Allen-Bradley MOX720-P4668E Energy-Saving DC Power Supply 1771: Precision Power Control for Optimized Automation Efficiency
The Allen-Bradley MOX720-P4668E (Part No. 80026-518-01) is a high-efficiency DC power supply engineered for the 1771 PLC platform — one of Rockwell Automation’s most widely deployed modular control architectures in discrete and process manufacturing. In energy-intensive production environments where every watt of unnecessary draw translates directly into operating cost, the MOX720-P4668E delivers stable, regulated DC output that minimizes power conversion losses and supports continuous, uninterrupted control system operation.
Unlike generic replacement power supplies, the MOX720-P4668E is purpose-built to match the electrical and thermal specifications of the Allen-Bradley 1771 I/O chassis. This precision fit eliminates the voltage ripple and thermal stress that degrade downstream components — including 1771-OBD digital output modules, 1771-IFE analog input modules, and 1771-ASB remote I/O adapter modules — ensuring that the entire control node operates within its rated efficiency band rather than compensating for supply instability.
Efficiency Performance Table
| Parameter |
Specification / Value |
| SKU / Part Number |
MOX720-P4668E / 80026-518-01 |
| Product Series |
Allen-Bradley 1771 |
| Output Type |
Regulated DC |
| Efficiency Class |
High-Efficiency Industrial Grade |
| Compatible Systems |
Allen-Bradley 1771 PLC I/O Chassis, PLC-5 Processor Platforms |
| Application Environment |
Discrete Manufacturing, Process Control, Material Handling, Energy Monitoring Systems |
| Energy Saving Value |
Reduces conversion losses; stable output prevents over-draw by downstream I/O modules |
| Thermal Management |
Optimized for continuous-duty industrial operation |
| Inventory Status |
In Stock — Pre-shipment functional testing performed |
| Warranty |
12-Month Warranty |
Energy-Aware Automation Architecture
In a well-designed energy-aware control architecture, the power supply is not a passive component — it is the foundation upon which every efficiency gain downstream depends. The MOX720-P4668E anchors the 1771 chassis power rail, providing the clean, regulated DC bus that allows connected modules to operate at their rated current draw rather than pulling excess current to compensate for voltage sag.
When paired with a Allen-Bradley PLC-5/20 or PLC-5/40 processor, the MOX720-P4668E supports deterministic scan-cycle execution, which is critical for time-sensitive motor control and energy metering applications. In drive-intensive lines, the processor communicates setpoints to PowerFlex 40 or PowerFlex 400 variable frequency drives (VFDs) via the 1771 backplane or remote I/O link — and any instability in the power supply directly degrades the quality of those control signals, causing drives to operate outside their optimal efficiency curve.
For energy monitoring, the 1771 platform integrates with Allen-Bradley PowerMonitor 500 or PowerMonitor 1000 units via DH+ or Remote I/O, capturing real-time kWh, power factor, and demand data at the panel level. A stable DC supply from the MOX720-P4668E ensures that the communication adapter — typically a 1771-ASB Remote I/O Adapter — maintains its polling cycle without dropout, preserving the integrity of energy data flowing to the SCADA or historian layer.
On the output side, 1771-OBD 24VDC output modules driving solenoids, contactors, and relay coils benefit directly from a regulated supply rail. Voltage fluctuations at the backplane cause output modules to misfire or hold outputs longer than commanded — wasting energy on actuators that should have de-energized. The MOX720-P4668E eliminates this source of hidden energy waste.
For facilities running PanelView 550 or PanelView 600 HMI terminals connected to the PLC-5 platform, the power supply’s stability also supports reliable DH+ communication, ensuring that operator setpoint changes — such as adjusting motor speed targets or conveyor throughput rates — are executed without communication retries that delay control response and extend cycle times.
In multi-chassis configurations, the MOX720-P4668E can be deployed alongside 1771-P4S or 1771-P7 power supply modules in adjacent chassis, maintaining consistent voltage levels across the entire I/O network and preventing ground loop interference that degrades analog signal accuracy in 1771-IFE or 1771-IXHR analog input modules used for temperature, pressure, and flow measurement in energy-intensive process loops.
Power Optimization in Real Production Lines
In automotive stamping, food processing, and material handling facilities, the 1771 PLC platform controls everything from conveyor indexing to press cycle sequencing. In these environments, the power supply is cycled through thousands of load transitions per shift as outputs switch on and off in response to sensor inputs and timer logic. A power supply that cannot maintain output regulation under dynamic load — such as a worn or counterfeit replacement — introduces micro-interruptions that force the processor into fault recovery routines, adding unplanned downtime and disrupting production throughput.
The MOX720-P4668E is sourced, inspected, and functionally tested before shipment to verify that it meets original specification under load. This pre-shipment testing protocol — covering output voltage accuracy, ripple, and thermal performance — ensures that the unit installed on your production line performs identically to the original factory-installed supply, without the break-in period or early-life failure risk associated with untested surplus stock.
From an energy optimization perspective, replacing a degraded or out-of-spec power supply with a verified MOX720-P4668E can reduce the frequency of nuisance faults, shorten recovery time after E-stop events, and allow VFDs and servo drives connected to the same control network to maintain their programmed deceleration ramps — recovering kinetic energy through regenerative braking rather than dissipating it as heat through dynamic braking resistors.
Predictive maintenance programs that monitor 1771 system health — tracking backplane current draw, module fault logs, and communication error rates — benefit from the stable baseline that a properly functioning power supply provides. When the supply is operating correctly, anomalies in module behavior stand out clearly against the clean power baseline, making it easier to identify failing I/O cards, degraded field wiring, or overloaded output circuits before they cause unplanned downtime.
ZYPLC maintains ready stock of the MOX720-P4668E to support emergency replacement scenarios where production cannot wait for standard lead times. All units ship with documentation of pre-shipment functional testing and are covered by a 12-month warranty, giving maintenance teams confidence that the replacement supply will perform reliably through its first full year of operation.
Energy Optimization FAQ
Q1: How does replacing the MOX720-P4668E power supply contribute to energy savings on the production line?
A degraded DC power supply forces downstream I/O modules and communication adapters to draw excess current to compensate for voltage sag, increasing overall panel energy consumption. Replacing it with a verified MOX720-P4668E restores the regulated output voltage, allowing all connected modules — including analog input cards and digital output modules — to operate within their rated current draw, reducing waste heat and improving overall system efficiency.
Q2: Is the MOX720-P4668E compatible with all 1771 chassis configurations, including multi-chassis remote I/O setups?
Yes. The MOX720-P4668E is designed for the Allen-Bradley 1771 I/O chassis and is compatible with standard 1771 backplane configurations used with PLC-5 processors. In multi-chassis setups using 1771-ASB remote I/O adapters, the supply supports stable backplane power for the local chassis while the remote I/O link maintains communication with the host processor.
Q3: What is the recommended replacement process, and how do you minimize downtime during the swap?
The recommended approach is to schedule the replacement during a planned maintenance window. Power down the chassis, document the existing wiring and module positions, remove the old supply, install the MOX720-P4668E, and restore power. Because ZYPLC performs pre-shipment functional testing on all units, the replacement supply can be installed with confidence that it will power up correctly on the first attempt, minimizing the risk of extended downtime from a failed replacement part.
Q4: What warranty coverage is included, and what does it cover?
All MOX720-P4668E units supplied by ZYPLC are covered by a 12-month warranty from the date of shipment. The warranty covers defects in materials and workmanship under normal industrial operating conditions. Units that fail within the warranty period are replaced or refunded, subject to inspection. This warranty applies to all orders regardless of destination, supporting global customers in maintaining their 1771 control systems with confidence.
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