TCA9548A_15 Datasheet, PDF(20/35 Page) Texas Instruments – Low-Voltage 8-Channel I2C Switch With Reset

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TCA9548A_15 Datasheet, PDF (20/35 Pages) Texas Instruments – Low-Voltage 8-Channel I2C Switch With Reset

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TCA9548A

SCPS207E â MAY 2012 â REVISED OCTOBER 2015

www.ti.com

Typical Application (continued)

9.2.1 Design Requirements

A typical application of the TCA9548A will contain one or more data pull-up voltages, VDPUX, one for the master

device (VDPUM) and one for each of the selectable slave channels (VDPU0 â VDPU7). In the event where the master

device and all slave devices operate at the same voltage, then VDPUM = VDPUX = VCC. In an application where

voltage translation is necessary, additional design requirements must be considered to determine an appropriate

VCC voltage.

The A0, A1, and A2 pins are hardware selectable to control the slave address of the TCA9548A. These pins may

be tied directly to GND or VCC in the application.

If multiple slave channels will be activated simultaneously in the application, then the total IOL from SCL/SDA to

GND on the master side will be the sum of the currents through all pull-up resistors, Rp.

The pass-gate transistors of the TCA9548A are constructed such that the VCC voltage can be used to limit the

maximum voltage that is passed from one I2C bus to another.

Figure 14 shows the voltage characteristics of the pass-gate transistors (note that the graph was generated using

data specified in Electrical Characteristics). In order for the TCA9548A to act as a voltage translator, the Vpass

voltage must be equal to or lower than the lowest bus voltage. For example, if the main bus is running at 5 V and

the downstream buses are 3.3 V and 2.7 V, Vpass must be equal to or below 2.7 V to effectively clamp the

downstream bus voltages. As shown in Figure 14, Vpass(max) is 2.7 V when the TCA9548A supply voltage is 4 V

or lower, so the TCA9548A supply voltage could be set to 3.3 V. Pull-up resistors then can be used to bring the

bus voltages to their appropriate levels (see Figure 13).

9.2.2 Detailed Design Procedure

Once all the slaves are assigned to the appropriate slave channels and bus voltages are identified, the pull-up

resistors, Rp, for each of the buses need to be selected appropriately. The minimum pull-up resistance is a

function of VDPUX, VOL,(max), and IOL:

Rp(min)

VDPUX

- VOL(max)

IOL

(1)

The maximum pull-up resistance is a function of the maximum rise time, tr (300 ns for fast-mode operation, fSCL =

400 kHz) and bus capacitance, Cb:

Rp(max)

0.8473 Â´ Cb

(2)

The maximum bus capacitance for an I2C bus must not exceed 400 pF for fast-mode operation. The bus

capacitance can be approximated by adding the capacitance of the TCA9548A, Cio(OFF), the capacitance of

wires/connections/traces, and the capacitance of each individual slave on a given channel. If multiple channels

will be activated simultaneously, each of the slaves on all channels will contribute to total bus capacitance.

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