AMPLIPHI-3.8-48 : 3.8KWH 48V Lithium Battery by Simpliphi

CAD $5,499.00

The AMPLIPHI-3.8-48 is a 48V lithium iron phosphate (LFP) replacement for lead-acid batteries that works with all major battery-based inverter brands and includes closed-loop communications for accurate SOC and battery management through your inverter. The AMPLIPHI 3.8kWh Amp deep-cycle Lithium Ferro Phosphate (LFP) battery is optimized with proprietary cell architecture, power electronics, BMS and assembly methods. It is modular, light- weight and scalable for installations that range from kWh to MWh.

SKU: AMPLIPHI-3.8-48 Categories: , , , Tags: , , , , , , , , , , , , , , , , , , , , , , , , ,
   

Description

The AMPLIPHI-3.8-48 is a 48V lithium iron phosphate (LFP) replacement for lead-acid batteries that works with all major battery-based inverter brands and includes closed-loop communications for accurate SOC and battery management through your inverter. The AMPLIPHI 3.8kWh Amp deep-cycle Lithium Ferro Phosphate (LFP) battery is optimized with proprietary cell architecture, power electronics, BMS and assembly methods. It is modular, light- weight and scalable for installations that range from kWh to MWh.

SimpliPhi Power’s AMPLIPHI 3.8 Battery utilizes the safest Lithium Ion chemistry available, Lithium Ferro Phosphate (LFP, LiFePO4, Lithium Iron Phosphate). No cobalt or explosive hazards. By eliminating cobalt, the risk of thermal runaway, fire propagation, operating temperature constraints, and toxic coolants are reduced.

The AmpliPHI features a Battery Management System (BMS) with closed loop communications pre-configured for industry leading inverters that reports SOC and other critical real-time data, optimizing the value of storage and functionality within balance-of-system equipment. Combined with our proven overcurrent protection (OCPD) and accessible 100 Amp DC breaker On/Off switch, installation time is reduced and safety is increased during set-up for residential and commercial systems, on and off-grid. Designed to scale up to 75 batteries, the AmpliPHI integrates seamlessly with Sol-Ark and SMA, with other inverter brands being added soon.

Compatible with all industry-standard inverter charge controllers, the AMPLIPHI 3.8 Battery supports balance-of-system equipment and optimizes any power generation source – solar, wind, grid, generator – with scalable, on-demand energy storage solutions for critical back-up and daily savings on electricity bills.

Simpliphi AMPLIPHI-3.8-48 Features
  • Built-in accessible 80 Amp DC breaker On/Off switch – increases safety and simplifies installations
  • 48V LFP batteries with proprietary architecture and Battery Management
    System (BMS)—do not require ventilation, cooling or thermal regulation
  • Compatible with all industry standard inverter/charge controllers
  • Drop in replacement for lead acid
  • LFP is the safest, most environmentally benign Lithium Ion chemistry available—no risk of thermal runaway or fire
  • No AC or toxic liquid cooling – negligible parasitic drain – long cycle life
  • Non-toxic and non-hazardous recyclable materials
Simpliphi PHI-3.8-48-M Specifications In Brief

DC Voltages – Nominal : 51.2 (48V)
Amp Hours : 75 (48V)
Rated Wh Capacity @ C/2 : 3.8 kWh
Max Discharge Current : 100 Amps (10 mins)
Max Contin. Disch. Current : 37.5 Amps (48V)
Max Contin. Charge Current : 37.5 Amps (48V)
DC Voltage Range1 : 48 to 56 (48V)
Depth of Discharge1 : up to 100%
Operating Efficiency : 98%
Operating Temp1 : -4° to 140°F (-20° to 60°C)
Charge Temp : 32° to 120°F (0° to 49°C)
Self-Discharge Rate : <1% loss per month
Cycle Life : 10,000+
Memory Effect : None
Warranty Period : 10 Years
Weight : 77.5 lbs (35.15 kg)
Dimensions : 13.5 x 14 x 8 in. (15.5” H w/terminals) / 0.88 ft3 (34.3 x 35.6 x 20.3 cm / 0.025 m3)

Downloads

AMPLIPHI-3.8-48 Spec Sheet

Additional information

Weight 35 kg
Dimensions 1 × 1 × 1 cm
DC Voltage

24V, 48V

Reviews

There are no reviews yet.

Be the first to review “AMPLIPHI-3.8-48 : 3.8KWH 48V Lithium Battery by Simpliphi”

Your email address will not be published. Required fields are marked *