Omega SP-016 User Manual Download

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Appendix: SP-016 Registers

The following Appendix provides the registers and list index for the Layer N SP-016 Heat Flux Smart Probe. This information

is intended to aid users who will be making configurations and adjustments to their Layer N SP-016 Heat Flux Smart Probe

through the Command Line Interface or other custom interfaces.

Smart Probe devices share a common platform architecture that provides extensive monitoring and control capabilities thru

a set of platform generic registers. These registers may be accessed using I2C based commands directly to the Smart Probe

devices or thru a set of Modbus based registers when using Omega Interface devices. Refer to the

Smart Sensor Device

Interface

manual for further information.

When powered on or after a device reset each Smart Sensor based device will enumerate 1 or more sensor instances which

are described by the device specific Sensor Descriptors which include configuration options, measurement type, and units

of measure for the corresponding sensor values. Additional sensor information is provided in sensor specific IPSO object

descriptions which include extended measurement type, precision, and tracking of minimum/maximum readings.

Each enumerated Sensor has a Descriptor Base address location and a Sensor IPSO / Configuration structure address

location based on the sensor mix selected.

Sensor Descriptor Base IPSO/Configuration

Enumerated Sensor

0x0060 (0xf030)

0x08a8 (0xf454)

Heat Flux

0x0068 (0xf034)

0x09a8 (0xf4d4)

DIO (SP-016-1)

0x0070 (0xf048)

0x0aa8 (0xf554)

DIO (SP-016-1)

0x0078 (0xf03c)

0x0ba8 (0xf5d4)

Not Used

5.1

Heat Flux Input Descriptor

The SP-016 configures the sensors based on the factory device list and user specified list index.

The Sensor Configuration and Sensor Device fields may be written to provide control of the overall function of the channel

and the signal types used.

Offset

Name

Value

Description

0x00

Measurement Type

0x35

Heat Flux (W/m

)

0x01

Data Type/Format

0x26

Float, Factory Calibration enabled

0x02

Configuration

0x??

Sensor Range/Type (not used)

0x03

Sensor Device

0x??

Sensor IO Configuration

0x04..0x08

UOMR

“W/m2” Units of measure

5.1.1

Heat Flux Measurement Types

The interface provides a measurement of the heat flux in W/m

Sensor Type

SI Derived Units

Measurement

0x35

W/m2

Watts per square meter

5.1.2

Heat Flux Input Data Type/Format

The SP-016 supports extended configuration and provides factory calibration. All data values are returned as 32-bit

floating point values.

Heat Flux Input Data Type/Format

Smart

Sensor

Writable

Factory

Calibrate

Reserved

Data Type

6 == Floating point

Summary of Contents for SP-016

Page 1: ...1 P a g e TM User sGuide Shop online at omega com e mail info omega com For latest product manuals www omegamanual info SP 016 Heat Flux Thermopile Smart Probe...

Page 2: ...nly Customer Service 1 800 622 2378 USA Canada only Engineering Service 1 800 872 9436 USA Canada only U S A Headquarters Tel 203 359 1660 e mail info omega com Fax 203 359 7700 The information contai...

Page 3: ...r 15 5 1 1 Heat Flux Measurement Types 15 5 1 2 Heat Flux Input Data Type Format 15 5 1 2 1 Data Type 16 5 1 2 2 Factory Calibrate 16 5 1 2 3 Sensor Writeable 16 5 1 2 4 Smart Sensor 16 5 1 3 Heat Flu...

Page 4: ...t 22 5 3 2 1 Data Type 22 5 3 2 2 Factory Calibrate 22 5 3 2 3 Sensor Writeable 22 5 3 2 4 Smart Sensor 22 5 3 3 DIO Input Configuration 22 5 3 3 1 Lock 23 5 3 3 2 Apply Scaling 23 5 3 3 3 Assigned 23...

Page 5: ...e 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 your equipment The following labels identify inform...

Page 6: ...ports any single thermopile sensor input mV W m2 and an additional thermocouple input for temperature compensation The Layer N SP 016 features 2 configurable digital I O pins These can be used for a m...

Page 7: ...1 Connecting to SYNC Automatic Detect Once the SP 016 and Layer N Smart Interface are connected to your computer SYNC will automatically detect it and begin displaying temperature readings Note If yo...

Page 8: ...work enter the Network Address here The default network address is 1 for most devices Please refer to the manual of your Smart Interface for more information Note The default Device Address is 1 Devic...

Page 9: ...sensitivity calculated as S ToC TempCoGain ToC TempCoOffset SCalib ToC is the measured temperature from the T type thermocouple From the HFS 05 datasheet HFS 01 Value Description TempCoGain 0 000334 T...

Page 10: ...onfiguration tab on SYNC and choose an input type that includes TC from the Type dropdown Step 2 Click the input you wish to configure and select your thermocouple type from the Device Range Type drop...

Page 11: ...nt However for increased accuracy Cold Junction Calibration can be performed as described below Step 1 Ensure your thermocouple has been configured in the previous section and click Calibration beneat...

Page 12: ...outputs setting in the Output Tab and assign the output to an alarm using SYNC For more information on how to set an alarm refer to section 4 6 3 Setting Alarms Output options are set in the Output T...

Page 13: ...can select between the following settings Option Value Description Rate 100 Hz Signal has a constant 100 Hz frequency with 0 100 Duty Cycle 10 Hz Signal has a constant 10 Hz frequency with 0 100 Duty...

Page 14: ...the Output Configuration Tab in SYNC and click on the icon located to the right of the available outputs Clicking the icon will open Define ON OFF Control dialog box as seen below Choose the input wit...

Page 15: ...gs Each enumerated Sensor has a Descriptor Base address location and a Sensor IPSO Configuration structure address location based on the sensor mix selected Sensor Descriptor Base IPSO Configuration E...

Page 16: ...Range Type 0 Internal Use Only 5 1 3 1 Apply Scaling For more information on Gain and Offset refer to the Smart Sensor Manual If set the user defined Offset and Gain values will be used to adjust the...

Page 17: ...e may be entered and the SP 016 will save the difference between the current measured value and the Target Value as the Calibration value The User Calibration may be used when the sensor is measuring...

Page 18: ...set until the calibration process is complete Setting the Calibration Reset bit will clear the calculated Offset value 5 2 Thermocouple Descriptor The Thermocouple Input interface provides interfaces...

Page 19: ...calibration values 5 2 2 3 Sensor Writeable The writable bit is cleared indicating that the sensor values may not be overwritten 5 2 2 4 Smart Sensor Refer to the Smart Sensor Device Interface docume...

Page 20: ...e User Calibration Parameter The SP 016 provides a Thermocouple User Calibration register that may be set while the device is in the User Calibrate mode and that is used to adjust the Cold Junction Co...

Page 21: ...0 1768 B 640 1820 C 0 2320 0x14 Max Range 5 2 6 1 Sensor Trigger Function The Sensor Trigger function is used to reset the IPSO min max values as well as control the ICE Point Single Point Calibration...

Page 22: ...ype Format DIO Data Type 7 6 5 4 3 2 1 0 Smart Sensor Sensor Writable Factory Calibrate Reserved Data Type 0 0 0 0 6 Floating point Note Please refer to the Smart Sensor Interface Technical Guide for...

Page 23: ...figuration allows enabling each of the 2 input bits and selecting whether the input is active HIGH or active LOW If the Invert Bit is set the signal will be Active Low DIO Device Configuration 7 6 5 4...

Page 24: ...DIO inputs and all bits should be written as 0 5 3 6 DIO Input Circuitry The DIO input circuitry shares the output circuitry The internal processor drives the Output Control signal to turn on the outp...

Page 25: ...equency 100 msec repetition rate with 0 100 duty cycle 2 1 Hz PWM signal has a constant 1 Hertz frequency 1 second repetition rate with 0 100 duty cycle 3 0 1 Hz PWM signal has constant 0 1 Hertz freq...

Page 26: ...d 1200 C 0 4 C K 160 C to 1372 C 0 4 C T 190 C to 400 C 0 4 C E 220 C to 1000 C 0 4 C N 100 C to 1300 C 0 4 C R 40 C to 1768 C 0 5 C S 100 C to 1768 C 0 5 C B 640 C to 1820 C 0 5 C C 0C to 2320 C 0 4...

Page 27: ...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...

Page 28: ...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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