套件里面线束设计得很体贴, 传感器i2C - 协议桥网口|协议桥usb-micro - usb-a到pc :套件pc软件,安装过程一路next, 这里不赘述;安装好后直接双击打开ControlCenter.请记得, 先把套件通过协议桥, 接到pc的usb上; 因为如果是后插, 那么还要刷新一下,才能出现设备:此时点击左上角的Start measurment,即可开始测量.在视图中开始展示曲线.作为快速上手工具, 非常简捷,非常直观!还可以自定义算法,如果说一定要挑毛病的话, 也可以顺便反馈一些小问题 -1/ 如果中途断连, 套件会弹出报错 -然后需要重新刷新 - 可能等个2秒左右,重新出现测量界面, 需要重新点击 “Start”,之后, 按键才会由灰转色,可以点击.;这个过程,是否可以做的更友好一些,比如定期检测串口连接, 这样重新插回来,就可以快速开始测量了,体验会升级不少;2/数据保存和裁剪不易.第一次断连后,我还以为之前测试的数据丢了,直到我找到 - Dataviewer:发现,原来数据是存储在 - C:\Users\Administrator(需要替换成实际用户名)\data_logging\xxxx.edf ,发现测量数据都躺着呢.虽然后缀是自定义格式,但是内容都是文本数据, 方便编辑和自行后处理:# EdfVersion4.0 # Date2026-01-26T12:03:11.91729808:00 # MeasurementSessionfcebe974-8400-4a2d-9168-6e0d62af3d02 # MeasurementGroup85c07370-9a86-4034-afb1-b780d59beedc # HostNameRazerJ # ApplicationNameControlCenter # ApplicationVersion1.49.1 # OperatingSystemWindows-10-10.0.22621-SP0 # SensorIdxxxx # Sen6xTemperatureAccelerationParameters{k: null, p: null, t1: null, t2: null} # Sen6xTemperatureOffsetParameters{0: [0.0, 0.0, 0], 1: [0.0, 0.0, 0], 2: [0.0, 0.0, 0], 3: [0.0, 0.0, 0], 4: [0.0, 0.0, 0]} # voc_algorithm_parameters{algorithm_version: 3.1.0, index_offset: 100, learning_time_offset_hours: 12, learning_time_gain_hours: 12, gating_max_duration_minutes: 180, std_initial: 50, gain_factor: 230, format: 2} # nox_algorithm_parameters{algorithm_version: 3.1.0, index_offset: 1, learning_time_offset_hours: 12, learning_time_gain_hours: 12, gating_max_duration_minutes: 720, std_initial: 50, gain_factor: 230, format: 2} # Typefloat64,Format.3f,Units Typestring,Format Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalMass_Concentration_1p0,Unitug/m³,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalMass_Concentration_2p5,Unitug/m³,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalMass_Concentration_4p0,Unitug/m³,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalMass_Concentration_10p,Unitug/m³,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalRelative_Humidity,Unit%RH,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalTemperature,Unit°C,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalVOC_Index,UnitVOC Index,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalNOx_Index,UnitNOx Index,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalCarbon_Dioxide,Unitppm,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalNumber_Concentration_0p5,UnitN/cm³,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalNumber_Concentration_1p0,UnitN/cm³,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalNumber_Concentration_2p5,UnitN/cm³,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalNumber_Concentration_4p0,UnitN/cm³,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalNumber_Concentration_10p,UnitN/cm³,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalSupply_Voltage,UnitV,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalRelative_Humidity_Raw_Signal,Unit%RH,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalTemperature_Raw_Signal,Unit°C,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalVOC_Raw_Signal,Unitticks,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalNOx_Raw_Signal,Unitticks,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalRaw_Carbon_Dioxide,Unitppm,ProductSEN66,Measurement_Frequency1.0Hz Typefloat,Format.6f,DeviceSensorBridge_(xxxx),Device_Serial_NumberSensorBridge-xxxx,Port1,SensorNameSEN66,Sensor_Serial_Numberxxxx,SignalDelta_Temperature,Unit°C,ProductSEN66,Measurement_Frequency1.0Hz Epoch_UTC Local_Date_Time MassConc_1p0_SEN66_xxxx MassConc_2p5_SEN66_xxxx MassConc_4p0_SEN66_xxxx MassConc_10p_SEN66_xxxx RH_SEN66_xxxx T_SEN66_xxxx Index_VOC_SEN66_xxxx Index_NOx_SEN66_xxxx C_CO2_SEN66_xxxx NumbConc_0p5_SEN66_xxxx NumbConc_1p0_SEN66_xxxx NumbConc_2p5_SEN66_xxxx NumbConc_4p0_SEN66_xxxx NumbConc_10p_SEN66_xxxx V_SEN66_xxxx RH_RAW_SEN66_xxxx T_RAW_SEN66_xxxx SRAW_VOC_SEN66_xxxx SRAW_NOx_SEN66_xxxx CRAW_CO2_SEN66_xxxx T_DELTA_SEN66_xxxx 1769400172.941154 2026-01-26T12:02:52.94115408:00 NaN NaN NaN NaN 64.570000 22.550000 0.000000 0.000000 NaN 31.100000 37.800000 38.600000 38.700000 38.700000 3.281000 63.710000 22.540000 23105.000000 16012.000000 NaN 3.040000数据格式很完整,无论是作为文本文件,直接筛选,还是导入数据库,都不麻烦. 当然, 如果能做一个数据筛选工具,那就更体贴了!套件工具的体验就先到这里吧,下一章,会分析一下这些读取到的数据,对我们意味着什么.然后会,配合Art-Pi-2(stm32h7),来展示一下,在嵌入式设备上实现数据的读取,筛选和保存.敬请期待!(本套件的相关内容, 会在芯查查首发,得闲转到这里.)来都来了小伙伴给三连一下呗