LTC3566EUF-2#PBF Linear Technology, LTC3566EUF-2#PBF Datasheet - Page 23

LTC3566EUF-2#PBF

Manufacturer Part Number

LTC3566EUF-2#PBF

Description

IC POWER MANAGER USB 24-QFN

Manufacturer

Linear Technology

Datasheet

1.LTC3566EUFPBF.pdf (28 pages)

Specifications of LTC3566EUF-2#PBF

Applications

Handheld/Mobile Devices

Voltage - Supply

4.35 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-QFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Supply

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Part Number

Manufacturer

Quantity

Price

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Part Number:

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APPLICATIONS INFORMATION

where r

sired hot and cold trip points. Note that these equations

are linked. Therefore, only one of the two trip points can

be chosen, the other is determined by the default ratios

designed in the IC. Consider an example where a 60°C

hot trip point is desired.

From the Vishay curve 1 R-T characteristics, r

at 60°C. Using the above equation, R

to 46.4k. With this value of R

about 16°C. Notice that the span is now 44°C rather than

the previous 40°C. This is due to the decrease in tem-

perature gain of the thermistor as absolute temperature

increases.

The upper and lower temperature trip points can be in-

dependently programmed by using an additional bias

resistor as shown in Figure 4b. The following formulas

can be used to compute the values of R

For example, to set the trip points to 0°C and 45°C with

a Vishay curve 1 thermistor choose:

R1 = 0.536 • R

NOM

BUS

100k

HOT

NOM

NTC

100k

NTC

and r

COLD

2.714

0.017 • V

BUS

COLD

−r

NOM

0.349 • V

0.765 • V

HOT

are the resistance ratios at the de-

– r

BUS

•R25

BUS

HOT

LTC3566/LTC3566-2

• R25

–

NOM

NTC BLOCK

(a)

, the cold trip point is

NOM

should be set

TOO_COLD

TOO_HOT

HOT

NTC_ENABLE

and R1:

is 0.2488

Figure 4. NTC Circuits

3566 F04a

The nearest 1% value is 105k

The nearest 1% value is 12.7k. The ﬁ nal solution is shown

in Figure 4b and results in an upper trip point of 45°C and

a lower trip point of 0°C.

USB Inrush Limiting

When a USB cable is plugged into a portable product,

the inductance of the cable and the high-Q ceramic input

capacitor form an L-C resonant circuit. If the cable does

not have adequate mutual coupling or if there is not much

impedance in the cable, it is possible for the voltage at

the input of the product to reach as high as twice the USB

voltage (~10V) before it settles out. To prevent excessive

voltage from damaging the LTC3566 family during a hot

insertion, it is best to have a low voltage coefﬁ cient capacitor

at the V

by selecting an MLCC capacitor that has a higher voltage

rating than that required for the application. For example, a

16V, X5R, 10μF capacitor in a 1206 case would be a more

conservative choice than a 6.3V, X5R, 10μF capacitor in a

R1 = 0.536 • 105k – 0.4368 • 100k = 12.6k

NOM

BUS

105k

12.7k

BUS

NOM

NTC

100k

NTC

3.266 − 0.4368

pin to the LTC3566 family. This is achievable

LTC3566/LTC3566-2

2.714

BUS

0.017 • V

0.349 • V

0.765 • V

BUS

• 100k = 104.2k

LTC3566/LTC3566-2

–

NTC BLOCK

(b)

TOO_COLD

TOO_HOT

NTC_ENABLE

3566 F04b

3566fb

LTC3566EUF-2#PBF Linear Technology, LTC3566EUF-2#PBF Datasheet - Page 23

LTC3566EUF-2#PBF

Specifications of LTC3566EUF-2#PBF

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