MAX13482EETE+ Maxim Integrated Products, MAX13482EETE+ Datasheet - Page 10

MAX13482EETE+

Manufacturer Part Number

MAX13482EETE+

Description

IC TXRX USB ESD PROT 16-TQFN

Manufacturer

Maxim Integrated Products

Type

Transceiverr

Datasheet

1.MAX13481EETET.pdf (19 pages)

Specifications of MAX13482EETE+

Number Of Drivers/receivers

1/1

Protocol

USB 2.0

Voltage - Supply

4 V ~ 5.5 V

Mounting Type

Surface Mount

Package / Case

16-TQFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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An internal linear regulator generates the V

(+3.3V, typ). V

Power-Supply Configurations section). V

the internal portions of the USB circuitry and provides

the pullup voltage for the MAX13481E/MAX13482E.

Bypass V

close to the device as possible. Do not use V

vide power to any other external circuitry.

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.

The push-pull bus detect (BD) output monitors V

and asserts high if V

asserts low if V

MAX13482E/MAX13483E enter sharing mode (Table 2).

For most applications, V

minal on the USB connector (see the Power-Supply

Configurations section). V

external supply. Drive V

mode. Bypass V

itor as close to the device as possible.

The MAX13481E/MAX13482E/MAX13483E require

three external capacitors for proper operation. Bypass

Install all capacitors as close to the device as possible.

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

pullup resistor between V

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.

±15kV ESD-Protected USB Transceivers with

External/Internal Pullup Resistors

BUS

TRM

to GND with a 0.1µF ceramic capacitor. Bypass

______________________________________________________________________________________

to GND with a 1µF ceramic capacitor. Bypass

to GND with a 1µF (min) ceramic capacitor.

TRM

to GND with a 1µF ceramic capacitor as

TRM

BUS

derives power from V

to GND with a 1µF ceramic capac-

BUS

is less than V

BD (MAX13482E/MAX13483E)

BUS

TRM

is greater than V

External Components

connects to the V

can also connect to an

low to enable sharing

and D+ for full-speed

External Capacitors

External Resistor

TH_L

BUS

TRM

D+ and D-

, and the

TH_H

(see the

BUS

powers

voltage

to pro-

. BD

TRM

BUS

ter-

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).

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.

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).

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:

ESD performance depends on a variety of conditions.

Contact Maxim for a reliability report that documents

test setup, test methodology, and test results.

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.

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-

• ±15kV using the Human Body Model

• ±8kV using the Contact Discharge method specified

• To protect V

in IEC 61000-4-2

capacitor must be connected from V

BUS

from ±15kV ESD, a 1µF or greater

Transmitting Data to the USB

Receiving Data from the USB

ESD Test Conditions

Human Body Model

ESD Protection

IEC 61000-4-2

Data Transfer

BUS

to GND.

RCV

MAX13482EETE+ Maxim Integrated Products, MAX13482EETE+ Datasheet - Page 10

MAX13482EETE+

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