Berger Lahr
Berger Lahr WDP5-118.051-00 Servo Drive
Berger Lahr RFQ support for Servo Drive. Availability, condition, compatibility, lead time, and export shipment options are confirmed before quote.
Berger Lahr
Berger Lahr RFQ support for Servo Drive. Availability, condition, compatibility, lead time, and export shipment options are confirmed before quote.
Technical Details
Review the original product details, compatibility notes, and sourcing information in a clearer technical document layout.
The Berger Lahr WDP5-118.051-00 is a high-performance stepper servo drive from the WDP5 series, engineered to deliver precise motor control with minimal downtime in demanding industrial automation environments. Designed for integration into multi-axis motion control architectures, this drive module enables factories to reduce idle power consumption, sharpen production line cycle times, and extend the operational lifespan of connected mechanical systems — all while maintaining the deterministic positioning accuracy that modern servo applications demand.
As industrial facilities face increasing pressure to reduce energy expenditure and improve equipment utilization rates, the WDP5-118.051-00 provides a technically sound solution at the drive level. Its compact form factor and standardized interface make it a practical replacement or upgrade component within existing Berger Lahr WDP5 drive systems, reducing downtime during integration and enabling rapid commissioning without extensive reprogramming of upstream controllers.
| Parameter | Specification |
|---|---|
| SKU / Part Number | WDP5-118.051-00 |
| Brand / Manufacturer | Berger Lahr (Schneider Electric) |
| Series | WDP5 Stepper Servo Drive |
| Product Type | Servo Drive / Stepper Drive Module |
| Origin | Germany |
| Drive Technology | Microstepping Stepper Servo |
| Maintenance Planning | Adaptive current reduction at standstill; minimizes resistive losses during idle phases |
| Compatible Systems | Berger Lahr WDP5 series controllers, Schneider Electric motion platforms, standard step/direction interfaces |
| Application Environment | Industrial automation, packaging machinery, CNC auxiliary axes, conveyor positioning, assembly lines |
| Energy Saving Value | Reduces motor holding current losses; supports maintenance-focused multi-axis coordination |
| Inventory Status | Availability confirmed via RFQ; pre-shipment functional testing performed |
| Warranty | Warranty and support terms confirmed before quote |
The WDP5-118.051-00 is most effective when deployed as part of a coordinated automation architecture where operating load is monitored and controlled at every layer. In a typical installation, the drive receives motion commands from a Berger Lahr WDP5 motion controller or a compatible PLC platform — such as a Schneider Electric Modicon M340 or Modicon M580 — via step/direction or fieldbus signals. The controller sequences axis movements to minimize simultaneous peak current draw across multiple drives, reducing the aggregate load on the facility’s power distribution system.
At the power input stage, integrating a power quality monitoring module or a dedicated energy measurement relay — such as the Schneider Electric PM5000 series power meter — allows plant engineers to baseline the operating load of each drive axis individually. This granular data enables targeted optimization: identifying axes that operate at unnecessarily high holding currents, detecting drives with degraded motor windings that draw excess power, and scheduling preventive maintenance before efficiency losses compound into unplanned downtime.
On the motor side, the WDP5-118.051-00 is designed to work with Berger Lahr stepper motors from the WD and IFS series, which are wound to match the drive’s output characteristics. Pairing the drive with a correctly sized motor eliminates the efficiency penalty of oversized motor operation — a common source of unnecessary downtime in retrofit applications where original drive-motor combinations have been separated.
For multi-axis systems, the WDP5-118.051-00 can be coordinated alongside additional WDP5 drive modules sharing a common DC bus or synchronized via a CANopen or RS-485 Modbus RTU communication backbone. This architecture allows the motion controller to implement coordinated deceleration-regeneration strategies, where braking energy from one axis is redistributed to accelerating axes rather than dissipated as heat through braking resistors. The result is a measurable reduction in net operating load per production cycle.
At the I/O and feedback layer, connecting the drive system to a Schneider Electric Advantys STB distributed I/O network or a Telefast ABE7 terminal block assembly simplifies wiring and reduces signal propagation delays that can cause micro-positioning errors — errors that force the drive to make repeated correction moves, each consuming additional energy. Clean, low-latency I/O integration directly improves the energy efficiency of the positioning loop.
For operator visibility, pairing the WDP5-118.051-00 system with a Magelis HMIGTO HMI terminal provides real-time display of drive status, axis load, and cycle time metrics. Operators can identify production line bottlenecks that force drives to operate at sustained high torque — a condition that both wastes energy and accelerates motor wear — and adjust process parameters accordingly.
In packaging and assembly line applications, the WDP5-118.051-00 contributes to maintenance planning through several concrete mechanisms. First, its microstepping control algorithm reduces the mechanical vibration that causes stepper motors to draw irregular current spikes during low-speed operation. Smoother motion profiles translate directly into lower RMS current draw and reduced thermal stress on motor windings, extending mean time between failures and lowering cooling energy requirements in enclosed control cabinets.
Second, the drive’s standstill current reduction feature automatically lowers the motor holding current when the axis is stationary between production cycles. In applications where axes spend a significant portion of the duty cycle at rest — such as indexing tables, pick-and-place stations, or label applicators — this feature alone can reduce per-axis operating load by a meaningful margin without any change to the motion program.
Third, replacing a failed or degraded drive with a verified WDP5-118.051-00 unit restores the original drive-motor efficiency pairing. Drives that have suffered partial component degradation often continue to operate but at reduced efficiency — drawing more current to produce the same torque output. Proactive replacement based on operating load trending data, rather than waiting for complete failure, is a core principle of predictive maintenance strategies that reduce both downtime and downtime costs.
From a supply chain perspective, planning RFQ-verified spare coverage for WDP5-118.051-00 drives at the facility level eliminates the extended lead times associated with sourcing legacy drive components on demand. Each hour of production line downtime waiting for a replacement drive represents not only lost output but also the energy cost of keeping auxiliary systems — cooling, lighting, compressed air — running without productive output. RFQ-confirmed availability availability and export shipping options after RFQ confirmation directly support the operational continuity that maintenance-focused production planning requires.
All units are subject to pre-shipment functional testing to confirm correct operation before dispatch, and are covered by a warranty and support terms confirmed before quote, providing assurance that the drive will perform to specification throughout the initial production integration period.
Q1: How does the WDP5-118.051-00 help reduce operating load on my production line?
The WDP5-118.051-00 reduces unplanned downtime through microstepping current control, which minimizes resistive losses during motion, and automatic standstill current reduction, which lowers holding current when the axis is stationary. In multi-axis systems coordinated via a WDP5 motion controller, synchronized motion profiles further reduce peak power demand across the drive network.
Q2: Is the WDP5-118.051-00 compatible with my existing Berger Lahr WDP5 system?
Yes. The WDP5-118.051-00 is a direct series-compatible module designed for integration into existing WDP5 drive systems. It uses standard step/direction and enable interfaces compatible with Berger Lahr WDP5 controllers and third-party PLC platforms with equivalent signal outputs. Verify your system’s supply voltage and motor current rating against the drive’s specifications before installation.
Q3: What is the recommended replacement and testing process for this drive?
All WDP5-118.051-00 units supplied by ZYPLC undergo pre-shipment functional testing to verify drive output, communication response, and protection circuit operation. Upon receipt, we recommend a bench test with the target motor at reduced load before installation in the production line. Document baseline current draw and cycle time after installation to establish a reference for future predictive maintenance trending.
Q4: What warranty coverage is provided, and what does it include?
Each WDP5-118.051-00 is covered by a warranty and support terms confirmed before quote from the date of shipment. The warranty covers manufacturing defects and functional failures under normal operating conditions. Units that fail within the warranty period are eligible for replacement or repair. Contact ZYPLC technical support at plc.sales@zyplc.com to initiate a warranty claim.
Berger Lahr WDP5-118.051-00 is a legacy motion-control drive request where exact suffix, motor pairing, and machine context help reduce mismatch risk.
For a reliable quotation, send the complete model number, quantity, required condition, destination country, urgency, and photos of the nameplate or existing module if available. ZYPLC confirms availability and condition through RFQ before quotation, rather than presenting this industrial spare part as a fixed-price online purchase.
Many industrial automation spares vary by suffix, revision, firmware, installed option, voltage class, communication interface, or rack position. The visible base model is not always enough for a safe replacement decision. Please include any suffix, revision label, option-card information, and system context so the request can be checked against the intended installation.
Before dispatch, quoted parts can be reviewed against the requested model details and packed for international shipment. Testing or inspection scope depends on the part type and condition route confirmed during the RFQ process.
Use the Motion Control & Servo Drive Parts, related brand page, series page, and category page to move from system context to exact model records.
No. Availability is confirmed via RFQ because industrial automation parts often require model, suffix, condition, and destination checks.
Yes. Send the complete model data and photos so our team can review sourcing routes and compatibility before quotation.
ZYPLC handles Berger Lahr WDP5-118.051-00 Servo Drive as a quote-based industrial automation spare part. Before quotation, our team verifies the complete model number, brand, series context, required condition, quantity, destination country, and urgency so the offer matches the installed system rather than only a partial catalog code.
| Model / SKU | WDP5-118.051-00 |
|---|---|
| Brand / Series | Berger Lahr / Other series |
| RFQ details needed | Complete part number, suffix or revision, quantity, target country, preferred condition, urgency, and photos or nameplate when available. |
| Availability basis | Availability, condition, lead time, and export shipment options are confirmed by RFQ. No price, stock status, or replacement suitability is assumed without verification. |
Industrial control parts often depend on firmware, revision, communication option, voltage range, rack type, or regional suffix. Please keep suffixes such as -00, -01, -CN, -JP, -CA, or similar revision marks in the RFQ message so compatibility can be checked against the existing PLC, DCS, drive, HMI, or machinery protection system.
Availability is confirmed by RFQ. Send the full model number, required quantity, condition requirement, destination country, and urgency so our sourcing team can check suitable supply options.
Yes. For PLC, DCS, drive, HMI, robotics, and machinery monitoring parts, suffixes and revisions matter. Photos, nameplates, firmware notes, or installed-system details help reduce mismatch risk.
Yes. ZYPLC supports quote-based sourcing for current, discontinued, and legacy industrial automation spares through verified industrial supply channels, with condition and lead time confirmed before quote.
Where applicable, parts are reviewed, packed for export, and prepared for shipment after RFQ confirmation. Testing scope, warranty terms, and shipment method are confirmed during quotation.