5:0728bde67bdb 593 bool leftJustified;
Vkadaba 5:0728bde67bdb 594 /**< Set as true if data is left-justified in the data frame, false otherwise */
Vkadaba 5:0728bde67bdb 595 uint8_t frameLength;
Vkadaba 5:0728bde67bdb 596 /**< Data frame length (number of bytes to read from the sensor) */
Vkadaba 5:0728bde67bdb 597 uint8_t numDataBits;
Vkadaba 5:0728bde67bdb 598 /**< Number of relevant data bits to extract from the data frame */
Vkadaba 5:0728bde67bdb 599 uint8_t bitOffset;
Vkadaba 5:0728bde67bdb 600 /**< Data bit offset, relative to data alignment within the data frame */
Vkadaba 8:2f2775c34640 601 uint8_t reserved[2];
Vkadaba 8:2f2775c34640 602 /*!< Reserved for future use and ensure word alignment. */
Vkadaba 8:2f2775c34640 603
Vkadaba 8:2f2775c34640 604 } ADMW1001_DIGITAL_SENSOR_DATA_FORMAT;
Vkadaba 5:0728bde67bdb 605
Vkadaba 5:0728bde67bdb 606 /*! ADMW1001 digital sensor command
Vkadaba 5:0728bde67bdb 607 *
Vkadaba 5:0728bde67bdb 608 * @note applicable only to SPI and I2C digital sensor channels
Vkadaba 5:0728bde67bdb 609 */
Vkadaba 34:b60ee1e0af2b 610 typedef struct {
Vkadaba 5:0728bde67bdb 611 uint8_t command[ADMW1001_SENSOR_COMMAND_MAX_LENGTH];
Vkadaba 5:0728bde67bdb 612 /*!< Optional command bytes to send to the device */
Vkadaba 5:0728bde67bdb 613 uint8_t commandLength;
Vkadaba 5:0728bde67bdb 614 /*!< Number of valid command bytes. Set to 0 if unused */
Vkadaba 8:2f2775c34640 615
Vkadaba 8:2f2775c34640 616 } ADMW1001_DIGITAL_SENSOR_COMMAND;
Vkadaba 5:0728bde67bdb 617
Vkadaba 5:0728bde67bdb 618 /*! ADMW1001 digital sensor calibration param
Vkadaba 5:0728bde67bdb 619 *
Vkadaba 5:0728bde67bdb 620 * @note applicable only to digital sensor channels
Vkadaba 5:0728bde67bdb 621 */
Vkadaba 34:b60ee1e0af2b 622 typedef struct {
Vkadaba 5:0728bde67bdb 623 uint32_t calibrationParam;
Vkadaba 5:0728bde67bdb 624 /*!< Independently established environmental variable used during calibration
Vkadaba 5:0728bde67bdb 625 * of a digital sensor. Used only if the sensor supports calibration
Vkadaba 5:0728bde67bdb 626 * and expects an environmental parameter
Vkadaba 5:0728bde67bdb 627 */
Vkadaba 5:0728bde67bdb 628 bool enableCalibrationParam;
Vkadaba 5:0728bde67bdb 629 /*!< Allow Calibration_Parameter to be used during calibration of any digital sensor */
Vkadaba 8:2f2775c34640 630 uint8_t reserved[3];
Vkadaba 8:2f2775c34640 631 /*!< Reserved for future use and ensure word alignment. */
Vkadaba 8:2f2775c34640 632
Vkadaba 8:2f2775c34640 633 } ADMW1001_DIGITAL_CALIBRATION_COMMAND;
Vkadaba 5:0728bde67bdb 634
Vkadaba 5:0728bde67bdb 635 /*! ADMW1001 digital sensor communication config
Vkadaba 5:0728bde67bdb 636 *
Vkadaba 5:0728bde67bdb 637 * @note applicable only to digital sensor channels
Vkadaba 5:0728bde67bdb 638 */
Vkadaba 34:b60ee1e0af2b 639 typedef struct {
Vkadaba 8:2f2775c34640 640 bool useCustomCommsConfig;
Vkadaba 5:0728bde67bdb 641 /*!< Optional parameter to enable user digital communication settings */
Vkadaba 8:2f2775c34640 642 ADMW1001_DIGITAL_SENSOR_COMMS_I2C_CLOCK_SPEED i2cClockSpeed;
Vkadaba 5:0728bde67bdb 643 /*!< Optional parameter to configure specific i2c speed for i2c sensor */
Vkadaba 8:2f2775c34640 644 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_MODE spiMode;
Vkadaba 5:0728bde67bdb 645 /*!< Optional parameter to configure specific spi mode for spi sensor */
Vkadaba 8:2f2775c34640 646 ADMW1001_DIGITAL_SENSOR_COMMS_SPI_CLOCK spiClock;
Vkadaba 5:0728bde67bdb 647 /*!< Optional parameter to configure specific spi clock for spi sensor */
Vkadaba 8:2f2775c34640 648
Vkadaba 8:2f2775c34640 649 } ADMW1001_DIGITAL_SENSOR_COMMS;
Vkadaba 5:0728bde67bdb 650
Vkadaba 5:0728bde67bdb 651 /*! ADMW1001 I2C digital channel configuration details
Vkadaba 5:0728bde67bdb 652 *
Vkadaba 5:0728bde67bdb 653 * @note applicable only to I2C digital sensor channels
Vkadaba 5:0728bde67bdb 654 */
Vkadaba 34:b60ee1e0af2b 655 typedef struct {
Vkadaba 8:2f2775c34640 656 ADMW1001_I2C_SENSOR_TYPE sensor;
Vkadaba 5:0728bde67bdb 657 /*!< Sensor type selection */
Vkadaba 8:2f2775c34640 658 uint8_t deviceAddress;
Vkadaba 5:0728bde67bdb 659 /*!< I2C device address (7-bit) */
Vkadaba 8:2f2775c34640 660 uint8_t reserved;
Vkadaba 8:2f2775c34640 661 /*!< Reserved for future use and ensure word alignment. */
Vkadaba 8:2f2775c34640 662 ADMW1001_DIGITAL_SENSOR_COMMAND configurationCommand;
Vkadaba 5:0728bde67bdb 663 /*!< Optional configuration command to send to the device at start-up.
Vkadaba 5:0728bde67bdb 664 * A default configuration command will be used if this is not specified.
Vkadaba 5:0728bde67bdb 665 * Applicable only to specific I2C sensor types.
Vkadaba 5:0728bde67bdb 666 */
Vkadaba 8:2f2775c34640 667 ADMW1001_DIGITAL_SENSOR_COMMAND dataRequestCommand;
Vkadaba 5:0728bde67bdb 668 /*!< Optional data request command to send to the device for each sample.
Vkadaba 5:0728bde67bdb 669 * A default data request command will be used if this is not specified.
Vkadaba 5:0728bde67bdb 670 * Applicable only to specific I2C sensor types.
Vkadaba 5:0728bde67bdb 671 */
Vkadaba 8:2f2775c34640 672 ADMW1001_DIGITAL_SENSOR_DATA_FORMAT dataFormat;
Vkadaba 5:0728bde67bdb 673 /*!< Optional data format configuration to parse/extract data from the device.
Vkadaba 5:0728bde67bdb 674 * A default data format will be used if this is not specified.
Vkadaba 5:0728bde67bdb 675 * Applicable only to specific I2C sensor types
Vkadaba 5:0728bde67bdb 676 */
Vkadaba 8:2f2775c34640 677 ADMW1001_DIGITAL_CALIBRATION_COMMAND digitalCalibrationParam;
Vkadaba 5:0728bde67bdb 678 /*!< This is used to supply an independently established environmental variable
Vkadaba 5:0728bde67bdb 679 * that must be used during calibration of a [digital] sensor which a)
Vkadaba 5:0728bde67bdb 680 * supports calibration and b) expects an environmental parameter.
Vkadaba 5:0728bde67bdb 681 * An example is a CO2 sensor, which may require the CO2 concentration level
Vkadaba 5:0728bde67bdb 682 * when performing a calibration
Vkadaba 5:0728bde67bdb 683 */
Vkadaba 8:2f2775c34640 684 ADMW1001_DIGITAL_SENSOR_COMMS configureComms;
Vkadaba 5:0728bde67bdb 685 /*!< Optional configuration to setup a user communication config.
Vkadaba 5:0728bde67bdb 686 * A default configuration will be used if this is not specified.
Vkadaba 5:0728bde67bdb 687 * Applicable only to specific I2C sensor types.
Vkadaba 5:0728bde67bdb 688 */
Vkadaba 8:2f2775c34640 689
Vkadaba 8:2f2775c34640 690 } ADMW1001_I2C_CHANNEL_CONFIG;
Vkadaba 5:0728bde67bdb 691
Vkadaba 5:0728bde67bdb 692 /*! ADMW1001 SPI digital channel configuration details
Vkadaba 5:0728bde67bdb 693 *
Vkadaba 5:0728bde67bdb 694 * @note applicable only to SPI digital sensor channels
Vkadaba 5:0728bde67bdb 695 */
Vkadaba 34:b60ee1e0af2b 696 typedef struct {
Vkadaba 5:0728bde67bdb 697 ADMW1001_SPI_SENSOR_TYPE sensor;
Vkadaba 5:0728bde67bdb 698 /*!< Sensor type selection */
Vkadaba 8:2f2775c34640 699 uint8_t reserved[2];
Vkadaba 34:b60ee1e0af2b 700 /*!< Reserved for future use and ensure word alignment. */
Vkadaba 5:0728bde67bdb 701 ADMW1001_DIGITAL_SENSOR_COMMAND configurationCommand;
Vkadaba 5:0728bde67bdb 702 /*!< Optional configuration command to send to the device at start-up.
Vkadaba 5:0728bde67bdb 703 * A default configuration command will be used if this is not specified.
Vkadaba 5:0728bde67bdb 704 * Applicable only to specific SPI sensor types.
Vkadaba 5:0728bde67bdb 705 */
Vkadaba 5:0728bde67bdb 706 ADMW1001_DIGITAL_SENSOR_COMMAND dataRequestCommand;
Vkadaba 5:0728bde67bdb 707 /*!< Optional data request command to send to the device for each sample.
Vkadaba 5:0728bde67bdb 708 * A default data request command will be used if this is not specified.
Vkadaba 5:0728bde67bdb 709 * Applicable only to specific SPI sensor types.
Vkadaba 5:0728bde67bdb 710 */
Vkadaba 5:0728bde67bdb 711 ADMW1001_DIGITAL_SENSOR_DATA_FORMAT dataFormat;
Vkadaba 5:0728bde67bdb 712 /*!< Optional data format configuration to parse/extract data from the device.
Vkadaba 5:0728bde67bdb 713 * A default data format will be used if this is not specified.
Vkadaba 5:0728bde67bdb 714 * Applicable only to specific SPI sensor types
Vkadaba 5:0728bde67bdb 715 */
Vkadaba 5:0728bde67bdb 716 ADMW1001_DIGITAL_CALIBRATION_COMMAND digitalCalibrationParam;
Vkadaba 5:0728bde67bdb 717 /*!< This is used to supply an independently established environmental variable
Vkadaba 5:0728bde67bdb 718 * that must be used during calibration of a [digital] sensor which a)
Vkadaba 5:0728bde67bdb 719 * supports calibration and b) expects an environmental parameter.
Vkadaba 5:0728bde67bdb 720 * An example is a CO2 sensor, which may require the CO2 concentration level
Vkadaba 5:0728bde67bdb 721 * when performing a calibration
Vkadaba 5:0728bde67bdb 722 */
Vkadaba 8:2f2775c34640 723 ADMW1001_DIGITAL_SENSOR_COMMS configureComms;
Vkadaba 5:0728bde67bdb 724 /*!< Optional configuration to setup a user communication config.
Vkadaba 5:0728bde67bdb 725 * A default configuration will be used if this is not specified.
Vkadaba 5:0728bde67bdb 726 * Applicable only to specific SPI sensor types.
Vkadaba 5:0728bde67bdb 727 */
Vkadaba 5:0728bde67bdb 728
Vkadaba 8:2f2775c34640 729 } ADMW1001_SPI_CHANNEL_CONFIG;
Vkadaba 5:0728bde67bdb 730
Vkadaba 5:0728bde67bdb 731 /*! ADMW1001 Measurement Channel configuration details */
Vkadaba 34:b60ee1e0af2b 732 typedef struct {
Vkadaba 8:2f2775c34640 733 bool enableChannel;
Vkadaba 5:0728bde67bdb 734 /*!< Option to include this channel in normal measurement cycles */
Vkadaba 8:2f2775c34640 735 bool disablePublishing;
Vkadaba 5:0728bde67bdb 736 /*!< Option to disable publishing of data samples from this channel. The
Vkadaba 5:0728bde67bdb 737 * channel may still be included in measurement cycles, but data samples
Vkadaba 5:0728bde67bdb 738 * obtained from this channel will not be published. This is typically
Vkadaba 5:0728bde67bdb 739 * used for channels which are required only as a compensation reference
Vkadaba 5:0728bde67bdb 740 * for another channel (e.g. Cold-Junction Compensation channels).
Vkadaba 5:0728bde67bdb 741 */
Vkadaba 8:2f2775c34640 742 ADMW1001_CH_ID compensationChannel;
Vkadaba 8:2f2775c34640 743 /*!< Optional compensation channel. Set to ADMW1001_CH_ID_NONE if not
Vkadaba 5:0728bde67bdb 744 * required. Typically used for thermocouple sensors that require a
Vkadaba 5:0728bde67bdb 745 * separate measurement of the "cold-junction" temperature, which can be
Vkadaba 5:0728bde67bdb 746 * be provided by an RTD temperature sensor connected on a separate
Vkadaba 5:0728bde67bdb 747 * "compensation channel" */
Vkadaba 8:2f2775c34640 748 ADMW1001_LUT_SELECT lutSelect;
Vkadaba 8:2f2775c34640 749 /*!<Select Look Up Table LUT for calculations, this implies that the
Vkadaba 5:0728bde67bdb 750 * fundamental measurement for the sensor (typically mV or Ohms)
Vkadaba 8:2f2775c34640 751 * 0 = default, 1= unity, 2 = custom
Vkadaba 5:0728bde67bdb 752 */
Vkadaba 8:2f2775c34640 753 ADMW1001_MEASUREMENT_UNIT measurementUnit;
Vkadaba 5:0728bde67bdb 754 /*!< Optional measurement unit selection for conversion results. Applicable
Vkadaba 5:0728bde67bdb 755 * only for certain sensor types. Set to
Vkadaba 5:0728bde67bdb 756 * ADMW1001_MEASUREMENT_UNIT_DEFAULT if not applicable.
Vkadaba 5:0728bde67bdb 757 */
Vkadaba 8:2f2775c34640 758 float32_t lowThreshold;
Vkadaba 5:0728bde67bdb 759 /*!< Optional minimum threshold value for each processed sample, to be
Vkadaba 5:0728bde67bdb 760 * checked prior to publishing. A channel ALERT condition is raised
Vkadaba 5:0728bde67bdb 761 * if the processed value is lower than this threshold. Set to NaN
Vkadaba 5:0728bde67bdb 762 * if not required.
Vkadaba 5:0728bde67bdb 763 */
Vkadaba 8:2f2775c34640 764 float32_t highThreshold;
Vkadaba 5:0728bde67bdb 765 /*!< Optional maximum threshold value for each processed sample, to be
Vkadaba 5:0728bde67bdb 766 * checked prior to publishing. A channel ALERT condition is raised
Vkadaba 5:0728bde67bdb 767 * if the processed value is higher than this threshold. Set to NaN
Vkadaba 5:0728bde67bdb 768 * if not required.
Vkadaba 5:0728bde67bdb 769 */
Vkadaba 8:2f2775c34640 770 float32_t offsetAdjustment;
Vkadaba 5:0728bde67bdb 771 /*!< Optional offset adjustment value applied to each processed sample.
Vkadaba 5:0728bde67bdb 772 * Set to NaN or 0.0 if not required.
Vkadaba 5:0728bde67bdb 773 */
Vkadaba 8:2f2775c34640 774 float32_t gainAdjustment;
Vkadaba 5:0728bde67bdb 775 /*!< Optional gain adjustment value applied to each processed sample.
Vkadaba 5:0728bde67bdb 776 * Set to NaN or 1.0 if not required.
Vkadaba 5:0728bde67bdb 777 */
Vkadaba 8:2f2775c34640 778 float32_t sensorParameter;
Vkadaba 5:0728bde67bdb 779 /*!< Optional sensor parameter adjustment.
Vkadaba 5:0728bde67bdb 780 * Set to NaN or 0 if not required.
Vkadaba 5:0728bde67bdb 781 */
Vkadaba 8:2f2775c34640 782 uint32_t measurementsPerCycle;
Vkadaba 5:0728bde67bdb 783 /*!< The number of measurements to obtain from this channel within each
Vkadaba 5:0728bde67bdb 784 * cycle. Each enabled channel is measured in turn, until the number of
Vkadaba 5:0728bde67bdb 785 * measurements requested for the channel has been reached. A different
Vkadaba 5:0728bde67bdb 786 * number of measurements-per-cycle may be specified for each channel.
Vkadaba 5:0728bde67bdb 787 */
Vkadaba 8:2f2775c34640 788 uint32_t cycleSkipCount;
Vkadaba 5:0728bde67bdb 789 /*!< Optional number of cycles to skip, such that this channel is included
Vkadaba 5:0728bde67bdb 790 * in the sequence in only one of every (cycleSkipCount + 1) cycles that
Vkadaba 5:0728bde67bdb 791 * occur. If set to 0 (default), this channel is included in every cycle;
Vkadaba 5:0728bde67bdb 792 * if set to 1, this channel is included in every 2nd cycle; if set to 2,
Vkadaba 5:0728bde67bdb 793 * this channel is included in every 3rd cycle, and so on.
Vkadaba 5:0728bde67bdb 794 */
Vkadaba 8:2f2775c34640 795 uint32_t extraSettlingTime;
Vkadaba 5:0728bde67bdb 796 /*!< A minimum settling time is applied internally for each channel, based
Vkadaba 5:0728bde67bdb 797 * on the sensor type. However, additional settling time (microseconds)
Vkadaba 5:0728bde67bdb 798 * can optionally be specified. Set to 0 if not required.
Vkadaba 5:0728bde67bdb 799 */
Vkadaba 8:2f2775c34640 800 ADMW1001_CHANNEL_PRIORITY priority;
Vkadaba 5:0728bde67bdb 801 /*!< By default, channels are arranged in the measurement sequence based on
Vkadaba 5:0728bde67bdb 802 * ascending order of channel ID. However, a priority-level may be
Vkadaba 5:0728bde67bdb 803 * specified per channel to force a different ordering of the channels,
Vkadaba 5:0728bde67bdb 804 * with higher-priority channels appearing before lower-priority channels.
Vkadaba 5:0728bde67bdb 805 * Channels with equal priority are ordered by ascending order of channel
Vkadaba 5:0728bde67bdb 806 * ID. Lower numbers indicate higher priority, with 0 being the highest.
Vkadaba 5:0728bde67bdb 807 * Set to 0 if not required.
Vkadaba 5:0728bde67bdb 808 */
Vkadaba 34:b60ee1e0af2b 809 union {
Vkadaba 8:2f2775c34640 810 ADMW1001_ADC_CHANNEL_CONFIG adcChannelConfig;
Vkadaba 5:0728bde67bdb 811 /*!< ADC channel configuration - applicable only to ADC channels */
Vkadaba 8:2f2775c34640 812 ADMW1001_I2C_CHANNEL_CONFIG i2cChannelConfig;
Vkadaba 5:0728bde67bdb 813 /*!< I2C channel configuration - applicable only to I2C channels */
Vkadaba 8:2f2775c34640 814 ADMW1001_SPI_CHANNEL_CONFIG spiChannelConfig;
Vkadaba 5:0728bde67bdb 815 /*!< SPI channel configuration - applicable only to SPI channels */
Vkadaba 5:0728bde67bdb 816 };
Vkadaba 6:9d393a9677f4 817 /*!< Only one of adcChannelConfig, i2cChannelConfig, spiChannelConfig
Vkadaba 6:9d393a9677f4 818 * is required, depending on the channel designation
Vkadaba 6:9d393a9677f4 819 * (analog, I2C, SPI)
Vkadaba 5:0728bde67bdb 820 */
Vkadaba 8:2f2775c34640 821
Vkadaba 8:2f2775c34640 822 } ADMW1001_CHANNEL_CONFIG;
Vkadaba 5:0728bde67bdb 823
Vkadaba 5:0728bde67bdb 824 /*! ADMW1001 Diagnostics configuration details */
Vkadaba 34:b60ee1e0af2b 825 typedef struct {
Vkadaba 8:2f2775c34640 826 bool disableGlobalDiag;
Vkadaba 5:0728bde67bdb 827 /*!< Option to disable the following diagnostic checks on the ADC:
Vkadaba 5:0728bde67bdb 828 * - Reference Detection errors
Vkadaba 5:0728bde67bdb 829 * - Input under-/over-voltage errors
Vkadaba 5:0728bde67bdb 830 * - Calibration, Conversion and Saturation errors
Vkadaba 5:0728bde67bdb 831 */
Vkadaba 8:2f2775c34640 832 bool disableMeasurementDiag;
Vkadaba 5:0728bde67bdb 833 /*!< Option to disable additional checks per measurement channel:
Vkadaba 5:0728bde67bdb 834 * - High/low threshold limit violation
Vkadaba 5:0728bde67bdb 835 */
Vkadaba 8:2f2775c34640 836
Vkadaba 8:2f2775c34640 837 bool disableCriticalTempAbort;
Vkadaba 5:0728bde67bdb 838 /*!< Option to disable abort of measurement cycle if the operating
Vkadaba 5:0728bde67bdb 839 * temperature of the ADMW1001 has exceeded critical limits
Vkadaba 5:0728bde67bdb 840 */
Vkadaba 8:2f2775c34640 841
Vkadaba 8:2f2775c34640 842 ADMW1001_OPEN_SENSOR_DIAGNOSTICS osdFrequency;
Vkadaba 5:0728bde67bdb 843 /*!< Option to enable Open-Circuit Detection at a selected cycle interval */
Vkadaba 5:0728bde67bdb 844
Vkadaba 8:2f2775c34640 845 } ADMW1001_DIAGNOSTICS_CONFIG;
Vkadaba 8:2f2775c34640 846
Vkadaba 5:0728bde67bdb 847 typedef uint16_t ADMW1001_ADVANCED_ACCESS_KEY;
Vkadaba 5:0728bde67bdb 848
Vkadaba 5:0728bde67bdb 849 /*! ADMW1001 Device configuration details */
Vkadaba 34:b60ee1e0af2b 850 typedef struct {
Vkadaba 5:0728bde67bdb 851 ADMW1001_POWER_CONFIG power;
Vkadaba 5:0728bde67bdb 852 /*!< Power configuration details */
Vkadaba 5:0728bde67bdb 853 ADMW1001_MEASUREMENT_CONFIG measurement;
Vkadaba 5:0728bde67bdb 854 /*!< Measurement configuration details */
Vkadaba 5:0728bde67bdb 855 ADMW1001_DIAGNOSTICS_CONFIG diagnostics;
Vkadaba 5:0728bde67bdb 856 /*!< FFT configuration details */
Vkadaba 5:0728bde67bdb 857 ADMW1001_CHANNEL_CONFIG channels[ADMW1001_MAX_CHANNELS];
Vkadaba 5:0728bde67bdb 858 /*!< Channel-specific configuration details */
Vkadaba 5:0728bde67bdb 859 ADMW1001_ADVANCED_ACCESS_KEY advancedAccessKey;
Vkadaba 5:0728bde67bdb 860 /*!< Key to enable access to advanced sensor configuration options */
Vkadaba 8:2f2775c34640 861
Vkadaba 8:2f2775c34640 862 } ADMW1001_CONFIG;
Vkadaba 5:0728bde67bdb 863
Vkadaba 5:0728bde67bdb 864 #ifdef __cplusplus
Vkadaba 5:0728bde67bdb 865 }
Vkadaba 5:0728bde67bdb 866 #endif
Vkadaba 5:0728bde67bdb 867
Vkadaba 5:0728bde67bdb 868 /*!
Vkadaba 5:0728bde67bdb 869 * @}
Vkadaba 5:0728bde67bdb 870 */
Vkadaba 5:0728bde67bdb 871
Vkadaba 5:0728bde67bdb 872 #endif /* __ADMW1001_CONFIG_H__ */