Part Number:TMS320F280025COther Parts Discussed in Thread:LAUNCHXL-F280025C, BOOSTXL-DRV8323RS
F280025C +8323RS
DMC_BUILDLEVEL设置为DMC_LEVEL_4来构建和加载项目 当接上电机时 出现了moduleOverCurrent = 1 和 flagEnableRunAndIdentify =0 的情况
拆除电机后 则不会出现moduleOverCurrent = 1 的情况 这个该怎么解决呢
Green Deng:
你好,我看到你有引用相同问题的帖子,帖子中FAE建议参数识别的时候不要加负载,你是否有参考?
另外,你的电机本身是运行正常的吗?
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dukui du:
可以确定电机没有加负载 之前用F28027f+8353RS 可以运行
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dukui du:
之所以引用相同的帖子 是我遇到相同的问题 没有看到后续是如何解决的
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dukui du:
电机没有负载 C9 C10 C11 加了 47nf 还有什么地方没有遗漏了吗,这个是什么原因呢
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Green Deng:
好的,你的情况我已经反馈给电机控制方面的专家,还请耐心等待回复
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Green Deng:
你好,这是对方回复:
Please take a look at the lab guide and follow it to connect the kits and run the lab from build level 1. Make sure that the related switches are set correctly on LAUNCHXL-F280025C, and the connection is as below shown in the lab guide. Universal Project and Lab User’s Guide: https://www.ti.com/lit/spruj26
• For more details about the BOOSTXL-DRV8323RS, see the User's Guide for the EVM.
• Make sure that the following items are completed as described below, and then connect the BOOSTXLDRV8323RS
to J1/J3 and J4/J2 of the LAUNCHXL-F280025C as shown in Figure 2-7.
– Populate C9, C10, and C11 with a 47nF capacitor.
– Bend J3-29 and J3-30 of the LAUNCHXL-F280025C90 degrees so that they are not connected to the
BOOSTXL-DRV8323RS as shown in Figure 2-5.
Please make sure that the switches are set correctly as shown in lab guide as below also, especially the S2.
Install jumpers on JP1, JP2, JP3 and J101 for the power supply and debug JTAG. And jumpers on JP8 for the power supply of DAC128S board if used.
For S2, position the SEL1 (LEFT) switch UP (1) to route GPIO28 and GPIO29 to the BoosterPack connector, and position the SEL2 (RIGHT) switch UP (1) to rout GPIO16 and GPIO17 to the virtual COM port of the XDS110 debugger.
For S3, position the SEL1(LEFT) switch DOWN to pull GPIO24 low to logic 0, and position the SEL2(RIGHT) switch UP to pull GPIO32 high to logic 1 to put the F280025C into wait boot mode for reducing the risk of connectivity issues or a previous loaded code execution.
For S4, set S4 to DOWN (on), GPIO32 and GPIO33 are routed to the CAN transceiver to J14 CAN interface if the pre-define symbols "CMD_CAN_EN" is set in project properties.
For S5, position the SEL1(LEFT) switch DOWN to route GPIO44/37/43 to eQEP1 for the encoder interface on J12, and position the SEL2 (RIGHT) switch DOWN to route GPIO14/25/26 to eQEP2 for the Hall sensor interface on J13.
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dukui du:
是按照文档要求来的
moduleOverCurrent = 1 是在接上电机后才出现的,
#elif (USER_MOTOR1 == Teknic_M2310PLN04K)#define USER_MOTOR1_TYPE MOTOR_TYPE_PM#define USER_MOTOR1_NUM_POLE_PAIRS (4) //极对数#define USER_MOTOR1_Rr_Ohm (NULL)#define USER_MOTOR1_Rs_Ohm (0.38157931f) //阻值#define USER_MOTOR1_Ls_d_H (0.000188295482f)#define USER_MOTOR1_Ls_q_H (0.000188295482f)#define USER_MOTOR1_RATED_FLUX_VpHz (0.0396642499f) //额定磁通VpHz#define USER_MOTOR1_MAGNETIZING_CURRENT_A (NULL)#define USER_MOTOR1_RES_EST_CURRENT_A (1.5f) //电机额定电流的10-30%#define USER_MOTOR1_IND_EST_CURRENT_A (-1.5f) //电机额定电流的10-30%,足以支持旋转#define USER_MOTOR1_MAX_CURRENT_A (2.5f) //最大电流 A 电机额定电流的50-150%#define USER_MOTOR1_FLUX_EXC_FREQ_Hz (40.0f) //电机额定频率为10~30%#define USER_MOTOR1_NUM_ENC_SLOTS (1000)#define USER_MOTOR1_INERTIA_Kgm2 (7.06154e-06)
#define USER_MOTOR1_FREQ_NEARZEROLIMIT_Hz (5.0f) //频率接近零极限 Hz
#define USER_MOTOR1_RATED_VOLTAGE_V (48.0f) //额定电压#define USER_MOTOR1_RATED_SPEED_KRPM (3.0f) //额定速度KRPM
#define USER_MOTOR1_FREQ_MIN_HZ (9.0f) //频率最小赫兹 Hz#define USER_MOTOR1_FREQ_MAX_HZ (600.0f) //频率最大 Hz
#define USER_MOTOR1_FREQ_LOW_HZ (5.0f) //频率低 Hz#define USER_MOTOR1_FREQ_HIGH_HZ (800.0f) //频率高 Hz#define USER_MOTOR1_VOLT_MIN_V (12.0f) //电压最小值 Volt#define USER_MOTOR1_VOLT_MAX_V (50.0f) //电压最大值 Volt
#define USER_MOTOR1_FORCE_DELTA_A (0.05f) //力增量 A#define USER_MOTOR1_ALIGN_DELTA_A (0.01f) //对齐增量 A#define USER_MOTOR1_FLUX_CURRENT_A (0.5f) //磁通电流 A#define USER_MOTOR1_ALIGN_CURRENT_A (1.5f) //对齐电流 A#define USER_MOTOR1_STARTUP_CURRENT_A (2.5f) //启动电流 A 电机额定电流的30-100%#define USER_MOTOR1_TORQUE_CURRENT_A (2.0f) //转矩电流 A#define USER_MOTOR1_OVER_CURRENT_A (2.8f) // 过电流 A 电机额定电流的50-150 %
#define USER_MOTOR1_BRAKE_CURRENT_A (1.0f) //制动器电流 A#define USER_MOTOR1_BRAKE_TIME_DELAY (12000U) //制动延时 60s/5ms
问题究竟出在哪里?
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dukui du:
希望尽快给出答案
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Green Deng:
你好,你的回复我已经反馈了,但是因为涉及时差问题,所以回复时效性会比较差,还请耐心等待。
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Green Deng:
你好,你的build level还是4吗?有没有改成1之后再测试一下?
另外,可以尝试修改以下参数,把数值慢慢增大看是否有效:
#define USER_MOTOR1_MAX_CURRENT_A (2.5f)
#define USER_MOTOR1_OVER_CURRENT_A (2.8f)
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dukui du:
DMC_BUILDLEVEL设置为DMC_LEVEL_1 测试 和文档是匹配的
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dukui du:
这是8323RS+F28027F LAB5运行 也是能运行的
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Green Deng:
请问有没有测试过level4的基础上加大前面回复中提到的两个参数再测试?测试结果如何?
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dukui du:
#define USER_MOTOR1_MAX_CURRENT_A (15.0f)
#define USER_MOTOR1_OVER_CURRENT_A (20.0f)
已经更改为最大值 结果还是一样,
我以为是我280025C 的问题,我又订购了一块
结果也是一样,问题究竟出在哪里
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dukui du:
level1的基础上测试 按照文档比对 这是文档的
这是我电脑测试的 和文档不一样
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Green Deng:
你好,针对你之前回复的,LEVEL 1正常,LEVEL 4异常的情况,这边工程师的建议是按照lab指南从 2 级运行到 4 级,这个过程中进行识别或设置正确的电机参数直到在 4 级运行电机。
关于你最新回复的我会再去咨询一下。
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dukui du:
可是我的问题在哪里呢,该怎么解决?
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Green Deng:
这个E2E帖子是我升级的问题,回复问题的Yanming Luo是电机控制方面的专家,目前对方没有提及关于“问题在哪里”的回复,你可以追问一下。
e2e.ti.com/…/tms320f280025c-moduleovercurrent-1-flagenablerunandidentify-0