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Summary of Contents for Omega SP-014
- Page 1 User’ s Gui d e Shop online omega.com e-mail: info@omega.com For latest product manuals: www.omega.com/en- us/pdf-manuals SP-014 Omega Link Process Monitoring Smart Probe...
- Page 2 Irlam Manchester M44 5BD United Kingdom The information contained in this document is believed to be correct, but OMEGA accepts no liability for any errors it contains and reserves the right to alter specifications without notice. M 5 7 5 2...
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Page 3: Table Of Contents
5.4.3 ON/OFF Control Module ............................22 5.4.4 Setting an Alarm ..............................23 Pairing a Sensing Device to an Omega Link Gateway ................24 Wireless Pairing ............................. 24 Wired Pairing ..............................24 Appendix: SP-014 Registers ........................25 Sensor Interface ............................. 25 7.1.1... - Page 4 7.3.1.3 Digital Configuration ................................. 29 7.3.2 Digital Input Device Byte ............................30 7.3.3 Digital Sensor Parameters ............................ 30 7.3.3.1 IPSO Digital Definition ............................... 31 7.3.3.2 Digital Resolution ................................31 7.3.3.3 Sensor Trigger Function ..............................31 DIO Interface ..............................31 7.4.1 DIO Descriptor ..............................
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Page 5: Notes, Warnings, And Cautions
The following labels identify information that is especially important to note: Note: Provides you with information that is important to successfully setup and use the Omega Link device. Caution or Warning: Tells you about the risk of electrical shock. -
Page 6: Introduction
Discrete I/O pins on the M12 8-pin connector. The optional M12.5-S-M-FM and M12.8-S-M-FM mating connectors can be utilized to easily connect wire leads to the SP-014 or Sensor Splitter. Each of the 3 process inputs may be independently configured as 0-24 mA, 0-1.0 V , or 0-2.0 V... -
Page 7: Specifications
Rating: IP67 when mated MECHANICAL Dimensions: 22.1 mm W x 96.7 mm L (0.87” x 3.80”) not including mounting tabs GENERAL Agency Approvals: CE, UKCA Compatibility: Compatible with OEG, SYNC configuration software, Omega Link Cloud, and Modbus Networks M 5 7 5 2... -
Page 8: Hardware Setup
SP-014 Wiring Diagram The Omega Link SP-014 accepts process inputs through its M12 5-Pin connector and a single digital pulse input in the mixed input mode. Users connecting wires directly to the SP-014 may refer to the wiring diagrams provided below:... -
Page 9: Sync Configuration
SYNC Configuration Omega Link Smart Probe products are easily configured through Omega’s free SYNC configuration software. Ensure SYNC is running on a Windows OS computer before continuing. Connect the SP-014 to the computer using your Omega Link Smart Interface to begin. - Page 10 • Device Address: If your Smart Interface is part of a network, 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. •...
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Page 11: Input Configuration
, or 0-2.0 V process inputs. In Mixed Input mode, the SP-014 can accept one process input and one digital pulse input. In all modes, the general Discrete I/O may be configured. These modes are detailed in the below sections. -
Page 12: Mixed Input Interface
5.3.2 Mixed Input Interface When set to the mixed input mode, the SP-014 can accept one process signal and one digital pulse input. To configure the digital pulse and process inputs, follow these steps: Figure 9: SYNC interface digital and process configuration with general DIO Step 1: Click the Inputs configuration tab on SYNC and choose the Digital, Process or Digital, Process, DIO type from the Type drop-down. - Page 13 The Digital Input (DIN) mode reports the binary value on the DIN pulse input pins. Note the DIN inputs replace the functionality of the Pulse and Reset inputs. Digital Value 1 Digital Value 0 Figure 10: Digital Input example Two measurement modes are used when measuring Frequency (RATE). If the measured frequency is greater than 100 Hz the total number of pulses/second is used to determine the frequency.
- Page 14 The Up Counter/Totalizer (COUNT) mode counts the number of rising edges until the Reset input is activated. The Reset input can be configured to be active high or active low. See the Input Configuration Diagrams section for details. PULSE RESET Counts the number of pulses Counter resets to 0 when while reset is inactive...
- Page 15 5.3.2.1.2 Input Configuration Diagrams Both the Pulse and Reset input pins can be independently set to either have an internal 1.5k Pull Up (PU) or Pull Down (PD) and can be set to be either Active High or Active Low by selecting Normally Open (NO) or Normally Closed (NC) in the SYNC input configuration interface.
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Page 16: Discrete Input/Output (Dio)
Figure 16: Active High/Low Threshold example 5.3.3 Discrete Input/Output (DIO) The Omega Link SP-014 features 2 configurable discrete I/O pins; DIO_0 and DIO_1. These can be used for a myriad of applications including driving relays, physical alarms, or sensing dry contacts like door switches. The user may configure the polarity of the inputs (active HIGH or active LOW) or Disable the DIOs to utilize the outputs (ON/OFF, PWM, SERVO). -
Page 17: Setting Dio As An Input
The Discrete I/O input shares the output circuitry. The internal process drives the output control 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 V to the Input Bias signal and reads the level detected at the Input Sense. -
Page 18: Advanced Scaling Options
5.3.4 Advanced Scaling Options The Omega Link SP-014 allows for advanced scaling options on process and pulse inputs only. The Advanced Scaling checkbox can be selected to expand additional configuration options. A gain and/or offset can be applied to the input reading and the displayed unit can be changed. -
Page 19: Output Configuration
Output Configuration The SP-014 offers two discrete outputs that share circuitry with the discrete inputs. If an output is to be used then the corresponding input pin must be set to Disable. See section 5.3.3 Discrete Input/Output (DIO) for more information. -
Page 20: Device Output Range/Types
5.4.1 Device Output Range/Types There are three types of output options – On/Off, Pulse-Width Modulation (PWM), or Servo. This section describes these output options. Figure 24: SYNC interface output type selection 5.4.1.1 ON/OFF Output Type The ON/OFF output mode switches the output to be a binary ON or OFF. Depending on if the output is configured as Active Low or Active High, the ON/OFF mode can correspond to different polarities. -
Page 21: Sensor Output Mapping
5.4.2 Sensor Output Mapping The SP-014 allows mapping a scaled copy of any of the input values to any of the outputs. To set a mapped output, it must not be associated with any alarm or ON/OFF control module. Two user-defined values, Scaling Minimum and Scaling Maximum, define the sensor range that is mapped to the output. -
Page 22: On/Off Control Module
Figure 28: Sensor output mapping diagram 5.4.3 ON/OFF Control Module To configure an ON/OFF control module on a device, first ensure that the desired output pin is not associated with any input alarms and that it is set as No Mapping in the Output Mapping menu in the Outputs tab. The ON/OFF control module can be used with any selected output type including ON/OFF, PWM, and SERVO. -
Page 23: Setting An Alarm
output will be set to OFF. The DeadBand field together with the direct or reverse control action configures a deadband range around the Setpoint where the ON/OFF control does not toggle. The unit of the DeadBand field will be the same as the unit of the chosen Input. -
Page 24: Pairing A Sensing Device To An Omega Link Gateway
Gateway Internal User Interface. The Connected Devices tab is the default page set once you are signed in to the internal gateway UI. From here, you can add devices to your gateway to have them appear in your Omega Link Cloud account. -
Page 25: Appendix: Sp-014 Registers
Appendix: SP-014 Registers The following Appendix provides the registers and list index for the Omega Link SP-014 Process Monitoring Smart Probe. This information is intended to aid users who will be making configurations and adjustments to their Omega Link SP-014 Process Monitoring Smart Probe through the Command Line Interface or other custom interfaces. -
Page 26: Sensor Names
7.1.2 Sensor Names Each sensor has a name. The default names for the outputs are created based on the value being measured. The default names may be overwritten, such as Room_Temp or Oven_Temp. Names are restricted to 16 characters. Modbus Output Name Size... -
Page 27: Process Input Configuration
7.2.1.2.2 Factory Calibrate Factory calibration is available for the process inputs. Clearing this bit will disable the factory calibration values. 7.2.1.2.3 Writeable The writeable bit is cleared, indicating that the sensor values may not be overwritten. 7.2.1.3 Process Input Configuration Process Input Configuration Available Assigned... -
Page 28: Process Ipso Definition
7.2.2.1 Process IPSO Definition The IPSO process definition provides signal range, measured min/max values, IPSO object type information. Offset Name Value Description Value Description 0x08a8 Sensor Type 3317 Current (mA) 3318 Voltage (mV) 0-24 mA 1 - display as xx.x 0-1000 -1 - display as xxx0.0 0x08aa... -
Page 29: Digital Interface
Digital Interface The Digital interface manages the two digital pulse inputs: Pulse and Reset. These are used to drive user-configurable Rate, Delay, Pulse Width, Duty Cycle, and Counter functions. 7.3.1 Digital Descriptor Offset Name Value Description DIO, FREQUENCY, WIDTH, DUTY_CYCLE, DELAY, or 0x00 Sensor Type 0x?? -
Page 30: Digital Input Device Byte
7.3.1.3.1 Sensor Range / Type Measurement Units of Signals Range / Type Type Measure DIO 1 DIO 0 0x00 0x18 INPUT 1 INPUT 0 0x01 RATE 0x19 RESET 0x02 PULSE WIDTH 0x1a msec RESET 0x03 DUTY CYCLE 0x1b & RESET 0x05 COUNTER 0x1d... -
Page 31: Ipso Digital Definition
7.3.3.1 IPSO Digital Definition The IPSO Digital definition provides signal range, measured min/max values, IPSO object type information. Offset Name Value Description Value Description 3318 Frequency 0x08a8 Sensor Type <table> 33005 Pulse Width 33007 Duty Cycle 33002 Counter 0x08aa Precision Provides reading of xxx 0x08ac Sensor Trigger... -
Page 32: Dio Sensor Type
7.4.1.1 DIO Sensor Type The interface provides a bitmapped input of the 2 digital signal lines. Sensor Type SI Derived Units Measurement 0x18 Bit mapped digital inputs 7.4.1.2 DIO Data Type/Format DIO Data Type/Format Smart Sensor Value Factory reserved Data Type Sensor Writeable Calibrate... -
Page 33: Dio Device Configuration
7.4.1.4 DIO Device configuration The DIO Device Configuration allows enabling each of the 2 input bits and selecting whether the input is active HIGH (reads as 1 when input is not grounded) or active LOW (reads as 1 when input is grounded). DIO Device Configuration Reserved DIN 1... -
Page 34: Output Interface
Output Interface Outputs share a common structure which consists of 3 fields mapped to a 16-bit unsigned integer, accessible in the Smart Sensor register map. Modbus Output Name Size Typical Description Address Address Output 0 Descriptor 0xf09a 0x0134 uint16 PWM 0 (see below) Output 1 Descriptor 0xf09b 0x0136... -
Page 35: Output Names
7.5.3 Output Names Each output has a name. The default names for the outputs are Output_0 through Output_3. The default names may be overwritten, such as Stack_Lite or Control_Valve. Names are restricted to 16 characters. Modbus Output Name Size Description Address Address Output 0 Name... -
Page 36: Rate
7.6.1 Rate The Rate determines the repetition rate, or frequency, of the Digital Output. For On/Off outputs the rate field is ignored. 7.6.1.1 PWM Rate The SP-014 supports the following PWM frequencies: PWM Rate Name Description PWM signal has constant 100 Hertz frequency (10- 100 Hz msec repetition rate) with 0 –... -
Page 37: Errata
Errata Firmware Version: 1.8.0.0 • IPSO Sensor Type for Voltage Measurements returns 3316 instead of 3318 • IPSO Precision for Voltage Measurements returns 3 instead of -1 37 | M 5 7 5 2... - Page 38 Department will issue an Authorized Return (AR) number immediately upon phone or written request. Upon examination by OMEGA, 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 mishandling, improper interfacing, operation outside of design limits, improper repair, or unauthorized modification.
- Page 39 Where Do I Find Everything I Need for Process Measurement and Control? OMEGA…Of Course! Shop online at omega.com TEMPERATURE M U Thermocouple, RTD & Thermistor Probes, Connectors, Panels & Assemblies M U Wire: Thermocouple, RTD & Thermistor M U Calibrators & Ice Point References M U Recorders, Controllers &...
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