sp483eep Exar Corporation, sp483eep Datasheet - Page 8

sp483eep

Manufacturer Part Number

sp483eep

Description

Enhanced Low Emi Half-duplex Rs-485 Transceiver

Manufacturer

Exar Corporation

Datasheet

1.SP483EEP.pdf (11 pages)

Current page: 8 of 11
Download datasheet (108Kb)

With the Air Discharge Method, an ESD voltage

is applied to the equipment under test (EUT)

through air. This simulates an electrically charged

person ready to connect a cable onto the rear of

the system only to find an unpleasant zap just

before the person touches the back panel. The

high energy potential on the person discharges

through an arcing path to the rear panel of the

system before he or she even touches the system.

This energy, whether discharged directly or

through air, is predominantly a function of the

discharge current rather than the discharge

voltage. Variables with an air discharge such as

approach speed of the object carrying the ESD

potential to the system and humidity will tend to

change the discharge current. For example, the

rise time of the discharge current varies with the

approach speed.

The Contact Discharge Method applies the ESD

current directly to the EUT. This method was

devised to reduce the unpredictability of the

ESD arc. The discharge current rise time is

constant since the energy is directly transferred

without the air-gap arc. In situations such as

hand held systems, the ESD charge can be directly

discharged to the equipment from a person already

holding the equipment. The current is transferred

on to the keypad or the serial port of the equipment

directly and then travels through the PCB and finally

to the IC.

The circuit model in Figures 9 and 10 represent

the typical ESD testing circuit used for all three

methods. The C

power supply when the first switch (SW1) is on.

Now that the capacitor is charged, the second

switch (SW2) is on while SW1 switches off. The

Table 1. Transceiver ESD Tolerance Levels

SP483EDS/05

Driver Outputs

Receiver Inputs

DEVICE PIN

TESTED

is initially charged with the DC

HUMAN BODY

MODEL

15kV

SP483E Low EMI Half-Duplex RS485 Transceiver

Air Discharge

15kV

voltage stored in the capacitor is then applied

through R

device under test (DUT). In ESD tests, the SW2

switch is pulsed so that the device under test

receives a duration of voltage.

For the Human Body Model, the current limiting

resistor (R

1.5k an 100pF, respectively. For IEC-1000-4-

2, the current limiting resistor (R

capacitor (C

The higher C

IEC1000-4-2 model are more stringent than the

Human Body Model. The larger storage capacitor

injects a higher voltage to the test point when

SW2 is switched on. The lower current limiting

resistor increases the current charge onto the test

point.

Figure 11. ESD Test Waveform for IEC1000-4-2

15A

30A

t=0ns

, the current limiting resistor, onto the

Direct Contact

) and the source capacitor (C

IEC1000-4-2

) are 330 an 150pF, respectively.

value and lower R

8kV

) and the source

t=30ns

value in the

Level

) are

sp483eep Exar Corporation, sp483eep Datasheet - Page 8

sp483eep

Related parts for sp483eep