foxBMS  1.4.1
The foxBMS Battery Management System API Documentation
can_cbs_tx_limit-values.c
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41 
42 /**
43  * @file can_cbs_tx_limit-values.c
44  * @author foxBMS Team
45  * @date 2021-07-21 (date of creation)
46  * @updated 2022-10-27 (date of last update)
47  * @version v1.4.1
48  * @ingroup DRIVER
49  * @prefix CANTX
50  *
51  * @brief CAN driver Tx callback implementation
52  * @details CAN Tx callback for state messages
53  */
54 
55 /*========== Includes =======================================================*/
56 #include "battery_cell_cfg.h"
57 
58 #include "can_cbs_tx.h"
60 #include "can_helper.h"
61 
62 /*========== Macros and Definitions =========================================*/
63 
64 /*========== Static Constant and Variable Definitions =======================*/
65 
66 /*========== Extern Constant and Variable Definitions =======================*/
67 
68 /*========== Static Function Prototypes =====================================*/
69 
70 /*========== Static Function Implementations ================================*/
71 
72 /*========== Extern Function Implementations ================================*/
73 extern uint32_t CANTX_LimitValues(
75  uint8_t *pCanData,
76  uint8_t *pMuxId,
77  const CAN_SHIM_s *const kpkCanShim) {
78  /* pMuxId is not used here, therefore has to be NULL_PTR */
79  FAS_ASSERT(pMuxId == NULL_PTR);
82  FAS_ASSERT(pCanData != NULL_PTR);
83  FAS_ASSERT(kpkCanShim != NULL_PTR);
84  uint64_t messageData = 0u;
85 
86  DATA_READ_DATA(kpkCanShim->pTableSof);
87 
88  /* AXIVION Disable Style Generic-NoMagicNumbers: Signal data defined in .dbc file. */
89  /* maximum charge current */
90  float signalData = (float)kpkCanShim->pTableSof->recommendedContinuousPackChargeCurrent_mA;
91  float offset = 0.0f;
92  float factor = 0.004f; /* convert mA to 250mA */
93  signalData = (signalData + offset) * factor;
94  uint64_t data = (int64_t)signalData;
95  /* set data in CAN frame */
96  CAN_TxSetMessageDataWithSignalData(&messageData, 11u, 12u, data, message.endianness);
97 
98  /* maximum discharge current */
99  signalData = (float)kpkCanShim->pTableSof->recommendedContinuousPackDischargeCurrent_mA;
100  offset = 0.0f;
101  factor = 0.004f; /* convert mA to 250mA */
102  signalData = (signalData + offset) * factor;
103  data = (int64_t)signalData;
104  /* set data in CAN frame */
105  CAN_TxSetMessageDataWithSignalData(&messageData, 7u, 12u, data, message.endianness);
106 
107  /* TODO: maximum charge power */
108  /* TODO: maximum discharge power */
109 
110  /* minimum pack voltage */
112  offset = 0.0f;
113  factor = 0.00025f; /* convert mV to 4V */
114  signalData = (signalData + offset) * factor;
115  data = (int64_t)signalData;
116  /* set data in CAN frame */
117  CAN_TxSetMessageDataWithSignalData(&messageData, 63u, 8u, data, message.endianness);
118 
119  /* maximum pack voltage */
121  offset = 0.0f;
122  factor = 0.00025f; /* convert mV to 4V */
123  signalData = (signalData + offset) * factor;
124  data = (int64_t)signalData;
125  /* set data in CAN frame */
126  CAN_TxSetMessageDataWithSignalData(&messageData, 55u, 8u, data, message.endianness);
127  /* AXIVION Enable Style Generic-NoMagicNumbers: */
128 
129  /* now copy data in the buffer that will be used to send data */
130  CAN_TxSetCanDataWithMessageData(messageData, pCanData, message.endianness);
131 
132  return 0;
133 }
134 
135 /*========== Externalized Static Function Implementations (Unit Test) =======*/
136 #ifdef UNITY_UNIT_TEST
137 
138 #endif
Configuration of the battery cell (e.g., minimum and maximum cell voltage)
#define BC_VOLTAGE_MIN_MSL_mV
Minimum cell voltage limit.
#define BC_VOLTAGE_MAX_MSL_mV
Maximum cell voltage limit.
#define BS_NR_OF_CELL_BLOCKS_PER_STRING
CAN callbacks header.
uint32_t CANTX_LimitValues(CAN_MESSAGE_PROPERTIES_s message, uint8_t *pCanData, uint8_t *pMuxId, const CAN_SHIM_s *const kpkCanShim)
can tx callback function for limit values
#define CAN_FOXBMS_MESSAGES_DEFAULT_DLC
Definition: can_cfg.h:96
Header for the driver for the CAN module.
#define CANTX_LIMIT_VALUES_ID
void CAN_TxSetMessageDataWithSignalData(uint64_t *pMessage, uint64_t bitStart, uint8_t bitLength, uint64_t canSignal, CAN_ENDIANNESS_e endianness)
Puts CAN signal data in a 64-bit variable. This function is used to compose a 64-bit CAN message....
Definition: can_helper.c:167
void CAN_TxSetCanDataWithMessageData(uint64_t message, uint8_t *pCanData, CAN_ENDIANNESS_e endianness)
Copy CAN data from a 64-bit variable to 8 bytes. This function is used to copy a 64-bit CAN message t...
Definition: can_helper.c:206
Headers for the helper functions for the CAN module.
#define DATA_READ_DATA(...)
Definition: database.h:83
#define FAS_ASSERT(x)
Assertion macro that asserts that x is true.
Definition: fassert.h:252
#define NULL_PTR
Null pointer.
Definition: fstd_types.h:76
CAN_ENDIANNESS_e endianness
Definition: can_cfg.h:181
DATA_BLOCK_SOF_s * pTableSof
Definition: can_cfg.h:168
float recommendedContinuousPackChargeCurrent_mA
Definition: database_cfg.h:414
float recommendedContinuousPackDischargeCurrent_mA
Definition: database_cfg.h:415