TDA8025 Datasheet, PDF(12/38 Page) NXP Semiconductors

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TDA8025 Datasheet, PDF (12/38 Pages) NXP Semiconductors – IC card interface

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NXP Semiconductors

TDA8025

IC card interface

The duty cycle on pin CLK should be between 45 % and 55 %. To ensure this, the

following must be applied:

â¢ when the CLK frequency is fxtal:

If an external clock is connected to pin XTAL1, the duty cycle should be between 48 %

and 52 % with an input signal period transition time of less than 5 %.

If a crystal is used to generate fxtal, the duty cycle on pin CLK should be between

45 % and 55 % depending on the layout, crystal characteristics and frequency.

â¢ when CLK frequency is either fxtal, 1â2 fxtal, 1â4 fxtal or 1â8 fxtal:

The duty cycle is guaranteed between 45 % and 55 % of the period frequency

divisions.

When a crystal is used, it runs when pin ENCLKIN is driven LOW.

CLKDIV1 6

CLKDIV2 5

CLOCK

CIRCUIT

15 CLK

ENCLKIN 26

MULTIPLEXER

XTAL

OSCILLATOR

XTAL2

XTAL1

â¤ 26 MHz(1)

001aai963

(1) External crystal (optional).

Fig 6. Clock circuits

The clock signal is applied to the card based on the activation sequence as shown on the

timing diagrams; see Figure 8 on page 15 to Figure 13 on page 19.

When the signal applied to XTAL1 is controlled by the microcontroller, the clock signal is

sent to the card only after the activation sequence ï¬nishes.

Table 4. Clock conï¬guration

Clock circuitry deï¬nition (pins CLKDIV1 and CLKDIV2 can be changed simultaneously; a

>10 XTAL1 period delay is needed. The minimum duration of any CLK state is 10 XTAL1 periods).

CLKDIV1

CLKDIV2

CLK

1â8 fxtal

1â4 fxtal

1â2 fxtal

fxtal

TDA8025_1

Product data sheet

Rev. 01 â 6 April 2009

12 of 38

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