ATA5824-PLQW 80 Atmel, ATA5824-PLQW 80 Datasheet - Page 28

ATA5824-PLQW 80

Manufacturer Part Number

ATA5824-PLQW 80

Description

Manufacturer

Atmel

Datasheet

1.ATA5824-PLQW_80.pdf (98 pages)

Specifications of ATA5824-PLQW 80

Operating Temperature (min)

-40C

Operating Temperature (max)

105C

Operating Temperature Classification

Industrial

Product Depth (mm)

7mm

Product Height (mm)

0.9mm

Product Length (mm)

7mm

Operating Supply Voltage (typ)

Lead Free Status / Rohs Status

Compliant

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ATA5823/ATA5824

Figure 9-1.

With C

P ±100 ppm and with C

is P

Since typical crystals have less than ±50 ppm tolerance at 25°C, the compensation is not critical

and can, in both cases, be done with the ±150 ppm.

enter the steep region of pulling versus load capacitance where there is a risk of an unstable

oscillation.

To ensure proper start-up behavior the small signal gain, and thus the negative resistance pro-

vided by this XTO at start is very large. For example oscillation starts up, even in worst case,

with a crystal series resistance of 1.5

approximately given by

with Z

XTAL2 with typically 19 ms at 25°C.

With f

about 2 k . The worst case for technological, supply voltage and temperature variations is then

for C

Due to the large gain at start, the XTO is able to meet a very low start-up time. The oscillation

start-up time can be estimated with the time constant

After 10

High if the amplitude is large enough. This activates the CLK output if CLK_ON and CLK_EN in

control register 3 are High (see

the DVCC voltage also have to be fulfilled (see

31).

Re Z

consists of crystals C

of the XTAL has to be lower than C

-----------------------------------------------------------------------------------------------------------

XTOcore

–

XTO

j/(2

, Z

50 ppm.

2.2 pF always higher than 1.5 k

= 13.5 MHz, gm = 19 ms, C

to 20 , an amplitude detector detects the oscillation amplitude and sets XTO_OK to

14 fF, C

as complex impedances at pin XTAL1 and XTAL2 hence

XTAL with Load Capacitances

XTO

----------------------------------------------------------------------------------------------------- -

1.5 pF, C

Re Z

XTAL

in parallel with an internal 110 k resistor hence

) /110 k , gm is the internal transconductance between XTAL1 and

) + 5 and Z

XTOcore

7 fF, C

Table 12-12 on page

= 9 pF and C

= 9 pF, C

1.5 pF, C

Lmin

at C

/2 = 3.7 pF for a Pierce oscillator type in order to not

–

j/(2

2.2 pF with this XTO. The negative resistance is

Figure 9-2 on page 29

= 2.2 pF this results in a negative resistance of

= 7.4 pF to 10.6 pF the pulling amounts to

= 9 pF and C

Crystal equivalent circuit

39). Note that the necessary conditions of

= C

XTO

x C

/ (C

) + 5 .

= 7.4 pF to 10.6 pF the pulling

+ C

and

)

Figure 10-1 on page

4829D–RKE–06/06

ATA5824-PLQW 80 Atmel, ATA5824-PLQW 80 Datasheet - Page 28

ATA5824-PLQW 80

Specifications of ATA5824-PLQW 80

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