ATA6612C View Datasheet(PDF) - Atmel Corporation

Part Name

Description

MFG CO.

ATA6612C

8K/16K Flash Microcontroller with LIN Transceiver, 5V Regulator and Watchdog

Atmel Corporation 

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The oscillator is required to oscillate for a minimum number of cycles before the clock is considered stable. An internal ripple

counter monitors the oscillator output clock, and keeps the internal reset active for a given number of clock cycles. The reset

is then released and the device will start to execute. The recommended oscillator start-up time is dependent on the clock

type, and varies from 6 cycles for an externally applied clock to 32K cycles for a low frequency crystal.

The start-up sequence for the clock includes both the time-out delay and the start-up time when the device starts up from

reset. When starting up from power-save or power-down mode, VCC is assumed to be at a sufficient level and only the

start-up time is included.

5.6.3

Low Power Crystal Oscillator

Pins XTAL1 and XTAL2 are input and output, respectively, of an inverting amplifier which can be configured for use as an

on-chip oscillator, as shown in Figure 5-12. Either a quartz crystal or a ceramic resonator may be used.

This crystal oscillator is a low power oscillator, with reduced voltage swing on the XTAL2 output. It gives the lowest power

consumption, but is not capable of driving other clock inputs, and may be more susceptible to noise in noisy environments. In

these cases, refer to the Section 5.6.4 “Full Swing Crystal Oscillator” on page 49.

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 Table 5-6. For ceramic resonators, the capacitor values

given by the manufacturer should be used.

Figure 5-12. Crystal Oscillator Connections

C2

XTAL2

C1

XTAL1

GND

The low power oscillator can operate in three different modes, each optimized for a specific frequency range. The operating

mode is selected by the fuses CKSEL3..1 as shown in Table 5-6.

Table 5-6. Low Power Crystal Oscillator Operating Modes(3)

Notes:

Frequency Range(1) (MHz)

CKSEL3..1 Recommended Range for Capacitors C1 and C2 (pF)

0.4 - 0.9

100(2)

–

0.9 - 3.0

101

12 - 22

3.0 - 8.0

110

12 - 22

8.0 - 16.0

111

1. The frequency ranges are preliminary values. Actual values are TBD.

12 - 22

2. This option should not be used with crystals, only with ceramic resonators.

3. If 8MHz frequency exceeds the specification of the device (depends on VCC), the CKDIV8 Fuse can be pro-

grammed in order to divide the internal frequency by 8. It must be ensured that the resulting divided clock

meets the frequency specification of the device.

48 ATA6612C/ATA6613C [DATASHEET]

9111L–AUTO–11/14

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