LTC4071IMS8E#PBF (Linear) PDF资料下载 Datasheet(11/18 页)

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参数资料

型号：	LTC4071IMS8E#PBF
厂商：	Linear Technology
文件页数：	11/18页
文件大小：	0K
描述：	IC LI-ION/POLY BATT CHRGR 8-MSOP
标准包装：	50
功能：	充电管理
电池化学：	锂离子（Li-Ion）、锂聚合物（Li-Pol）
工作温度：	-40°C ~ 125°C
安装类型：	表面贴装
封装/外壳：	8-TSSOP，8-MSOP（0.118"，3.00mm 宽）裸露焊盘
供应商设备封装：	8-MSOP-EP
包装：	管件

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LTC4071

APPLICATIONS INFORMATION

The GND pin of the top device is simply connected to

the V CC pin of the bottom device. Care must be taken in

observing the HBO status output pin of the top device as

this signal is no longer ground referenced. Likewise for

the control inputs of the top device; tie ADJ and LBSEL

of the top device to the local GND or V CC pins. Also, the

wall adapter must have a high enough voltage rating to

charge both cells.

NTC Protection

The LTC4071 measures battery temperature with a negative

temperature coefficient thermistor thermally coupled to the

battery. NTC thermistors have temperature characteristics

which are specified in resistance-temperature conversion

tables. Internal NTC circuitry protects the battery from

excessive heat by reducing the float voltage for each

10°C rise in temperature above 40°C (assuming a Vishay

thermistor with a B 25/85 value of 3490).

The LTC4071 uses a ratio of resistor values to measure

battery temperature. The LTC4071 contains an internal

fixed resistor voltage divider from NTCBIAS to GND with

four tap points; NTC TH1 –NTC TH4 . The voltages at these

tap points are periodically compared against the voltage at

the NTC pin to measure battery temperature. To conserve

power, the battery temperature is measured periodically

by biasing the NTCBIAS pin to V CC about once every 1.5

seconds.

The voltage at the NTC pin depends on the ratio of NTC

thermistor value, R NTC , and a bias resistor, R NOM . Choose

R NOM equal to the value of the thermistor at 25°C. R NOM

is 10k for a Vishay NTHS0402N02N1002F thermistor with

a B 25/85 value of 3490. R NOM must be connected from

NTCBIAS to NTC. The ratio of the NTC pin voltage to the

NTCBIAS voltage when it is pulsed to V CC is:

R NTC

( R NTC + R NOM )

When the thermistor temperature rises, the resistance

drops; and the resistor divider between R NOM and the

thermistor lowers the voltage at the NTC pin.

An NTC thermistor with a different B 25/85 value may also

be used with the LTC4071. However the temperature trip

points are shifted due to the higher negative temperature

coefficient of the thermistor. To correct for this difference

add a resistor, R FIX , in series with the thermistor to shift

the ratio:

R FIX + R NTC

( R FIX + R NTC + R NOM )

Up to the internal resistive divider tap points: NTC TH1

through NTC TH4 . For a 100k thermistor with a B 25/85

value of 3950, e.g. NTHS0402N01N1003F, at 70°C (with

R NOM = 100k) choose R FIX = 3.92k. The temperature trip

points are found by looking up the curve 1 thermistor R/T

values plus R FIX that correspond to the ratios for NTC TH1

= 36.5%, NTC TH2 = 29%, NTC TH3 = 22.8%, and NTC TH4

= 17.8%. Selecting R FIX = 3.92k results in trip points of

39.9°C, 49.4°C, 59.2°C and 69.6°C.

Another technique may be used without adding an ad-

ditional component. Instead decrease R NOM to adjust the

NTC TH thresholds for a given R/T thermistor profile. For

example, if R NOM = 88.7k (with the same 100k thermis-

tor) then the temperature trip points are 41.0°C, 49.8°C,

58.5°C and 67.3°C.

When using the NTC features of the LTC4071 it is important

to keep in mind that the maximum shunt current increases

as the float voltage, V FLOAT_EFF drops with NTC conditioning.

Reviewing the single-cell battery charger application with

a 12V wall adapter in Figure 2; the input resistor should be

increased to 165? such that the maximum shunt current

does not exceed 50mA at the lowest possible float voltage

due to NTC conditioning, V FLOAT_MIN = 3.8V.

Thermal Considerations

At maximum shunt current, the LTC4071 may dissipate up

to 205mW. The thermal dissipation of the package should

be taken into account when operating at maximum shunt

current so as not to exceed the absolute maximum junc-

tion temperature of the device. With θ JA of 40°C/W, in the

MSOP package, at maximum shunt current of 50mA the

junction temperature rise is about 8°C above ambient.

With θ JA of 76°C/W in the DFN package, at maximum

shunt current of 50mA the junction temperature rise is

about 16°C above ambient. The junction temperature, T J ,

is calculated depending on ambient temperature, T A , power

4071fc

11

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