Hot Product

Advanced DFG Series for Utility Scale Battery Storage Companies

Short Description:

By combining the newly developed Nano Gel electrolyte with up-to-date AGM structures, DFG (Duration Front Gel) series batteries delivery 15 years desi

Product Detail

Parameters

Product Tags

The HRESYS DFG (Duration Front Gel) Series is specifically engineered to meet the growing demands of utility scale battery storage companies. By integrating state-of-the-art Nano Gel electrolyte technology with advanced AGM (Absorbent Glass Mat) structural components, the DFG series offers an outstanding 15 years of design life. This longevity ensures that utility scale battery storage companies can depend on consistent performance and reliability over the long term.

Range summary

By combining the newly developed Nano Gel electrolyte with up-to-date AGM structures, DFG (Duration Front Gel) series batteries delivery 15 years design life, front access connections for fast, easy installation and maintenance. This series is highly suited for telecom outdoor applications, unstable power supply region applications.

Features and benefits

15 years design life at floating condition @ 20°C

Wide operating temperature range from -15°C to 60°C

Nano gel electrolyte eliminate the acid stratification and prolong cycle life

Front access terminal with standard width for 19and 23ETSI racks

30% decreased float current lead to excellent high temperature resistance

Thick flat plate with high Tin low Calcium alloy

Low self-discharge rate and long shelf life (9 months at 20°C)

Excellent deep discharge recovery capability

Comply with IEC, IEEE, UL, EN, CE standards, etc.

Applications

Telecom

Control Equipments

UPS systems

Medical Equipments

Emergency Power Systems 

Technical Features

Model                         

Nominal Voltage (V)

Capacity (Ah)@ C10

Dimension(mm)

Weight (kg)

Terminal Type

Length

Width

Height

Total Height

VHR 12DFG55

12

55

277

105

222

222

18.0 

F-M6

VHR 12DFG100

12

100

395

110

285

285

32.4 

F-M8

VHR 12DFG125

12

125

558

112

295

295

42.5 

F-M8

VHR 12DFG150

12

150

558

112

295

295

45.7 

F-M8

VHR 12DFG155

12

155

558

112

295

295

48.5 

F-M8

VHR 12DFG160

12

160

560

125

316

316

47.8 

F-M8

VHR 12DFG170

12

170

560

125

316

316

50.8 

F-M8

VHR 12DFG180

12

180

560

125

316

316

52.1 

F-M8

VHR 12DFG200

12

200

560

125

316

316

56.2 

F-M8



One of the standout features of the DFG series is its front access connections, which facilitate rapid and straightforward installation and maintenance. In the fast-paced world of utility scale battery storage, ease of access can significantly reduce downtime and maintenance costs, further enhancing operational efficiency. These front access connections make it easier for technicians to perform necessary checks and services, ensuring that the systems remain in optimal condition with minimal disruption. Moreover, the DFG series is designed with the specific needs of utility scale battery storage companies in mind, providing a robust solution that combines innovative technology with practical features. Whether you're looking to upgrade an existing setup or implement a new storage solution, the HRESYS DFG series stands out as a reliable, high-performance option. The cutting-edge Nano Gel electrolyte and AGM structures not only extend the battery life but also improve overall system stability, making it a top choice for utility scale projects.

  • Previous:
  • Next:
  • HOME ABOUT US PRODUCTS SOLUTIONS SERVICES NEWS CONTACT US

    ADD:Room 501, 5th Floor, Building F, Haichuang Park, China Power Haikang Group, No.198 Aicheng Street, Yuhang District, Hangzhou, China

    Tel: +86 571 88189800     Email: info@hresys.com

    Hot Products

    Sitemap

    Special

    telecom tower battery price , solar battery , lead battery storage , 100kw battery storage , residential energy storage , battery pack

    privacy settings Privacy settings
    Manage Cookie Consent
    To provide the best experiences, we use technologies like cookies to store and/or access device information. Consenting to these technologies will allow us to process data such as browsing behavior or unique IDs on this site. Not consenting or withdrawing consent, may adversely affect certain features and functions.
    ✔ Accepted
    ✔ Accept
    Reject and close
    X