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The PR2000RTXL2UN is a Smart App Sinewave rack/tower convertible UPS with line-interactive topology, surge protection, and battery backup. CyberPower’s Smart App Sinewave series has sine wave output to eliminate power gaps that can be detected by sensitive equipment and cause unexpected shutdowns.
The Smart App Sinewave PR2000RTXL2UN improves battery life through battery equalization technology and Automatic Voltage Regulation (AVR), which corrects minor power fluctuations without switching to battery power. The enhanced chassis design with an easy-to-access toolless front panel, captive screws for battery panel access, and color-coded rear panel make battery changes and installations simple and fast. The PR2000RTXL2UN also has an innovative LCD panel that rotates 90°, tilts for a better viewing angle, and provides information on 47 different settings including UPS stats, UPS setup and control management, and testing options.
This model accepts the BP48VP2U02 Extended Battery Module (EBM) for expanded runtime during power outages and includes pre-installed RMCARD205 network management card for remote management and control via a standard web browser or network management system.
With a $400,000 connected equipment guarantee and a three-year warranty, you can trust CyberPower’s commitment to the quality of the PR2000RTXL2UN.
UPS System, Faceplate, UPS User Manual, 2-Post Rack Mounting Kit, 4-Post Rail Rack Mounting Kit, Tower Mounting Kit, Emergency Power Off Cable (gray), and USB A+B Type Cable
This product can expose you to chemicals including Styrene, which are known to the State of California to cause cancer, and Bisphenol A (BPA), which are known to the State of California to cause birth defects or other reproductive harm.
|Active PFC Compatible||Yes|
|Energy Saving||GreenPower UPS™ Bypass Technology|
|Energy Star Certified||Yes|
|Battery Size||12V / 9AH|
|Battery Type||Sealed Lead-Acid|
|Extended Battery Module||BP48VP2U02|
|Extended Battery Option||Yes|
|Replacement Battery Cartridge||RB1290X4J|
|Replacement Battery Cartridge Quantity||1|
|Runtime at Full Load||4.3 Minutes|
|Runtime at Half Load||12.2 Minutes|
|Typical Recharge Time||3 hrs|
|Physical Dimensions – (WxHxD) (cm)||43.43 x 8.64 x 50.04 (cm)|
|Physical Dimensions – (WxHxD) (in)||17.1 x 3.4 x 19.7 (in)|
|Physical Dimensions – (WxHxD) (mm)||434 x 86 x 500 (mm)|
|Dimensions – Shipping|
|Shipping – Weight (kg)||40.19|
|Shipping – Weight (lb)||88.6|
|Shipping Dimensions – (WxHxD) (cm)||56.13 x 27.43 x 61.98 (cm)|
|Shipping Dimensions – (WxHxD) (in)||22.1 x 10.8 x 24.4 (in)|
|Shipping Dimensions – (WxHxD) (mm)||561.34 x 274.32 x 619.76 (mm)|
|Adjustable Voltage Range||70 – 155 Vac|
|Cord Length (ft)||10|
|Frequency Range||47 – 63 Hz|
|Input Voltage Range||75 – 149 Vac|
|Plug Style||Right Angle, 0° Offset|
|Plug Type||NEMA 5-20P|
|Automatic Voltage Regulation||Double boost, single buck|
|On Battery Frequency||50/60Hz +/- 1%|
|On Battery Voltage||100/110/120/125Vac ± 5%|
|On Battery Waveform||Sine wave|
|Outlet Type||NEMA 5-20R|
|Outlets – Battery & Surge Protected||8|
|Outlets – Critical Load||4|
|Outlets – Total||8|
|Overload Protection||Internal Circuitry Limiting, Circuit Breaker|
|Rated Power Factor||1|
|Transfer Time||4ms typical|
|Surge Protection & Filtering|
|Network Protection RJ45||1-in, 1-out|
|Management & Communications|
|Audible Alarms||Battery Mode, Low Battery, Overload, Overcharge, Overheat|
|Emergency Power Off (EPO) Port||Yes|
|HID Compliant USB Port||Yes|
|LED Indicators||Power on, Line mode, Battery mode, Fault, Night mode, Wiring Fault|
|Management Cable||USB Cable, EPO Cable|
|Multifunction LCD Panel||47 Settings (27 setup and control items + 20 status updates and log menus)|
|SNMP / HTTP Remote Monitoring||Yes – pre-installed RMCARD205|
|Software||PowerPanel® Business Edition|
|Audible noise at 1m from surface of unit||57.5 dBA|
|Maximum Operating Elevation||10,000 ft (3,000 m)|
|Maximum Storage Elevation||50,000 ft (15,000 m)|
|Online Thermal Dissipation||129.6 BTU/hr|
|Operating Relative Humidity||0 – 95% (non-condensing)|
|Operating Temperature||32 °F to 104°F (0°C to 40°C)|
|Storage Relative Humidity||0 – 95% (non-condensing)|
|Storage Temperature||5°F to 113°F (-15°C to 45°C)|
|Safety||UL1778, cUL107.1, FCC Class B|
|Connected Equipment Guarantee||Lifetime|
|Product Warranty||3 Years Limited|
GreenPower UPS™ Technology from CyberPower improves operating efficiency, reduce heat generation, and consume less power than conventional UPS models.
Our patented Bypass Design allows current to bypass the transformer and automatic voltage regulation (AVR) when utility power is normal, thus reducing energy consumption and associated costs. Because utility power functions normally most of the time, the bypass design allows for substantial energy savings. This technology also reduces heat generation, an important factor in decreasing operating costs.
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.
The Smart App 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).
The PowerPanel® Business Edition software, included with every Smart App Sinewave 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 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.
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.
A chain is only as strong as its weakest link. This proverb holds true for a multi-battery string; the weakest battery reduces the performance and life of the entire battery string. Battery Equalization Technology is an advanced charging process that improves the performance and extends the life of a multi-battery string by charging each battery to a similar voltage.
By charging each battery to a similar voltage, the multi-battery string will charge and discharge at the same level. This improves runtime and extends the time between each battery replacement resulting in lower overall battery costs.
Battery Equalization Technology is a component of a Battery Management System and has been used at the datacenter level for many years. However, this technology has not been available at the individual UPS level until now.