CY8C5387AXI-108 Cypress Semiconductor Corp, CY8C5387AXI-108 Datasheet - Page 4

CY8C5387AXI-108

Manufacturer Part Number

CY8C5387AXI-108

Description

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.CY8C5387AXI-108.pdf (97 pages)

Specifications of CY8C5387AXI-108

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Figure 1-1

family. They are:

PSoC’s digital subsystem provides half of its unique config-

urability. It connects a digital signal from any peripheral to any

pin through the Digital System Interconnect (DSI). It also

provides functional flexibility through an array of small, fast, low

power Universal Digital Blocks (UDBs). PSoC Creator provides

a library of pre-built and tested standard digital peripherals

(UART, SPI, LIN, PRS, CRC, timer, counter, PWM, AND, OR,

and so on) that are mapped to the UDB array. The designer can

also easily create a digital circuit using boolean primitives by

means of graphical design entry. Each UDB contains Program-

mable Array Logic (PAL)/Programmable Logic Device (PLD)

functionality, together with a small state machine engine to

support a wide variety of peripherals.

In addition to the flexibility of the UDB array, PSoC also provides

configurable digital blocks targeted at specific functions. For the

CY8C53 family these blocks can include four 16-bit timer,

counter, and PWM blocks; I

Full-Speed USB; and Full CAN 2.0b.

For more details on the peripherals see the

erals”

UDBs, DSI, and other digital blocks, see the

section on page 33 of this data sheet.

PSoC’s analog subsystem is the second half of its unique config-

urability. All analog performance is based on a highly accurate

absolute voltage reference with less than 0.1% error over

temperature and voltage. The configurable analog subsystem

includes:

All GPIO pins can route analog signals into and out of the device

using the internal analog bus. This allows the device to interface

up to 62 discrete analog signals.

The CY8C53 family also offers a Successive Approximation

samples per second, it also offers low nonlinearity and offset

Document Number: 001-55035 Rev. *F

ARM Cortex-M3 CPU Subsystem

Nonvolatile Subsystem

Programming, Debug, and Test Subsystem

Inputs and Outputs

Clocking

Power

Digital Subsystem

Analog Subsystem

Analog muxes

Comparators

Analog mixers

Voltage references

Analog-to-Digital Converters (ADC)

Digital-to-Analog Converters (DACs)

section on page 33 of this data sheet. For information on

illustrates the major components of the CY8C53

C slave, master, and multi-master;

“Digital Subsystem”

PRELIMINARY

“Example Periph-

errors and SNR better than 70 dB. It is well suited for a variety of

higher speed analog applications.

Two high speed voltage or current DACs support 8-bit output

signals at an update rate of up to 8 Msps. They can be routed

out of any GPIO pin. You can create higher resolution voltage

DAC outputs using the UDB array. This can be used to create a

pulse width modulated (PWM) DAC of up to 10 bits, at up to 48

kHz. The digital DACs in each UDB support PWM, PRS, or

delta-sigma algorithms with programmable widths.

In addition to the ADC and DACs, the analog subsystem

provides multiple:

See the

sheet for more details.

PSoC’s CPU subsystem is built around a 32-bit three-stage

pipelined ARM Cortex-M3 processor running at up to 80 MHz.

The Cortex-M3 includes a tightly integrated nested vectored

interrupt controller (NVIC) and various debug and trace modules.

The overall CPU subsystem includes a DMA controller, flash

cache, and RAM. The NVIC provides low latency, nested inter-

rupts, and tail-chaining of interrupts and other features to

increase the efficiency of interrupt handling. The DMA controller

enables peripherals to exchange data without CPU involvement.

This allows the CPU to run slower (saving power) or use those

CPU cycles to improve the performance of firmware algorithms.

The flash cache also reduces system power consumption by

allowing less frequent flash access.

PSoC’s nonvolatile subsystem consists of flash, byte-writeable

EEPROM, and nonvolatile configuration options. It provides up

to 256 KB of on-chip flash. The CPU can reprogram individual

blocks of flash, enabling boot loaders. The designer can enable

an Error Correcting Code (ECC) for high reliability applications.

A powerful and flexible protection model secures the user's

sensitive information, allowing selective memory block locking

for read and write protection. Two KB of byte-writable EEPROM

is available on-chip to store application data. Additionally,

selected configuration options such as boot speed and pin drive

mode are stored in nonvolatile memory. This allows settings to

activate immediately after power on reset (POR).

The three types of PSoC I/O are extremely flexible. All I/Os have

many drive modes that are set at POR. PSoC also provides up

to four I/O voltage domains through the Vddio pins. Every GPIO

has analog I/O, LCD drive, flexible interrupt generation, slew rate

control, and digital I/O capability. The SIOs on PSoC allow Voh

to be set independently of Vddio when used as outputs. When

SIOs are in input mode they are high impedance. This is true

even when the device is not powered or when the pin voltage

goes above the supply voltage. This makes the SIO ideally suited

for use on an I

other devices on the bus are. The SIO pins also have high

current sink capability for applications such as LED drives. The

Comparators

Uncommitted opamps

Configurable Switched Capacitor/Continuous Time (SC/CT)

blocks. These support:

PSoC

Transimpedance amplifiers

Programmable gain amplifiers

Mixers

Other similar analog components

“Analog Subsystem”

5: CY8C53 Family Data Sheet

C bus where the PSoC may not be powered when

section on page 45 of this data

Page 4 of 97

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