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參數(shù)資料

型號(hào)：	MAX1540AETJ
廠商：	MAXIM INTEGRATED PRODUCTS INC
元件分類：	穩(wěn)壓器
英文描述：	Dual Step-Down Controllers with Saturation Protection, Dynamic Output, and Linear Regulator
中文描述：	DUAL SWITCHING CONTROLLER, 620 kHz SWITCHING FREQ-MAX, QCC32
封裝：	5 X 5 MM, 0.80 MM HEIGHT, MO-220-WHHD-2, TQFN-32
文件頁數(shù)：	36/49頁
文件大?。?/td>	794K
代理商：	MAX1540AETJ

Inductor Selection

The switching frequency and inductor operating point

determine the inductor value as follows:

(

LOAD(MAX)

For example: I

LOAD(MAX)

= 4A, V

= 12V, V

OUT2

2.5V, f

= 355kHz, 30% ripple current or LIR = 0.3:

Find a low-loss inductor with the lowest possible DC

resistance that fits in the allotted dimensions. Ferrite

cores are often the best choice, although powdered

iron is inexpensive and can work well at 200kHz. The

core must be large enough not to saturate at the peak

inductor current (I

PEAK

Most inductor manufacturers provide inductors in stan-

dard values, such as 1.0μH, 1.5μH, 2.2μH, 3.3μH, etc.

Also look for nonstandard values, which can provide a

better compromise in LIR across the input voltage

range. If using a swinging inductor (where the no-load

inductance decreases linearly with increasing current),

evaluate the LIR with properly scaled inductance values.

Transient Response

The inductor ripple current also impacts transient-

response performance, especially at low V

- V

OUT

dif-

ferentials. Low inductor values allow the inductor

current to slew faster, replenishing charge removed

from the output filter capacitors by a sudden load step.

The amount of output sag is also a function of the maxi-

mum duty factor, which can be calculated from the on-

time and minimum off-time:

(

where t

OFF(MIN)

is the minimum off-time (see the

Electrical Characteristics

) and K is from Table 3.

The amount of overshoot during a full-load to no-load tran-

sient due to stored inductor energy can be calculated as:

≈

(

Setting the Current Limit

The minimum current-limit threshold must be great

enough to support the maximum load current when the

current limit is at the minimum tolerance value. The val-

ley of the inductor current occurs at I

LOAD(MAX)

minus

half the ripple current; therefore:

where I

LIM(VAL)

equals the minimum valley current-limit

threshold voltage divided by the current-sense resis-

tance (R

SENSE

). For the 50mV default setting, the mini-

mum valley current-limit threshold is 40mV.

Connect ILIM_ to V

for a default 50mV valley current-

limit threshold. In adjustable mode, the valley current-

limit threshold is precisely 1/10th the voltage seen at

ILIM_. For an adjustable threshold, connect a resistive

divider from REF to analog ground (GND) with ILIM_

connected to the center tap. The external 250mV to 2V

adjustment range corresponds to a 25mV to 200mV

valley current-limit threshold. When adjusting the

current limit, use 1% tolerance resistors and a divider

current of approximately 10μA to prevent significant

inaccuracy in the valley current-limit tolerance.

The current-sense method (Figure 14) and magnitude

determine the achievable current-limit accuracy and

power loss (Table 9). Typically, higher current-sense

voltage limits provide tighter accuracy, but also dissi-

pate more power. Most applications employ a valley

current-sense voltage (V

LIM(VAL)

) of 50mV to 100mV,

so the sense resistor may be determined by:

SENSE

= V

LIM(VAL)

/ I

LIM(VAL)

For the best current-sense accuracy and overcurrent

protection, use a 1% tolerance current-sense resistor

between the inductor and output as shown in Figure

14a. This configuration constantly monitors the inductor

current, allowing accurate valley current-limiting and

inductor-saturation protection.

For low-output-voltage applications that require higher

efficiency, the current-sense resistor can be connected

between the source of the low-side MOSFET (N

) and

power ground (Figure 14b) with CSN_ connected to the

drain of N

and CSP_ connected to power ground. In

this configuration, the additional current-sense resis-

tance only dissipates power when N

is conducting

current. Inductor-saturation protection must be dis-

abled with this configuration (LSAT = GND) since the

inductor current is only properly sensed when the low-

side MOSFET is turned on.

OUT

IN MIN

(

OUT

IN MIN

(

LIM(VAL)

LOAD(MAX)

(

)

SOAR

LOAD(MAX)

OUT

)

- V

- t

SAG

LOAD(MAX)

(

OUT

OFF(MIN)

OUT

OFF(MIN)

)

LIR

PEAK

LOAD(MAX)

kHzx A

2.5V

(12V-2.5V)

12V

4.65 H

LIR

)

OUT

Dual Step-Down Controllers with Saturation

Protection, Dynamic Output, and Linear Regulator

______________________________________________________________________________________

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相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
MAX1540AETJ+	功能描述:DC/DC 開關(guān)控制器 Dual Step-Down Ctlr w/Saturation Prot RoHS:否制造商:Texas Instruments 輸入電壓:6 V to 100 V 開關(guān)頻率: 輸出電壓:1.215 V to 80 V 輸出電流:3.5 A 輸出端數(shù)量:1 最大工作溫度:+ 125 C 安裝風(fēng)格: 封裝 / 箱體:CPAK
MAX1540AETJ+T	功能描述:DC/DC 開關(guān)控制器 Dual Step-Down Ctlr w/Saturation Prot RoHS:否制造商:Texas Instruments 輸入電壓:6 V to 100 V 開關(guān)頻率: 輸出電壓:1.215 V to 80 V 輸出電流:3.5 A 輸出端數(shù)量:1 最大工作溫度:+ 125 C 安裝風(fēng)格: 封裝 / 箱體:CPAK
MAX1540ETJ	功能描述:DC/DC 開關(guān)控制器 RoHS:否制造商:Texas Instruments 輸入電壓:6 V to 100 V 開關(guān)頻率: 輸出電壓:1.215 V to 80 V 輸出電流:3.5 A 輸出端數(shù)量:1 最大工作溫度:+ 125 C 安裝風(fēng)格: 封裝 / 箱體:CPAK
MAX1540ETJ+	功能描述:DC/DC 開關(guān)控制器 Dual Step-Down Ctlr RoHS:否制造商:Texas Instruments 輸入電壓:6 V to 100 V 開關(guān)頻率: 輸出電壓:1.215 V to 80 V 輸出電流:3.5 A 輸出端數(shù)量:1 最大工作溫度:+ 125 C 安裝風(fēng)格: 封裝 / 箱體:CPAK
MAX1540ETJ+T	功能描述:DC/DC 開關(guān)控制器 Dual Step-Down Ctlr RoHS:否制造商:Texas Instruments 輸入電壓:6 V to 100 V 開關(guān)頻率: 輸出電壓:1.215 V to 80 V 輸出電流:3.5 A 輸出端數(shù)量:1 最大工作溫度:+ 125 C 安裝風(fēng)格: 封裝 / 箱體:CPAK

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