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ISL54223_09 Datasheet, PDF (7/13 Pages) Intersil Corporation – High-Speed USB 2.0 (480Mbps) Multiplexer
Application Block Diagram
ISL54223
VBUS
D-
D+
GND
VDD
ISL54223
SEL
OE
LOGIC CIRCUITRY
HSD1-
D-
HSD1+
D+
GND
HSD2-
HSD2+
µCONTROLLER
USB
HIGH-SPEED
OR
FULL-SPEED
TRANSCEIVER
#1
USB
HIGH_SPEED
OR
FULL-SPEED
TRANSCEIVER
#2
PORTABLE MEDIA DEVICE
Detailed Description
The ISL54223 device is a dual single pole/double throw
(SPDT) analog switch configured as a DPDT that operates
from a single DC power supply in the range of 1.8V to 3.3V.
It was designed to function as a dual 2-to-1 multiplexer to
select between two USB high-speed differential data signals
in portable battery powered products. It is offered in a small
µTQFN package for use in MP3 players, cameras, PDAs,
cell phones, and other personal media players. The device
has an enable pin to open all switches.
The part consists of four 5.5Ω high speed (HSx) switches.
These switches have high bandwidth and low capacitance to
pass USB high-speed (480Mbps) differential data signals
with minimal edge and phase distortion. They can also swing
from 0V to VDD to pass USB full speed (12Mbps) differential
data signals with minimal distortion.
The ISL54223 was designed for MP3 players, cameras, cell
phones, and other personal media player applications that
have multiple high-speed and/or full-speed transceivers
sections and need to multiplex between these USB sources
to a single USB host (computer). A typical application block
diagram of this functionality is previously shown.
A detailed description of the HS switches is provided in the
following section.
High-Speed (HSx) Switches
The HSx switches (HSD1-, HSD1+, HSD2-, HSD2+) are
bi-directional switches that can pass rail-to-rail signals.
When powered with a 1.8V supply, these switches have a
nominal rON of 5.5Ω over the signal range of 0V to 400mV
with a rON flatness of 0.44Ω. The rON matching between the
HSD1 and HSD2 switches over this signal range is only
0.072Ω, ensuring minimal impact by the switches to USB
high speed signal transitions. As the signal level increases,
7
the rON switch resistance increases. At signal level of 1.8V,
the switch resistance is nominally 12Ω. See Figures 7, 8, 9,
10, 11 and 12 in the “Typical Performance Curves” beginning
on page 9.
The HSx switches were specifically designed to pass USB
2.0 high-speed (480Mbps) differential signals in the range of
0V to 400mV. They have low capacitance (6.5pF) and high
bandwidth to pass the USB high-speed signals with
minimum edge and phase distortion to meet USB 2.0 high
speed signal quality specifications. See Figure 13 in the
“Typical Performance Curves” on page 9 for USB
High-speed Eye Pattern taken with switches in the
differential signal paths.
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 Figures
14 and 15 in the “Typical Performance Curves” on page 11
for USB Full-speed Eye Patterns taken with switches in the
differential signal paths.
The maximum normal operating signal range for the HSx
switches is from 0V to VDD. The signal voltage should not be
allow to exceed the VDD voltage rail or go below ground by
more than -0.3V for normal operation.
However, in the event that the USB 5.25V VBUS voltage gets
shorted to one or both of the D-/D+ pins, the ISL54223 has
special fault protection circuitry to prevent damage to the
ISL54223 part. The fault circuitry allows the signal pins
(D-, D+, HSD1-, HSD1+, HSD2-, HSD2+) to be driven up to
5.5V while the VDD supply voltage is in the range of 0V to
3.3V. In this condition the part draws < 300µA of IDD current
and causes no stress to the IC. In addition when VDD is at
0V (ground) all switches are OFF and the fault voltage is
isolated from the other side of the switch. When VDD is in the
range of 1.8V to 3.3V the fault voltage will pass through to
FN6836.1
May 27, 2009