LTC3552-1 Linear Technology, LTC3552-1 Datasheet - Page 17

LTC3552-1

Manufacturer Part Number

LTC3552-1

Description

Standalone Linear Li-Ion Battery Charger and Dual Synchronous Buck Converter

Manufacturer

Linear Technology

Datasheet

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The previous analysis can be repeated to take into account

the power dissipation of the regulator by:

However, the regulator typically dissipates signiﬁ cantly less

heat than the charger (even in worst-case situations), the

calculations here should work well as an approximation.

Moreover, when thermal feedback reduces the charge

current, the voltage at the PROG pin is also reduced pro-

portionally. It is important to remember that LTC3552-1

applications do not need to be designed for worst-case

thermal conditions since the IC will automatically reduce

charge current when the junction temperature reaches

approximately 120°C.

In order to deliver maximum charge current under all

conditions, it is critical that the exposed metal pad on

the backside of the LTC3552-1 package is soldered to

the PC board ground. Failure to make thermal contact

between the exposed pad on the backside of the package

and the copper board will result in thermal resistances far

greater than 40°C/W. As an example, a correctly soldered

LTC3552-1 can deliver over 800mA to a battery from

a 5V supply at room temperature. Without a good

backside thermal connection, this number will drop

considerably.

Battery Charger Stability Considerations

The constant-voltage mode feedback loop is stable with-

out an output capacitor, provided a battery is connected

to the charger output. With no battery present, an output

capacitor on the BAT pin is recommended to reduce ripple

voltage. When using high value, low ESR ceramic capaci-

tors, it is recommended to add a 1Ω resistor in series

with the capacitor. No series resistor is needed if tantalum

capacitors are used. In constant-current mode, the PROG

pin is in the feedback loop, not the battery. The constant-

current mode stability is affected by the impedance at the

PROG pin. With no additional capacitance on the PROG

APPLICATIO S I FOR ATIO

BAT

B B AT

BAT

= 735

(

120

– .

C T

3 3

(

–

) •

–

−

BAT

RISE REGULATOR

C W

)

(

•

A A

C A

)

Burst Mode is a registered trademark of Linear Technology Corporation.

pin, the charger is stable with program resistor values as

high as 20k; however, additional capacitance on this node

reduces the maximum allowed program resistor. The pole

frequency at the PROG pin should be kept above 100kHz.

Therefore, if the PROG pin is loaded with a capacitance,

the maximum resistance value for R

Average, rather than instantaneous charge current may

be of interest to the user. For example, when the switch-

ing regulators operating in Burst Mode

parallel with the battery, the average current being pulled

out of the BAT pin is typically of more interest than the

instantaneous current pulses. In such a case, a simple RC

ﬁ lter can be used on the PROG pin to measure the average

battery current, as shown in Figure 3. A 10k resistor has

been added between the PROG pin and the ﬁ lter capacitor

to ensure stability.

Figure 3. Isolating Capacitive Load on PROG Pin and Filtering

Many types of capacitors can be used for input bypassing;

however, caution must be exercised when using multilayer

ceramic capacitors. Because of the self-resonant and high

Q characteristics of some types of ceramic capacitors, high

voltage transients can be generated under some start-up

conditions such as connecting the charger input to a live

power source. Adding a 1.5Ω resistor in series with an X5R

ceramic capacitor will minimize start-up voltage transients.

For more information, see Application Note 88.

Reverse Polarity Input Voltage Protection

In some applications, protection from reverse polarity

voltage on V

high enough, a series blocking diode can be used. In

PROG

Bypass Capacitor

PROG

, the following equation can be used to calculate

≤

LTC3552-1

π •

GND

PROG

is desired. If the supply voltage is

•

PROG

10k

PROG

35521 F03

FILTER

LTC3552-1

PROG

CHARGE

CURRENT

MONITOR

CIRCUITRY

are connected in

35521f

LTC3552-1 Linear Technology, LTC3552-1 Datasheet - Page 17

LTC3552-1

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