HIT Solar Panel Datasheet
N330/N325
Quality and Reliability
Panasonic’s vertical integration, 20 years of
experience manufacturing HIT
®
and 20 internal
tests beyond those mandated by current
standards provides extreme quality assurance.
Higher Efficiency 19.7%
Enables higher power output and greater energy
yields. HIT
®
provides maximum production for your
limited roof space.
Enhanced Frame Design
A new 40mm frame increases durability and
strength, being able to handle loads of up to 5400Pa.
Also, the water drainage system gives rain water
and snow melt a place to go, reducing water stains
and soiling. Less dirt on the module means more
sunlight getting through to generate power.
Low Degradation
HIT “N-type” cells result in extremely Low Light
Induced Degradation (LID) and zero Potential
Induced Degradation (PID) which supports
reliability and longevity. This technology reduces
annual degradation to 0.26% compare to 0.70%
in conventional panels, guaranteeing more power
for the long haul.
Our competitive advantages
High Efficiency at High Temperatures
As temperature increases, HIT
®
continues to
perform at high levels due to the industry leading
temperature coefficient of -0.258% /⁰C. No other
module even comes close to our temperature
characteristics. That means more energy
throughout the day.
25 Year Product and Performance Warranty**
Industry leading 25 year product workmanship
and performance warranty is backed by a century
old company- Panasonic. Power output is
guaranteed to 90.76% after 25 years, far greater
than other companies.
Panasonic’s unique heterojunction technology uses ultra-thin
amorphous silicon layers. These thin dual layers reduce losses,
resulting in higher energy output than conventional panels.
Advanced bifacial cell designed for increased energy output.
The cell utilizes sunlight reflected back from the rear side
material which captures more light and converted into energy.
n-type crystalline silicon
Double-sided textured surface
i-type amorphous layer
Amorphous layer
Transparent electrode (TCO)
Lattice-type electrodes
Finger
Tab
These amorphous silicon layers
reduces the recombination of
electrons to minimum level.
Electrodes
Ultra-thin amorphous silicon layer
HIT
®
is a registered trademark of Panasonic Group