LTC4006_15 Datasheet, PDF(15/20 Page) Linear Technology – 4A, High Efficiency, Standalone Li-Ion Battery Charger

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LTC4006_15 Datasheet, PDF (15/20 Pages) Linear Technology – 4A, High Efficiency, Standalone Li-Ion Battery Charger

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LTC4006

APPLICATIO S I FOR ATIO

Example:

VDCIN = 19V, fOSC = 345kHz, QG1 = QG2 = 15nC.

PD = 292mW

IDCIN = 5mA

Adapter Limiting

An important feature of the LTC4006 is the ability to

automatically adjust charging current to a level which

avoids overloading the wall adapter. This allows the prod-

uct to operate at the same time that batteries are being

charged without complex load management algorithms.

Additionally, batteries will automatically be charged at the

maximum possible rate of which the adapter is capable.

This feature is created by sensing total adapter output

current and adjusting charging current downward if a

preset adapter current limit is exceeded. True analog

control is used, with closed-loop feedback ensuring that

adapter load current remains within limits. Amplifier CL1

in Figure 9 senses the voltage across RCL, connected

LTC4006

CL1

100mV

CLP

15nF

CLN

CIN

*RCL

100mV

ADAPTER CURRENT

LIMIT

RCL*

AC ADAPTER

INPUT

VIN

TO SYSTEM

LOAD

4006 F09

Figure 9. Adapter Current Limiting

between the CLP and DCIN pins. When this voltage ex-

ceeds 100mV, the amplifier will override programmed

charging current to limit adapter current to 100mV/RCL. A

lowpass filter formed by 5kâ¦ and 15nF is required to

eliminate switching noise. If the current limit is not used,

CLP should be connected to CLN.

Setting Input Current Limit

To set the input current limit, you need to know the

minimum wall adapter current rating. Subtract 7% for the

input current limit tolerance and use that current to deter-

mine the resistor value.

RCL = 100mV/ILIM

ILIM = Adapter Min Current â

(Adapter Min Current â¢ 7%)

As is often the case, the wall adapter will usually have at

least a +10% current limit margin and many times one can

simply set the adapter current limit value to the actual

adapter rating (see Figure 9).

Designing the Thermistor Network

There are several networks that will yield the desired

function of voltage vs temperature needed for proper

operation of the thermistor. The simplest of these is the

voltage divider shown in Figure 10. Unfortunately, since

the HIGH/LOW comparator thresholds are fixed internally,

there is only one thermistor type that can be used in this

network; the thermistor must have a HIGH/LOW resis-

tance ratio of 1:7. If this happy circumstance is true for

Table 5. Common RCL Resistor Values

ADAPTER â7% ADAPTER RCL VALUE*

RATING (A) RATING (A)

(â¦) 1%

RCL

LIMIT (A)

RCL POWER

DISSIPATION (W)

1.5

1.40

0.068

1.47

0.15

1.8

1.67

0.062

1.61

0.16

2.0

1.86

0.051

1.96

0.20

2.3

2.14

0.047

2.13

0.21

2.5

2.33

0.043

2.33

0.23

2.7

2.51

0.039

2.56

0.26

3.0

2.79

0.036

2.79

0.28

3.3

3.07

0.033

3.07

0.31

3.6

3.35

0.030

3.35

0.33

4.0

3.72

0.027

3.72

0.37

* Rounded to nearest 5% standard step value. Many non-standard values are popular.

RCL POWER

RATING (W)

0.25

0.50

4006fa

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