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ABB

ABB 3HAC062338-003 Servo Motor for IRB7600

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

SKU3HAC062338-003 IRB7600 BrandABB TypeServo Motor SeriesOther series OriginSE 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.

ABB 3HAC062338-003 Servo Motor for IRB7600: Precision Motor Control for Optimized Production Lines

The ABB 3HAC062338-003 is a industrial-grade servo motor module engineered specifically for the ABB IRB7600 heavy-payload industrial robot series. In modern manufacturing environments where equipment uptime and replacement lead time directly affect production continuity, this servo motor delivers the precise torque control, low-loss operation, and seamless integration needed to reduce unnecessary power draw and maximize production throughput. Whether deployed in automotive body welding, heavy material handling, foundry operations, or large-scale assembly lines, the 3HAC062338-003 is a critical component in any industrial automation system.

At ZYPLC, every unit is sourced from verified supply channels, subjected to full functional testing prior to shipment, and Warranty terms are confirmed during quotation.

Product Specification Table

Parameter Specification / Value
SKU / Part Number 3HAC062338-003
Compatible Robot Series ABB IRB7600 (all variants)
Motor Type AC Servo Motor Module
Drive Efficiency Class IE4 / Premium Efficiency
Rated Operating Voltage 400–480 V AC (3-phase)
Thermal Protection Integrated PTC thermistor, Class F insulation
Compatible Drive System ABB IRC5 Controller / DSQC series drive units
Communication Protocol ABB SafeMove / DeviceNet / EtherNet/IP
Application Environment Heavy-payload robotics, automotive, foundry, logistics
Energy Saving Value Regenerative braking support; reduced idle-state power draw vs. legacy motors
Origin Sweden (ABB Robotics)
Warranty 12 Months — Covered by ZYPLC
Availability Confirmed via RFQ before quotation
Pre-shipment Testing Full functional and load test performed on every unit

System Compatibility and Application

The ABB 3HAC062338-003 does not operate in isolation — its energy efficiency is fully realized when integrated within a well-designed automation architecture. In a typical IRB7600 cell, the servo motor works in concert with the ABB IRC5 robot controller, which manages motion profiles and axis coordination to minimize unnecessary acceleration cycles that waste energy. The IRC5’s built-in motion optimization algorithms reduce peak current demand, directly lowering the load on upstream power distribution.

On the drive side, the ABB DSQC662 and DSQC663 drive units regulate the power delivered to each servo axis. When the 3HAC062338-003 decelerates during a robot cycle, regenerative energy is fed back through the drive bus rather than dissipated as heat — a measurable reduction in net energy consumption per production cycle. This regenerative capability is especially valuable in high-cycle applications such as press-tending or palletizing, where the robot decelerates hundreds of times per shift.

For condition monitoring at the cell level, integrating an ABB B23 energy meter or a compatible SENTRON PAC3200 power monitoring device allows plant engineers to capture real-time kWh data per robot cell. This data feeds into maintenance planning dashboards, enabling comparison of consumption before and after servo replacement — a key metric for justifying maintenance investments and demonstrating ROI on maintenance-focused components.

At the I/O and signal layer, the ABB DSQC652 I/O module handles digital and analog signals between the IRC5 controller and peripheral equipment such as grippers, safety gates, and conveyor interlocks. Proper I/O configuration ensures the robot enters low-power standby mode during line stoppages rather than holding full torque unnecessarily. Combined with the ABB SafeMove2 safety software, speed and zone monitoring can be used to reduce motor speed — and therefore power draw — in collaborative or semi-collaborative zones without stopping production entirely.

For facilities running mixed fleets, the ABB FlexPendant (IRC5 teach pendant) provides operators with direct access to motor diagnostics, axis load data, and energy consumption logs. When paired with ABB Ability™ Connected Services, predictive maintenance alerts can be triggered based on motor temperature trends and vibration signatures captured from the 3HAC062338-003’s integrated sensors — preventing unplanned downtime that is far more costly in energy and productivity terms than a scheduled replacement.

In multi-robot lines, the ABB RobotStudio simulation platform allows engineers to model the energy profile of the entire cell before physical deployment, identifying motion path optimizations that reduce cycle time and peak power demand simultaneously. This upstream planning, combined with the right servo hardware, is the foundation of a genuinely maintenance-focused production line.

Maintenance and Replacement Notes

In automotive body shop applications, the IRB7600 is commonly used for spot welding and heavy part transfer. In these environments, the 3HAC062338-003 servo motor’s ability to deliver high torque at low speeds — without the efficiency losses typical of oversized induction motors — means the robot can handle maximum payload without drawing excess current during the approach and hold phases of a weld cycle. Over a three-shift operation, this translates to measurable reductions in energy cost per vehicle body produced.

In foundry and die-casting environments, where ambient temperatures are elevated and duty cycles are demanding, the 3HAC062338-003’s Class F insulation and integrated thermal protection prevent derating events that would otherwise force the robot to slow down or pause — events that disrupt production rhythm and increase energy consumption per part by extending cycle time. Maintaining consistent cycle time is itself an maintenance planning strategy: a line running at steady cadence consumes less energy per unit than one that repeatedly accelerates from a stopped state.

Predictive maintenance is another dimension of power optimization. When the 3HAC062338-003 begins to show early signs of bearing wear or winding degradation — detectable through temperature rise and increased current draw — the connected monitoring system flags the issue before it causes a failure. A planned replacement during scheduled downtime avoids the unplanned downtime of emergency restarts, extended warm-up cycles, and the quality losses associated with uncontrolled stops. ZYPLC’s pre-tested, RFQ-confirmed units ensure that when a replacement is needed, it arrives quickly and performs to specification from the first cycle.

For lines transitioning from older servo generations, replacing a legacy motor with the 3HAC062338-003 often yields a direct reduction in axis current draw due to improved winding efficiency and tighter encoder feedback resolution. Tighter position control means less corrective motion, less energy spent on micro-adjustments, and better surface quality in precision applications — a compounding benefit that extends beyond operational stability alone.

Product Sourcing FAQ

Q1: How much energy can I expect to save by replacing a legacy servo motor with the ABB 3HAC062338-003?
Actual savings depend on your cycle profile, payload, and current motor condition. In high-cycle applications with frequent deceleration, regenerative braking alone can recover 10–20% of braking energy back into the drive bus. Additionally, improved winding efficiency and tighter motion control reduce baseline current draw. We recommend logging axis current data before and after replacement using your IRC5 controller or an external energy meter to quantify the improvement for your specific application.

Q2: Is the 3HAC062338-003 compatible with all IRB7600 variants and the IRC5 controller?
The 3HAC062338-003 is designed for the ABB IRB7600 series and is compatible with the IRC5 controller platform, including standard and cabinet-integrated configurations. It works with the DSQC-series drive units and supports ABB’s standard communication and safety protocols. If you are unsure about compatibility with a specific IRB7600 variant or controller revision, contact our technical team with your robot serial number for confirmation before ordering.

Q3: What does the 12-month warranty cover, and what is the replacement process?
ZYPLC’s 12-month warranty covers manufacturing defects and functional failures under normal operating conditions. Every unit shipped has passed a full functional and load test. If a covered fault occurs within the warranty period, we will arrange a replacement unit from our Availability confirmed by RFQ inventory, minimizing your downtime. Warranty claims are handled directly through our sales team at plc.sales@zyplc.com or by calling +86 19859288691.

Q4: How is the unit tested before shipment, and what documentation is provided?
Each 3HAC062338-003 unit undergoes a full functional test including no-load run, encoder signal verification, thermal check, and load simulation where applicable. A test report is available upon request. Units are packaged in anti-static, shock-protected packaging to prevent transit damage. Lead time from order confirmation to shipment is typically within 3 business days for RFQ-confirmed units.


RFQ checklist and sourcing context for ABB 3HAC062338-003 Servo Motor for IRB7600

ZYPLC handles ABB 3HAC062338-003 Servo Motor for IRB7600 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 / SKU3HAC062338-003 IRB7600
Brand / SeriesABB / 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.