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Home › Selection & Replacement › UCD-DPC1B-1413-L10S-H72 27-Bit Profibus M12 Address Boundary

UCD-DPC1B-1413-L10S-H72 27-Bit Profibus M12 Address Boundary

EncoderWorks Team
8 monthsago

EncoderWorks can configure UCD-DPC1B-1413-L10S-H72 as a custom compatible replacement solution for absolute multiturn Profibus DP feedback where node address, bus termination, 27-bit position structure, M12 bus connector mapping, and Ø10 mm solid-shaft clamp-flange fit must remain aligned with the installed PLC project. The failure boundary is not only the 10–30 VDC supply, but also bus-in / bus-out polarity, configuration-file compatibility, preset behavior, counting direction, terminal-resistor logic, and coupling alignment. Typical production lead time: 15 working days.

This model is used where the control system reads absolute multiturn position over a Profibus DP network through a 3-connector M12 connection cap. A compatible replacement must preserve the 13-bit singleturn and 14-bit multiturn position structure, Binary position handling inside the bus device, node number, termination logic, configuration-file compatibility, M12 power and bus connector assignment, and Ø10 mm solid-shaft mechanical interface.

UCD-DPC1B-1413-L10S-H72 27-Bit Profibus M12 Address Boundary-EncoderWorks
UCD-DPC1B-1413-L10S-H72 27-Bit Profibus M12 Address Boundary-EncoderWorks

System Limits

The first system boundary is the Profibus DP network configuration. UCD-DPC1B-1413-L10S-H72 uses a Profibus DP interface with Class 2 functions, so the PLC project must see the same device behavior, node address, resolution parameter, gearing factor, counting direction, preset function, velocity scaling, limit-switch behavior, diagnostic response, and process-data expectation. If the replacement is installed with a wrong node number, incompatible configuration file, different parameter length, wrong preset behavior, or mismatched direction setting, the network may still detect a device but the axis can report wrong position, wrong direction, incorrect multiturn value, missing diagnostics, or unstable commissioning status.

The second boundary is the M12 Profibus physical layer and removable connection cap. The power connector, GND reference, bus-out A/B, bus-in A/B, shield handling, terminal resistor status, and outgoing-bus behavior must match the existing topology. A correct encoder can still fail if the terminal resistor is enabled at the wrong point, the outgoing bus is unintentionally cut, bus-in and bus-out are interchanged, A/B is reversed, or the M12 connector shield continuity is poor.

Wiring & Installation

Before replacement, confirm the full installed model code, Profibus DP node address, transmission-rate setting, configuration-file requirement, Class 2 parameter use, preset requirement, counting direction, velocity scaling, diagnostic mapping, limit-switch use, terminal resistor position, and M12 connector assignment. Do not treat this as a Profinet, EtherNet/IP, CANopen, Analog Voltage, Bit Parallel, or incremental replacement, because the controller is reading a configured multiturn Profibus device rather than an Ethernet profile device, network object, voltage value, discrete data word, or A/B/Z pulse train.

The solid-shaft installation must also be checked carefully. The Ø10 mm single-flat shaft, 20 mm shaft length, 58 mm L clamp-flange interface, coupling type, shaft insertion depth, radial M12 connector clearance, axial load, radial load, and alignment accuracy can affect long-term stability. Poor coupling alignment, excessive side load, connector stress, shield discontinuity, or incorrect flange seating can cause bus dropouts, mechanical drift, intermittent diagnostics, or early bearing wear.

Custom Compatible Solution

  • Match Profibus DP device behavior, 13-bit singleturn plus 14-bit multiturn feedback, node address range, and Class 2 parameter expectations
  • Preserve M12 power wiring, bus-in / bus-out A/B mapping, terminal resistor logic, GND reference, and shield continuity
  • Adapt the Ø10 mm solid shaft, 20 mm shaft length, 58 mm L clamp-flange class, radial M12 connector cap, and mechanical mounting boundary
  • Review configuration-file compatibility, preset direction, velocity scaling, diagnostics, connector clearance, and shaft coupling alignment before shipment

Key Data

ItemData
ModelUCD-DPC1B-1413-L10S-H72
Encoder typeAbsolute multiturn rotary encoder
InterfaceProfibus DP
Profile / classDPV0, DPV1, DPV2 Class 2
Supply voltage10–30 VDC
Output driverProfibus data interface, galvanically isolated via opto-couplers
Sensor technologyMagnetic
Singleturn resolution13 bit
Multiturn resolution14 bit
Total position structure27-bit absolute multiturn data
CodeBinary
Multiturn technologySelf powered magnetic pulse counter, no battery, no gear
Transmission rateUp to 12 Mbaud class boundary
Manual functionsAddress selector 0–99 and terminal resistor via connection cap
Programming functionsResolution, gearing factor, velocity scaling and filter, preset, counting direction, limit switches, node number, teach-in, diagnosis
Connection3 × M12 connector, Profibus
Connection orientationRadial
Shaft / flangeSolid shaft, single flat, Ø10 mm × 20 mm, 58 mm L clamp flange class
Protection classIP66 / IP67 boundary requires confirmation against installed version
Key replacement checksNode address, bus termination, configuration file, M12 power connector, bus-in / bus-out A/B mapping, Class 2 parameters, preset, direction, Ø10 mm solid-shaft coupling fit
Industrial Encoder Technical Consultant

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Industrial Encoder Technical Consultant

Contact Support

WeChat: +86 150 5045 0799 (WhatsApp)

Email: sividi360@outlook.com

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