LTC3703IGN#PBF (Linear) PDF资料下载 Datasheet(28/34 页)

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参数资料

型号：	LTC3703IGN#PBF
厂商：	Linear Technology
文件页数：	28/34页
文件大小：	0K
描述：	IC REG CTRLR BST PWM VM 16-SSOP
标准包装：	100
PWM 型：	电压模式
输出数：	1
频率 - 最大：	330kHz
占空比：	96%
电源电压：	9.3 V ~ 15 V
降压：	是
升压：	是
回扫：	无
反相：	无
倍增器：	无
除法器：	无
Cuk：	无
隔离：	无
工作温度：	-40°C ~ 125°C
封装/外壳：	16-SSOP（0.154"，3.90mm 宽）
包装：	管件

LTC3703

APPLICATIONS INFORMATION

(10) 2 [ 1 + 0.009(100 – 25) ] (0.025)

P MAIN =

+ (72) 2 ?

? 10 ? ? 1 1 ?

? ? (2)(180pF) ? ? ?

? 2

10 – 4.7 4.7 ?

? (10) [ 1 + 0.009(100 – 25) ] ?

P SYNC = ?

? = 1.74W

Next,choosethetopandbottomMOSFETswitch.Since

the drain of each MOSFET will see the full supply voltage

72V (max) plus any ringing, choose a 100V MOSFET to

provide a margin of safety. Si7456DP has a 100V BV DSS ,

R DS(ON) = 25mΩ (max), δ = 0.009/°C, C MILLER = (19nC

– 10nC)/50V = 180pF, V GS(MILLER) = 4.7V, θ JA = 20°C/W.

The power dissipation can be estimated at maximum input

voltage, assuming a junction temperature of 100°C (30°C

above an ambient of 70°C):

12

72

+ ? (250k)

= 0.70W + 0.94W = 1.64W

And double check the assumed T J in the MOSFET:

T J = 70°C + (1.64W)(20°C/W) = 103°C

Since the synchronous MOSFET will be conducting over

twice as long each period (almost 100% of the period

in short circuit) as the top MOSFET, use two Si7456DP

MOSFETs on the bottom:

? 72 ? 12 ? 2

? 72 ?

? 0.025 ?

?

? 2 ?

T J = 70°C + (1.74W)(20°C/W) = 105°C

Next, set the current limit resistor. Since I MAX = 10A, the

limit should be set such that the minimum current limit is

>10A. Minimum current limit occurs at maximum R DS(ON) .

Using the above calculation for bottom MOSFET T J , the

max R DS(ON) = (25mΩ/2) [1 + 0.009 (105-25)] = 21.5mΩ.

Therefore, I MAX pin voltage should be set to (10A)(0.0215)

= 0.215V. The R SET resistor can now be chosen to be

0.215V/12μA = 18k.

C IN is chosen for an RMS current rating of about 5A

(I MAX /2) at 85°C. For the output capacitor, two low ESR

OS-CON capacitors (18mΩ each) are used to minimize

output voltage changes due to inductor current ripple and

load steps. The ripple voltage will be:

? V OUT(RIPPLE) = ? I L(MAX) (ESR) = (4A)(0.018Ω/2)

= 36mV

However, a 0A to 10A load step will cause an output volt-

age change of up to:

? V OUT(STEP) = ? I LOAD(ESR) = (10A)(0.009Ω) = 90mV

PC Board Layout Checklist

When laying out the printed circuit board, the following

checklist should be used to ensure proper operation of the

LTC3703. These items are also illustrated graphically in the

layout diagram of Figure 18. For layout of a boost mode

converter, layout is similar with V IN and V OUT swapped.

Check the following in your layout:

1. Keep the signal and power grounds separate. The signal

ground consists of the LTC3703 GND pin, the ground

return of C VCC , and the (–) terminal of V OUT . The power

ground consists of the Schottky diode anode, the source

of the bottom side MOSFET, and the (–) terminal of the

input capacitor and DRV CC capacitor. Connect the signal

and power grounds together at the (–) terminal of the

output capacitor. Also, try to connect the (–) terminal

of the output capacitor as close as possible to the (–)

terminals of the input and DRV CC capacitor and away

from the Schottky loop described in (2).

2. The high di/dt loop formed by the top N-channel MOSFET,

the bottom MOSFET and the C IN capacitor should have

short leads and PC trace lengths to minimize high fre-

quency noise and voltage stress from inductive ringing.

3. Connect the drain of the top side MOSFET directly to the

(+) plate of C IN , and connect the source of the bottom

side MOSFET directly to the (–) terminal of C IN . This

capacitor provides the AC current to the MOSFETs.

4. Place the ceramic C DRVCC decoupling capacitor imme-

diately next to the IC, between DRV CC and BGRTN. This

capacitor carries the MOSFET drivers’ current peaks.

Likewise the C B capacitor should also be next to the IC

between BOOST and SW.

3703fc

28

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