ABB 1910061947 D1724-20B: Industrial Data Link and Smart Factory Motion Control
The ABB 1910061947 D1724-20B (also referenced as B1724-20B, 3N3745W, 2C0683, 3HS2000-01) is a precision air bearing motor engineered for high-performance industrial automation environments. Designed to operate within ABB’s broader motion control and drive ecosystem, this unit serves as a critical node in the data and power chain that connects field-level devices to supervisory control systems. Whether integrated into a servo drive network, coordinated through a PLC controller, or monitored via SCADA, the 1910061947 D1724-20B delivers the frictionless, low-vibration motion that precision manufacturing demands.
Network Communication Table
| Attribute |
Specification |
| SKU / Part Number |
1910061947 D1724-20B / B1724-20B / 3N3745W / 2C0683 / 3HS2000-01 |
| Brand |
ABB |
| Product Type |
Air Bearing Motor (Industrial Motion Control) |
| Series |
3HS2000-01 |
| Communication Compatibility |
PROFIBUS, PROFINET, EtherNet/IP, Modbus RTU/TCP |
| Interface Type |
Servo Drive Interface, Encoder Feedback, Digital I/O |
| Network Compatibility |
ABB Automation Builder, AC500 PLC Platform, DriveStudio |
| System Application |
SCADA Integration, HMI Monitoring, Remote Diagnostics, Motion Axis Control |
| Origin |
Sweden (SE) |
| Warranty |
12-Month Warranty |
| Stock Status |
Verified In-Stock | Ready to Ship via DHL / FedEx |
Connected Automation Data Flow
In a modern smart factory, the ABB 1910061947 D1724-20B air bearing motor does not operate in isolation — it is a precision actuator embedded within a layered industrial network. Signal acquisition begins at the sensor level, where encoders and position feedback devices transmit real-time motion data upward through the control chain. This data is received and processed by an ABB AC500 PLC, which coordinates axis movement, monitors torque thresholds, and issues corrective commands in milliseconds.
The AC500 PLC communicates over PROFINET or EtherNet/IP to an ABB ACS880 variable frequency drive, which regulates the power delivery to the 1910061947 D1724-20B motor with micron-level precision. Simultaneously, the drive’s diagnostic data — including temperature, current draw, and fault codes — is forwarded via Modbus TCP to an ABB CP600 HMI panel, giving operators a real-time visual dashboard of motor performance on the production floor.
For remote monitoring and enterprise-level visibility, an ABB Ethernet gateway module bridges the field network to the plant’s SCADA system. Operators at the control room level can view live axis position data, set motion profiles, and receive alarm notifications without physical access to the machine. Remote I/O modules — such as the ABB TU505 terminal unit — extend the network reach to distributed control cabinets, ensuring that even outlying motion axes remain fully integrated into the central data architecture.
Edge computing nodes running ABB Ability™ software aggregate motion telemetry from multiple 3HS2000-01 series motors across the production line, enabling predictive maintenance algorithms to flag bearing wear or alignment drift before a fault occurs. This closed-loop data flow — from the 1910061947 D1724-20B motor through drives, PLCs, HMIs, gateways, and SCADA — is the backbone of transparent, connected manufacturing.
Solving Data Isolation in Industrial Sites
One of the most persistent challenges in industrial automation is the fragmentation of communication protocols across legacy and modern equipment. A production line may include older Modbus RTU devices alongside newer PROFINET-enabled controllers, creating data silos that prevent unified monitoring and control. The ABB 1910061947 D1724-20B, when deployed within an ABB-standardized motion control architecture, helps eliminate these silos by operating within a protocol-consistent ecosystem.
By pairing this motor with an ABB AC500 PLC and an ABB protocol gateway capable of translating between Modbus RTU, PROFIBUS DP, and EtherNet/IP, plant engineers can unify disparate device networks under a single SCADA umbrella. This means that a legacy conveyor drive communicating over RS-485 can share the same monitoring dashboard as the high-precision 1910061947 D1724-20B axis — without replacing existing infrastructure.
Remote diagnostics capability is another key advantage. Rather than dispatching a technician to physically inspect a motor fault, maintenance teams can query the drive’s fault log, review encoder feedback history, and assess thermal trends directly from the SCADA workstation or a mobile HMI. This reduces mean time to repair (MTTR), minimizes unplanned downtime, and supports the shift toward condition-based maintenance strategies.
Production line transparency is further enhanced through integration with MES (Manufacturing Execution Systems). Motion data from the 1910061947 D1724-20B — including cycle counts, positioning accuracy, and throughput rates — can be exported to MES platforms, enabling real-time OEE (Overall Equipment Effectiveness) calculations and data-driven production optimization. System expansion is equally straightforward: additional motion axes using compatible ABB 3HS2000-01 series components can be added to the network without architectural redesign, thanks to the modular nature of ABB’s automation platform.
Every unit shipped by ZYPLC undergoes pre-shipment functional verification, ensuring that the 1910061947 D1724-20B arrives ready for integration. Backed by a 12-month warranty and supported by in-stock inventory for rapid global dispatch via DHL and FedEx, this motor is a reliable choice for both planned upgrades and emergency replacement scenarios.
Industrial Connectivity FAQ
Q1: What communication protocols are compatible with the ABB 1910061947 D1724-20B in a SCADA or HMI environment?
The 1910061947 D1724-20B is designed to operate within ABB’s motion control ecosystem, which supports PROFINET, EtherNet/IP, PROFIBUS DP, and Modbus RTU/TCP. When paired with an ABB AC500 PLC or ACS880 drive, the motor’s operational data can be seamlessly transmitted to SCADA systems and HMI panels for real-time monitoring and control.
Q2: How does this motor perform in terms of network latency and real-time control response?
Air bearing motors in the 3HS2000-01 series are engineered for high-speed, low-latency motion control applications. When integrated with PROFINET IRT (Isochronous Real-Time) or EtherNet/IP with CIP Sync, cycle times as low as 250 microseconds are achievable, making this motor suitable for precision synchronization tasks in semiconductor, optical, and advanced manufacturing environments.
Q3: Can the ABB 1910061947 D1724-20B be integrated into an existing multi-vendor automation network?
Yes. Through the use of ABB protocol gateway modules and standard industrial Ethernet infrastructure, the 1910061947 D1724-20B can be incorporated into multi-vendor environments that include Siemens, Rockwell, Schneider, or Mitsubishi control platforms. Protocol conversion between PROFIBUS, Modbus, and EtherNet/IP ensures interoperability without requiring full system replacement.
Q4: What does the 12-month warranty cover, and how is pre-shipment testing conducted?
All ABB 1910061947 D1724-20B units supplied by ZYPLC are covered by a 12-month warranty against manufacturing defects and functional failures under normal operating conditions. Prior to shipment, each unit undergoes functional verification testing to confirm encoder feedback integrity, electrical continuity, and mechanical performance. Units are shipped in original or equivalent protective packaging via DHL or FedEx with full tracking.
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