Ethernet-Based Temperature, Voltage and Strain Measurement Modules |
| OMB-NET6000 Series |
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The OMB-NET6000 Series with Encore software combines
accurate, Ethernet-based DAQ modules with powerful, easy-to-use
software. OMB-NET6000 Series devices feature integrated signal
conditioning and a modular design with built-in channel expansion
capability expandable (by adding additional
OMB-NET6000 Series Modules). Because the OMB-NET6000 Series
uses an Ethernet connection, devices can be connected
directly to a PC or used in remote configurations utilizing multiple
devices. Devices are offered for voltage, thermocouple, or direct
strain inputs.
Each device includes 12 analog input channels. The OMB-NET6220 offers
12 voltage inputs, BNC connectors, 16-bit resolution, and a 100 kHz per
channel sample rate. The OMB-NET6222 is a 12-channel,
24-bit thermocouple input device. The OMB-NET6224 offers direct
strain gage inputs, 24-bit resolution, and a 50 kHz per channel sample rate.
The OMB-NET6230 and OMB-NET6231 are high-speed,
isolated voltage input devices. Each device also includes 8 digital
I/O channels. Included with each OMB-NET6000 Series device is new
Encore interactive measurement software. Encore combines an
intuitive user interface with robust functionality. It allows users to quickly
configure hardware, develop and customize data displays, analyze
data with built-in analysis tools, and provides the ability to develop
comprehensive test reports. Utilizing the connectivity of an
Ethernet based system, multiple OMB-NET6000 series devices can
be combined to build expandable, mixed signal systems. These
systems can be used in a central location, or in distributed or remote
configurations.
ANALOG INPUTS
OMB-NET6220
The OMB-NET6220 is equipped with 12 analog input channels with
a ±10V range. Each analog input provides 16-bit resolution with a
maximum 100 kHz per channel sample rate. All channels are
sampled simultaneously.
OMB-NET6222
The OMB-NET6222 is equipped with 12 thermocouple input channels.
Inputs are also equipped with a ±80 mV range. Each analog input
provides 24-bit resolution with a 2 S/s sample rate per channel. All
inputs are sampled simultaneously.
OMB-NET6224
DIRECT STRAIN GAGE INPUTS
The OMB-NET6224 is equipped with 12 analog input channels capable
of measuring full-, half-, or quarterbridge sensors. Each of the 12
analog channels has its own 24-bit ADC and input amplifier allowing
all 12 channels to be sampled simultaneously.
The OMB-NET6224 also includes anti-aliasing filters. All strain input
signals are attached via 12 RJ50 connectors mounted on the front of
the module. The OMB-NET6224 features direct strain gage inputs. Half or
full-bridge sensors are supported. Quarter-bridge sensors are also
supported using an external resistor. The OMB-NET6224 is also 100%
software programmable. Excitation, auto-zero, and shunt calibration are
each adjusted in software without relying on manually adjusted trimpots
which can cause increased error and drift. Excitation is provided by
the OMB-NET6224 and can be software selected for 2.5V, 3.3V, 5V,
or 10V. For excitation values beyond those listed, an external excitation
source may be used. Connectors are provided on the front of the unit for
excitation source wiring.
SHUNT CALIBRATION
Shunt calibration enables each channel to be put into a known
imbalance condition to set or verify channel calibration. Shuntcal allows
a full scale gain to be set without physically loading the bridge
to
capacity.
REMOTE SENSING
Remote sensing automatically and continuously corrects for voltage
drop errors in excitation leads.
SIGNAL CONNECTIONS
The 12 strain gage inputs on the OMB-NET6224 are accessed via
12 RJ50 front panel connectors.
12 user specified connector modules
are included with the OMB-NET6224.
FULL- AND HALF-BRIDGE
CONFIGURATIONS
The OMB-NET6224 supports full- and half-bridge configurations
directly. Users can connect to the RJ50 front panel connectors or use
the OMB-NET-CN-268 12-pin screw terminal break-out connector module.
QUARTER-BRIDGE
CONFIGURATIONS
For quarter-bridge configurations the OMB-NET-CN-269 and
OMB-NET-CN-270 feature 120 Ω and 350 Ω internal bridge
completion resistors respectively. The OMB-NET-CN-269 and
OMB-NET-CN-270 feature an RJ50 female connector one end and screw
terminals on the other. One module is required for each channel.
OMB-NET6230 and OMB-NET6231
The OMB-NET6230 is equipped with 12 analog input channels with
a ±10 V range. The OMB-NET6231 includes a ±60 V range. Each
analog input features a 24-bit ADC with a maximum 50 kHz sample
rate per channel. All channels are sampled simultaneously. The
OMB-NET6230 and OMB-NET6231 also include 250 Vrms
channel-to-channel isolation for increased signal integrity and protection.
DIGITAL I/O
OMB-NET6000 Series modules include eight digital I/O lines. All
eight lines are accessible via a 9-pin female DSUB connector located
on the rear panel of the unit. Each digital I/O bit can be programmed
individually to be either an input or an output.
COUNTERS
There are four 32-bit counters built into each OMB-NET6000 Series
module. They are accessed through the 9-pin female DSUB connector
located on the rear of the unit. Each counter has a maximum 20 MHz
input frequency and can be used in counter or encoder (A, B, and Z)
modes.
TRIGGERING
A variety of trigger modes are supported by the OMB-NET6000
Series. A wide selection of programmable analog and digital
trigger modes are available for starting an acquisition. All trigger
modes, along with the number of scans and the sample rate for preand
post-trigger data, are software programmable prior to the start of a
scan sequence.
SYSTEM POWER CONNECTION
The OMB-NET6000 Series modules
offer the flexibility to be powered
either directly from a 19 V to 30 VDC
source, or via the included
OMB-NET-TR-60U AC power adaptor.
ETHERNET FEATURES
The OMB-NET6000 Series transfers acquired data to the PC
via 10/100BaseT Ethernet, allowing a continuous stream of data
to be collected and stored in a PC’s memory or hard drive.
The most common and highest performance connection is with
dedicated, point-to-point Ethernet link between the PC and the
OMB-NET6000 Series module. With an enterprise-wide Ethernet network
connection, any number of OMB-NET6000 Series modules can
be connected to the network.
MULTI-UNIT SYNCHRONIZATION
Multiple OMB-NET6000 Series modules can be synchronized via the
rear-panel SYNC ports on each unit. After connecting each module to an
Ethernet port, simply connect multiple OMB-NET6000 Series modules
together using SYNC cables (OMB-CA-74-1). Encore software
provides the capability of setting one of the OMB-NET6000 Series
modules as the master and the others as slaves. The sampled data phase
relationship among channels between multiple devices is dependent on the
“Channel SYNC Skew” specification for each device.
ENCORE SOFTWARE Overview
Encore is a premier data acquisition software package and is included
with each OMB-NET6000 Series module. Encore combines ease of
use with advanced functionality, including customizable data layouts,
powerful analysis, and reporting capabilities. Instead of having a
program to log data, another to analyze, and a third to develop
report data, Encore includes the functionality of all three into one
package, thus shortening the learning curve, and saving time and cost.
CONFIGURATION
Easy-to-use set-up wizards provide rapid hardware configuration.
Encore allows you to go from setup to taking measurements in minutes.
Users can select one or more available devices from Encore’s
Hardware Configuration dialog. Encore allows you to configure
the basic acquisition or generation options, such as channel selection,
acquisition rate, number of points, and input range. You can also
configure start and stop triggers. In addition, within the Channel View
table, users can enable (or disable) channels, select measurement
type, enable logging, perform mx+b calculation, and more. Channel
View configurations can also be shared among multiple projects.
MEASUREMENT
Encore allows you to develop data displays quickly with an intuitive,
drag-and-drop interface. Encore also offers the ability to easily
change plot colors, overlay channels (including previously recorded data),
and access multiple devices. You can also display data in a variety
of ways including; charts and graphs, meters, gauges, and tanks.
Additionally, you can export data to other formats including Excel, ASCII
and DIAdem.
TRIGGERING
A variety of programmable analog and digital trigger conditions are
available for starting and stopping an acquisition within Encore. Analog
triggers include Rising Edge, Falling Edge (with hysteresis), Above Level,
Below Level, Inside Window, and Outside Window. Digital triggers
include Rising Edge, Falling Edge, Level High, or Level Low. In
addition, the Duration trigger may used to stop an acquisition after a
specified time.
ANALYSIS
Included analysis options make Encore an advanced software
package. Features include FFT, power spectrum, statistics, peak
value, and RMS calculation. In addition, you can also create custom
formulas using Encore’s Create Calculated Signal function. Data can
also be viewed in the playback work area. Analysis can be computed on
live data as well as logged data (post processing).
ANALYSIS OPTIONS INCLUDE:
• Statistics: Standard Deviation, Mean, and Variance
• Peak: +Peak, -Peak, and Peak-Peak
• RMS
• DC
• FFT
• Power Spectrum
• Minimum
• Maximum
EXPORT TO EXCEL®
Signals can be exported from Encore to Microsoft Excel. When exporting
signals from Encore to Microsoft Excel, the following information is
exported:
• Signal name
• Export date and time
• Signal units
• Data values
Encore offers sophisticated, builtin test reporting capability which
provides the ability to present data in a professional manner. With
Encore’s test report capability, users can easily develop in-depth test
reports. Within Encore’s Project Report tab users can drag signals
from the application directly into the report and then enter text, change
fonts, import images and print or export reports. Once the report is
complete, you even have the ability to acquire new data and easily
update any previous report, without re-creating the report. The report can
be edited throughout the life of the project.
ENCORE SOFTWARE FEATURES
Refer to PDF for detail information on the Encore Software Features.
SPECIFICATIONS
ANALOG INPUTS
OMB-NET6220 Voltage Input Module
Number of Analog Channels: 12
ADC Resolution: 16-bits
Type of ADC: Successive approximation register (SAR)
Input Range: ±10.0V nominal; overflow will occur
if | Vin |
≥ (10.2V to 10.6V)
Sampling Mode: Simultaneous
Data Rates (fs): 1 S/s to 100 kS/s (16 selectable rates)
Multiple Device, Channel Sync Skew: 10 µs
Single Device, Channel-to-Channel Matching
(Calibrated):
100 ns typical
Overvoltage Protection: ±30V
Gain Error (% of Rdg)/Offset Error: Calibrated,
max (-40 to 50°C);
0.2%/±8.5 mV: calibrated, typ (25°C,
±5°C); 0.02%/±1.4 mV
STABILITY
Gain Drift: 10 ppm/°C
Offset Drift: 60 µV/°C
CMRR (fin=60 Hz): -73 dB min
Input Bandwidth (-3 dB): 420 kHz min
INPUT IMPEDANCE
Resistance Between any Two AI-Terminals: 200 kΩ
Input Bias Current: 10 nA
INPUT NOISE
RMS: 1.2 LSB
Peak-to-Peak: 7 LSB
Crosstalk: -80 dB
SETTLING TIME [to 2 LSBs]
10V Step: 25 µs
20V Step: 35 µs
OMB-NET6222 THERMOCOUPLE INPUT MODULE
Number of Channels:
12 thermocouple channels;
3 internal cold-junction
compensation channels
ADC Resolution: 24-bits
Type of ADC: Delta-Sigma
Voltage Measurement Range: ±80 mV
Common-Mode Range
Channel-to-COM: ±1.5V
Common-to-Earth Ground: ±250V
Common-Mode Rejection Ratio (0 to 60 Hz)
Channel-to-COM: 95 dB
Common-to-Earth Ground: >170 dB
OMB-NET6222 Thermocouple Types and Ranges
Refer to PDF for detail information on the Thermocouple Types and Ranges.
Cold-Junction Compensation Accuracy
(using provided connectors and properly installed backshells):
0 to 50°C: 0.6°C (1.1°F) typ, 1.3°C (2.3°F) max;
-40 to 50°C: 1.7°C (3.1°F) max
Data Rate (fs): 2 S/s
Input Bandwidth (-3 dB): 15 Hz
Noise Rejection: 85 dB min at 50/60 Hz
Overvoltage Protection: ±30V between any input and common
Differential Input Impedance: 20 MΩ
Input Current: 50 nA
Input Noise: 1 µVrms
Gain Error (using provided connectors and properly installed
backshells):
0.05% max at 25°C (77°F), 0.06% typical at -40 to 50°C,
0.1% max at -40 to 50°C (-40 to 122°F)
Offset Error (using provided connectors and properly installed
backshells):
15 µV typ, 20 µV max
Gain Error from Source
Impedance: 0.05 ppm per Ω source
impedance due to input impedance
Offset Error from Source Impedance: 0.05 µV typ, 0.07 µV
max per Ω source
impedance due to input current
Safety Voltage (Channel-to-COM): ±30V max
Isolation (Channel-to-Channel):
Within each four channel internal module, no isolation between
channels;
between each four channel internal module, 250V isolation
OMB-NET-6224
STRAIN MEASUREMENT MODULE
Number of Analog Channels: 12
Bridge Completion
Full and Half: Internal
Quarter: External
ADC Resolution: 24-bits
Type of ADC: Delta-sigma (with analog pre-filtering)
Sampling Mode: Simultaneous
Data Rates (fs): (50 kS/s)/n, n = 1, 2 to 31
Multiple Device, Channel SYNC
Skew: 1 sample period
Single Device, Channel-to-Channel Matching
(Calibrated): 350 nS (max)
Master Timebase (Internal)
Frequency: 12.8 MHz
Accuracy: ±100 ppm max
Nominal Full-Scale Range: ±25 mV/V
Scaling Coefficient: 2.9802 nV/V per LSB
Overvoltage Protection Between any Two Terminals: ±30V
Accuracy (Excluding Offset Null or Shunt Calibration):
Calibrated max [-40 to 50°C (-40 to 122°F)], 0.20% of
rdg, 0.0625 mV/V offset;
Calibrated typical (25°C, ±15°C), 0.05% of rdg,
0.0125 mV/V offset
Gain Drift: 10 ppm/°C max
Offset Drift
2.5V Excitation: 0.6 µV/V per °C
3.3V Excitation: 0.5 µV/V per °C
5V Excitation: 0.3 µV/V per °C
Excitation: 0.2 uV/V per °C
Channel-to-Channel Matching (Calibrated):
0 to 1 kHz, 0.15% gain typical, 0.3% gain maximum; 1 to 20 kHz,
0.4% gain typical, 1.1% gain maximum
Common-Mode Voltage
All Signals to Earth Ground: ±60 Vdc
Common-Mode Rejection Ratio (CMRR)
Relative to Earth Ground Measured with a Balanced
Cable):
-140 dB @ 0 to 60 Hz
Relative to EX–: -85 dB @ 0 to 1 kHz
Excitation Noise: 0.1 mV/Vrms
Crosstalk
1 kHz: -110 dB
10 kHz: -100 dB
Shunt Calibration
Resistance: 100 kΩ
Resistor Accuracy: 25°C (77°F): ±110 Ω, -40 to 50C
(-40 to 122°F): ±200 Ω
Excitation
Internal Voltage: 2.5V, 3.3V, 5.0V, 10.0V
Internal Power: 450 mW max
External Voltage: 2 to 10V
OMB-NET6230, OMB-NET6231
HIGH SPEED ISOLATED VOLTAGE INPUT MODULES
Number of Analog Channels: 12
ADC Resolution: 24-bits
Type of ADC: Delta-Sigma (with analog pre-filtering)
Sampling Mode: Simultaneous
Data Rate Range (fs)
Minimum: 1.613 kS/s
Maximum: 50 kS/s
Data Rates (fs): (50 kS/s)/n, n = 1, 2 to 31
Multiple Device, Channel Sync Skew: Sample period
Single Device, Channel-to-Channel Matching (Calibrated)
OMB-NET6230: 208 nS (max)
OMB-NET6231: 125 nS (max)
Master Timebase (Internal)
Frequency: 12.8 MHz
Accuracy: ±100 ppm max
Operating Voltage Range:
OMB-NET6230: ±10 Vdc nominal,
±10.52 Vdc typical ±10.3 Vdc min
OMB-NET6231: ±60 Vdc nominal,
±62.64 Vdc typical, ±61.5 Vdc min
Overvoltage Protection: ±100V
Input Coupling: DC
Input Impedance (AI+ to AI-): 1 MΩ
Accuracy (OMB-NET6230 Typical Range ±10.52 Vdc):
Calibrated max (-40 to 50°C), 0.13% of rdg, ±6.31 mV offset;
calibrated typical (25°C, ±5°C), 0.03% of rdg, ±842 µV offset
Accuracy (OMB-NET6231 Typical Range ±62.64 Vdc):
Calibrated
max (-40 to 50°C), 0.13% of rdg, ±31.3 mV offset;
calibrated typical
(25°C, ±5°C), 0.03% of rdg, ±5.01 mV offset
Input Noise
OMB-NET6230: 70 µVrms
OMB-NET6231: 320 µVrms
Stability
Gain Drift: ±5ppm/°C
Offset Drift
OM-NET6230: ±24 µV/°C
OM-NET6231: ±150 µV/°C
Post Calibration Gain Match (Ch-to-Ch, 20 kHz): 0.22 dB max
Crosstalk (1 kHz): -130 dB
CMRR (fin = 60 Hz)
OMB-NET6230: 126 dB
OMB-NET6231: 116 dB
Isolation: Channel-to-earth ground (continuous);
250 Vrms: channel-to-channel, (continuous); 250 Vrms
DIGITAL I/O
Channels: 8 digital I/O, programmable as a single port, or as
individual lines
Power-Up Mode: Inputs pulled low
Connector: DB-9 female
Programmable Input Scanning Modes
Asynchronous: Under program control at any time relative to
analog scanning
Synchronous: Data captured synchronously with the analog
channels
Input Levels
Low: 0 to 0.8V
High: 2.0 V to 5.0V
Input Voltage Range without Damage:
-0.6V to 5.6V max
Input Pull-Down Resistor: 10 kΩ
Output Voltage Range: 0 to 3V
(may be externally pulled up to 5.6V without damage)
Output Resistance: 40 Ω
Output Levels:
Refer to OMB-NET6000 Series Digital Output graph
Sampling: 1 MHz max continuous
Output Timing: Outputs are always written asynchronously
COUNTERS
Channels: Up to 4 independent
Resolution: 32-bit
Input Frequency: 20 MHz max
Input Characteristics: 10 kΩ pulldown
Trigger Level: TTL
Minimum Pulse Width: 25 ns high, 25 ns low
Programmable Modes: Counter, encoder
Encoder Resolution: x1 (default), x2, and x4
Encoder Sources: There are 3 encoder sources (A, B, and Z)
that be assigned to any digital pin x
Counter Source: Internal clock, timer 1, timer 2, and digital pin x;
one source can be used in multiple counters
Counter Mode Options: Totalize, clear on read, rollover, stop at the
top,
increment, decrement, rising edge, falling edge
Counter Gate Options: Unused, internal clock, timer 1, timer 2,
and
digital pin x; one gate can be used in multiple counters
GENERAL
Operating Ambient: -40 to 50°C (-40 to 122°F),
10 to 90% RH
non-condensing
Storage: -40 to 75°C (-40 to 167°F), 5 to 95% RH
Ingress Protection: IP 40
Power Consumption:
OMB-NET6220, OMB-NET-6230, OMB-NET6231:
5.5 W typical, 6 W max;
OMB-NET6222: 4.1 W max;
OMB-NET6224; 6.3 W typ, 6.6 W max
Dimensions:
30.5 H x 276.9 W x 169.8 mm D
(1.2 x 10.9 x 6.7")
Weight:
OMB-NET-6220: 1.36 Kg (3 lbs);
OMB-NET-6222: 1.22 Kg (2.7 lbs);
OMB-NET6224: 1.3 Kg (2.88 lbs);
OMB-NET6230 and OMB-NET6231: 1.24 Kg (2.7 lbs)
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† Price are shown in RMB.
Note: OMB-NET6000 Series USA versions include OMB-NET-TR-60U universal power supply and OMB-CA-1 cable. European versions include the OMB-NET-TR-60U universal power supply and OMB-CA-216 cable. All models include the Encore software and user manual on CD.
Accessories and Cables:
Note 1: Up to nine units can be synchronized.
The total length of the SYNC cable is not to exceed 2.438 m (8').
Note 2: Ethernet cable length must be <3 m (9.8') in order for the system to be CE compliant.
Note 3: Ethernet crossover cables should only be used for direct network connections. In particular, attempting to connect a device to a Hub using a crossover cable may prevent that network link from functioning. Some modern routers have become an exception by including logic to detect the crossover cable and allow the network to function.
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Related Links -
Manual, Related Products
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Product Manual
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Download
OMB-NET6230/OMB-NET6231 - 12 Channel Ethernet Based Thermocouple Input Module
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Download
OMB-NET6224 - 12 Channel Ethernet Based Strain Gauge Input Module
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Download
OMB-NET6222 - 12 Channel Ethernet Based Thermocouple Input Module
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Download
OMB-NET6220 - 12 Channel Ethernet Based Voltage Input Module
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Download
OMB-NET6000 Series - Encore Software
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Related Products
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