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M 5 7 7 9

Servo Rate

Name

Description

100 Hz

PWM signal has constant 100 Hertz frequency (10 msec repetition

rate) with 0 – 100 % duty cycle

50 Hz

PWM signal has constant 50 Hertz frequency (20 msec repetition

rate) with 0 – 100 % duty cycle

6.6.2

Output Type

Smart Sensor probes support NULL (0), ON/OFF (1), PWM (2) and SERVO (3) outputs. When set to NULL the

output signal will be left in a high impedance state. When set to ON/OFF the Rate and Servo Range controls

have no effect. When the SERVO type is selected the Duty-Cycle is restricted so the output signal is either

0.5 – 2.5 msec or 1.0 to 2.0 msec based on the Servo Range bit.

6.6.3

Active State

Smart Sensor discrete outputs may be configured as Active HIGH or Active LOW. When set to 1 (Active High),

the output will be high impedance when active. When set to 0 (Active Low), the output will be low

impedance (~ 0.0 volts) when active. The Factory reset value is 0 (Low).

6.6.4

Mapping Enabled

The read-only Mapping Enabled bit indicates that the output may be optionally directly mapped to a sensor

input based on the Sensor Mapping field. If the Mapping Enabled bit is clear no mapping is supported, and

the Sensor Mapping field is ignored.

6.6.5

Sensor Mapping

The Sensor Mapping value may select ‘no mapping’ or any of Sensor 0..3. If no mapping is selected the

output may be directly controlled by writing a value from 0 – 100 % to the internal Output Value. If a Sensor

is selected and the hardware supports the mapping the output will track the selected sensor value, scaled by

the Input Minimum and Input Maximum values.

If Sensor Mapping is enabled for PWM outputs the scaling values are used such that a signal input at or

below the Scaling Low-value results in a 0% output and a signal input at or above the Scaling High-value

results in a 100% PWM duty cycle.

If Sensor Mapping is enabled for SERVO outputs the scaling values are used such that a signal input at or

below the Scaling Low-value results in a minimum (0.5 or 1.0 msec) pulse width and a signal input at or

above the Scaling High-value results in a maximum (2.0 or 2.5 msec) pulse width.

Содержание SP-006

Страница 1: ...1 M 5 7 7 9 TM User sGuide Shop online at omega com e mail info omega com For latest product manuals www omegamanual info SP 006 Layer N Pressure Monitoring and Control Smart Probe...

Страница 2: ...6 USA Canada only U S A Headquarters Tel 203 359 1660 e mail info omega com Fax 203 359 7700 The information contained in this document is believed to be correct but OMEGA accepts no liability for any...

Страница 3: ...r Output Mapping 15 5 4 3 ON OFF Control Module 17 5 4 4 Setting an Alarm 18 6 Appendix SP 006 Registers 19 6 1 Register Base Addresses 19 6 2 Pressure Sensor 19 6 2 1 Pressure Descriptor 19 6 2 1 1 P...

Страница 4: ...Configuration 26 6 4 2 DIO IPSO Definition 27 6 4 2 1 Sensor Trigger Function 27 6 5 Output Configuration Registers 27 6 5 1 Scaling Minimum Maximum Values 28 6 5 2 Output Values 28 6 5 3 Output Names...

Страница 5: ...s device as it contains important information relating to safety and EMC Failure to follow all the safety precautions may result in injury and or damage to the equipment The following labels identify...

Страница 6: ...autonomous independent decision making capabilities to generate local alarms or provide control outputs based on sensor inputs The optional M12 8 T SPLIT Sensor Splitter can be used to access the Dis...

Страница 7: ...on 0 1 kPa Absolute Maximum Pressure 1 5 time full scale for each range Caution Do not exceed 500 psi TEMPERATURE Range 10 to 80 C 14 to 176 F Accuracy 1 5 C Resolution 0 1 C ENVIRONMENTAL Storage Tem...

Страница 8: ...t i e ordering code C Inquire with Omega Engineering for other pressure port options Refer to Figure 3 4 Hardware Setup 4 1 Connecting your Layer N Smart Interface The SP 006 requires a Layer N Smart...

Страница 9: ...End Device Probe 5 2 1 Communication Interface Set the communication parameters for the Layer N Smart Interface that you are connecting Note The connection type and parameters must be accurate for a...

Страница 10: ...s for your device click Finish 5 3 Input Configuration The SP 006 provides readings for pressure temperature and discrete I O DIO To use these features click the Inputs configuration tab on SYNC and c...

Страница 11: ...the user must follow the onscreen directions to calibrate the device Figure 8 SYNC pressure user calibration 5 3 2 Temperature The SP 006 Temperature readings may be configured under the advanced sca...

Страница 12: ...ol signal to turn on the output driver which will force the output low When the state of the DIO input signal is to be read the processor applies 3 3 VDC to the Input Bias signal and reads the level d...

Страница 13: ...must be selected to use the user defined Unit field Unchecking the Lock checkbox and clicking Apply Settings will revert the unit display back to the default setting 5 4 Output Configuration The SP 0...

Страница 14: ...ses of a discrete signal PWM consists of a duty cycle and frequency The Duty Cycle measures the amount of time a signal is in the ON state as a percentage The frequency controls how fast the PWM cycle...

Страница 15: ...varies between 0 5 and 2 5 msec Example For the percent of angular travel if the pulse width range is set to a range of 1 0 2 0 msec then an output of 50 of angular travel represents 1 5 msec or 90 d...

Страница 16: ...output direct mapped to a Rate input The minimum expected input rate is 25 Hz and the maximum expected rate is 150 Hz A value of 50 Hz read at the input is then mapped to a PWM output with an 80 duty...

Страница 17: ...the chosen Input The Control Actions dropdown has options for direct or reverse control In direct mode once the Setpoint value is reached then the output will be set to ON In reverse mode once the Se...

Страница 18: ...transmit or not transmit a notification can be set The option to enable Turn On an output can also be set The output chosen must not be currently used in a sensor mapping or ON OFF control module The...

Страница 19: ...responding sensor values Additional sensor information is provided in sensor specific IPSO object descriptions which include extended measurement type precision and tracking of minimum maximum reading...

Страница 20: ...values may not be overwritten 6 2 1 3 Temperature Configuration Byte Pressure Sensor Configuration 7 6 5 4 3 2 1 0 Available Assigned Channel Apply Scaling Lock Sensor Range Type 0 0 Read Only Indica...

Страница 21: ...Calibrate mode When the calibration function is triggered the device will calculate the Gain and Offset used in the linearization process The calibration process is performed by the following steps 1...

Страница 22: ...s IPSO object type information Offset Name Value Description 0x00 Sensor Type 3323 Pressure kPa 0x02 Precision 1 Provides reading of xxx y kPa 0x04 Sensor Trigger Write any value to force a reset of m...

Страница 23: ...he overall function of the channel and the signal types used Offset Name Value Description 0x00 Measurement Type 0x01 Temperature in C 0x01 Data Type Format 0x06 Float type 0x02 Configuration Byte See...

Страница 24: ...e Smart Sensor Device Interface documentation for further information 6 3 1 4 Temperature Device Byte The Temperature Device Byte is not used 6 3 2 Temperature Parameters There are no user accessible...

Страница 25: ...used to detect the state of external switches output off or to monitor the state of the outputs 6 4 1 DIO Descriptor Offset Name Value Description 0x00 Sensor Type 0x18 Digital Type Bit mapped 0x01 Da...

Страница 26: ...will be used to adjust the sensor reading Result Raw Reading Gain Offset 6 4 1 3 3 Assigned The Assigned bit will always read as 0 Refer to the Smart Sensor Device Interface documentation for further...

Страница 27: ...er Function 7 6 5 4 3 2 1 0 0 0 0 0 0 0 0 Reset Min Max 15 14 13 12 11 10 9 8 0 0 0 0 0 0 0 0 Setting the Reset Min Max bit to 1 will reset the Min Max values recorded by the IPSO process No User Cali...

Страница 28: ...e output is mapped the scaling values are used to transform the minimum input value to 0 and the maximum input value to 100 Output Name Modbus Address I2C Address Size Description 0 Output 0 Value 0xf...

Страница 29: ...sor 2 1 1 0 Sensor 3 1 1 1 Mapping Enable Not Enabled 0 Enabled 1 Output Type Null 0 0 0 0 ON OFF 0 0 0 1 PWM 0 0 1 0 Servo 0 0 1 1 6 6 1 Rate The Rate determines the repetition rate or frequency of t...

Страница 30: ...y Mapping Enabled bit indicates that the output may be optionally directly mapped to a sensor input based on the Sensor Mapping field If the Mapping Enabled bit is clear no mapping is supported and th...

Страница 31: ...A if the unit is found to be defective it will be repaired or replaced at no charge OMEGA s WARRANTY does not apply to defects resulting from any action of the purchaser including but not limited to m...

Страница 32: ...s M U Turbine Paddlewheel Systems M U Totalizers Batch Controllers pH CONDUCTIVITY M U pH Electrodes Testers Accessories M U Benchtop Laboratory Meters M U Controllers Calibrators Simulators Pumps M U...

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