ATMEGA8U2_14 Datasheet, PDF(39/310 Page) ATMEL Corporation – 125 Powerful Instructions – Most Single Clock Cycle Execution

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ATMEGA8U2_14 Datasheet, PDF (39/310 Pages) ATMEL Corporation – 125 Powerful Instructions – Most Single Clock Cycle Execution

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ATmega8U2/16U2/32U2

the oscillator frequency. The oscillator can be calibrated to frequencies as specified in Table 26-

1 on page 266. Calibration outside that range is not guaranteed.

Note that this oscillator is used to time EEPROM and Flash write accesses, and these write

times will be affected accordingly. If the EEPROM or Flash are written, do not calibrate to more

than 8.8 MHz. Otherwise, the EEPROM or Flash write may fail.

The CAL7 bit determines the range of operation for the oscillator. Setting this bit to 0 gives the

lowest frequency range, setting this bit to 1 gives the highest frequency range. The two fre-

quency ranges are overlapping, in other words a setting of OSCCAL = 0x7F gives a higher

frequency than OSCCAL = 0x80.

The CAL[6:0] bits are used to tune the frequency within the selected range. A setting of 0x00

gives the lowest frequency in that range, and a setting of 0x7F gives the highest frequency in the

range.

8.11.5 CLKPR â Clock Prescale Register

Bit

7

6

5

4

3

2

1

0

(0x61)

CLKPCE

â

â

â

CLKPS3 CLKPS2 CLKPS1 CLKPS0 CLKPR

Read/Write

R/W

R

R

R

R/W

R/W

R/W

R/W

Initial Value

0

0

0

0

See Bit Description

â¢ Bit 7 â CLKPCE: Clock Prescaler Change Enable

The CLKPCE bit must be written to logic one to enable change of the CLKPS bits. The CLKPCE

bit is only updated when the other bits in CLKPR are simultaneously written to zero. CLKPCE is

cleared by hardware four cycles after it is written or when CLKPS bits are written. Rewriting the

CLKPCE bit within this time-out period does neither extend the time-out period, nor clear the

CLKPCE bit.

â¢ Bit 6:4 - Reserved bits

These bits are reserved and will always read as zero.

â¢ Bits 3:0 â CLKPS[3:0]: Clock Prescaler Select Bits 3 - 0

These bits define the division factor between the selected clock source and the internal system

clock. These bits can be written run-time to vary the clock frequency to suit the application

requirements. As the divider divides the master clock input to the MCU, the speed of all synchro-

nous peripherals is reduced when a division factor is used. The division factors are given in

Table 8-9.

The CKDIV8 Fuse determines the initial value of the CLKPS bits. If CKDIV8 is unprogrammed,

the CLKPS bits will be reset to â0000â. If CKDIV8 is programmed, CLKPS bits are reset to

â0011â, giving a division factor of 8 at start up. This feature should be used if the selected clock

source has a higher frequency than the maximum frequency of the device at the present operat-

ing conditions. Note that any value can be written to the CLKPS bits regardless of the CKDIV8

Fuse setting. The Application software must ensure that a sufficient division factor is chosen if

the selected clock source has a higher frequency than the maximum frequency of the device at

the present operating conditions. The device is shipped with the CKDIV8 Fuse programmed.

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7799DâAVRâ11/10

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