MK21FN1M0VLQ10 Freescale Semiconductor, MK21FN1M0VLQ10 Datasheet - Page 37
MK21FN1M0VLQ10
Manufacturer Part Number
MK21FN1M0VLQ10
Description
ARM Microcontrollers - MCU K20_1MB
Manufacturer
Freescale Semiconductor
Datasheet
1.MKL36Z64VLH4.pdf
(84 pages)
Specifications of MK21FN1M0VLQ10
Rohs
yes
Core
ARM Cortex M0
Processor Series
MK21FN1
Data Bus Width
32 bit
Maximum Clock Frequency
100 MHz
Program Memory Size
1 MB
Data Ram Size
128 KB
On-chip Adc
Yes
Operating Supply Voltage
1.71 V to 3.6 V
Operating Temperature Range
- 40 C to + 105 C
Package / Case
LQFP-144
Mounting Style
SMD/SMT
A/d Bit Size
16 bit
Interface Type
CAN, I2C, I2S, SPI, UART, USB
Maximum Operating Temperature
+ 105 C
Minimum Operating Temperature
- 40 C
On-chip Dac
Yes
Program Memory Type
Flash
Supply Voltage - Max
3.6 V
Supply Voltage - Min
1.71 V
of memory types for critical applications.
Battery-backed RAM is critical for secure
systems to store authentication keys; Vybrid
devices provide 16 KB of secure RAM. The
platform also provides 96 KB ROM used for
high assurance boot (HAB).
Multimedia Options
The Vybrid platform offers a host of multimedia
options enabling customers to run rich
applications with real-time control.
Audio
Three different types of audio interfaces are
supported: synchronous audio interface (SAI)
for full-duplex audio transfer, enhanced serial
audio interface (ESAI) that is also full duplex
and adds support for interfacing with SPDIF
transceivers and the Sony/Philips Digital
Interface (SPDIF) for digital audio support.
Display Controller
Two independent display controller units (DCU)
interface with TFT LCD displays. The DCU can
drive LCD displays up to a resolution of XGA
(1024 x 768). Also included is a segment LCD
controller with up to 288 segments.
freescale.com/ARM
Process Technology Node Comparison
Technology Node
90LP
Active Power
65LP
Standby Power
Video Interface Unit (VIU)
For image and vision capture, a VIU provides
a 24-bit parallel interface for digital video. In
addition, an optional video ADC will convert
composite video into digital format.
OpenVG Graphics
Processing Unit
Vivante GC355 OpenVG graphics accelerator
supporting OpenVG1.1 can be used for UI
acceleration.
Reliability, Safety and Security
Vybrid devices include a variety of data
integrity and security hardware features for
safeguarding memory, communication and
system data. A cyclic redundancy check
module is available for validating memory
contents and communication data, while
a memory protection unit provides data
protection and increased software reliability.
For fail-safe applications, an independently
clocked watchdog offers protection against
runaway code. When it comes to security,
a hardware encryption unit supports several
55LP
Speed
40LP
encryption and hashing algorithms for program
validation as well as authentication and
securing data for transfer and storage. The
system security module includes a unique chip
identifier, secure key storage and a hardware
tamper detection system. The tamper
detection system has integrated sensors for
voltage, frequency, temperature and external
sensing for physical attack detection.
Optimal System Performance
Vybrid devices are ideal for modern industrial
applications that require higher integration of
communication and connectivity interfaces,
as well as HMI and UI acceleration.
Customers can easily take full advantage of
all the integrated Vybrid features to create
differentiated products by leveraging the
provided reference board support packages
(BSP) for high-level operating systems (such
as Linux) and real-time operating systems
(such as MQX), which include libraries
and media framework tuned to the silicon
architecture. The combination of high-
efficiency silicon design, low-leakage process
technology and software tuned for the silicon
architecture results in low power consumption,
eliminating the need for a fan or heat sink
and helping to lower overall system BOM
cost. As an example, because the platform
architecture partitions tasks between the
applications processor and the deterministic
MCU, the ARM Cortex-M4 core helps to
improve efficiency in industrial motor control
applications which can result in a reduced
carbon footprint.
Vybrid Product Families
The first five Vybrid families for industrial
and consumer applications are scheduled
to sample in Q3 of 2012 with production
planned for late Q4 2012 and early 2013.
Vybrid products are built around a common
set of system, analog and digital IP blocks.
The devices in each product family are
distinguishable by their performance and
peripheral capabilities as shown in the
“Vybrid Family Details” table on page 36.
Vybrid Controller Solutions
37
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