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Allen-Bradley

Allen-Bradley 1326AB-B515E-21 Servo Motor

Allen-Bradley RFQ support for Servo Motor. Availability, condition, compatibility, lead time, and export shipment options are confirmed before quote.

SKU1326AB-B515E-21 BrandAllen-Bradley TypeServo Motor SeriesOther series OriginUS CategoryDrives & Motors
AvailabilityConfirm by RFQ, global sourcing supported
ConditionNew / Refurbished / Tested, confirmed before quote
Lead TimeFast quotation, shipment arranged after confirmation
ShippingDHL / FedEx / UPS worldwide
Need price, stock, or a compatible replacement?

Technical Details

Product specification and sourcing notes

Review the original product details, compatibility notes, and sourcing information in a clearer technical document layout.

Allen-Bradley 1326AB-B515E-21 Servo Motor for 1326AB Automation

The Allen-Bradley 1326AB-B515E-21 is a industrial-grade AC servo motor engineered for demanding industrial automation environments where operating load, drive precision, and production line throughput must all be simultaneously. As part of the Allen-Bradley 1326AB series, this motor is purpose-built to integrate seamlessly with Rockwell Automation’s servo drive ecosystem, delivering consistent torque output, low heat generation, and reduced idle-state power draw — all critical factors in modern maintenance-focused manufacturing.

In production environments where motor control directly impacts operating costs, the 1326AB-B515E-21 stands out by maintaining high efficiency across variable load conditions. Whether deployed in a high-cycle packaging line, a precision CNC machining center, or a multi-axis robotic assembly cell, this servo motor reduces downtime risk during acceleration, deceleration, and holding phases — phases that account for a disproportionate share of total drive system energy use in conventional induction motor setups.

Product Specification Table

Parameter Specification
SKU / Part Number 1326AB-B515E-21
Brand / Series Allen-Bradley / 1326AB
Motor Type AC Servo Motor
Rated Power Output 1.5 kW (2.0 HP, nominal)
Operating Efficiency Class IE3 / Premium Efficiency
Compatible Drive Systems Kinetix 6000, Kinetix 6500, Ultra 3000 Servo Drives
Feedback Device High-resolution encoder (2048 PPR, incremental)
Application Environment IP65-rated, suitable for dusty/humid industrial environments
Energy Saving Value Up to 30% reduction vs. standard induction motor in variable-load cycles
Thermal Management Low heat dissipation design; reduces cooling load on control cabinet
Warranty 12-Month Warranty — tested and verified before shipment

System Compatibility and Application

The 1326AB-B515E-21 is designed to operate as a core actuator within a fully integrated Rockwell Automation control architecture. When paired with a Kinetix 6500 servo drive, the motor benefits from real-time current loop control that minimizes reactive power losses and ensures that energy is drawn from the supply only when mechanical work is actually being performed. This is a fundamental departure from fixed-speed motor systems, where energy is consumed continuously regardless of load demand.

At the controller level, a CompactLogix L33ER PLC or ControlLogix L71 PLC coordinates motion profiles via EtherNet/IP, enabling synchronized multi-axis control that eliminates mechanical conflicts and reduces energy spikes caused by uncoordinated actuator starts. The PLC’s motion instruction set allows engineers to program S-curve acceleration profiles for the 1326AB-B515E-21, smoothing torque transitions and reducing peak current draw — a direct contributor to lower energy demand charges on industrial utility tariffs.

For condition monitoring at the drive and motor level, integration with a PowerMonitor 5000 energy meter provides real-time visibility into kWh consumption, power factor, and harmonic distortion. This data feeds back into the ControlLogix platform via EtherNet/IP, enabling closed-loop maintenance planning strategies where the PLC can adjust servo velocity profiles based on live power consumption data. Complementing this, Point I/O 1734-IB8 digital input modules capture machine state signals — door interlocks, part-present sensors, conveyor status — allowing the controller to command the 1326AB-B515E-21 into a low-power standby state during non-productive intervals.

On the HMI side, a PanelView Plus 7 (2711P-T10C21D8S) provides operators with a real-time dashboard of motor speed, torque utilization, and operating load trends. Operators can identify inefficient operating windows — such as extended dwell times at full torque with no load — and adjust production scheduling accordingly. This human-machine feedback loop is one of the most underutilized maintenance planning tools in discrete manufacturing.

For distributed I/O in larger machine architectures, the POINT I/O 1734-AENT EtherNet/IP adapter extends the control network to remote I/O nodes without adding significant wiring overhead, reducing installation energy costs and simplifying cabinet thermal management. When the 1326AB-B515E-21 is deployed in a multi-axis gantry or pick-and-place system, the Kinetix 6000 multi-axis servo drive (2094-BC07-M05-S) allows shared DC bus operation, where regenerative energy from decelerating axes is redistributed to accelerating axes — dramatically reducing net operating load across the motion system.

Maintenance and Replacement Notes

In a typical automotive body panel stamping line, servo motors account for 40–60% of total electrical operating load. Replacing legacy induction motors with the 1326AB-B515E-21 in feed, transfer, and clamping axes allows the line controller to implement velocity-based energy profiles: slower, maintenance-focused motion during non-critical transfer phases, and full-speed precision motion only during the stamping stroke itself. This approach, enabled by the motor’s fast torque response and high encoder resolution, can reduce per-cycle operating load by 18–25% without any reduction in throughput.

In food and beverage filling lines, where sanitary requirements demand frequent washdowns and the drive system must restart reliably after each cleaning cycle, the IP65 rating of the 1326AB-B515E-21 eliminates the need for motor replacement due to moisture ingress — a common hidden maintenance cost. The motor’s low thermal mass also means it reaches operating temperature faster after a cold start, reducing the unplanned downtimed during warm-up phases that affect conventional motors in temperature-controlled production areas.

Predictive maintenance integration is another key maintenance planning lever. By monitoring the motor’s back-EMF signature and encoder feedback consistency through the Kinetix drive’s built-in diagnostics, maintenance teams can detect bearing wear, winding degradation, or coupling misalignment before they cause efficiency losses. A motor running with a worn bearing can consume 5–12% more energy than a properly maintained unit — energy that is paid for every hour the line runs. Proactive replacement, guided by drive diagnostics, eliminates this hidden energy tax.

All units of the 1326AB-B515E-21 supplied by ZYPLC are subject to a full functional test protocol prior to shipment, including no-load run verification, encoder signal integrity check, and insulation resistance measurement. Availability confirmed by RFQ inventory ensures RFQ-confirmed dispatch, and every unit is covered by a 12-month warranty from the date of shipment.

Product Sourcing FAQ

Q1: How much energy can the 1326AB-B515E-21 save compared to a standard induction motor in the same application?
In variable-load duty cycles typical of assembly and packaging lines, the 1326AB-B515E-21 can reduce motor-level operating load by 20–30% compared to a fixed-speed induction motor of equivalent output. The savings are highest in applications with frequent start-stop cycles, where the servo’s regenerative braking capability recovers kinetic energy that would otherwise be dissipated as heat in a conventional motor brake.

Q2: Which Allen-Bradley servo drives are compatible with the 1326AB-B515E-21?
The 1326AB-B515E-21 is compatible with the Kinetix 6000 (2094-series), Kinetix 6500 (2094-series EtherNet/IP), and Ultra 3000 (2098-series) servo drive families. Compatibility depends on the motor feedback cable and drive power rating — ZYPLC’s technical team can confirm the correct drive-motor pairing for your specific application before purchase.

Q3: Can the 1326AB-B515E-21 replace an older 1326AB-series motor without rewiring the drive cabinet?
In most cases, yes. The 1326AB series maintains consistent frame dimensions and feedback connector pinouts across the product family, allowing direct mechanical and electrical substitution. However, the drive’s motor parameters (inertia, resistance, inductance) must be updated in the Kinetix drive configuration to match the B515E-21 specifications. ZYPLC provides the full motor datasheet with every unit to support commissioning.

Q4: What does the 12-month warranty cover, and what is the testing process before shipment?
Every 1326AB-B515E-21 unit shipped by ZYPLC undergoes a pre-shipment test protocol that includes powered run verification, encoder output validation, winding insulation resistance testing (>100 MΩ at 500 VDC), and visual inspection for mechanical damage. The 12-month warranty covers defects in materials and workmanship under normal operating conditions. Units that fail in service within the warranty period are replaced or repaired at no charge, subject to inspection confirming the failure is not due to installation error or application abuse.


RFQ checklist and sourcing context for Allen-Bradley 1326AB-B515E-21 Servo Motor

ZYPLC handles Allen-Bradley 1326AB-B515E-21 Servo Motor 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 / SKU1326AB-B515E-21
Brand / SeriesAllen-Bradley / Other series
RFQ details neededComplete part number, suffix or revision, quantity, target country, preferred condition, urgency, and photos or nameplate when available.
Availability basisAvailability, condition, lead time, and export shipment options are confirmed by RFQ. No price, stock status, or replacement suitability is assumed without verification.

Compatibility and model suffix 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.

Related sourcing paths

Product sourcing FAQ

Is this part available from ZYPLC?

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.

Can ZYPLC help verify compatibility before quotation?

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.

Do you support obsolete or hard-to-find automation spares?

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.

What happens before shipment?

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.