p82b96td/s410 NXP Semiconductors, p82b96td/s410 Datasheet - Page 4

p82b96td/s410

Manufacturer Part Number

p82b96td/s410

Description

Dual Bi-directional Bus Buffer

Manufacturer

NXP Semiconductors

Datasheet

1.P82B96TDS410.pdf (28 pages)

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Part Number:

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7. Functional description

P82B96_6

Product data sheet

Refer to

The P82B96 has two identical buffers allowing buffering of both of the I

SCL) signals. Each buffer is made up of two logic signal paths, a forward path from the

buffered bus input to drive the I

The rest of this discussion will address only the ‘x’ side of the buffer; the ‘y’ side is

identical.

The I

The logic threshold voltage levels on the I

The maximum I

3 mA.

The logic level of Rx is determined from the power supply voltage V

LOW is below 42 % of V

threshold of half V

Tx is an open-collector output without ESD protection diodes to V

via a pull-up resistor to a supply voltage in excess of V

exceeded. It has a larger current sinking capability than a normal I

able to sink a static current of greater than 30 mA, and typical 100 mA dynamic pull-down

capability as well.

A logic LOW is only transmitted to Tx when the voltage at the I

0.6 V. A logic LOW at Rx will cause the I

accordance with I

enough to be looped back to the Tx output and cause the buffer to latch LOW.

The minimum LOW level this chip can achieve on the I

0.8 V.

If the supply voltage V

Their open-collector conﬁguration allows them to be pulled up to the rated maximum of

15 V even without V

loading of external signals even when V

The effective input capacitance of any signal pin, measured by its effect on bus rise times,

is less than 7 pF for all bus voltages and supply voltages including V

Remark: Two or more Sx or Sy I/Os must not be interconnected. The P82B96 design

does not support this conﬁguration. Bidirectional I

direction control pin so, instead, slightly different logic low voltage levels are used at Sx/Sy

to avoid latching of this buffer. A ‘regular I

will be propagated to Sx/Sy as a ‘buffered LOW’ with a slightly higher voltage level. If this

C-bus interface pin which drives the buffered bus, and a reverse signal path from the

•

sense the voltage state of the I

Tx (Ty respectively), and

sense the state of the pin Rx (Ry) and pull the I

LOW.

C-bus pin (Sx) is designed to interface with a normal I

Figure 1 “Block diagram of

C-bus supply voltage is 15 V and the guaranteed static sink current is

C-bus requirements (maximum 1.5 V in 5 V applications) but not low

Rev. 06 — 31 January 2008

present. The input conﬁguration on Sx and Rx also present no

fails, then neither the I

, and logic HIGH is above 58 % of V

C-bus interface. Thus these paths are:

P82B96”.

C-bus pin Sx (or Sy) and transmit this state to the pin

C-bus (Sx) to be pulled to a logic LOW level in

C-bus LOW’ applied at the Rx/Ry of a P82B96

C-bus are independent of the IC supply V

is not present.

C-bus nor the Tx output will be held LOW.

C-bus signals do not allow any

C-bus pin LOW whenever Rx (Ry) is

C-bus by a LOW at Rx is typically

, as long as the 15 V rating is not

Dual bidirectional bus buffer

C-bus.

C-bus pin (Sx) is below

(with a typical switching

C-bus device, being

. It may be connected

of the chip. Logic

= 0 V.

C-bus (SDA and

P82B96

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p82b96td/s410 NXP Semiconductors, p82b96td/s410 Datasheet - Page 4

p82b96td/s410

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