振动监测 > X20(c)CM4810使用手册 > 寄存器说明 - Register description > 功能模型2 慢主站 Function model 2

This function model was developed specifically for operating the module with "slow masters" and for conserving resources on the PLC.

With this function model, it is not possible to upload data buffers from the module.

Analog inputs are provided as cyclic data points. Scaling of the characteristic values must be performed manually.

Characteristic values are calculated by the module every 300 ms and can only be read via acyclic access. In order to keep all characteristic values consistent with one another, they can be locked as they are read. This function model does not allow for seamless measurements. The Min/Max functionality can be used for seamless measurements, however. See Characteristic values (minimum and maximum)

This function model is recommended for all slow buses and masters. It is important to note that acyclic register access must be implemented on the master if a B&R master is not being used.

此功能模型专为使用“Slow Master（慢速主站）”操作模块和节约 PLC 资源而开发。

使用此函数模型，无法从模块上传Buffer区数据。

模拟量输入信号作为周期性数据点提供。必须手动执行对特征值的尺度。

模块每 300 ms 计算一次特性值，只能通过非循环访问读取。为了使所有特征值彼此一致，可以在读取时锁定它们。此功能模型不允许无缝测量。但是，最小值/最大值功能可用于无缝测量。请参阅特征值（最小值和最大值）

这种功能模型被推荐用于所有的慢速总线和主站（master）。需要注意的是，如果不使用B&R主站（master），必须在主站（master）上实现非循环寄存器访问。

Register 寄存器	Name 名字	Data type 数据类型	Read 读		Write 写
Register 寄存器	Name 名字	Data type 数据类型	Cyclic 循环	Acyclic 非循环	Cyclic 循环	Acyclic 非循环
General registers 通用寄存器
2 + N*2	ActSpeed0N (Index N = 1 to 4) ActSpeed0N (当前速度，N 为1~4)	UINT			●
1310	AutogainDelay01 AutogainDelay01（自动增益延迟01）	UINT				●
526	AutogainDelay01Read AutogainDelay01（读自动增益延迟01）	UINT		●
0	Control01 Control01（控制01）	UINT			●
514	SensorConfig01 SensorConfig01（传感器配置01）	UINT				●
514	SensorConfig01Read SensorConfig01Read（读传感器配置01）	UINT		●
0	Status01 Status01（状态01）	UINT	●
Analog input functions 模拟量输入功能
2 * N	AnalogInput0N (Index N = 1 to 4) AnalogInput0N (模拟量输入0N，N 为1~4)	INT	●
1330	AnalogInputConfig01 AnalogInputConfig01(模拟量输入配置01)	UINT				●
570	AnalogInputConfig01Read AnalogInputConfig01Read(读模拟量输入配置01)	UINT		●
2	AnalogInputControlByte01 AnalogInputControlByte01(模拟量输入控制字节01)	UINT			●
22 + N*4	AnalogInputSamples0N (Index N = 1 to 4) AnalogInputSamples0N (模拟量输入采样0N，N 为1~4)	UINT			●
1298	AnalogInputScale01 AnalogInputScale01（模拟量输入尺度01）	UINT				●
546	AnalogInputScale01Read AnalogInputScale01Read（读模拟量输入尺度01）	UINT		●
1310 + N*4	SamplesAnalogInput0N (Index N = 1 to 4) SamplesAnalogInput0N (样本模拟量输入0N，N 为1~4)	UINT				●
526 + N*4	SamplesAnalogInput0NRead (Index N = 1 to 4) SamplesAnalogInput0NRead (读样本模拟量输入0N，N 为1~4)	UINT		●
Characteristic values 特征值
828 + N*8	CrestFactorRaw0N (Index N = 1 to 4) CrestFactorRaw0N （裕度）0N (0N，N 为1~4)	UDINT		●
572 + N*8	Iso10816_0N (Index N = 1 to 4) Iso10816_0N (ISO10816标准N，N 为1~4)	UDINT		●
796 + N*8	KurtosisRaw0N (Index N = 1 to 4) KurtosisRaw0N (峰态系数（峭度），N 为1~4)	DINT		●
732 + N*8	PeakHighFrequency0N (Index N = 1 to 4) PeakHighFrequency0N (高通后的峰值0N，N 为1~4)	UDINT		●
924 + N*8	PeakRaw0N (Index N = 1 to 4) PeakRaw0N (峰值原始值0N 为1~4)	UDINT		●
668 + N*8	RmsAccEnvelope0N (Index N = 1 to 4) (加速度包络有效值0N 为1~4)	UDINT		●
604 + N*8	RmsAccRaw0N (Index N = 1 to 4) RmsAccRaw0N (加速度原始信号有效值0N，N 为1~4)	UDINT		●
764 + N*8	RmsHighFrequency0N (Index N = 1 to 4) RmsHighFrequency0N (高通后的有效值0N 为1~4)	UDINT		●
982 + N*8	RmsRaw0N (Index N = 1 to 4) RmsRaw0N (原始信号的有效值0N，N 为1~4)	UDINT		●
700 + N*8	RmsVelEnvelope0N (Index N = 1 to 4) RmsVelEnvelope0N (速度包络的有效值0N，N 为1~4)	UDINT		●
636 + N*8	RmsVelRaw0N (Index N = 1 to 4) RmsVelRaw0N (原始速度的有效值0N，N 为1~4)	UDINT		●
860 + N*8	SkewnessRaw0N (Index N = 1 to 4) SkewnessRaw0N (偏态系数原始值（歪度）0N，N 为1~4)	DINT		●
Minimum and maximum characteristic values 特征值的最小值和最大值
2690	MinMaxCounter01 MinMaxCounter01（最小值最大值计数器）	UINT		●
3588 + N*8	CrestFactorRawMax0N (Index N = 1 to 4) CrestFactorRawMax0N (波峰因数（裕度）最大值0N，N 为1~4)	UDINT		●
2948 + N*8	CrestFactorRawMin0N (Index N = 1 to 4) CrestFactorRawMin0N ((波峰因数（裕度）最小值0N，N 为1~4)	UDINT		●
3332 + N*8	Iso10816Max0N (Index N = 1 to 4) Iso10816Max0N (ISO10816最大值0N，N 为1~4)	UDINT		●
2692 + N*8	Iso10816Min0N (Index N = 1 to 4) Iso10816Min0N (ISO10816最小值0N，N 为1~4)	UDINT		●
3556 + N*8	KurtosisRawMax0N (Index N = 1 to 4) KurtosisRawMax0N ( 峰态系数（峭度）最大值0N，N 为1~4)	DINT		●
2916 + N*8	KurtosisRawMin0N (Index N = 1 to 4) KurtosisRawMin0N (峰态系数（峭度）最小值0N，N 为1~4)	DINT		●
3492 + N*8	PeakHighFrequencyMax0N (Index N = 1 to 4) PeakHighFrequencyMax0N (高通后的峰值最大值0N，N 为1~4)0N，N 为1~4)	UDINT		●
2852 + N*8	PeakHighFrequencyMin0N (Index N = 1 to 4) PeakHighFrequencyMin0N (高通后的峰值最小值0N，N 为1~4)	UDINT		●
3684 + N*8	PeakRawMax0N (Index N = 1 to 4) PeakRawMax0N (峰值原始值最大值0N，N 为1~4)	UDINT		●
3044 + N*8	PeakRawMin0N (Index N = 1 to 4) PeakRawMin0N (峰值原始值最小值0N，N 为1~4)	UDINT		●
3428 + N*8	RmsAccEnvelopeMax0N (Index N = 1 to 4) RmsAccEnvelopeMax0N (加速度包络有效值最大值0N，N 为1~4)	UDINT		●
2788 + N*8	RmsAccEnvelopeMin0N (Index N = 1 to 4) RmsAccEnvelopeMin0N (加速度包络有效值最小值0N，N 为1~4)	UDINT		●
3364 + N*8	RmsAccRawMax0N (Index N = 1 to 4) RmsAccRawMax0N (加速度原始信号有效值最大值0N，N 为1~4)	UDINT		●
2724 + N*8	RmsAccRawMin0N (Index N = 1 to 4) RmsAccRawMin0N (加速度原始信号有效值最小值0N，N 为1~4)	UDINT		●
3524 + N*8	RmsHighFrequencyMax0N (Index N = 1 to 4) RmsHighFrequencyMax0N (高通后的有效值最大值0N，N 为1~4)	UDINT		●
2884 + N*8	RmsHighFrequencyMin0N (Index N = 1 to 4) RmsHighFrequencyMin0N (高通后的有效值最小值0N，N 为1~4)	UDINT		●
3652 + N*8	RmsRawMax0N (Index N = 1 to 4) RmsRawMax0N (原始信号的有效值最大值0N，N 为1~4)	UDINT		●
3012 + N*8	RmsRawMin0N (Index N = 1 to 4) RmsRawMin0N (原始信号的有效值最小值0N，N 为1~4)	UDINT		●
3460 + N*8	RmsVelEnvelopeMax0N (Index N = 1 to 4) RmsVelEnvelopeMax0N (速度包络的有效值最大值0N，N 为1~4)	UDINT		●
2820 + N*8	RmsVelEnvelopeMin0N (Index N = 1 to 4) RmsVelEnvelopeMin0N (速度包络的有效值最小值0N，N 为1~4)	UDINT		●
3396 + N*8	RmsVelRawMax0N (Index N = 1 to 4) RmsVelRawMax0N (原始速度的有效值最大值0N，N 为1~4)	UDINT		●
2756 + N*8	RmsVelRawMin0N (Index N = 1 to 4) RmsVelRawMin0N (原始速度的有效值最小值0N，N 为1~4)	UDINT		●
3620 + N*8	SkewnessRawMax0N (Index N = 1 to 4) SkewnessRawMax0N (偏态系数原始值（歪度）最大值0N，N 为1~4)	DINT		●
2980 + N*8	SkewnessRawMin0N (Index N = 1 to 4) SkewnessRawMin0N (偏态系数原始值（歪度）最小值0N，N 为1~4)	DINT		●
Frequency configuration 频率配置
1302	HighFrequencyConfig01 高频配置01	UINT				●
550	HighFrequencyConfig01Read 读高频配置01	UINT		●
1306	MaxFrequencyEnvelope01 包络频率最大值01	UINT				●
558	MaxFrequencyEnvelope01Read 读包络频率最大值01	UINT		●
526	MaxFrequencyRaw01 原始频率最大值01	UINT				●
554	MaxFrequencyRaw01Read 读原始频率最大值01	UINT		●
522	MinFrequencyEnvelope01 包络频率最小值01	UINT				●
566	MinFrequencyEnvelope01Read 读包络频率最小值01	UINT		●
518	MinFrequencyRaw01 原始频率最小值01	UINT				●
562	MinFrequencyRaw01Read 读原始频率最小值01	UINT		●
Frequency bands 频带
3716 + N*8	FrequencyBandMaxN (Index N = 01 to 32) 频带最大值，N 为1~32	UDINT		●
3076 + N*8	FrequencyBandMinN (Index N = 01 to 32) FrequencyBandMinN (频带最小值，N 为1~32)	UDINT		●
956 + N*8	FrequencyBandN (Index N = 01 to 32) FrequencyBandN (频带N，N 为1~32)	UDINT		●
506 + N*24	FrequencyBandNConfig (Index N = 01 to 32) FrequencyBandNConfig (频带N的配置，N 为1~32)	UINT				●
1194 + N*24	FrequencyBandNConfigRead (Index N = 01 to 32) FrequencyBandNConfigRead (读频带N的配置，N 为1~32)	UINT		●
514 + N*24	FrequencyBandNDmgFreq60rpm (Index N = 01 to 32) FrequencyBandNDmgFreq60rpm (频带N在60rpm时的损坏频率，N 为1~32)	UINT				●
1202 + N*24	FrequencyBandNDmgFreq60rpmRead (Index N = 01 to 32) FrequencyBandNDmgFreq60rpmRead (读频带N在60rpm时的损坏频率，N 为1~32)	UINT		●
522 + N*24	FrequencyBandNLowerFrequency (Index N = 01 to 32) FrequencyBandNLowerFrequency (频带N的计算的最小频率，N 为1~32)	UINT				●
1210 + N*24	FrequencyBandNLowerFrequencyRead (Index N = 01 to 32) FrequencyBandNLowerFrequencyRead (读频带N的计算的最小频率，N 为1~32)	UINT		●
518 + N*24	FrequencyBandNTolerance (Index N = 01 to 32) FrequencyBandNTolerance (频带N的公差频率，N 为1~32)	UINT				●
1206 + N*24	FrequencyBandNToleranceRead (Index N= 01 to 32) FrequencyBandNToleranceRead (读频带N的公差频率，N 为1~32)	UINT		●
526 + N*24	FrequencyBand0NUpperFrequency (Index N = 01 to 32) FrequencyBandNUpperFrequency (频带N的计算的最大频率，N 为1~32)	UINT				●
1214 + N*24	FrequencyBandNUpperFrequencyRead (Index N = 01 to 32) FrequencyBandNUpperFrequencyRead (读频带N的计算的最大频率，N 为1~32)	UINT		●

功能模型2 慢主站 Function model 2 - Slow master

功能模型2 慢主站 Function model 2 - Slow master