1.32
Inch
Round
AMOLED
OLED
Display
Circular
OLED
Screen
466X466
IC
CO5300
Product
Specifications
Attribute
Value
Display
Technology
Color
OLED
Name
OLED
display
panel
Size
1.32
inch
Resolution
466×466
Brightness
600
cd/m²
Interface
SPI/QSPI/MIPI
Driving
IC
CO5300
View
Angle
All
Detailed
Product
Description
HX0132FMST02
is
a
1.32
inch
AMOLED
OLED
screen
module
with
466×466
resolution,
SPI/QSPI/MIPI
interface,
brightness
of
600
cd/m²,
and
OLED
display
IC
CO5300.
Technical
Parameters
Parameter
Value
Part
No.
HX0132FMST02
Display
Technology
AMOLED
DISPLAY
Diagonal
Screen
Size
1.32
inch
Resolution
466×466
Viewing
Angle
All
Active
Area
(mm)
33.55×33.55
Panel
Size
(mm)
40.35×40.35
Brightness
(cd/m²)
600
Interface
SPI/QSPI/MIPI
Contrast
Ratio
100000:1
Display
IC
CO5300
Operating
Temperature
-30°C
to
80°C
Storage
Temperature
-40°C
to
85°C
Touch
IC
FT3168
Product
Images
Front
View
Side
View
Close-up
View
With
Components
Packaging
View
Technical
Details
Drawing
&
Pin
Definition
Pin
Definition
Diagram
Key
Advantages
of
AMOLED
Displays
Perfect
Blacks
&
Infinite
Contrast
Vibrant
Colors
&
Wide
Gamut
Ultra-Fast
Response
Times
Flexibility
&
Thin
Designs
Energy
Efficiency
Always-On
Displays
(AOD)
Superior
Viewing
Angles
HDR
Performance
AMOLED
Disadvantages
AMOLED
is
extremely
expensive
compared
to
LCD
and
TFT,
has
a
shorter
lifetime
than
LCD
and
TFT,
and
has
lower
peak
brightness
in
sustained
use.
Huaxin
Advantage
Factory
base
located
at
inland
city
which
has
cost
effective
Most
advanced
new
equipment
which
can
keep
quality
stable
Most
processes
using
fully
automatic
equipment
which
has
efficiency
and
stable
quality
Professional
engineers
and
production
leaders
who
work
in
LCD
field
for
more
than
20
years
Self
design
for
customized
product
Our
Certificates
ISO14001
ISO9001/IATF16949
SGS
of
LCD
module
Company
Information
Huaxin
Technology
(Enshi)
Co.,
LTD
Location:
Hubei,
Enshi
Date
of
foundation:
2009
High
technology
enterprise
mainly
working
on
research
and
development,
producing
and
sells
LCD,
LCM,
TFT,
backlight,
OLED
LCD
includes:
VA,
TN,
HTN,
STN,
FSTN,
CSTN
and
other
series
LCM
includes:
COB,
TBA,
COG,
TP,
LED
backlight
and
other
series
Register
capital:
Twenty
million
Current
staff:
500+
R&D
accounts
for
10%
QC
accounts
for
15%
Production
Capacity
Capacity
2021
(Current)
2022
(Goal)
2023
(Challenge)
2024
(Challenge)
2025
(Challenge)
Remark
LCD
Production
Capacity
4.5
9
9
9
9
Unit:
thousands
of
logarithms/Day
LCM
Production
Capacity
70
150
300
450
450
Unit:
Thousand
piece/Day
Backlight
Production
Capacity
100
200
300
500
500
Unit:
Thousand
piece/Day
OLED
Production
Capacity
10
20
30
40
50
Unit:
Thousand
piece/Day
Product
Applications
Smartphones
and
tablets
Wearables
(smartwatches
like
Apple
Watch)
AR/VR
headsets
Television
and
Monitors
Automotive
display
Medical
and
smart
home
Power
Efficiency
Comparison
How
does
the
power
efficiency
of
AMOLED
displays
compare
to
other
display
technologies?
Power
Consumption
AMOLED
displays
consume
power
on
a
per-pixel
basis,
meaning
that
pixels
that
display
black
or
dark
content
consume
very
little
power,
while
pixels
displaying
bright
or
white
content
consume
more
power.
LCD
and
LED
displays
require
a
constant
backlight
that
consumes
power
regardless
of
the
displayed
content.
Content
Dependency
AMOLED
displays
are
more
power-efficient
for
content
with
a
lot
of
dark
or
black
areas,
as
the
individual
pixels
can
be
turned
off
to
save
power.
LCD
and
LED
displays
consume
a
relatively
constant
amount
of
power
regardless
of
the
displayed
content,
as
the
backlight
remains
active.
Brightness
Control
AMOLED
displays
can
dynamically
adjust
the
brightness
of
individual
pixels,
allowing
for
better
power
efficiency
in
low-brightness
scenarios.
LCD
and
LED
displays
typically
have
a
fixed
backlight
brightness,
which
can
result
in
higher
power
consumption
even
when
the
display
content
does
not
require
maximum
brightness.
Display
Size
AMOLED
displays
tend
to
be
more
power-efficient
for
smaller
display
sizes,
as
the
power
consumption
scales
with
the
number
of
pixels.
Larger
LCD
and
LED
displays
may
require
more
power-hungry
backlights,
potentially
reducing
their
power
efficiency
compared
to
AMOLED
displays
of
the
same
size.
