TPSK-L43-PCL
Matching model: Toyota Prius C/Aqua
Condition: Brand New
Cycle life: >3000
Battery Type: NiMH - Cylindrical
Voltage: 14.4V
Battery Number: 10
Discharge rate: 30C
Typical Capacity: 6500mAh
Battery Weight: 2.6 kg
Warranty: 3 Years or 100000km(whichever comes first)
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TPSK-L43-PCL
TOHOP
Features
High performance
Cycle life times over 3000 times
Consistent electricity input/output
Power input/output steadily and fluently while engine works
Superior quality
The same production technology and quality as original battery pack
Long last mileage
Last an average mileage of 200,000KM
Safety & Reliable record
No quality defect report ever
Details
for Prius C hybrid battery pack including 10 modules, where each module consists of 12 individual 6.5 Ah Cylindrical, 1.2-volt Ni-MH cells. The 10 modules are connected in series to produce a total energy storage capacity of 0.936kWh.
The battery pack is sold together with all the accessories: bus-bars, battery wiring harness, and interconnects required for installation of this Prius C replacement battery pack.
According to records, our Prius C hybrid replacement battery lasts 100,000 miles to 150,000 miles. However, with the right maintenance, we have also got reports many batteries have a mileage of over 250,000 miles.
Service
Warranty
Two - three years or 100000km (whichever comes first) warranty guaranteed by our quality management system. [KNOW MORE]
R&D
Each iterative update and performance optimization of our batteries are performed by Tohop’s own industry-leading laboratory ; [KNOW MORE]
Dealership
We have EXCLUSIVE DEAL for our dealers. Visit our dealership page for more detail.[KNOW MORE]
Datasheet
In today's world, energy has always been a topic of great concern. With the development of science and technology and the increasing concern for the environment, there is an urgent need for an efficient and environmentally friendly energy storage solution. hybrid battery, a new type of energy storag
With the continuous pursuit of environmental protection and energy efficiency, hybrid vehicles have become a major highlight of the modern automobile industry. The hybrid battery charging method is one of its core technologies, which directly determines the performance, energy efficiency and environ
Hybrid technology has been at the forefront of the ongoing evolution of the automotive industry. As a key component of environmental protection and energy efficiency, the performance and efficiency of a hybrid powertrain depends on how its batteries are charged. In this paper, we will explore severa