GIR1K-24 3U rack mounted pure sine wave power inverter 1000w

GRANKIA GIR1K-24 3U rack mounted pure sine wave power inverter 1000w can deliver stable and reliable AC power from DC source. With a power output of 1000W, this inverter is ideal for use in communication systems, medical equipment, and other critical infrastructure.

The rack mounted power inverter 1000w accepts a wide input voltage range. This feature allows it to operate with a variety of power sources, including batteries, generators, and utility power.

The inverter features advanced protection mechanisms, including overvoltage, undervoltage, overload, and short circuit protection, to ensure safe and reliable operation.

Racked Mount Power Inverter 1000W Features

Pure Sine Wave Output

The power inverter 1000w produces a clean and stable pure sine wave output. This output is essential for powering sensitive equipment. It ensures reliable operation.

Built-in Toroidal Transformer

Enhances conversion efficiency, reduces electrical noise, and ensures a stable, low-distortion sine wave output.

3U Rack Mounted Design

The compact 3U rack-mounted design allows for easy integration into standard 19-inch racks. This makes it ideal for use in data centers and other space-constrained environments.

Adjustable Charging Parameters

Supports customized charging voltage and current to suit different battery types, including AGM, GEL, and LiFePO₄.

Boost and buck AVR for voltage stabilization

It helps to regulate and maintain a stable output voltage despite fluctuations or variations in the input voltage. This is particularly useful in situations where the input power source experiences voltage sags or dips.

Smart LCD + LED Display

Real-time monitoring of input/output voltage, load level, battery status, and operational mode.

Technical Specifications (Representative)

• Model: GIR1K-24,
• Rated power: 1000W,
• AC Input: 110V/120V or 220V/230V/240V,
• AC Output: 110V/120V or 220V/230V/240V,
• Frequency: 50/60 Hz (auto-sensing or selectable),
• DC Input: 24VDC,
• Transfer time: <8 ms,
• Battery type: VRLA/AGM/LiFePO4,
• Wave Form: Pure Sine Wave,
• Communications: RS-232,
• Dimension: 483x420x132mm [3U].

Product Overview

Fault Code List

Code	Description
E01	Power amplifier over current
E02	Output short circuit protection
E03	Overload protection
E04	Over temperature protection
E05	Battery over voltage protection
E06	Low battery voltage protection
E07	Phase reverse protection
E08	Low output voltage protection
E09	Date of manufacture does not match
E10	Battery power down, voltage drop

Operation Mode

Mode	Name	Description
01	Regular Mode (Utility Power Priority)	In utility power priority mode, when the inverter starts, stable power is delivered to the load through the utility bypass, while the battery pack is simultaneously charged—provided the utility power is within normal operating parameters. If abnormal conditions occur, such as overvoltage, undervoltage, or severe power distortion, the inverter immediately switches to battery mode. Using its internal modules, it efficiently converts stored battery energy into high-quality AC power, ensuring a continuous and uninterrupted power supply to the connected load.
02	Energy Saving Mode	In energy saving mode, the inverter continuously monitors the load condition during operation. If the detected load exceeds 5% of the rated power, the inverter activates the AC output to supply the load. When no load is detected, the inverter enters search mode, reducing energy consumption from the battery pack. In this mode, load detection cycles every 4 seconds off and 2 seconds on, optimizing energy efficiency. Once utility power is restored or connected normally, the inverter seamlessly switches to mains power operation, maintaining uninterrupted AC output while simultaneously charging the battery.
03	Energy Storage Priority Mode	In energy storage priority mode, when the battery is charged by an external source—such as a solar charging system or utility power—reaching a predetermined battery priority start level triggers the inverter to automatically convert stored battery energy into high-quality AC power for the load. When the battery level drops to a specified battery priority stop value, the inverter continues to supply power to the load via utility bypass voltage regulation, but does not charge the battery.

Applications

• Telecom and communication base stations

• Server racks and data centers

• Security and surveillance systems

• Industrial control and automation equipment

• Emergency power backup and off-grid systems

The Articles You may Like

• What is a Split Phase Hybrid Inverter
• How does a 120 240 Split Phase Inverter Work
• 7 Things to Consider Before Buying a UPS Battery Backup Power Supply
• Off-Grid vs Grid-Tied Solar Power for Home: Which Is Better?
• Top 10 Reasons to Choose LiFePO4 12V Lithium Iron Battery
• Uninterruptible power supply – Wikipedia