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200195EC

200195EC is a fictional designation used in this article to describe a contemporary embedded microcontroller family. The code combines a numeric series (200195) with the EC suffix, where EC stands for Enhanced Core. The name is used to illustrate common naming conventions in microcontroller design and does not refer to a real product.

Design and specifications: The 200195EC family is portrayed as built around a 32-bit ARM-compatible core. It

Development and release: The fictional series is attributed to DeltaMicro Systems and is dated to a mid-2010s

Applications and reception: In the article’s context, 200195EC is presented as suitable for small consumer electronics,

See also: microcontroller, embedded systems, ARM Cortex-M.

offers
two
operating
modes:
a
high-performance
mode
up
to
48
MHz
and
a
low-power
mode
for
energy-sensitive
applications.
Memory
options
range
from
128
KB
to
512
KB
of
flash
and
8
KB
to
64
KB
of
RAM,
with
optional
external
memory
interfaces.
On-chip
peripherals
include
UART/USART,
SPI,
I2C,
multiple
timers,
ADCs,
and
PWM
outputs,
along
with
a
USB
full-speed
device
interface
in
higher-tier
variants.
Security
features
such
as
a
hardware
random
number
generator,
secure
boot,
and
tamper-detection
are
described
for
select
models.
Integrated
power
management
and
several
voltage
rails
assist
energy
optimization
in
battery-powered
devices.
introduction,
intended
for
mid-range
embedded
applications.
Variant
naming
conventions
are
described
as
suffix-based,
for
example
-C
(connectivity),
-S
(sensor),
and
-L
(low
power).
Tooling
is
depicted
as
including
a
C/C++
software
development
kit,
a
hardware
abstraction
layer,
and
an
integrated
development
environment
with
debugging
support.
Community
and
vendor
documentation
are
said
to
be
moderately
robust.
IoT
nodes,
and
basic
industrial
controllers.
It
is
described
as
approachable
for
learners
and
engineers
needing
a
compact
MCU
with
a
balanced
set
of
peripherals.
The
fictional
market
reception
is
characterized
as
favorable
within
mid-range
embedded
segments.