LTC1755 LINER [Linear Technology], LTC1755 Datasheet - Page 8

LTC1755

Manufacturer Part Number

LTC1755

Description

Smart Card Interface

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC1755.pdf (12 pages)

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Current page: 8 of 12
Download datasheet (164Kb)

APPLICATIONS

LTC1755

10kV ESD Protection

All Smart Card pins (CLK, RST, I/O, AUX1, AUX2, V

GND) can withstand over 10kV of human body model ESD

in situ. In order to ensure proper ESD protection, careful

board layout is required. The GND pin should be tied

directly to a ground plane. The V

located very close to the V

the ground plane.

Capacitor Selection

The style and value of capacitors used with the LTC1755

determine several parameters such as output ripple volt-

age, charge pump strength, Smart Card switch debounce

time and V

Due to the switching nature of a capacitive charge pump,

low equivalent series resistance (ESR) capacitors are

recommended for the capacitors at V

ever the flying capacitor is switched to the V

storage capacitor, considerable current flows. The prod-

uct of this high current and the ESR of the output capacitor

can generate substantial voltage spikes on the V

These spikes may cause problems with the Smart Card or

may interfere with the regulation loop of the LTC1755.

Therefore, ceramic or tantalum capacitors are recom-

mended rather than higher ESR aluminum capacitors.

Between ceramic and tantalum, ceramic capacitors gener-

ally have the lowest ESR. Some manufacturers have

developed low ESR tantalum capacitors but they can be

expensive and may still have higher ESR than ceramic

types. Thus, while they cannot be avoided, ESR spikes will

typically be lowest when using ceramic capacitors.

For ceramic capacitors there are several different materi-

als available to choose from. The choice of ceramic

material is generally based on factors such as available

capacitance, case size, voltage rating, electrical perfor-

mance and cost. For example, capacitors made of Y5V

material have high packing density, which provides high

capacitance for a given case size. However, Y5V capaci-

tors tend to lose considerable capacitance over the – 40 C

to 85 C temperature range. X7R ceramic capacitors are

more stable over temperature but don’t provide the high

packing density. Therefore, large capacitance values are

generally not available in X7R ceramic.

discharge rate.

INFORMATION

pin and tied immediately to

capacitor should be

and V

. When-

output.

charge

and

The value and style of the flying capacitor are important

not only for the charge pump but also because they

provide the large debounce time for the Smart Card

detection channel. A 0.68 F X7R capacitor is a good

choice for the flying capacitor because it provides fairly

constant capacitance over temperature and its value is not

prohibitively large.

The charge storage capacitor on the V

the ripple voltage magnitude and the discharge time of the

Smart Card voltage. To minimize ripple, generally, a large

value is needed. However, to meet the V

specification, the value should not exceed 20 F. A 10 F

capacitor can be used but the ripple magnitude will be

higher leading to worse apparent DC load regulation.

Typically a 15 F to 18 F Y5V ceramic capacitor is the best

choice for the V

performance, this capacitor should be connected as close

as possible to the V

electrostatic discharge (ESD) current on the six Smart

Card pins is absorbed by this capacitor.

The bypass capacitor at V

on the input supply due to ESR may cause problems with

the internal circuitry of the LTC1755. A good choice for the

input bypass capacitor is a 10 F Y5V style ceramic

Dynamic Pull-Up Current Sources

The current sources on the bidirectional pins (DATA,

AUX2IN, AUX1IN, I/O, AUX2 and AUX1) are dynamically

activated to achieve a fast rise time with a relatively small

static current (Figure 1). Once a bidirectional pin is relin-

quished, a small start-up current begins to charge the

node. An edge rate detector determines if the pin is

released by comparing its slew rate with an internal

BIDIRECTIONAL PIN

START

Figure 1. Dynamic Pull-Up Current Sources

OR DV

charge storage capacitor. For best

and GND pins. Note that most of the

is also important. Large dips

–

1755 F01

pin determines

discharge rate

REF

LTC1755 LINER [Linear Technology], LTC1755 Datasheet - Page 8

LTC1755

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