ISL54233IRTZ INTERSIL [Intersil Corporation], ISL54233IRTZ Datasheet - Page 9

ISL54233IRTZ

Manufacturer Part Number

ISL54233IRTZ

Description

Wideband Differential 3:1 Multiplexer

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.ISL54233IRTZ.pdf (18 pages)

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POWER

The power supply connected at V

the ISL54233 part. Its voltage should be kept in the range of

2.7V to 4.6V. In a typical application, V

2.7V to 4.3V and will be connected to the battery or LDO of the

MP3 player or cellphone.

A 0.01µF or 0.1µF decoupling capacitor should be connected

from the V

from entering the part. The capacitor should be located as close

to the V

LOGIC CONTROL

The state of the ISL54233 device is determined by the voltage at

the C1 pin (pin 9) and the C0 pin (pin 10). Refer to the “Truth

Table” on page 2.

The C1 pin and C0 pin are internally pulled low through 4MΩ

resistors to ground and can be tri-stated or left floating.

The C1 pin and C0 pin can be driven with a voltage that is higher

than the V

the V

higher than the supply rail will cause the logic current to

increase. With V

approximately 5.5µA.

Logic Control Voltage Levels

With V

C0 = Logic “0” (Low) when

(High) when

ALL SWITCHES OFF Mode

If the C1 pin = Logic “0” and C0 pin = Logic “0” the part will be in

the ALL SWITCHES OFF mode. In this mode, the 3D- and 3D+

data switches, the 2D- and 2D+ data switches, and the 1D- and

1D+ data switches will be OFF (high impedance).

The COM pins can accommodate signals that swing below

ground by as much as -2V. This allows an audio CODEC to be

connected to the COM pins when the device is in the all off state.

supply in the range of 2.7V to 4.6V. Driving the logic

in the range of 2.7V to 3.6V the logic levels are: C1,

pin as possible.

≥

supply voltage. They can be driven up to 5.25V with

pin to ground to filter out any power supply noise

1.4V.

= 2.7V and V

≤

0.5V or Floating. C1, C0 = Logic “1”

LOGIC

(pin 11) provides power to

= 5.25V, I

will be in the range of

LOGIC

FIGURE 9. RF HIGH FREQUENCY BOARD

current is

ISL54233

USB/DV 1 Mode

If the C1 pin = Logic “0” and C0 pin = Logic “1” the part will go

into USB/DV1 mode. The 1D- and 1D+ switches are ON and the

2D- and 2D+ switches and 3D- and 3D+ will be OFF (high

impedance).

USB/DV 2 Mode

If the C1 = Logic “1” and C0 pin = Logic “0” the part will be in the

USB/DV2 mode. The 2D- and 2D+ switches will be ON and the

1D- and 1D+ switches and the 3D- and 3D+ will be OFF (high

impedance).

USB/DV 3 Mode

If the C1 pin = Logic “1” and C0 pin = Logic “1” the part will be in

the USB/DV3 mode. The 3D- and 3D+ switches are ON, and the

1D- and 1D+ switches and 2D- and 2D+ switches will be OFF

(high impedance).

Printed Circuit Board Design for High

Frequency Performance

In 50Ω systems, the ISL54233 has a -3dB bandwidth of 1.6GHz

(see Figure 19).

To achieve this high bandwidth requires careful design and layout

of the PCB board. Signal traces must be designed to minimize

reflections and reduce parasitic resistance, inductance and

capacitance that degrade the frequency response performance.

Figure 9 shows a picture of the engineering board used to

measure the frequency response of the ISL54233 part. The

board was specifically design for taking high frequency

bandwidth measurements. The board was made with special

materials and was carefully layed out using RF board techniques

to maximize it for high frequency operation.

The next section, “Board Layout Guidelines”, will provide a list of

the PCB board requirements needed to get the maximum

bandwidth from the ISL54233 part when tested with a 50Ω

Network Analyzer.

December 21, 2011

FN7918.0

ISL54233IRTZ INTERSIL [Intersil Corporation], ISL54233IRTZ Datasheet - Page 9

ISL54233IRTZ

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