LTC1559CGN-3.3#TRPBF (Linear) PDF资料下载 Datasheet(10/20 页)

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型号：	LTC1559CGN-3.3#TRPBF
厂商：	Linear Technology
文件页数：	10/20页
文件大小：	0K
描述：	IC BACKUP BATT CNTRLR3.3V 16SSOP
标准包装：	2,500
功能：	备份管理
电池化学：	镍镉
电源电压：	2.9 V ~ 3.5 V
工作温度：	0°C ~ 70°C
安装类型：	表面贴装
封装/外壳：	16-SSOP（0.154"，3.90mm 宽）
供应商设备封装：	16-SSOP
包装：	带卷 (TR)

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LTC1559-3.3/LTC1559-5

APPLICATIO N S I N FOR M ATIO N

If V CC is still less than V CC (rated value) – 7% (LTC1559-

3.3) after the first boost cycle, the LTC1559 immediately

reconnects SW to ground, repeating the boost cycle. If

after two consecutive pulses, V CC is still not above the

boost threshold V CC (rated value) – 7% (LTC1559-3.3),

the LTC1559 decides that the load is not so light after all,

and doubles the internal inductor charging current limit to

330mA for subsequent cycles. This is high current mode.

By doubling the peak inductor current, each boost cycle

effectively carries four times more energy compared to

low current mode (E = 1/2 ? LI 2 ), doubling the available

output power. When V CC exceeds the V CC (rated value)

– 7% (LTC1559-3.3) boost threshold, the LTC1559 stops

the boost converter and resets the internal 2-pulse counter.

The next time V CC falls below V CC (rated value) – 7%

(LTC1559-3.3), the boost converter restarts in low current

mode for at least two boost cycles. Moderate or changing

loads cause the LTC1559 to shift between the two peak

inductor current limits, keeping the output in tight regula-

tion. Near its maximum load capability, the LTC1559 will

stay in 330mA high current mode and the output voltage

V BAK will hover around V CC (rated value) – 7%

(LTC1559-3.3).

V CC Capacitor ESR

The type of output capacitor and the rated V CC value will

affect the LTC1559’s output ripple and efficiency. In most

applications, the V CC capacitor is primarily determined by

the requirements of the main power supply. Such a

capacitor will generally meet the requirements of the

LTC1559. In unusual circumstances or circuits where

the main system V CC capacitor is located some distance

away from the LTC1559, a local output capacitor may be

necessary.

The ripple on the V CC pin is equal to the capacitor ESR

voltage drop due to the boost converter’s output current

pulses. The ripple frequency and output duty cycle is

proportional to the inductor discharge time. Given a fixed

inductor value (22 μ H) and a known peak current limit, the

booster’s discharge time in each boost cycle is propor-

tional to the difference between V BAK (93% of the rated V CC

for the LTC1559-3.3 and 92.5% of the rated V CC for the

LTC1559-5) and the battery cell voltage, V BAT (1.2V).

10

Assuming ESR = 0.2 ? , I IND(PEAK) = 330mA, V CC = 5V,

V RIPPLE(P-P) = (I IND(PEAK) )(R ESR(CAP) )

= (330mA)(0.2 ? )

= 66mV

Since V CC must be scaled down internally, the external

resistor ratio:

= 5V/1.272V

= 3.931

Therefore the ripple seen by the V CC comparators is:

= 66mV/3.931

= 16.79mV

The discharge time period,

t DISCH = (L ? I IND(PEAK) )/(V BAK – V BAT )

= (22 μ H ? 330mA)/(4.625 – 1.2V)

= 2.12 μ s

For V CC = 3.3V and I IND(PEAK) = 330mA,

V RIPPLE(P-P) = 66mV

RB resistor ratio = 3.3/1.272 = 2.594

Ripple voltage = 25.4mV

t DISCH = 3.9 μ s

The internal V CC comparators are designed to have a slow

response time to filter away this ripple. The V CC (rated

value) – 5.5% (LTC1559-3.3) and V CC (rated value) – 9%

comparators have a 6 μ s rising edge delay and 2 μ s falling

edge delay. The V CC (rated value) – 7% (LTC1559-3.3)

comparator has a similar 6 μ s rising time delay but a much

longer falling time delay of 20 μ s. This enables the com-

parator to control the boost converter properly, and avoids

turning off the boost converter prematurely due to false

triggering by the ESR ripple.

Exit from Backup

When a main battery is inserted into the system, the

LTC1559 follows a specific sequence to exit backup mode

and return control to the main supply. The sequence

depends on the type of main power supply used. In

systems where the main supply’s output impedance is

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