LTC3552EDHC-1#TRPBF (Linear) PDF资料下载 Datasheet(16/20 页)

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参数资料

型号：	LTC3552EDHC-1#TRPBF
厂商：	Linear Technology
文件页数：	16/20页
文件大小：	0K
描述：	IC CHARGER BATT LI-ION 16-DFN
标准包装：	2,500
功能：	充电管理
电池化学：	锂离子（Li-Ion）
电源电压：	4.25 V ~ 8 V
工作温度：	-40°C ~ 85°C
安装类型：	表面贴装
封装/外壳：	16-WFDFN 裸露焊盘
供应商设备封装：	16-DFN（5x3）
包装：	带卷 (TR)

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LTC3552-1

APPLICATIO S I FOR ATIO

120 ° C – T A

( V IN – V BAT ) ? θ JA

charge storage and very low ESR at the switching fre-

quency. Other losses include diode conduction losses

during dead-time and inductor core losses generally

account for less than 2% total additional loss.

Thermal Considerations

The battery charger’s thermal regulation feature and the

switching regulator’s high ef?ciency make it unlikely that

the LTC3552-1 will dissipate enough power to exceed

its maximum junction temperature. However, in applica-

tions where the LTC3552-1 is running at high ambient

temperature with low supply voltage and high duty cycles,

the power dissipated may result in excessive junction

temperatures. To prevent the LTC3552-1 from exceeding

the maximum junction temperature, the user will need to

do some thermal analysis. The goal of the thermal analysis

is to determine whether the power dissipated will raise

the junction temperature above the maximum rating. The

temperature rise is given by:

T RISE = P D ? θ JA

where P D is the power dissipated and θ JA is the ther-

mal resistance from the junction of the die to the

ambient temperature. The junction temperature, T J , is

given by:

T J = T RISE + T AMBIENT

As an example, consider the case when the battery char-

ger is idle, and both regulators are operating at an input

voltage of 2.7V with a load current of 400mA and 800mA

and an ambient temperature of 70°C. From the Typical

Performance Characteristics graph of Switch Resistance,

the R DS(ON) resistance of the main switch is 0.425 Ω .

Therefore, power dissipated by each regulator is:

P D = I 2 ? R DS(ON) = 272mW and 68mW

The DHC16 package junction-to-ambient thermal resis-

tance, θ JA , is 40°C/W. Therefore, the junction temperature

of the regulator operating in a 70°C ambient temperature

is approximately:

T J = (0.272 + 0.068) ? 40 + 70 = 83.6°C

which is below the absolute maximum junction tempera-

ture of 125°C.

The majority of the LTC3552-1 power dissipation comes

from the battery charger. Fortunately, the LTC3552-1 au-

tomatically reduces the charge current during high power

conditions using a patented thermal regulation circuit. Thus,

it is not necessary to design for worst-case power dissipa-

tion scenarios. The conditions that cause the LTC3552-1

to reduce charge current through thermal feedback can

be approximated by considering the power dissipated in

the IC. The approximate ambient temperature at which the

thermal feedback begins to protect the IC is:

T A = 120°C – P D θ JA

T A = 120°C – (P D(CHARGER) + P D(REGULATOR) ) ? θ JA

Most of the charger’s power dissipation is generated from

the internal charger MOSFET. Thus, the power dissipation

is calculated to be:

P D(CHARGER) = (V IN – V BAT ) ? I BAT

V IN is the charger supply voltage, V BAT is the battery volt-

age and I BAT is the charge current.

Example: An LTC3552-1 operating from a 5V supply

is programmed to supply 800mA full-scale current to

a discharged Li-Ion battery with a voltage of 3.3V. For

simplicity, assume the regulators are disabled and dis-

sipate no power.

The charger power dissipation is calculated to be:

P D(CHARGER) = (5V – 3.3V) ? 800mA = 1.36W

Thus, the ambient temperature at which the LTC3552-1

charger begins to reduce the charge current is approxi-

mately:

T A = 120°C – 1.36W ? 40°C/W

T A = 120°C – 54.4°C

T A = 65.6°C

The LTC3552-1 can be used above 65°C ambient but the

charge current will be reduced from the programmed

800mA. The approximate current at a given ambient

temperature can be approximated by:

I BAT =

Using the previous example with an ambient temperature

of 70°C (and no heat dissipation from the regulator), the

charge current will be reduced to approximately:

35521fa

16

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