ATTINY20-EK1 Atmel, ATTINY20-EK1 Datasheet - Page 25

ATTINY20-EK1

Manufacturer Part Number

ATTINY20-EK1

Description

KIT EVAL TOUCH ATTINY20

Manufacturer

Atmel

Datasheet

1.ATTINY20-EK1.pdf (224 pages)

Specifications of ATTINY20-EK1

Sensor Type

Sensing Range

Interface

Sensitivity

Voltage - Supply

Embedded

Utilized Ic / Part

Silicon Manufacturer

Atmel

Core Architecture

AVR

Core Sub-architecture

TinyAVR

Kit Contents

Board

Svhc

No SVHC (15-Dec-2010)

Mcu Supported Families

ATtiny20

Tool / Board Applications

Microcontroller

Rohs Compliant

Yes

Tool Type

Development Kit

Cpu Core

AVR 8

Data Bus Width

8 bit

Processor To Be Evaluated

ATtiny20

Interface Type

Touch

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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7. Power Management and Sleep Modes

7.1

7.1.1

8235B–AVR–04/11

Sleep Modes

Idle Mode

The high performance and industry leading code efficiency makes the AVR microcontrollers an

ideal choise for low power applications. In addition, sleep modes enable the application to shut

down unused modules in the MCU, thereby saving power. The AVR provides various sleep

modes allowing the user to tailor the power consumption to the application’s requirements.

Figure 6-1 on page 18

The figure is helpful in selecting an appropriate sleep mode.

modes and their wake up sources.

Table 7-1.

Notes:

To enter any of the four sleep modes, the SE bits in MCUCR must be written to logic one and a

SLEEP instruction must be executed. The SM[2:0] bits in the MCUCR register select which

sleep mode (Idle, ADC Noise Reduction, Standby or Power-down) will be activated by the

SLEEP instruction. See

If an enabled interrupt occurs while the MCU is in a sleep mode, the MCU wakes up. The MCU

is then halted for four cycles in addition to the start-up time, executes the interrupt routine, and

resumes execution from the instruction following SLEEP. The contents of the Register File and

SRAM are unaltered when the device wakes up from sleep. If a reset occurs during sleep mode,

the MCU wakes up and executes from the Reset Vector.

Note that if a level triggered interrupt is used for wake-up the changed level must be held for

some time to wake up the MCU (and for the MCU to enter the interrupt service routine). See

“External Interrupts” on page 39

When bits SM[2:0] are written to 000, the SLEEP instruction makes the MCU enter Idle mode,

stopping the CPU but allowing the analog comparator, ADC, timer/counters, watchdog, TWI, SPI

and the interrupt system to continue operating. This sleep mode basically halts clk

clk

Idle mode enables the MCU to wake up from external triggered interrupts as well as internal

ones like the timer overflow. If wake-up from the analog comparator interrupt is not required, the

Sleep Mode

Idle

ADC Noise Reduction

Standby

Power-down

NVM

, while allowing the other clocks to run.

1. For INT0, only level interrupt.

2. Only TWI address match interrupt.

Active Clock Domains and Wake-up Sources in Different Sleep Modes.

presents the different clock systems and their distribution in ATtiny20.

Table 7-2

Active Clock Domains

for details.

for a summary.

Oscillators

Table 7-1

(1)

shows the different sleep

Wake-up Sources

ATtiny20

(2)

CPU

and

ATTINY20-EK1 Atmel, ATTINY20-EK1 Datasheet - Page 25

ATTINY20-EK1

Specifications of ATTINY20-EK1

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