Vybhav Kadaba
/
EV-PRO-MW1001_MWARE_2042
Adding mbed FW version and release notes
thermocouple_typeT_cjc0_config.c@45:f5f553b8c0d5, 2020-01-20 (annotated)
- Committer:
- Vkadaba
- Date:
- Mon Jan 20 10:40:06 2020 +0000
- Revision:
- 45:f5f553b8c0d5
- Parent:
- 43:e1789b7214cf
- Child:
- 55:38b36e947602
Added AVDD support
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
Vkadaba | 34:b60ee1e0af2b | 1 | /* |
Vkadaba | 34:b60ee1e0af2b | 2 | Copyright 2019 (c) Analog Devices, Inc. |
Vkadaba | 34:b60ee1e0af2b | 3 | |
Vkadaba | 34:b60ee1e0af2b | 4 | All rights reserved. |
Vkadaba | 34:b60ee1e0af2b | 5 | |
Vkadaba | 34:b60ee1e0af2b | 6 | Redistribution and use in source and binary forms, with or without |
Vkadaba | 34:b60ee1e0af2b | 7 | modification, are permitted provided that the following conditions are met: |
Vkadaba | 34:b60ee1e0af2b | 8 | - Redistributions of source code must retain the above copyright |
Vkadaba | 34:b60ee1e0af2b | 9 | notice, this list of conditions and the following disclaimer. |
Vkadaba | 34:b60ee1e0af2b | 10 | - Redistributions in binary form must reproduce the above copyright |
Vkadaba | 34:b60ee1e0af2b | 11 | notice, this list of conditions and the following disclaimer in |
Vkadaba | 34:b60ee1e0af2b | 12 | the documentation and/or other materials provided with the |
Vkadaba | 34:b60ee1e0af2b | 13 | distribution. |
Vkadaba | 34:b60ee1e0af2b | 14 | - Neither the name of Analog Devices, Inc. nor the names of its |
Vkadaba | 34:b60ee1e0af2b | 15 | contributors may be used to endorse or promote products derived |
Vkadaba | 34:b60ee1e0af2b | 16 | from this software without specific prior written permission. |
Vkadaba | 34:b60ee1e0af2b | 17 | - The use of this software may or may not infringe the patent rights |
Vkadaba | 34:b60ee1e0af2b | 18 | of one or more patent holders. This license does not release you |
Vkadaba | 34:b60ee1e0af2b | 19 | from the requirement that you obtain separate licenses from these |
Vkadaba | 34:b60ee1e0af2b | 20 | patent holders to use this software. |
Vkadaba | 34:b60ee1e0af2b | 21 | - Use of the software either in source or binary form, must be run |
Vkadaba | 34:b60ee1e0af2b | 22 | on or directly connected to an Analog Devices Inc. component. |
Vkadaba | 34:b60ee1e0af2b | 23 | |
Vkadaba | 34:b60ee1e0af2b | 24 | THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR |
Vkadaba | 34:b60ee1e0af2b | 25 | IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, |
Vkadaba | 34:b60ee1e0af2b | 26 | MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
Vkadaba | 34:b60ee1e0af2b | 27 | IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, |
Vkadaba | 34:b60ee1e0af2b | 28 | INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
Vkadaba | 34:b60ee1e0af2b | 29 | LIMITED TO, INTELLECTUAL PROPERTY RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR |
Vkadaba | 34:b60ee1e0af2b | 30 | SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER |
Vkadaba | 34:b60ee1e0af2b | 31 | CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, |
Vkadaba | 34:b60ee1e0af2b | 32 | OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
Vkadaba | 34:b60ee1e0af2b | 33 | OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
Vkadaba | 34:b60ee1e0af2b | 34 | * |
Vkadaba | 34:b60ee1e0af2b | 35 | *****************************************************************************/ |
Vkadaba | 34:b60ee1e0af2b | 36 | |
Vkadaba | 34:b60ee1e0af2b | 37 | /*! |
Vkadaba | 34:b60ee1e0af2b | 38 | ****************************************************************************** |
Vkadaba | 34:b60ee1e0af2b | 39 | * @file: |
Vkadaba | 34:b60ee1e0af2b | 40 | * @brief: |
Vkadaba | 34:b60ee1e0af2b | 41 | *----------------------------------------------------------------------------- |
Vkadaba | 34:b60ee1e0af2b | 42 | */#include "admw_config_types.h" |
Vkadaba | 34:b60ee1e0af2b | 43 | |
Vkadaba | 34:b60ee1e0af2b | 44 | ADMW_CONFIG thermocouple_typeT_cjc0_config = { |
Vkadaba | 34:b60ee1e0af2b | 45 | .versionId = { .major = 2, .minor = 0 }, |
Vkadaba | 34:b60ee1e0af2b | 46 | .productId = ADMW_PRODUCT_ID_ADMW1001, |
Vkadaba | 34:b60ee1e0af2b | 47 | .admw1001 = { |
Vkadaba | 34:b60ee1e0af2b | 48 | .power = { |
Vkadaba | 34:b60ee1e0af2b | 49 | .powerMode = ADMW1001_POWER_MODE_ACTIVE, |
Vkadaba | 34:b60ee1e0af2b | 50 | }, |
Vkadaba | 34:b60ee1e0af2b | 51 | .measurement = { |
Vkadaba | 37:6acfbb4405cd | 52 | .externalRefVoltage = 0.0, |
Vkadaba | 34:b60ee1e0af2b | 53 | .operatingMode = ADMW1001_OPERATING_MODE_CONTINUOUS, |
Vkadaba | 34:b60ee1e0af2b | 54 | .dataReadyMode = ADMW1001_DATAREADY_PER_CYCLE, // FIX: Temporarily all values from json are hardcoded to this one in the Contracts.FileGenerator - > file translations!! |
Vkadaba | 43:e1789b7214cf | 55 | .excitationState= ADMW1001_ADC_EXC_STATE_CYCLE_POWER, |
Vkadaba | 43:e1789b7214cf | 56 | .groundSwitch = ADMW1001_ADC_GND_SW_OPEN, |
Vkadaba | 34:b60ee1e0af2b | 57 | .cycleInterval = 0, |
Vkadaba | 37:6acfbb4405cd | 58 | .RSenseValue = 1000.0, |
Vkadaba | 34:b60ee1e0af2b | 59 | }, |
Vkadaba | 34:b60ee1e0af2b | 60 | .diagnostics = { |
Vkadaba | 34:b60ee1e0af2b | 61 | .disableGlobalDiag = true, |
Vkadaba | 34:b60ee1e0af2b | 62 | .disableMeasurementDiag = true, |
Vkadaba | 45:f5f553b8c0d5 | 63 | .osdFrequency = 0, |
Vkadaba | 34:b60ee1e0af2b | 64 | }, |
Vkadaba | 34:b60ee1e0af2b | 65 | .channels = { |
Vkadaba | 34:b60ee1e0af2b | 66 | [ADMW1001_CH_ID_ANLG_1_UNIVERSAL] = { |
Vkadaba | 34:b60ee1e0af2b | 67 | .enableChannel = true, |
Vkadaba | 34:b60ee1e0af2b | 68 | .disablePublishing = false, |
Vkadaba | 34:b60ee1e0af2b | 69 | .compensationChannel = ADMW1001_CH_ID_NONE, |
Vkadaba | 34:b60ee1e0af2b | 70 | .lutSelect = ADMW1001_LUT_DEFAULT, |
Vkadaba | 34:b60ee1e0af2b | 71 | .measurementUnit = ADMW1001_MEASUREMENT_UNIT_CELSIUS, |
Vkadaba | 34:b60ee1e0af2b | 72 | .lowThreshold = -50, |
Vkadaba | 34:b60ee1e0af2b | 73 | .highThreshold = 250, |
Vkadaba | 34:b60ee1e0af2b | 74 | .offsetAdjustment = 0.0, |
Vkadaba | 34:b60ee1e0af2b | 75 | .gainAdjustment = 0.0, |
Vkadaba | 34:b60ee1e0af2b | 76 | .sensorParameter = 0.0, |
Vkadaba | 34:b60ee1e0af2b | 77 | .measurementsPerCycle = 1, |
Vkadaba | 34:b60ee1e0af2b | 78 | .cycleSkipCount = 0, |
Vkadaba | 34:b60ee1e0af2b | 79 | .extraSettlingTime = 0, |
Vkadaba | 34:b60ee1e0af2b | 80 | .priority = 0, |
Vkadaba | 34:b60ee1e0af2b | 81 | .adcChannelConfig = { |
Vkadaba | 34:b60ee1e0af2b | 82 | .sensor = ADMW1001_ADC_SENSOR_RTD_2WIRE_PT100, |
Vkadaba | 34:b60ee1e0af2b | 83 | .gain = ADMW1001_ADC_GAIN_1X, |
Vkadaba | 34:b60ee1e0af2b | 84 | .current = { |
Vkadaba | 34:b60ee1e0af2b | 85 | .outputLevel = ADMW1001_ADC_EXC_CURRENT_250uA, |
Vkadaba | 34:b60ee1e0af2b | 86 | .diodeRatio = 0, |
Vkadaba | 34:b60ee1e0af2b | 87 | }, |
Vkadaba | 34:b60ee1e0af2b | 88 | .rtdCurve = ADMW1001_ADC_RTD_CURVE_EUROPEAN, |
Vkadaba | 34:b60ee1e0af2b | 89 | .filter = { |
Vkadaba | 34:b60ee1e0af2b | 90 | .type = ADMW1001_ADC_FILTER_SINC3, |
Vkadaba | 34:b60ee1e0af2b | 91 | .sf = ADMW1001_SF_8P24HZ, |
Vkadaba | 34:b60ee1e0af2b | 92 | .chopMode = ADMW1001_CHOP_MD_SW, |
Vkadaba | 34:b60ee1e0af2b | 93 | .notch1p2 = true, |
Vkadaba | 34:b60ee1e0af2b | 94 | }, |
Vkadaba | 34:b60ee1e0af2b | 95 | .reference = ADMW1001_ADC_REFERENCE_VOLTAGE_INTERNAL, |
Vkadaba | 37:6acfbb4405cd | 96 | .bufferBypass = ADMW1001_BUFFER_BYPASSS_DISABLED, |
Vkadaba | 34:b60ee1e0af2b | 97 | }, |
Vkadaba | 34:b60ee1e0af2b | 98 | }, |
Vkadaba | 34:b60ee1e0af2b | 99 | [ADMW1001_CH_ID_ANLG_1_DIFFERENTIAL] = { |
Vkadaba | 34:b60ee1e0af2b | 100 | .enableChannel = true, |
Vkadaba | 34:b60ee1e0af2b | 101 | .disablePublishing = false, |
Vkadaba | 34:b60ee1e0af2b | 102 | .compensationChannel = ADMW1001_CH_ID_ANLG_1_UNIVERSAL, |
Vkadaba | 34:b60ee1e0af2b | 103 | .lutSelect = ADMW1001_LUT_DEFAULT, |
Vkadaba | 34:b60ee1e0af2b | 104 | .measurementUnit = ADMW1001_MEASUREMENT_UNIT_CELSIUS, |
Vkadaba | 34:b60ee1e0af2b | 105 | .lowThreshold = -50, |
Vkadaba | 34:b60ee1e0af2b | 106 | .highThreshold = 250, |
Vkadaba | 34:b60ee1e0af2b | 107 | .offsetAdjustment = 0.0, |
Vkadaba | 34:b60ee1e0af2b | 108 | .gainAdjustment = 0.0, |
Vkadaba | 34:b60ee1e0af2b | 109 | .sensorParameter = 0.0, |
Vkadaba | 34:b60ee1e0af2b | 110 | .measurementsPerCycle = 1, |
Vkadaba | 34:b60ee1e0af2b | 111 | .cycleSkipCount = 0, |
Vkadaba | 34:b60ee1e0af2b | 112 | .extraSettlingTime = 4499.99986449257, |
Vkadaba | 34:b60ee1e0af2b | 113 | .priority = 0, |
Vkadaba | 34:b60ee1e0af2b | 114 | .adcChannelConfig = { |
Vkadaba | 34:b60ee1e0af2b | 115 | .sensor = ADMW1001_ADC_SENSOR_THERMOCOUPLE_T, |
Vkadaba | 34:b60ee1e0af2b | 116 | .gain = ADMW1001_ADC_GAIN_8X, |
Vkadaba | 34:b60ee1e0af2b | 117 | .filter = { |
Vkadaba | 34:b60ee1e0af2b | 118 | .type = ADMW1001_ADC_FILTER_SINC3, |
Vkadaba | 34:b60ee1e0af2b | 119 | .sf = ADMW1001_SF_8P24HZ, |
Vkadaba | 34:b60ee1e0af2b | 120 | .chopMode = ADMW1001_CHOP_MD_SW, |
Vkadaba | 34:b60ee1e0af2b | 121 | .notch1p2 = true, |
Vkadaba | 34:b60ee1e0af2b | 122 | }, |
Vkadaba | 34:b60ee1e0af2b | 123 | .reference = ADMW1001_ADC_REFERENCE_VOLTAGE_INTERNAL, |
Vkadaba | 37:6acfbb4405cd | 124 | .bufferBypass = ADMW1001_BUFFER_BYPASSS_DISABLED, |
Vkadaba | 34:b60ee1e0af2b | 125 | }, |
Vkadaba | 34:b60ee1e0af2b | 126 | }, |
Vkadaba | 34:b60ee1e0af2b | 127 | }, |
Vkadaba | 34:b60ee1e0af2b | 128 | }, |
Vkadaba | 34:b60ee1e0af2b | 129 | }; |