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Product short description:
  • Bluetooth® wireless configuration option
  • Thermocouple field input
  • Voltage host output

Field Input: T/C type J, K, T, R, E, S
Host Output: 0-5V or ±5V ranges

Click here to watch a short AcroMaggie video highlighting the features of the microBlox® Series.

[DISPLAY_ULTIMATE_PLUS]

Field Input: T/C type J, K, T, R, E, S
Host Output: 0-5V or ±5V ranges

Acromag’s microBlox® uB Series I/O modules offer a compact, high-performance solution for interfacing sensors and field devices with data acquisition systems. uB signal conditioning modules are ideal to isolate, filter, convert and amplify a wide variety of signal types for test, measurement and control systems. Just plug uB modules into 4, 8, or 16-channel backpanels in any mix for a high-density analog I/O interface. Channel-to-channel isolation provides optimal noise and surge protection from ground loops, spikes, and high common mode voltages.

The uB37 and uB47 models condition and convert low-level input voltages from field thermocouple sensors to a scaled 0-5V or ±5V output. On uB37 models, output is linear with thermocouple voltage, while uB47 output is linear with thermocouple temperature. Both models have up/downscale sensor-break detection. Cold junction compensation is performed on the backpanel.

Bluetooth® wireless technology versions enable configuration using a smart phone or tablet. Acromag’s Agility™ app, available for Android™ and iOS® mobile devices, helps you vary input/output ranges and scaling to your specific application. The Agility app can also set an alarm output function with a setpoint limit and deadband. Other app functions include polling inputs, trending values in a shareable chart, updating calibration, and diagnostic troubleshooting.

Backpanels provide power, I/O wiring terminals, and host access to an industry-standard analog signal bus. Modules are hot-swappable without screws. Data acquisition boards can access all host I/O signals on the DB25 bus connector.

Performance Specifications

See Backpanels for additional system specifications.

Field Input

Field Range:
Fixed ranges: TC type per range model
User-configurable -B models: TC type/range
Resolution: 16-bit ADC. Varies by model & calibration from 1/5878 to 1/36118 (see manual).
Resistance: 100MΩ
Lead Break Detection: -B model: Upscale, or selectable upscale/downscale.
Input Sample Rate: 40sps
Normal Mode (Bandwidth): 3dB at 5Hz, typical
Common Mode Rejection: 130dB typical, 50-60Hz

Host Output

Host Range: Fixed ranges: 0-5V. User-configurable -B models: ±5V
Resolution:
16-bit DAC. 0-5V: 1/26305
±5V: 1/52610
Current Drive: 5V into 1KΩ minimum or 5mA maximum
Response Time: Output Step 0-98% in 300ms typical

General

Power Consumption: 0.25W maximum, 50mA from +5V maximum
I/O Resolution:
Varies by range. See manual for details.
Accuracy/Non-Linearity:
Better than ±0.1%. 0.05% typical for full range. (See manual for accuracy details on narrow ranges.)
Cold Junction Compensation:
Better than ±2°C, typical
Noise:
Better than 0.03% of span p-p rms
Ambient Effect:
Better than ±80ppm/°C
Dimensions:
Height: 1.380” with connectors, 0.970” without
Width: 0.425”
Length: 1.425”

Environmental

Operating Temperature: -40 to 80°C (-40° to 176°F)
Storage Temperature: -40 to 85°C (-40° to 185°F)
Relative Humidity: 0 to 95% non-condensing
Power Requirement: 5V powered. 10-32V power optional (requires uBDC1 power module & backpanel)
Safety Isolation:
Field channels are individually isolated field channel-to-field channel and from the field to the host I/O bus (as a group including 5V power) for common-mode voltages up to 250V AC, or 354V DC off DC power ground, on a continuous basis (will withstand 1500VAC HIPOT/dielectric strength test for one minute without breakdown). ANSI/ISA-82.01-1988.
Shock and Vibration Immunity
Conforms to:
IEC 60068-2-6: 10-500 Hz, 4G, 2 hours/axis, for
sinusoidal vibration.
IEC 60068-2-64: 10-500 Hz, 4G-rms, 2 hours/axis , for random vibration.
EC 60068-2-27: 25G, 11ms half-sine, 18 shocks at 6 orientations, for mechanical shock.
Electromagnetic Compatibility (EMC) Compliance:
Minimum immunity per BS EN 61000-6-1 (2007):
CE marked, per EMC Directive 2004/108/EC. Electrostatic Discharge Immunity (ESD), per IEC 61000-4-2
Radiated Field Immunity (RFI), per IEC 61000-4-4
Electrical Fast Transient Immunity (EFT), per IEC 61000-4-4
Surge Immunity, per IEC 61000-4-5. Conducted RF Immunity (CRFI), per IEC 61000-4-6
Emissions:
Class B product with emissions per BS EN 61000-6-3 (2007+A1:2011): enclosure port, per CISPR 16
Low voltage AC mains port, per CISPR 16
Approvals:
CE compliant. RoHS Compliant.
UL/cUL Class 1, Division 2, Groups ABCD.
ATEX Zone 2.

  • Wide variety of input and output ranges
  • Mixes with different I/O types on compact 4, 8, or 16 channel back panels
  • Select fixed I/O range models or Bluetooth wireless technology user-configurable models
  • Android® and iOS® apps simplify wireless configuration with a smartphone or tablet
  • Mobile app configures I/O ranges, sets scaling, calibrates and performs diagnostics
  • Optional alarm function with set-point and dead band control driving 0/5V host output
  • Poll and trend I/O values to shareable charts
  • High accuracy, noise immunity, and stability
  • Isolated field-to-host and channel-to-channel (1500Vac peak, 250Vac/354Vdc continuous)
  • Over-molded I/O circuits offer superior shock, vibration, moisture, and dust protection.
  • Wide operating temperature range
  • UL/cUL Class I, Div 2, ABCD and ATEX Zone 2 hazardous location approvals
The Bluetooth® word mark and logos are registered trademarks owned by the Bluetooth SIG, Inc. and any use of such marks by Acromag is under license other trademarks are property of their respective owners.
How to Use Signal Conditioners with Built-in Data Logging Application Note
Defining the Problem: A manufacturer of sensors and electrical controls does burn-in testing for troubleshooting purposes. A test system that can operate with either an Android® or iOS® mobile device is preferred. System Requirements: The application requires a product that can monitor a variety of signals, provide analog or limit alarm outputs and have data...
How to Measure Voltage of Multiple Cascaded Cells Application Note
Defining the Problem: A proper method is needed to measure each cell voltage within a series of cells and withstand high nominal or open circuit voltages. The maximum series voltage is greater than the common-mode range of the connected instruments. This requires isolated floating inputs to measure each cell voltage. Channel-to-channel isolation will extend the...
How to use Thermocouple Transmitters to Monitor Temperatures in Paint Systems Application Note
This document illustrates using Acromag’s TT330 Series to monitor high temperatures in an automotive paint curing oven and transmit to the existing PLC 4-20mA input card/software setup. Defining the Problem The area around an auto manufacturer’s paint curing ovens is at elevated temperatures affecting the performance of locally installed instrumentation. Placing Signal Conditioners rated for...
Minimizing Measurement Errors When Making Thermocouple to Transmitter Connections White Paper (Log in to view the file)
How To Prevent Temperature Measurement Errors It will give you a keen understanding of the three basic laws of thermocouples: Homogeneous materials, Intermediate Metals, and Successive/Intermediate Temperatures. It is helpful in weeding out potential sources of error in a thermocouple measurement system.
Temperature Measurement Using Thermocouples White Paper (Log in to view the file)
The Basics of Temperature Measurement Using Thermocouples Choosing a temperature sensor for an application is not as simple as picking a thermocouple type with a compatible temperature range. You must give consideration to the sensor material type, the application temperature range, the relative sensitivity of the sensor, the limitations of its insulation material, and its...

Manuals

uB37 and uB47 User Manual (Log in to download the file)

microBlox Reconfiguration User Manual (Log in to download the file)

microBlox Series Overview User Manual (Log in to download the file)

Agility™ Config Tool (Wireless) (Log in to download the file)
microBlox® multiLogger Mobile App (Log in to download the file)
  • Compare

    Agility™ Config Tool (Wireless)

    • Wireless Agility™ Config Tool mobile application
    • For Acromag microBlox I/O Modules and Limit Alarms
    • Download available on Google Play and iTunes for free
    • Download Windows configuration software from the software tab below
    Read more
  • Compare

    microBlox® multiLogger Data Logging Mobile App

    The Acromag microBlox® multiLogger collects data from one or more uB series data acquisition modules. With this data logger app, you can:
    • Log data from up to 14 microBlox signal conditioning devices simultaneously.
    • Scale inputs in custom engineering units to correspond with the native output range.
    • View real-time data or trend charts for quick field diagnostics and easy troubleshooting.
    • Save data logs and share via email or iCloud.
    • Download on iTunes. (Android version coming soon)
    Watch this short video to learn more about how the multiLogger works.
    Read more
  • Compare

    uB04, uB08, uB16: Back Panels

    • uB module carriers
    • 4, 8, or 16 channel versions
    • DIN-rail option
    • CJC sensor
    The microBlox® uB Series I/O modules offer a compact, high-performance solution for interfacing sensors and field devices with data acquisition systems. uB signal conditioning modules are ideal to isolate, filter, convert and amplify a wide variety of signal types for test, measurement and control systems. Just plug uB modules into 4, 8, or 16-channel back panels in any mix for a high-density analog I/O interface. Click here to watch a short AcroMaggie video highlighting the features of the microBlox Series.
    $165$450
    Select options
  • Compare

    uBDC1: DC Power Module

    • Wide-Range DC Voltage Input
    • 5V/1A DC Output to Backpanel
    • Supports Redundant Power
    The uBDC1 power module allows a backpanel populated with I/O modules to operate off DC power voltage levels other than 5V. This optional module plugs into a special socket on the backpanel to convert a power supply voltage from 10-32V DC to 5V/1A which will drive up to 16 I/O modules. uBDC1 modules include over-voltage, reverse-voltage and short-circuit protection (current limiting). Click here to watch a short AcroMaggie video highlighting the features of the microBlox® Series.  
    $55
    Select options

Additional information

Weight N/A
Dimensions N/A
Part Number

uBDC1: microBlox uB Non-Isolated Power Supply

Product Series

microBlox Series

  • Description

    Acromag’s microBlox® uB Series I/O modules offer a compact, high-performance solution for interfacing sensors and field devices with data acquisition systems. uB signal conditioning modules are ideal to isolate, filter, convert and amplify a wide variety of signal types for test, measurement and control systems. Just plug uB modules into 4, 8, or 16-channel backpanels in any mix for a high-density analog I/O interface. Channel-to-channel isolation provides optimal noise and surge protection from ground loops, spikes, and high common mode voltages.

    The uBDC1 power module allows a backpanel populated with I/O modules to operate off DC power voltage levels other than 5V. This optional module plugs into a special socket on the backpanel to convert a power supply voltage from 10-32V DC to 5V/1A which will drive up to 16 I/O modules. uBDC1 modules include over-voltage, reverse-voltage and short-circuit protection (current limiting).

    With the uBDC1 power module, users can also implement redundant power methods for the backpanel. In redundant applications, the uBDC1 becomes the primary power source.

    Performance Specifications

    See Backpanels for additional system specifications.

    General

    Dimensions:
    Height: 1.380” with connectors. 0.970” without
    Width: 0.425”
    Length: 1.425”
    Input: 10-32V DC
    Output Voltage: 5V DC ±5% (4.7V to 5.3V range)
    Output Current: 1A (1.25A absolute maximum)
    Efficiency: 90% typical
    Output Ripple: Less than 150mVp-p, typical
    Response Time: Less than 15ms typical
    Over-Voltage Protection: TVS in module plus additional TVS protection provided on backpanel
    Current-Limiting: Built-In, plus additional limiting provided on backpanel
    Reverse-Voltage Protection: Built-In, plus additional protection provided on backpanel
    Filtering: Transient voltage suppression, capacitors, & common-mode I/O filtering
    Line Regulation: Less than 0.005% 10-32V, 1A, typical
    Load Regulation: Less than 4%, 0.05A to 1A, typical

    Environmental

    Operating Temperature: -40 to 80°C (-40° to 176°F)
    Ambient Operating Temperature: -40°C to +80°C, no deration
    Storage Temperature: -40 to 85°C (-40° to 185°F)
    Relative Humidity: 0 to 95% non-condensing
    Isolation:
    Non-isolated
    Power is common to host-side of I/O
    Shock and Vibration Immunity:
    Conforms to:
    IEC 60068-2-6: 10-500 Hz, 4G, 2 hours/axis, for sinusoidal vibration.
    IEC 60068-2-64: 10-500 Hz, 4G-rms, 2 hours/axis , for random vibration.
    EC 60068-2-27: 25G, 11ms half-sine, 18 shocks at 6 orientations, for mechanical shock.
    Electromagnetic Compatibility (EMC) Compliance:
    Minimum immunity per BS EN 61000-6-1 (2007):
    CE marked, per EMC Directive 2004/108/EC. Electrostatic Discharge Immunity (ESD), per IEC 61000-4-2.
    Radiated Field Immunity (RFI), per IEC 61000-4-4
    Electrical Fast Transient Immunity (EFT), per IEC 61000-4-4
    Surge Immunity, per IEC 61000-4-5
    Conducted RF Immunity (CRFI), per IEC 61000-4-6
    Emissions:
    Class B product with emissions per BS EN 61000-6-3 (2007+A1:2011): enclosure port, per CISPR 16
    Low voltage AC mains port, per CISPR 16
    Approvals:
    CE compliant. RoHS Compliant.
    UL/cUL Class 1, Division 2, Groups ABCD.
    ATEX Zone 2.

  • Features & Benefits

    • Wide variety of input and output ranges
    • Mixes with different I/O types on compact 4, 8, or 16 channel back panels
    • Select fixed I/O range models or Bluetooth wireless technology user-configurable models
    • Android® and iOS® apps simplify wireless configuration with a smartphone or tablet
    • Mobile app configures I/O ranges, sets scaling, calibrates and performs diagnostics
    • Optional alarm function with set-point and dead band control driving 0/5V host output
    • Poll and trend I/O values to shareable charts
    • High accuracy, noise immunity, and stability
    • Isolated field-to-host and channel-to-channel (1500Vac peak, 250Vac/354Vdc continuous)
    • Over-molded I/O circuits offer superior shock, vibration, moisture, and dust protection.
    • Wide operating temperature range
    • UL/cUL Class I, Div 2, ABCD and ATEX Zone 2 hazardous location approvals
    The Bluetooth® word mark and logos are registered trademarks owned by the Bluetooth SIG, Inc. and any use of such marks by Acromag is under license other trademarks are property of their respective owners.
  • Tech Papers

    How to Use Signal Conditioners with Built-in Data Logging Application Note
    Defining the Problem: A manufacturer of sensors and electrical controls does burn-in testing for troubleshooting purposes. A test system that can operate with either an Android® or iOS® mobile device is preferred. System Requirements: The application requires a product that can monitor a variety of signals, provide analog or limit alarm outputs and have data...
    How to Measure Voltage of Multiple Cascaded Cells Application Note
    Defining the Problem: A proper method is needed to measure each cell voltage within a series of cells and withstand high nominal or open circuit voltages. The maximum series voltage is greater than the common-mode range of the connected instruments. This requires isolated floating inputs to measure each cell voltage. Channel-to-channel isolation will extend the...
    How to use Thermocouple Transmitters to Monitor Temperatures in Paint Systems Application Note
    This document illustrates using Acromag’s TT330 Series to monitor high temperatures in an automotive paint curing oven and transmit to the existing PLC 4-20mA input card/software setup. Defining the Problem The area around an auto manufacturer’s paint curing ovens is at elevated temperatures affecting the performance of locally installed instrumentation. Placing Signal Conditioners rated for...
    Minimizing Measurement Errors When Making Thermocouple to Transmitter Connections White Paper (Log in to view the file)
    How To Prevent Temperature Measurement Errors It will give you a keen understanding of the three basic laws of thermocouples: Homogeneous materials, Intermediate Metals, and Successive/Intermediate Temperatures. It is helpful in weeding out potential sources of error in a thermocouple measurement system.
    Temperature Measurement Using Thermocouples White Paper (Log in to view the file)
    The Basics of Temperature Measurement Using Thermocouples Choosing a temperature sensor for an application is not as simple as picking a thermocouple type with a compatible temperature range. You must give consideration to the sensor material type, the application temperature range, the relative sensitivity of the sensor, the limitations of its insulation material, and its...
  • Specs & Data Sheets

    Manuals

    uB37 and uB47 User Manual (Log in to download the file)

    microBlox Reconfiguration User Manual (Log in to download the file)

    microBlox Series Overview User Manual (Log in to download the file)

  • Software

    Agility™ Config Tool (Wireless) (Log in to download the file)
    microBlox® multiLogger Mobile App (Log in to download the file)
  • Accessories

    • Compare

      Agility™ Config Tool (Wireless)

      • Wireless Agility™ Config Tool mobile application
      • For Acromag microBlox I/O Modules and Limit Alarms
      • Download available on Google Play and iTunes for free
      • Download Windows configuration software from the software tab below
      Read more
    • Compare

      microBlox® multiLogger Data Logging Mobile App

      The Acromag microBlox® multiLogger collects data from one or more uB series data acquisition modules. With this data logger app, you can:
      • Log data from up to 14 microBlox signal conditioning devices simultaneously.
      • Scale inputs in custom engineering units to correspond with the native output range.
      • View real-time data or trend charts for quick field diagnostics and easy troubleshooting.
      • Save data logs and share via email or iCloud.
      • Download on iTunes. (Android version coming soon)
      Watch this short video to learn more about how the multiLogger works.
      Read more
    • Compare

      uB04, uB08, uB16: Back Panels

      • uB module carriers
      • 4, 8, or 16 channel versions
      • DIN-rail option
      • CJC sensor
      The microBlox® uB Series I/O modules offer a compact, high-performance solution for interfacing sensors and field devices with data acquisition systems. uB signal conditioning modules are ideal to isolate, filter, convert and amplify a wide variety of signal types for test, measurement and control systems. Just plug uB modules into 4, 8, or 16-channel back panels in any mix for a high-density analog I/O interface. Click here to watch a short AcroMaggie video highlighting the features of the microBlox Series.
      $165$450
      Select options
    • Compare

      uBDC1: DC Power Module

      • Wide-Range DC Voltage Input
      • 5V/1A DC Output to Backpanel
      • Supports Redundant Power
      The uBDC1 power module allows a backpanel populated with I/O modules to operate off DC power voltage levels other than 5V. This optional module plugs into a special socket on the backpanel to convert a power supply voltage from 10-32V DC to 5V/1A which will drive up to 16 I/O modules. uBDC1 modules include over-voltage, reverse-voltage and short-circuit protection (current limiting). Click here to watch a short AcroMaggie video highlighting the features of the microBlox® Series.  
      $55
      Select options
  • Additional information

    Additional information

    Weight N/A
    Dimensions N/A
    Part Number

    uBDC1: microBlox uB Non-Isolated Power Supply

    Product Series

    microBlox Series