PCA9600D,112 NXP Semiconductors, PCA9600D,112 Datasheet - Page 15

PCA9600D,112

Manufacturer Part Number

PCA9600D,112

Description

IC DUAL BI-DIR BUS BUFFER 8-SOIC

Manufacturer

NXP Semiconductors

Type

Bufferr

Datasheet

1.PCA9600D112.pdf (31 pages)

Specifications of PCA9600D,112

Package / Case

8-SOIC (3.9mm Width)

Mounting Type

Surface Mount

Current - Supply

7.3mA

Voltage - Supply

2.5 V ~ 15 V

Delay Time

100ns

Capacitance - Input

10pF

Tx/rx Type

I²C Logic

Supply Voltage (max)

15 V

Supply Voltage (min)

2.5 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

935285243112::PCA9600D::PCA9600D

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PCA9600

Product data sheet

Fig 17. Rising edge of SDA at slave is delayed by the buffers and bus rise times

CCM

MASTER

Effective delay of SDA at master: 115 + 0.2(Rs × Cs) + 0.7[(Rb × Cb) + (Rm × Cm)] (ns).

C = F; R = Ω.

C-BUS

local master bus

GND (0 V)

SDA

Figure

with relatively large capacitances linking two I

expressions for making the relevant timing calculations for 3.3 V or 5 V operation.

Because the buffers and the wiring introduce timing delays, it may be necessary to

decrease the nominal SCL frequency. In most cases the actual bus frequency will be

lower than the nominal Master timing due to bit-wise stretching of the clock periods.

The delay factors involved in calculation of the allowed bus speed are:

A — The propagation delay of the master signal through the buffers and wiring to the

slave. The important delay is that of the falling edge of SCL because this edge ‘requests’

the data or acknowledge from a slave. See

B — The effective stretching of the nominal LOW period of SCL at the master caused by

the buffer and bus rise times. See

C — The propagation delay of the slave's response signal through the buffers and wiring

back to the master. The important delay is that of a rising edge in the SDA signal. Rising

edges are always slower and are therefore delayed by a longer time than falling edges.

(The rising edges are limited by the passive pull-up while falling edges are actively

driven); see

The timing requirement in any I

provided in response to a falling edge of SCL) must be received at the master before the

end of the corresponding LOW period of SCL as appears on the bus wiring at the master.

Since all slaves will, as a minimum, satisfy the worst case timing requirements of their

speed class (Fast-mode, Fm+, etc.), they must provide their response, allowing for the

set-up time, within the minimum allowed clock LOW period, e.g., 450 ns (max.) for Fm+

parts. In systems that introduce additional delays it may be necessary to extend the

minimum clock LOW period to accommodate the ‘effective’ delay of the slave's response.

The effective delay of the slave’s response equals the total delays in SCL falling edge

15,

master bus

capacitance

Figure

CCB

All information provided in this document is subject to legal disclaimers.

PCA9600

16, and

17.

Rev. 5 — 5 May 2011

Figure 17

TX/RX

buffered expansion bus

C-bus system is that a slave's data response (which is

Figure

buffered bus

wiring capacitance

show the PCA9600 used to drive extended bus wiring

TX/RX

16.

PCA9600

Figure

C-bus nodes. It includes simplified

15.

Dual bidirectional bus buffer

slave bus

capacitance

remote slave bus

SDA

PCA9600

C-BUS

SLAVE

001aai158

CCS

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PCA9600D,112 NXP Semiconductors, PCA9600D,112 Datasheet - Page 15

PCA9600D,112

Specifications of PCA9600D,112

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