AT90PWM316-16MU Atmel, AT90PWM316-16MU Datasheet - Page 16

AT90PWM316-16MU

Manufacturer Part Number

AT90PWM316-16MU

Description

MCU AVR 16K FLASH 16MHZ 32-QFN

Manufacturer

Atmel

Series

AVR® 90PWM Lightingr

Datasheet

1.AT90PWM216-16SU.pdf (359 pages)

Specifications of AT90PWM316-16MU

Core Processor

AVR

Core Size

8-Bit

Speed

16MHz

Connectivity

SPI, UART/USART

Peripherals

Brown-out Detect/Reset, POR, PWM, WDT

Number Of I /o

Program Memory Size

16KB (16K x 8)

Program Memory Type

FLASH

Eeprom Size

512 x 8

Ram Size

1K x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 5.5 V

Data Converters

A/D 11x10b; D/A 1x10b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 105°C

Package / Case

32-QFN

Processor Series

AT90PWMx

Core

AVR8

Data Bus Width

8 bit

Data Ram Size

1 KB

Interface Type

SPI, USART

Maximum Clock Frequency

16 MHz

Number Of Programmable I/os

Number Of Timers

Maximum Operating Temperature

+ 105 C

Mounting Style

SMD/SMT

3rd Party Development Tools

EWAVR, EWAVR-BL

Development Tools By Supplier

ATAVRDRAGON, ATSTK500, ATSTK600, ATAVRISP2, ATAVRONEKIT, ATAVRFBKIT, ATAVRISP2

Minimum Operating Temperature

- 40 C

On-chip Adc

10 bit, 11 Channel

Cpu Family

90P

Device Core

AVR

Device Core Size

Frequency (max)

16MHz

Total Internal Ram Size

1KB

# I/os (max)

Number Of Timers - General Purpose

Operating Supply Voltage (typ)

3.3/5V

Operating Supply Voltage (max)

5.5V

Operating Supply Voltage (min)

2.7V

Instruction Set Architecture

RISC

Operating Temp Range

-40C to 105C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

QFN EP

For Use With

ATSTK600-SOIC - STK600 SOCKET/ADAPTER FOR SOICATAVRMC200 - KIT EVAL FOR AT90PWM3 ASYNCATAVRFBKIT - KIT DEMO BALLAST FOR AT90PWM2

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Current page: 16 of 359
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5.8.1

AT90PWM216/316

Interrupt Behavior

programming the BOOTRST Fuse, see

gramming” on page

When an interrupt occurs, the Global Interrupt Enable I-bit is cleared and all interrupts are dis-

abled. The user software can write logic one to the I-bit to enable nested interrupts. All enabled

interrupts can then interrupt the current interrupt routine. The I-bit is automatically set when a

Return from Interrupt instruction – RETI – is executed.

There are basically two types of interrupts. The first type is triggered by an event that sets the

interrupt flag. For these interrupts, the Program Counter is vectored to the actual Interrupt Vector

in order to execute the interrupt handling routine, and hardware clears the corresponding inter-

rupt flag. Interrupt flags can also be cleared by writing a logic one to the flag bit position(s) to be

cleared. If an interrupt condition occurs while the corresponding interrupt enable bit is cleared,

the interrupt flag will be set and remembered until the interrupt is enabled, or the flag is cleared

by software. Similarly, if one or more interrupt conditions occur while the Global Interrupt Enable

bit is cleared, the corresponding interrupt flag(s) will be set and remembered until the Global

Interrupt Enable bit is set, and will then be executed by order of priority.

The second type of interrupts will trigger as long as the interrupt condition is present. These

interrupts do not necessarily have interrupt flags. If the interrupt condition disappears before the

interrupt is enabled, the interrupt will not be triggered.

When the AVR exits from an interrupt, it will always return to the main program and execute one

more instruction before any pending interrupt is served.

Note that the Status Register is not automatically stored when entering an interrupt routine, nor

restored when returning from an interrupt routine. This must be handled by software.

When using the CLI instruction to disable interrupts, the interrupts will be immediately disabled.

No interrupt will be executed after the CLI instruction, even if it occurs simultaneously with the

CLI instruction. The following example shows how this can be used to avoid interrupts during the

timed EEPROM write sequence..

Assembly Code Example

C Code Example

in r16, SREG

cli

sbi EECR, EEMWE

sbi EECR, EEWE

out SREG, r16

char cSREG;

cSREG = SREG;

/* disable interrupts during timed sequence */

_CLI();

EECR |= (1<<EEMWE); /* start EEPROM write */

EECR |= (1<<EEWE);

SREG = cSREG;

266.

; store SREG value

; disable interrupts during timed sequence

; start EEPROM write

; restore SREG value (I-bit)

/* store SREG value */

/* restore SREG value (I-bit) */

“Boot Loader Support – Read-While-Write Self-Pro-

7710E–AVR–08/10

AT90PWM316-16MU Atmel, AT90PWM316-16MU Datasheet - Page 16

AT90PWM316-16MU

Specifications of AT90PWM316-16MU

Available stocks

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