ATtiny461 Automotive Atmel Corporation, ATtiny461 Automotive Datasheet - Page 30

ATtiny461 Automotive

Manufacturer Part Number

ATtiny461 Automotive

Description

Manufacturer

Atmel Corporation

Datasheets

1.AT90CAN128_AUTOMOTIVE.pdf (225 pages)

2.ATTINY261_AUTOMOTIVE.pdf (11 pages)

3.ATTINY261_AUTOMOTIVE.pdf (16 pages)

4.ATTINY261_AUTOMOTIVE.pdf (226 pages)

Specifications of ATtiny461 Automotive

Flash (kbytes)

4 Kbytes

Pin Count

Max. Operating Frequency

16 MHz

Cpu

8-bit AVR

# Of Touch Channels

Hardware Qtouch Acquisition

Max I/o Pins

Ext Interrupts

Usb Speed

Usb Interface

Spi

Twi (i2c)

Graphic Lcd

Video Decoder

Camera Interface

Adc Channels

Adc Resolution (bits)

Adc Speed (ksps)

Analog Comparators

Resistive Touch Screen

Temp. Sensor

Yes

Crypto Engine

Sram (kbytes)

0.25

Eeprom (bytes)

256

Self Program Memory

YES

Dram Memory

Nand Interface

Picopower

Temp. Range (deg C)

-40 to 150

I/o Supply Class

2.7 to 5.5

Operating Voltage (vcc)

2.7 to 5.5

Fpu

Mpu / Mmu

no / no

Timers

Output Compare Channels

Input Capture Channels

Pwm Channels

32khz Rtc

Calibrated Rc Oscillator

Yes

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7.7

7.8

7.9

128 kHz Internal Oscillator

Low-frequency Crystal Oscillator

Crystal Oscillator

ATtiny261/ATtiny461/ATtiny861

The 128 kHz internal Oscillator is a low power Oscillator providing a clock of 128 kHz. The fre-

quency is nominal at 3V and 25°C. This clock may be select as the system clock by

programming the CKSEL Fuses to “0011”.

When this clock source is selected, start-up times are determined by the SUT Fuses as shown in

Table

Table 7-8.

To use a 32.768 kHz watch crystal as the clock source for the device, the low-frequency crystal

oscillator must be selected by setting CKSEL fuses to ‘0100’. The crystal should be connected

as shown in

oscillator operation and how to choose appropriate values for C1 and C2.

When this oscillator is selected, start-up times are determined by the SUT fuses as shown in

Table

Table 7-9.

Notes:

XTAL1 and XTAL2 are input and output, respectively, of an inverting amplifier which can be con-

figured for use as an On-chip Oscillator, as shown in

ceramic resonator may be used.

C1 and C2 should always be equal for both crystals and resonators. The optimal value of the

capacitors depends on the crystal or resonator in use, the amount of stray capacitance, and the

electromagnetic noise of the environment. Some initial guidelines for choosing capacitors for

use with crystals are given in

the manufacturer should be used.

SUT1..0

7-8.

7-9.

1. These options should only be used if frequency stability at start-up is not important for the

application.

Start-up Time from Power

Figure

Power-down and Power-save

Down and Power Save

Start-up Times for the 128 kHz Internal Oscillator

Start-up Times for the Low Frequency Crystal Oscillator Clock Selection

32K (32768) CK

1K (1024) CK

Start-up Time from

7-4. Refer to the 32 kHz Crystal Oscillator Application Note for details on

6 CK

Table

(1)

7-10. For ceramic resonators, the capacitor values given by

Additional Delay from

Reset (V

Additional Delay from

64 ms

4 ms

Reserved

14CK + 64 ms

14CK + 4 ms

= 5.0V)

Reset

14CK

Figure

7-4. Either a quartz crystal or a

Recommended usage

Fast rising power or BOD enabled

Slowly rising power

Stable frequency at start-up

BOD enabled

Fast rising power

Slowly rising power

Recommended Usage

7753F–AVR–01/11

ATtiny461 Automotive Atmel Corporation, ATtiny461 Automotive Datasheet - Page 30

ATtiny461 Automotive

Specifications of ATtiny461 Automotive

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