CY8C3666LTI-050 Cypress Semiconductor Corp, CY8C3666LTI-050 Datasheet - Page 4

CY8C3666LTI-050

Manufacturer Part Number

CY8C3666LTI-050

Description

PSOC3

Manufacturer

Cypress Semiconductor Corp

Series

PSOC™ 3 CY8C36xxr

Datasheet

1.CY8C3665LTI-009.pdf (125 pages)

Specifications of CY8C3666LTI-050

Core Processor

8051

Core Size

8-Bit

Speed

67MHz

Connectivity

EBI/EMI, I²C, LIN, SPI, UART/USART, USB

Peripherals

CapSense, DMA, LCD, POR, PWM, WDT

Number Of I /o

Program Memory Size

64KB (64K x 8)

Program Memory Type

FLASH

Eeprom Size

2K x 8

Ram Size

8K x 8

Voltage - Supply (vcc/vdd)

1.71 V ~ 5.5 V

Data Converters

A/D 2x12b, D/A 4x8b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

Processor Series

CY8C36

Core

8051

Data Bus Width

32 bit

Data Ram Size

8 KB

Interface Type

I2C, SPI, UART, USB

Maximum Clock Frequency

67 MHz

Number Of Programmable I/os

28 to 72

Number Of Timers

Operating Supply Voltage

0.5 V to 5.5 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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

configurable digital blocks targeted at specific functions. For the

CY8C36 family these blocks can include four 16-bit timers,

counters, and PWM blocks; I

FS USB; and Full CAN 2.0b.

For more details on the peripherals see the

Peripherals”

information on UDBs, DSI, and other digital blocks, see the

“Digital Subsystem”

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

configurability. All analog performance is based on a highly

accurate absolute voltage reference with less than 0.1-percent

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 heart of the analog

subsystem is a fast, accurate, configurable delta-sigma ADC

with these features:

This converter addresses a wide variety of precision analog

applications, including some of the most demanding sensors.

The output of the ADC can optionally feed the programmable

DFB through the DMA without CPU intervention. You can

configure the DFB to perform IIR and FIR digital filters and

several user-defined custom functions. The DFB can implement

filters with up to 64 taps. It can perform a 48-bit

multiply-accumulate (MAC) operation in one clock cycle.

Four 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

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

create a 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, DACs, and DFB, the analog subsystem

provides multiple:

Document Number: 001-53413 Rev. *K

Analog muxes

Comparators

Voltage references

ADC

DACs

DFB

Less than 100 µV offset

A gain error of 0.2 percent

INL less than ±1 LSB

DNL less than ±1 LSB

SINAD better than 66 dB

Uncommitted opamps

Configurable switched capacitor/continuous time (SC/CT)

blocks. These support:

Transimpedance amplifiers

Programmable gain amplifiers

Mixers

Other similar analog components

section on page 39 of this data sheet. For

section on page 38 of this data sheet.

C slave, master, and multi-master;

“Example

See the

sheet for more details.

PSoC’s 8051 CPU subsystem is built around a single-cycle

pipelined 8051 8-bit processor running at up to 67 MHz. The

CPU subsystem includes a programmable nested vector

interrupt controller, DMA controller, and RAM. PSoC’s nested

vector interrupt controller provides low latency by allowing the

CPU to vector directly to the first address of the interrupt service

routine, bypassing the jump instruction required by other

architectures. 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 single cycle 8051

CPU runs ten times faster than a standard 8051 processor. The

processor speed itself is configurable, allowing you to tune active

power consumption for specific applications.

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

EEPROM, and nonvolatile configuration options. It provides up

to 64 KB of on-chip flash. The CPU can reprogram individual

blocks of flash, enabling bootloaders. You can enable an 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. Up

to 2 KB of byte-writeable 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 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 V

has analog I/O, LCD drive

generation, slew rate control, and digital I/O capability. The SIOs

on PSoC allow V

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

not be powered when other devices on the bus are. The SIO pins

also have high current sink capability for applications such as

LED drives. The programmable input threshold feature of the

SIO can be used to make the SIO function as a general purpose

analog comparator. For devices with FS USB the USB physical

interface is also provided (USBIO). When not using USB these

pins may also be used for limited digital functionality and device

programming. All of the features of the PSoC I/Os are covered

in detail in the

this data sheet.

The PSoC device incorporates flexible internal clock generators,

designed for high stability and factory trimmed for high accuracy.

The internal main oscillator (IMO) is the master clock base for

the system, and has 1-percent accuracy at 3 MHz. The IMO can

be configured to run from 3 MHz up to 62 MHz. Multiple clock

derivatives can be generated from the main clock frequency to

meet application needs. The device provides a PLL to generate

system clock frequencies up to 67 MHz from the IMO, external

crystal, or external reference clock. It also contains a separate,

very low-power internal low speed oscillator (ILO) for the sleep

and watchdog timers. A 32.768-kHz external watch crystal is

also supported for use in RTC applications. The clocks, together

with programmable clock dividers, provide the flexibility to

integrate most timing requirements.

“Analog Subsystem”

“I/O System and Routing”

to be set independently of V

PSoC

[4]

, CapSense

section on page 50 of this data

3: CY8C36 Family

C bus where the PSoC may

[5]

DDIO

section on page 32 of

, flexible interrupt

Data Sheet

pins. Every GPIO

DDIO

Page 4 of 125

when used

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