1ꢀ5k EꢁDꢂ-rotected UꢁB Transceivers with
External/Internal -ullup Resistors
V
Data Transfer
TRM
voltage
An internal linear regulator generates the V
TRM
Transmitting Data to the USB
To transmit data to the USB, drive OE low. The
MAX13481E/MAX13482E/MAX13483E transmit data to
the USB differentially on D+ and D-. VP and VM serve
as input signals to the differential driver and are also
used to assert a single-ended zero (SE0) driver (see
Table 3).
(+3.3V, typ). V
derives power from V
(see the
powers
TRM
BUS
Power-Supply Configurations section). V
TRM
the internal portions of the USB circuitry and provides
the pullup voltage for the MAX13481E/MAX13482E.
Bypass V
to GND with a 1µF ceramic capacitor as
TRM
close to the device as possible. Do not use V
vide power to any other external circuitry.
to pro-
TRM
Receiving Data from the USB
To receive data from the USB, drive OE high and SUS
low. Differential data received by D+ and D- appears at
RCV. Single-ended receivers on D+ and D- drive VP
and VM, respectively.
D+ and D-
D+ and D- serve as bidirectional bus connections and
are ESD-protected to 15kV (Human Body Model). For
OE = low, D+ and D- serve as transmitter outputs. For
OE = high, D+ and D- serve as receiver inputs.
RCk
RCV monitors D+ and D- when receiving data. RCV is a
logic 1 for D+ high and D- low. RCV is a logic 0 for D+
low and D- high. RCV retains its last valid state when
D+ and D- are both low (single-ended zero, or SE0).
BD (MAX13482E/MAX13483E)
The push-pull bus detect (BD) output monitors V
BUS
. BD
, and the
TH_L
and asserts high if V
is greater than V
BUS
is less than V
TH_H
asserts low if V
BUS
MAX13482E/MAX13483E enter sharing mode (Table 2).
EꢁD -rotection
V
BUS
BUS
ter-
D+ and D- possess extra protection against static elec-
tricity to protect the devices up to 15kV. The ESD
structures withstand high ESD in all operating modes:
normal operation, suspend mode, and powered down.
D+ and D- provide protection to the following limits:
For most applications, V
connects to the V
BUS
minal on the USB connector (see the Power-Supply
Configurations section). V
can also connect to an
low to enable sharing
to GND with a 1µF ceramic capac-
BUS
BUS
external supply. Drive V
mode. Bypass V
BUS
itor as close to the device as possible.
•
•
15kV using the Human Body Model
8kV using the Contact Discharge method specified
in IEC 61000-4-2
External Components
External Capacitors
The MAX13481E/MAX13482E/MAX13483E require
three external capacitors for proper operation. Bypass
• To protect V
from 15kV ESD, a 1µF or greater
BUS
capacitor must be connected from V
to GND.
BUS
V
V
V
to GND with a 0.1µF ceramic capacitor. Bypass
L
BUS
TRM
EꢁD Test Conditions
ESD performance depends on a variety of conditions.
Contact Maxim for a reliability report that documents
test setup, test methodology, and test results.
to GND with a 1µF ceramic capacitor. Bypass
to GND with a 1µF (min) ceramic capacitor.
Install all capacitors as close to the device as possible.
External Resistor
Proper USB operation requires two external resistors,
each 27Ω 1%. Install one resistor in series between D+
of the MAX13481E/MAX13482E/MAX13483E and D+ on
the USB connector. Install the other resistor in series
between D- of the MAX13481E/MAX13482E/MAX13483E
and D- on the USB connector (see the Typical Operating
Circuits). The MAX13483E requires an external 1.5kΩ
Human Body Model
Figure 6 shows the Human Body Model and Figure 7
shows the current waveform generated when dis-
charged into a low impedance. This model consists of
a 100pF capacitor charged to the ESD voltage of inter-
est, which then discharges into the test device through
a 1.5kΩ resistor.
pullup resistor between V
and D+ for full-speed
IEC 61000ꢂ4ꢂ2
The IEC 61000-4-2 standard covers ESD testing and
performance of finished equipment. It does not specifi-
cally refer to integrated circuits. The major difference
between tests done using the Human Body Model and
IEC 61000-4-2 is a higher peak current in IEC 61000-4-
2, due to lower series resistance. Hence, the ESD with-
TRM
operation. The MAX13481E requires an external 1.5kΩ
pullup resistor between VPU and D+ for full-speed oper-
ation. The MAX13482E does not require an external
pullup resistor but VPUR must be connected to D+ for
full-speed operation.
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