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Allen-Bradley 1440-TPS02-01RB XM-320 Position Measurement Module

Configured for Specific Technical Task in System/Network Name, the Allen-Bradley 1440-TPS02-01RB (1440-TPS02-01RB Position Measurement Module) provides direct physical/electrical execution. This hardware processes dual-channel AC-LVDT sensor inputs to execute real-time linear displacement monitoring, including axial thrust position, casing expansion, differential expansion, and valve positioning across rotating machinery platforms.

Hardware Specifications

Parameter Specification
Model 1440-TPS02-01RB
Brand Allen-Bradley / Rockwell Automation
Origin USA
Weight 0.26 kg (0.56 lbs)
Dimensions 97 mm x 94 mm x 94 mm
Operating Temp -20 to +65 deg C
Power Consumption 24 VDC nominal / 200 mA current draw / 5.28 W maximum
Channels 2 independent AC-LVDT input channels
Analog Outputs 2 channels, 4-20 mA linear output
Relay Outputs 1 DPDT control relay output for alarm/shutdown execution
Networks DeviceNet communication network, RS-232 serial port
Mounting Architecture 1440-TB-B terminal base mounting configuration

Deterministic Network Architecture and High-Density Scaling

The position measurement module interfaces directly with integrated automation topologies via DeviceNet and RS-232 serial physical layers. Internal logic operations maintain deterministic networks parameters to transmit digitized position metrics across the backplane bus communication velocity framework without data phase lag. The hardware features specific I/O density scaling options through its modular terminal base architecture, allowing parallel distribution of the 4-20 mA analog feedback loops to secondary process control systems. Firmware flash compatibility protocols guarantee that internal diagnostic registers and self-test execution structures sync natively with overarching plant asset management software profiles.

Frequently Asked Questions

Q: How does the module handle a loss of backplane bus communication velocity on the DeviceNet network?

A: The onboard DPDT control relay operates independently of the digital network communication status. If a DeviceNet bus failure occurs, the internal logic executes pre-configured fail-safe state actions based on local hardware thresholds derived from the direct AC-LVDT physical inputs.

Q: Can the 1440-TPS02-01RB module be removed from the terminal base under live operating voltage?

A: Removal under power is restricted unless the local atmosphere is verified to be free of volatile gas concentrations. Disconnecting the module interrupts the 4-20 mA feedback loops and causes an immediate open circuit on the DPDT relay contact path, which can trigger an uncommanded machinery shutdown.

Field Installation Guidelines

  • Terminal Base Insertion: Verify that the 1440-TB-B terminal base is anchored securely to the DIN-rail before mounting. Align the module pins with the base receptacle and apply perpendicular force until the side latches lock into the chassis housing.
  • AC-LVDT Signal Shielding: All sensor wiring must utilize twisted-pair conductors with overall braided shielding. Ground the shield exclusively at the terminal base instrument ground point; do not terminate the shield at the sensor housing to eliminate ground loops.
  • Conductor Separation: Maintain a minimum clear distance of 100 mm between low-voltage AC-LVDT input lines and heavy AC power lines or variable frequency drive cables. Run signal conductors within grounded steel conduit paths when crossing high-voltage corridors.
  • Relay Contact Integration: Connect external trip circuits to the DPDT terminal points ensuring correct terminal screw engagement. Wire termination must follow standard industrial guidelines to prevent physical stress on the terminal board assembly.

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