ISL54224IRTZ Intersil, ISL54224IRTZ Datasheet - Page 10

ISL54224IRTZ

Manufacturer Part Number

ISL54224IRTZ

Description

IC MULTIPLEXER DUAL 2:1 10TDFN

Manufacturer

Intersil

Datasheet

1.ISL54224IRTZ.pdf (18 pages)

Specifications of ISL54224IRTZ

Function

Multiplexer

Circuit

2 x 2:1

On-state Resistance

20 Ohm

Voltage Supply Source

Single Supply

Voltage - Supply, Single/dual (±)

2.7 V ~ 5.25 V

Current - Supply

45µA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

10-WFDFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 10 of 18
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The HSx switches can also pass USB full-speed signals

(12Mbps) with minimal distortion and meet all the USB

requirements for USB 2.0 full-speed signaling. See

Figure 21 in the “Typical Performance Curves” on

page 14 for USB Full-speed Eye Pattern taken with

switch in the signal path.

The HS1 channel switches are active (turned ON)

whenever the SEL voltage is logic “0”(Low) and the

OE/ALM voltage is logic “1”(High).

The HS2 channel switches are active (turned ON)

whenever the SEL voltage is logic “1” (High) and the

OE/ALM voltage is logic “1” (High).

Overvoltage Protection (OVP)

The maximum normal operating signal range for the HSx

switches is from 0V to 3.6V. For normal operation, the

signal voltage should not be allowed to exceed this voltage

range or go below ground by more than -0.3V.

However, in the event that a positive voltage > 3.8V

(typ) to 5.25V, such as the USB 5V V

shorted to one or both of the COM+ and COM- pins or a

negative voltage < -0.5V (typ) to -5V gets shorted to one

or both of the COM pins, the ISL54224 has OVP circuitry

to detect the overvoltage condition and open the SPDT

switches to prevent damage to the USB down-stream

transceivers connected at the signal pins (HS1D-,

HS1D+, HS2D-, HS2D+).

The OVP and power-off protection circuitry allows the

COM pins (D-, D+) to be driven up to 5.25V while the

condition the part draws < 100µA of I

current and causes no stress to the IC. In addition, the

SPDT switches are OFF and the fault voltage is isolated

from the other side of the switch.

The OE/ALM pin gets internally pulled low whenever the

part senses an overvoltage condition. The pin must be

externally pulled “High” with a pull-up resistor and

monitored for a “Low” to determine when an overvoltage

condition has occurred.

External V

Current during Negative OVP Condition

A 100Ω to 1kΩ resistor in series with the VDD pin (see

Figure 7) is required to limit the I

the system power supply rail during a negative OVP fault

event.

With a negative -5V fault voltage at both com pins, the

graph in Figure 8 shows the IDD current draw for

different external resistor values for supply voltages of

2.7V, 3.6V, and 5.25V. Note: With a 500Ω resistor the

current draw is limited to around 5mA. When the

negative fault voltage is removed the I

return to it’s normal operation current of 25

The series resistor also provides improved ESD and

latch-up immunity. During an overvoltage transient

event (such as occurs during system level IEC 61000

ESD testing), substrate currents can be generated in

supply voltage is in the range of 0V to 5.25V. In this

Series Resistor to Limit I

BUS

current draw from

COMx

voltage, gets

current will

µA

and I

to 45

ISL54224

µA.

the IC that can trigger parasitic SCR structures to turn

ON, creating a low impedance path from the VDD

power supply to ground. This will result in a significant

amount of current flow in the IC, which can potentially

create a latch-up state or permanently damage the IC.

The external VDD resistor limits the current during this

over-stress situation and has been found to prevent

latch-up or destructive damage for many overvoltage

transient events.

Under normal operation, the low microamp I

of the IC produces an insignificant voltage drop across

the series resistor resulting in no impact to switch

operation or performance.

ISL54224 Operation

The following will discuss using the ISL54224 shown in

the “Application Block Diagram” on page 9.

POWER

The power supply connected at the VDD pin provides the

DC bias voltage required by the ISL54224 part for proper

operation. The ISL54224 can be operated with a V

voltage in the range of 2.7V to 5.25V.

FIGURE 7. V

FIGURE 8. NEGATIVE OVP IDD CURRENT vs RESISTOR

-5V

FAULT

VOLTAGE

100

2.7V

200

CURRENT DURING NEGATIVE OVP AND FOR

ENHANCED ESD AND LATCH-UP IMMUNITY

VALUE vs V

3.6V

5.25V

300

PROTECTION

RESISTOR

100Ω to 1kΩ

SERIES RESISTOR TO LIMIT IDD

D+

SEL

D-

400

SUPPLY

LOGIC

RESISTOR (Ω)

OVP

500

SUPPLY

VDD

GND

600

OE/ALM

COM+

HSD1+

HSD2+

HSD1-

HSD2-

TO INDICATE OVP

PULLED “LOW”

700

= V

COM-

800

SUPPLY

= -5V

100kΩ

900 1k

June 7, 2010

current

FN6969.0

ISL54224IRTZ Intersil, ISL54224IRTZ Datasheet - Page 10

ISL54224IRTZ

Specifications of ISL54224IRTZ

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