SAA1305T Datasheet, PDF(8/32 Page) Panasonic Semiconductor

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SAA1305T Datasheet, PDF (8/32 Pages) Panasonic Semiconductor – On/off logic IC

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Philips Semiconductors

On/off logic IC

Product speciï¬cation

SAA1305T

IMPEDANCE DETECTION

Input D1 is a normal input with comparable behaviour like

the other seven inputs. The only difference is an additional

internal exclusive-NOR (EXNOR) connected between the

two comparator outputs for high and low detection;

see Fig.4. The EXNOR signal indicates, in combination

with a special external circuit on input D1, a voltage of

1â2VDD on this input.

The simple input description for impedance detection is

probably not the real solution, but helps to explain the

function. Input D1 can be used as a normal input and for

impedance detection as described in Table 2. For normal

use the output Q acts like every other input, but for

impedance detection the EXNOR output S is also

important. Output S is linked to the status register bit 6 and

indicates the 1â2VDD; see Table 5.

Between detection and indication via the status register

bit 6, a delay time is integrated (programmable via the

impedance register bits 1 and 0; see Table 15). When the

1â2VDD value is detected the EXNOR output will be set to

logic 1 (active) and after the programmed delay time the

status register bit 6 will be set to logic 1 (active). This event

will also be indicated via pin CHI and (if enabled) pin RP.

The impedance information (bit 6 is active) within the

status register is present until the I2C-bus status is read.

With the disappearance of the impedance information no

further actions will be generated. Every impedance signal

change during the delay time will restart the delay time.

However an impedance detection is only possible in the

event of a stable signal, at least for the programmed delay

time. Setting the status register bit 6 with a repetition time

which equals the âimpedance delay timeâ as long as

input D1 stays in high-impedance state is implemented.

handbook, full pagewidth

12 V

ignition

key 10 kâ¦

100 kâ¦

input D1

100 kâ¦

3.5 V

1.5 V

MGR203

Fig.4 Simple input description for impedance detection.

Table 2 Logic levels for impedance detection

IGNITION KEY

12 V

Open-circuit (VI = 2.5 V)

Ground (VI < 1.5 V)

0 or 1

2004 Jan 15

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