Smart App Online UPS Series


  • Capacity: 3000 VA / 2010 W
  • Power Factor (PF): 0.95
  • Topology: Double-Conversion Online
  • Waveform: Sine Wave
  • Output: 110Vac / 120Vac / 127Vac +/- 3%
  • Plug type & cord: NEMA 5-15P, 6 ft. cord
  • Outlet types: 4 × NEMA 5-20R, 1 × NEMA L5-30R
  • Communication: USB, Serial, EPO
  • Management software: PowerPanel® Business Edition
  • Warranty: 3 year

Product Overview

A rack/tower UPS with double-conversion topology, the CyberPower Smart App Online OL3000RMXL2U provides sine wave output to mission-critical applications and equipment requiring seamless power protection. This model comes with an LCD front panel, audible alarms, and a resettable circuit breaker. The OL3000RMXL2U offers generator compatibility and delivers clean AC power with zero transfer time. This model can use up to four ABP72VRM2U Extended Battery Modules for expanded runtime and faster restoration of full backup power. The OL3000RMXL2U comes with an option for connectivity, a three-year warranty and a $400,000 Connected Equipment Guarantee.

NOTE: This model requires a 30A outlet.

Product Features

  • Double-Conversion Topology
    Provides consistent, clean, and nearly perfect power, regardless of the condition of incoming power. Systems with this technology operate on isolated DC power 100% of the time and have a zero transfer time because they never need to switch to battery. Double-Conversion UPS systems are designed for high-end system components, corporate servers, lab equipment, and other sensitive electronic devices.
  • Sine Wave
    The UPS generates energy that is identical to, or cleaner than, the utility company’s power grid. Benefits include low total harmonic distortion, minimal electrical noise, and optimal line clarity.
  • Microprocessor-Based Digital Control
    Digital routing is maintained through a network of integrated circuitry and discrete values used for internal system processing, which significantly increases efficiency and responsiveness.
  • RM/T Configuration
    The model can be set up as a Tower, or a Rackmount (2U) form.
  • Extended Battery Module (EBM)
    Extends runtime by adding EBMs. Models vary in the number of EBMs which can be added.
  • Dual PC Support
    The model has two communication ports that allow the user full control of dual PCs or servers.
  • LED Front Panel
    Immediate system information: load capacity, battery capacity, fault status, and bypass status.
  • PowerPanel® Business Edition Software
    Provides IT professionals with tools for monitoring and managing the UPS and backup power. This software offers remote management functionality.
  • Metal Housing
    Rigid metal construction allows for placement in areas with a demanding environment.
  • Audible Alarms
    Identify when the model is running on battery power, overloaded, or has a low battery.
  • Resettable Circuit Breaker
    Interrupts an electric current in a circuit when the current becomes too high.
  • Three-Year Warranty
    CyberPower will repair or replace a defective UPS system (including batteries) within three years of the purchase date. See warranty for details.
  • Connected Equipment Guarantee
    CyberPower will repair or replace properly connected equipment if it is damaged by a power surge.

Expand All

UPS Topology Double-Conversion
Voltage 60Vac – 142Vac
Phase Single
Frequency 40Hz – 70Hz
Power Factor .95 @ full load
Plug Type NEMA L5-30P
Plug Style Straight
Cord Length 6′
VA 3,000
Watts 2,100
Automatic Voltage Regulation No
On Battery Voltage 110Vac / 120Vac / 127Vac +/- 3%
On Battery Frequency 50/60Hz ± .5%
On Battery Waveform Sine Wave
Outlet Type NEMA 5-20R, NEMA L5-30R
Outlets – Battery & Surge Protected 5
Voltage T.H.D. 4% max @ full linear load, 6% @ full RCD load
Crest Factor 3:1
Overload Protection Internal circuitry limiting / circuit breaker
Transfer Time 0ms
Runtime at Half Load (min) 12
Runtime at Full Load (min) 6
Battery Type Sealed Lead-Acid
Battery Size 12V/9AH
Replacement Battery RB1290X6PS
Battery Quantity 6
User Replaceable Yes
Typical Recharge Time 3 Hours (90% charged)
Extended Runtimes Available Yes, with optional ABP72VRM2U Battery Pack
Surge Protection & Filtering
Surge Suppression 1,030 Joules
Management & Communications
USB Port Yes
HID Compliant USB Port Yes
Serial Port Yes
Emergency Power Off (EPO) Port Yes
Cable Management USB Cable
LED Indicators Power On, Battery, Inverter, Bypass, Critical Outlet 1, Critical Outlet 2, Wiring Fault, Battery Alarm, Overload, Load
Audible Alarms Input Fault, Battery Fault, Low Battery, Overload
Software PowerPanel® Business Edition
SNMP / HTTP Remote Monitoring Yes, with optional RMCARD301
AS400 Management Yes, with optional COMMCARD300
Rack Size 2U
Form Factor Rack/Tower
Dimensions – W×H×D (in) 17.25 × 3.5 × 26 inches
Weight (lbs) 72.0 lbs
Operating Temperature 32 °F to 95 °F / 0 °C to 35 °C
Operating Humidity 0% – 95% non-condensing
Audible Noise At 1m < 47 dBA
Safety UL1778, cUL, FCC DOC Class B
Environmental RoHS Compliant
Product Warranty 3 Years Limited
Connected Equipment Guarantee Lifetime
CEG Amount $400,000

Feature Focus
Higher Capacity UPS for Longer Runtimes

To determine the size of the UPS that you need, identify the total power load (measure in VA/Watts) of the connected equipment, along with the amount of runtime required (in minutes). Also, think about any equipment that might be connected to the UPS in the future, which could affect the calculations for load and runtime.

Estimating expected UPS runtimes can be challenging, particularly when the consistency of the utility power is not well known. Selecting a UPS with a load capacity 30-35% above the required power load offers the advantage of longer runtimes. This can lower the risk of overloading the UPS and causing an unnecessary UPS shutdown.

Although the initial outlay of a UPS increases with its size because of the higher capacity required for components, long-term operating costs typically decrease. When a UPS operates below maximum capacity, it reduces the stress on components. Sizing a UPS to run loads significantly lower than its capacity also increases spare capacity for future growth, along with extending runtimes.

Efficient Remote Management

The Smart App Sinewave and Online Series offers full-featured network UPS management capabilities with the PowerPanel® Business Edition software and an optional SNMP network management card. These remote management tools enable centralized power management, monitoring, control, and configuration. They also provide for safe shutdown of connected servers, workstations, and other devices via a standard Web browser or network management system (NMS).

Safe Shutdown

The PowerPanel® Business Edition software, included with every Smart App Sinewave and Online UPS, enables an administrator to remotely manage each aspect of the UPS and facilitate the orderly automatic shutdown of connected equipment in the event of an extended power outage. This software also provides comprehensive network power management for corporate servers and critical workstations supported by the UPS, such as application/operating system shutdown, event logging, reporting, alerts and notifications.

Programmable Outlet Control

Smart App Sinewave and Online UPS systems allow programming of critical outlets and non-critical outlets, giving administrators the ability to prioritize outlets and increase battery backup runtimes for the most critical equipment during extended power outages. Programmable outlet control also gives an administrator the option to delay-start non-critical outlets, permitting the internal batteries to fully recharge more quickly. This feature is vital to data centers where seamless, uninterrupted equipment bootup is a necessity.

Sine Wave Power

In the U.S., utility companies provide power to households and offices by distributing single phase alternating current (AC) power at a frequency of 60 Hz. Electrical power can be graphically depicted as a sine wave whereby the electrical signal alternates from +120 volts to -120 volts at a rate of 60 times per second (60 Hz). To enable more efficient operation of large, heavy equipment, utility companies provide commercial and industrial locations with three phase AC power which consists of three overlapping sine waves offset by 120 degrees.

Although utility companies strive to distribute 100% sine wave power, many factors can introduce electrical noise into the AC power signal in the form of sine wave distortions and as voltage sags, surges, spikes, or other irregularities. Sine wave power is important for the optimal functioning of sensitive desktop computers and related peripheral equipment. Without sine wave power output, microprocessor-based equipment can become inoperative or sustain damage from power signal distortions.

Active Power Factor Correction Supplies for IT Equipment

During the past thirty years, people have become more aware of the amount of energy used by IT equipment and devices. For many years, desktop computers and workstations inefficiently consumed power, partly due to the design of the power supplies which transformed AC power (from the wall outlet) to DC power (used by computers). This voltage transformation was relatively inefficient as reflected in low power factor ratings.

In 1992, the U.S. Environmental Protection Agency (EPA), in collaboration with advocates in the IT industry, developed the ENERGY STAR® program to prompt the development of energy-efficient products. Today this program is recognized as an international standard.

To comply with ENERGY STAR standards, manufacturers of desktop and workstation computers incorporate Active Power Factor Correction (Active PFC) as part of the engineering designs, enabling energy efficiencies of 95% or higher. Computers with Active PFC power supplies require sine wave AC power, as supplied by utility companies, for trouble-free operation. For this reason, sine wave UPS systems have become the best choice for backup power.

Simulated or stepped sine wave power, provided by entry-level UPS systems, may be problematic or incompatible with Active PFC devices. Sine wave power varies continuously from positive to negative. Simulated sine wave power mimics a sine wave by using a squared-off approximation. Due to this approximation, simulated sine wave power momentarily creates a zero power gap. When power is interrupted, a computer with an Active PFC power supply may not recognize incoming simulated sine wave power due to the zero output present in the approximated wave. This could cause the system to unexpectedly shut down or sustain system component stress.



1.12 MB

UPS Smart App Online

32.2 MB


613 KB

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 Model Output VAOutput WForm FactorWaveformOutlets MSRP