MKL16Z128VLH4 Freescale Semiconductor, MKL16Z128VLH4 Datasheet - Page 35

MKL16Z128VLH4

Manufacturer Part Number

MKL16Z128VLH4

Description

ARM Microcontrollers - MCU CORTEX M0+CORE FLEX USB

Manufacturer

Freescale Semiconductor

Series

KL16r

Datasheet

1.MKL16Z128VLH4.pdf (84 pages)

Specifications of MKL16Z128VLH4

Rohs

yes

Core

ARM Cortex M4

Processor Series

KL1

Data Bus Width

32 bit

Maximum Clock Frequency

48 MHz

Program Memory Size

128 KB

Data Ram Size

16 KB

On-chip Adc

Yes

Operating Temperature Range

- 40 C to + 105 C

Package / Case

LQFP-64

Mounting Style

SMD/SMT

A/d Bit Size

16 bit

A/d Channels Available

Interface Type

I2C, I2S, SPI, UART

Maximum Operating Temperature

+ 105 C

Minimum Operating Temperature

- 40 C

Number Of Programmable I/os

28 to 70

Number Of Timers

On-chip Dac

Yes

Program Memory Type

Flash

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Each device in the Vybrid portfolio offers a

rich suite of reference designs, app notes,

board support packages and middleware for

its market space. This, along with the vast

resources of Freescale, ARM

source communities, will help customers to

develop software solutions and support for

their applications and dramatically reduce

time to market.

Scalable Across Multiple Cores

Vybrid devices have a dual core architecture

that combines the ARM

processor and the ARM Cortex

time control. The Vybrid portfolio is designed

to be a transitional product from Kinetis MCUs

featuring the ARM Cortex-M4 core and the

i.MX 6 series featuring the ARM Cortex

core, while also providing scalable devices

that can address the needs of a market

that demands critical safety and security,

connectivity and rich HMI in the same piece of

silicon. The Vybrid roadmap is built with this

scalability and code compatibility in mind so that

the performance of the device roadmap grows

with the customer’s needs long into the future.

freescale.com/ARM

Vybrid Portfolio Key Attributes

Performance

Solution

Optimal

System

Total

Cortex

™

and open-

™

-A5 application

-M4 for real-

Rich Apps in Real Time

™

-A9

One of the key benefits of the Vybrid

heterogeneous architecture that combines the

ARM Cortex-A5 core with the ARM Cortex-M4

core is the partitioning of tasks based on their

characteristics. For tasks that need predictable

interrupt management, for example, a typical

need for real-time applications, the Vybrid

platform has the ARM Cortex-M4 core with a

Nested Vector Interrupt Controller (NVIC) while

allowing graphical applications and connectivity

stacks to be run on the ARM Cortex-A5

applications processor.

Software can be segmented so that tasks that

need predictable latencies can be run on the

ARM Cortex-M4 core and computer-intensive

processes run on the ARM Cortex-A5 core.

Total System Solution

Vybrid devices take a total system approach.

Complementing the low-power silicon is a

reference Linux BSP, a full-featured MQX

RTOS, reference MQX BSP and a processor-

to-processor communication API that lets

customers partition their code between the

ARM Cortex-A5 (e.g., running Linux) and ARM

Cortex-M4 (e.g., running MQX) to implement

Unprecedented

Low-Power

Integration

Process

System

the lowest power solution for their application

demands. In addition, customers have access

to industry-leading IDE tool chains such as

CodeWarrior with Processor Expert, ARM DS-5

and IAR. A selection of connectivity, motor

control, LCD, security stacks and drivers is

also available. Vybrid devices are supported by

Freescale’s Tower System, offering the flexibility

to easily scale and expand customer designs

based on market need. Tower Systems allow

rapid prototyping in a development platform

that maximizes hardware reuse and speeds

time to market.

Vybrid devices also accelerate time to market

by providing a range of on-demand resources

including reference designs, application

notes, white papers and training to assist in

implementing designs.

Low-Power Process

One of the critical foundational pieces of

the Vybrid platform is its low-power process

technology. The devices in this portfolio are

fabricated in the 40 nm low-power process.

This enables more integration for a given

power envelope thus dissipating much less

power for the same device.

Unprecedented System

Integration

The Vybrid platform has an unprecedented

level of system integration for a solution of its

class. The centerpiece is the core complex

featuring the ARM Cortex-A5 and ARM

Cortex-M4 cores.

ARM Cortex-A5 Core

The ARM Cortex-A5 processor is a high-

performance, low-power core with an L1

and L2 cache subsystem that provides full

virtual memory capabilities, double precision

floating-point unit (FPU) and the NEON

media processing engine. It is intended as

an upgrade for the ARM9™ and ARM11™

cores and is architecturally compatible with

Cortex-A9. The ARM Cortex-A5 also has

TrustZone

applications.

Vybrid Controller Solutions

technology for creating secure

MKL16Z128VLH4 Freescale Semiconductor, MKL16Z128VLH4 Datasheet - Page 35

MKL16Z128VLH4

Specifications of MKL16Z128VLH4

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