Skip to search Skip to main content Skip to navigation

Call us at 1-888-826-6342

We noticed you are from . Visit your local site for regional offers and live support.

8-Channel Thermocouple Input Ethernet Data Acquisition Module

C$823.36

Item# OM-NET-TC

Volume discounts available
Volume Discount Schedule
Quantity Price each
1-4 C$823.36
5-9 C$782.19
10-24 C$765.72
25-49 C$732.79
50-99 C$716.32
100+ C$699.86

Please contact Technical Sales Team for assistance.
8-Channel Thermocouple Input Ethernet Data Acquisition Module OM-NET-TC OM-NET-TC

Refer to this Item TC-08-TC-DAQ

  • Eight 24-Bit Differential Thermocouple Inputs with Thermocouple Channel-to-Host Isolation
  • 4 Samples/Sec Channel Maximum Sample Rate
  • Two Integrated Cold Junction Compensation (CJC) Sensors
  • Open Thermocouple Detection

OM-NET-TC Model Options

View all models

Edit these specs to order a different model. Not all combinations are valid. Options compatible with previous selections will be in bold.

*Highlighted options are not compatible. Please select a different combination.

Analog Input Type
Analog Input Class
Number of Analog Inputs
Input Range
Power
Digital I/O
Interface Protocol


The OM-NET-TC thermocouple input data acquisition module offers high-accuracy temperature measurement with an Ethernet interface. The device offers the best value per channel and the best possible accuracy because the accuracy of the internal measurement electronics exceeds the accuracy specifications of the thermocouple sensors. TheOM-NET-TC is functionally equivalent to an OMEGATM OM-USB-TCmodule (USB interface to computer)which makes application migration very easy.

Ethernet Interface The OM-NET-TC has a built-in intercommunication port. Users can remotely access and configure the device with software over theInternet.

Thermocouple Input Connect up to eight differential thermocouple (TC) input channels to the OM-NET-TC. The OM-NET-TCsupports a maximum sample rate of 4 S/s per channel, and thermocouple types J, K, T, E, R, S, B and N.Thermocouple types are software selectable per channel.

Cold-Junction Compensation The OM-NET-TC has two high-resolution cold-junction compensation (CJC) sensors (one per four thermocouple inputs).

Open-Thermocouple Detection The OM-NET-TC is equipped with open-thermocouple detection(OTD) for all thermocouple input channels. With OTD enabled,users can monitor for broken or disconnected thermocouple inputs.

Digital I/O The OM-NET-TC has eight digitalI/O channels that are electrically isolated from the analog circuits.Each bit is individually configurable for input or output. Data can be transferred at rates up to 5 kS/s when the device and host are connected by Ethernet to the same local network. Typical throughput is system-dependent. All DIOchannels are pulled high by default to 5V through 47 kO resistors with a jumper on the circuit board. Each jumper configures the digital port for pull-up or pull-down.

Temperature Alarms Each digital output can be optionally configured as an alarm for each thermocouple input.When an alarm is enabled, the output line associated with the alarm is driven to the appropriate state determined by the alarm options and input temperature.Use the alarm outputs to control a device or application that indicates when a temperature threshold has been exceeded, or to indicate an open thermocouple condition.

Counter Input The 32-bit event counter pin counts TTL pulses, and accepts frequency inputs up to 10 MHz.

Power The OM-NET-TC requires external power from the 5V, 1A power adapter (OM-NET-PS) included with the device.

Calibration The OM-NET-TC is factory calibrated using a NIST-traceable calibration process. Specifications are guaranteed for one year.For calibration beyond one year,Contact Omega and return the device for recalibration.

Software The OMB-NET-TC module ships with an impressive array of software, including the newTracerDAQ®, a full-featured, out-of-the-box data logging, viewing, and analysis application. Driver support and detailed example programs are included for Universal Library programming libraries for Microsoft®Visual Studio® programming languages, and other languages,including DASYLab®, and ULx forNI LabVIEW® (comprehensive library of VIs and example programs compatible with 32-bit and 64-bit LabVIEW 2010 or later) and InstaCalTM installation,calibration and test utility-powerful solutions for programmers and non-programmers alike. These modules operate under MicrosoftWindows® VISTA/7/8/10 (32-bit and 64-bit) operating systems.The OMB-NET-TC data acquisition module is supplied with TracerDAQsoftware which is a collection of four virtual instrument applications used to graphically display and store input data and generate output signals:
    • Strip Chart—Log and graph values acquire from analog inputs, digital inputs, temperature inputs and counter inputs
    • Oscilloscope—Display values acquired from analog inputs
    • Function Generator—Generate waveforms for analog outputs
    • Rate Generator—Generate waveforms for counter outputsTracerDAQ PRO is an enhanced version of TracerDAQ and is available as a purchased upgrade(SWD-TRACERDAQ-PRO).A comparison of some of the features included in TracerDAQ vsTracerDAQ Pro (see Spec page PDF).

Specifications
(Typical for 25°C unless otherwise specified)
THERMOCOUPLE INPUT
A/D Converter Type: Delta-Sigma
A/D Resolution: 24-bit
Number of Channels: 8 differential channels
Isolation Between Any Thermocouple Input Channel and Digital/Chassis
Ground: 500 Vdc absolute max
Channel Configuration: Software selectable for thermocouple typesJ, K, T, E, R, S, B, N (factory default configuration is type J). Channel configuration is stored on EEPROMexternal to the isolated micro-controller by the firmware whenever any item is modified. Modification is performed by commands issued from an external application, and the configuration is made non-volatile through the use of the EEPROM.
Differential Input Voltage Range: ±0.128V (calibration is performed at±70 mV)
Absolute Maximum Input Voltage (Between any Two TCx Inputs): ±25V(power on), ±25V (power off)
Differential Input Impedance: 40 MΩ
Input Current:
    Open Thermocouple Detect Disabled: 1 nA
    Open Thermocouple Detect Enabled: 65 nA
Common Mode Rejection (fin = 50 Hz or 60 Hz): 110 dB
Noise Rejection (fin = 50 Hz or 60 Hz): 75 dB
Input Bandwidth: 10 Hz
Crosstalk Between Any TwoThermocouple Inputs: -90 dB
Sample Rate: 4 Hz max (per channel).The enabled thermocouple inputs are continuously converted at the maximumA/D converter rate. If channels are enabled and have an open thermocouple connection the sampling rate will be lower.
Input Noise: 250 nV rms
Gain Error: 0.006% FSR
Offset Error: 3 µV
Measurement Sensitivity (Smallest Change in Temperature That Can Be Detected):
Thermocouple Type J,K,T,E,N: 0.09°C
Thermocouple Type R,S: 0.11°C
Thermocouple Type B: 0.13°C
Warm-Up Time: 20 minutes min
Open Thermocouple Detect Response Time: 1 s
CJC Sensor Accuracy (0 to 45°C): ±0.20°C typ, ±0.40°C max
DIGITAL I/O
Digital Type: 5V TTL input/ CMOSoutput
Number of I/O: One port of 8 bits,shared with temperature alarmsConfiguration: Each bit can be independently configured for input or output
Pull-Up Configuration: All pins pulled up to 5V using 47 K resistors (default).Can be changed to pull-down using an internal jumper
Digital I/O Transfer Rate (System-Paced): 100 to 5000 port reads/writes or single bit reads/writes per second typ, on local network. This is the typical throughput when the device and host are both connected by Ethernet to the same local network. The throughput can vary significantly, and typical throughput is not guaranteed if a wireless connection is involved or data is sent over the internet
Alarm Functionality: Any combination of DIO bits may be configured to become outputs and go to defined values when an Ethernet connection with a host is established or lost
Power On and Reset State: All bits are input unless the alarm functionality is enabled for them
Input High Voltage Threshold: 2.0V min
Input High Voltage Limit: 5.5V absolute max
Input Low Voltage Threshold: 0.8V max
Input Low Voltage Limit: -0.5V absolute min, 0 V recommended min
Output High Voltage: 4.4V min(IOH = -50 µA), 3.76V min(IOH = -24 µA)
Output Low Voltage: 0.1V max(IOL = 50 µA), 0.44V max (IOL = 24 µA)
Power On and Reset State: Input
TEMPERATURE ALARMS
Number of Alarms: 8 (one per digitalI/O line)
Alarm Functionality: Each alarm controls its associated digital I/O line as an alarm output. When an alarm is enabled, its associated I/O line is set to output and driven to the appropriate state determined by the alarm options and input temperature. The alarm configurations are stored in non-volatile memory and loaded at power on
Alarm Input Modes:
    • Alarm when input temperature =T1,reset alarm when input temperature < T2
    • Alarm when input temperature =T1,reset alarm when input temperature>T2
    • Alarm when input temperature is T2
    • T1 and T2 may be independently set for each alarm
Alarm Error Modes:
    • Alarm on temperature reading only
    • Alarm on temperature reading or open thermocouple error
    • Alarm on thermocouple error only
Alarm Output Modes:
    • Disabled, digital I/O line may be used for normal operation
    • Enabled, active high output (DIO line goes high when alarm condition is met)
    • Enabled, active low output (DIO line goes low when alarm condition is met)
Alarm Latency: 1 second (Alarm settings are applied when changed and at power-ON. Temperatures are converted on enabled channels and processed for alarm conditions regardless of the communications connectivity)
COUNTER
Pin Name: CTR
Counter Type: Event counter
Number of Channels: 1
Input Type: Schmitt trigger, 47 kO pulldown to ground
Input Source: CTR screw terminalResolution: 32 bits
Schmitt Trigger Hysteresis: 0.6V min,1.7V max
Input High Voltage Threshold: 1.9Vmin, 3.6V max
Input High Voltage Limit: 5.5Vabsolute max
Input Low Voltage Threshold: 1.0Vmin, 2.3V max
Input Low Voltage Limit: -0.5Vabsolute min, 0V recommended min
Input Frequency: 10 MHz max
High Pulse Width: 50 ns min
Low Pulse Width 50 ns min
MEMORY
EEPROM: 4096 bytes
POWER
External Power Supply: 5V, 1A (via included AC adapter)
Supply Current (Quiescent Current): 177 mA typ (this is the total quiescent current requirement for the device that includes the LEDs and does not include any potential loading of the digital I/Obits or +VO terminal
User Output Voltage Range (Available at +VO Terminal): 4.40Vmin to 5.25V max, assumes suppliedAC adapter is used
User Output Current (Available at+VO Terminal): 10 mA max
NETWORK
Ethernet Connection Ethernet Type: 100 Base-TX,10 Base-T
Communication Rates: 10/100 Mbps,auto-negotiated
Connector: RJ-45, 8 position
Cable Length: 1 meter standard and up to 100 meters (328') max
Additional Parameters: HP auto-MDIXsupport
NETWORK INTERFACE
Protocols Used: TCP/IP (IPv4 only), UDP
Network Ports Used: UDP:54211(discovery), UDP:6234 (bootloader only), TCP:54211 (com¬mands)Network IP Configuration: DHCP + link local,DHCP, static, link-local
Network Name: E-TC-xxxxxx, where xxxxxx are the lower 6 digits of the device MAC address
Network Name Publication: By NBNS(responds to b-node broadcasts,therefore only available on the local subnet)
NETWORK FACTORY DEFAULT SETTINGS
Factory Default IP Address: 192.168.0.101
Factory Default Subnet Mask: 255.255.255.0
Factory Default Gateway: 192.168.0.1
Factory Default DHCP Setting: DHCP+ link-local enabled
NETWORK SECURITY
Security Implementation: TCPsockets are not opened unless application sends the correct PIN code(stored in non-volatile memory, may be changed by user, default value 0000)
Number of Concurrent Sessions: 1
Vulnerabilities: TCP sequence number approximation vulnerability
LED DISPLAYS AND THE FACTORY RESET BUTTON
Factory Reset Button: Used to reset the network configuration settings to the factory default values.
Power LED (Top) 4.2V < Vext <5.6V: On
Vext <4.2V, Vext >5.6V: Off (power fault)
Activity LED (Bottom): On when there is a valid host connection and blinks when a command is received
Ethernet Connector LEDs Left, Green: Link/activity indicator on when there is a valid Ethernet link and blinks when network activity is detected.
Right, Yellow: Speed indicator on for 100 Mbps, off for 10 Mbps or no link.
ENVIRONMENTAL
Operating Temperature Range: 0 to 55°C max (32 to 131°F)
Storage Temperature Range: -40 to 85°C max (-40 to 185°F)
Humidity: 0 to 90% RH non-condensing max
Screw Terminal Connectors Connector Type: Screw terminal
Wire Gauge Range: 16 to 30 AWG
MECHANICAL
Dimensions: 117.9 L × 82.8 W × 29.0 mm H(4.64 × 3.26 × 1.14")
Weight: 0.4 kg (0.88 lb)
loading all models
loading all reviews
Rated 4 out of 5 by from Good Hardware - Good Price - Software Not So Good The Omega hardware has proven itself to be reliable and well developed. I wish there was at least one more set of software support possibilities that would support their hardware better than the InstaCal/TracerDaqPro combination. The software is not user friendly. Depending on how you move thru the programs, you can easily lose data. It is very sensitive to the sequence that you add/change data that is pertinent to both applications. Lastly, the application restricts thermocouple support to 48 channels. There should be an alternative selection/or software that supports more than 48 channels.
Date published: 2019-04-08
Rated 1 out of 5 by from Works but label was rotated Same issue as the other 2 reviews: got an "open connection" error when trying to test the analog inputs, and when I rotated the connections 180 degrees the error went away. Very annoyed at Omega.
Date published: 2018-11-09
Rated 3 out of 5 by from Works but connector label is applied wrong I had the same experience as reviewer Clearw. However, I discovered the problem - the I/O label is rotated 180°. Just mentally rotate the label so that CH0H is at the front right and CH7L at the rear right when you look at the device from the end with the power connector. The attached photo shows the device hooked up to working thermocouples. As you can see, the TC wires are on the connector block on the right when you hold the power connector toward you. Once you do this, the device works fine, at least the TC inputs. Presumably the connector block on the left has the digital I/O etc. but I didn't check that out. The photo of the device on the Omega website actually shows the label affixed correctly - although I only discovered that after I had figured out the problem from other clues. (It did not make sense that the jumper for the digital PU/PD option was on the opposite side of the circuit board from the digital I/O, and when you look at the circuit board, the connections labeled for differing functions all appeared to have identical board topology, which is what you would expect for the TC inputs.) This should be embarrassing for Omega. They have had a month since Clearw posted his review and they haven't posted a correction. Their own photo on their website is different from the device I received, so somebody there has realized it but not told the service department.
Date published: 2018-09-08
Rated 1 out of 5 by from Engineer Did not work correctly right out of the package. "open connection" error messages.
Date published: 2018-08-06
  • y_2024, m_10, d_6, h_4
  • bvseo_bulk, prod_bvrr, vn_bulk_3.0.42
  • cp_1, bvpage1
  • co_hasreviews, tv_0, tr_4
  • loc_en_CA, sid_OM-NET-TC, prod, sort_[SortEntry(order=HELPFULNESS, direction=DESCENDING), SortEntry(order=POSITIVE_FEEDBACK, direction=DESCENDING), SortEntry(order=SUBMISSION_TIME, direction=DESCENDING)]
  • clientName_omega
  • bvseo_sdk, java_sdk, bvseo-4.0.0
  • CLOUD, getReviews, 3ms
  • REVIEWS, PRODUCT
loading all QA

Does the device log the data internally or can it be configured to provide a csv file to a destination on the network it is connected to?

Asked by: Matt76
Thank you for your question. The unit does not log data. It logs data on the PC and than manually converted to CSV file using supplied TRACERDAQ Software.
Answered by: Application Engineer PV
Date published: 2022-05-27

Is there a Universal Library programming guide document in addition to the examples?

Asked by: Zhendong
We do have a Universal Library Redistribution Guide you can reference, this is the link: https://assets.omega.com/manuals/M4829.pdf The OM-NET-TC is functionally equivalent to the OM-USB-TC. Universal library programs written for the OM-USB-TC can be run with the OM-NET-TC.
Answered by: DA Engineer
Date published: 2020-04-23

Does your company commission Measurement Computing Corporation to make the product?

Asked by: Zhendong
This device is private labeled for Omega Engr and will perform the same as MCC device.
Answered by: LPVDAS
Date published: 2020-09-23

Is the list of commands available for using a raw network socket?

Asked by: Kevin22
Thank you for your question. The only methods for communicating to the unit is to use higher level language libraries, Labview Drivers or provided Tracerdaq Software.
Answered by: Raptor
Date published: 2020-09-23

Do you provide some kind of API for software integration?

Asked by: Pablo D
Yes, we provide Programming API for C&reg;, C++&reg;, C#&reg;, Visual Basic&reg;, and Visual Basic&reg; .NET&trade; using Visual Studio&reg; and other IDEs.
Answered by: RAPTOR
Date published: 2020-09-23
  • y_2024, m_10, d_7, h_4CST
  • bvseo_bulk, prod_bvqa, vn_bulk_3.0.42
  • cp_1, bvpage1
  • co_hasquestionsanswers, tq_5
  • loc_en_CA, sid_OM-NET-TC, prod, sort_[SortEntry(order=NUM_ANSWERS, direction=DESCENDING)]
  • clientName_omega
  • bvseo_sdk, java_sdk, bvseo-4.0.0
  • CLOUD, getContent, 3ms
  • QUESTIONS, PRODUCT
en-CA
en
Save Configuration