CY8C3246PVA-141 Cypress Semiconductor Corp, CY8C3246PVA-141 Datasheet - Page 34

CY8C3246PVA-141

Manufacturer Part Number

CY8C3246PVA-141

Description

IC MCU 8BIT 64KB FLASH 48SSOP

Manufacturer

Cypress Semiconductor Corp

Series

PSOC™ 3 CY8C32xxr

Datasheet

1.CY8C3244PVI-155.pdf (119 pages)

Specifications of CY8C3246PVA-141

Core Processor

8051

Core Size

8-Bit

Speed

50MHz

Connectivity

EBI/EMI, I²C, LIN, SPI, UART/USART

Peripherals

CapSense, DMA, 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 1x8b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Table 6-5. Analog/Digital Low Voltage Interrupt, Analog High

Voltage Interrupt

6.3.1.2 Other Reset Sources

Document Number: 001-56955 Rev. *J

Interrupt Supply

services and to reduce wakeup time. At these times the PRES

circuit is also buzzed to allow periodic voltage monitoring.

ALVI, DLVI, AHVI – Analog/Digital Low Voltage Interrupt,

Analog High Voltage Interrupt

Interrupt circuits are available to detect when V

go outside a voltage range. For AHVI, V

fixed trip level. For ALVI and DLVI, V

compared to trip levels that are programmable, as listed in

Table

a device reset instead of an interrupt.

The monitors are disabled until after IPOR. During sleep mode

these circuits are periodically activated (buzzed). If an interrupt

occurs during buzzing then the system first enters its wake up

sequence. The interrupt is then recognized and may be

serviced.

XRES – External Reset

PSoC 3 has either a single GPIO pin that is configured as an

external reset or a dedicated XRES pin. Either the dedicated

XRES pin or the GPIO pin, if configured, holds the part in reset

while held active (low). The response to an XRES is the same

as to an IPOR reset.

The external reset is active low. It includes an internal pull-up

resistor. XRES is active during sleep and hibernate modes.

SRES – Software Reset

A reset can be commanded under program control by setting

a bit in the software reset register. This is done either directly

by the program or indirectly by DMA access. The response to

a SRES is the same as after an IPOR reset.

Another register bit exists to disable this function.

WRES – Watchdog Timer Reset

The watchdog reset detects when the software program is no

longer being executed correctly. To indicate to the watchdog

timer that it is running correctly, the program must periodically

reset the timer. If the timer is not reset before a user-specified

amount of time, then a reset is generated.

Note IPOR disables the watchdog function. The program must

enable the watchdog function at an appropriate point in the

code by setting a register bit. When this bit is set, it cannot be

cleared again except by an IPOR power-on reset event.

AHVI

DLVI

ALVI

6-5. ALVI and DLVI can also be configured to generate

DDD

DDA

1.71 V –

5.5 V

1.71 V –

5.5 V

1.71 V –

5.5 V

Normal

Voltage

Range

1.70 V – 5.45 V

in 250 mV

increments

1.70 V – 5.45 V

in 250 mV

increments

5.75 V

Available Trip

Settings

DDA

is compared to a

and V

DDA

Accuracy

and V

DDD

±2%

DDD

are

6.4 I/O System and Routing

PSoC I/Os are extremely flexible. Every GPIO has analog and

digital I/O capability. All I/Os have a large number of drive modes,

which are set at POR. PSoC also provides up to four individual

I/O voltage domains through the V

There are two types of I/O pins on every device; those with USB

provide a third type. Both GPIO and Special I/O (SIO) provide

similar digital functionality. The primary differences are their

analog capability and drive strength. Devices that include USB

also provide two USBIO pins that support specific USB

functionality as well as limited GPIO capability.

All I/O pins are available for use as digital inputs and outputs for

both the CPU and digital peripherals. In addition, all I/O pins can

generate an interrupt. The flexible and advanced capabilities of

the PSoC I/O, combined with any signal to any pin routability,

greatly simplify circuit design and board layout. All GPIO pins can

be used for analog input, CapSense, and LCD segment drive,

while SIO pins are used for voltages in excess of V

programmable output voltages.

Features supported by both GPIO and SIO:

Additional features only provided on the GPIO pins:

Additional features only provided on SIO pins:

USBIO features:

User programmable port reset state

Separate I/O supplies and voltages for up to four groups of I/O

Digital peripherals use DSI to connect the pins

Input or output or both for CPU and DMA

Eight drive modes

Every pin can be an interrupt source configured as rising

edge, falling edge or both edges. If required, level sensitive

interrupts are supported through the DSI

Dedicated port interrupt vector for each port

Slew rate controlled digital output drive mode

Access port control and configuration registers on either port

basis or pin basis

Separate port read (PS) and write (DR) data registers to avoid

read modify write errors

Special functionality on a pin by pin basis

LCD segment drive on LCD equipped devices

CapSense

Analog input and output capability

Continuous 100 µA clamp current capability

Standard drive strength down to 1.7 V

Higher drive strength than GPIO

Hot swap capability (5 V tolerance at any operating V

Programmable and regulated high input and output drive

levels down to 1.2 V

No analog input, CapSense, or LCD capability

Over voltage tolerance up to 5.5 V

SIO can act as a general purpose analog comparator

Full speed USB 2.0 compliant I/O

Highest drive strength for general purpose use

Input, output, or both for CPU and DMA

Input, output, or both for digital peripherals

Digital output (CMOS) drive mode

Each pin can be an interrupt source configured as rising

edge, falling edge, or both edges

PSoC

3: CY8C32 Family

DDIO

pins.

Data Sheet

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