MAX8543EEE+ Maxim Integrated Products, MAX8543EEE+ Datasheet - Page 20

MAX8543EEE+

Manufacturer Part Number

MAX8543EEE+

Description

IC CNTRLR STEP DOWN 16-QSOP

Manufacturer

Maxim Integrated Products

Type

Step-Down (Buck)r

Datasheet

1.MAX8543EEE.pdf (27 pages)

Specifications of MAX8543EEE+

Internal Switch(s)

Synchronous Rectifier

Number Of Outputs

Voltage - Output

0.8 ~ 11 V

Current - Output

25A

Frequency - Switching

200kHz ~ 1MHz

Voltage - Input

3 ~ 13.2 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-QSOP

Power - Output

667mW

Output Voltage

0.8 V to 11.88 V

Output Current

25000 mA

Mounting Style

SMD/SMT

Switching Frequency

200 KHz to 1000 KHz

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Synchronous Pin

Yes

Topology

Buck

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Step-Down Controllers with Prebias Startup,

Lossless Sensing, Synchronization, and OVP

2) If the resulting value of R

To set the constant current limit for the latch-up mode,

only R

the current-limit threshold at 1.2 times the maximum-

rated output current:

Similarly, I

current at maximum load, R

resistance of the low-side MOSFET at the highest oper-

ating junction temperature.

Peak inductor current-limit threshold (V

possible settings through ILIM (MAX8543) or ILIM1

(MAX8544) as shown in Table 3 below. The resulting

current limit is calculated as:

where R

the value of the optional current-sense resistor.

Note that V

variation of ±0.1 x V

maximum output current, use the minimum value of V

from each setting, and the maximum R

highest expected operating temperature. The DC resis-

tance of the inductor’s copper wire has a +0.22%/°C

temperature coefficient.

Table 3. ILIM Current-Limit Threshold

Settings

1/3 V

2/3 V

ILIM

increase P

lower R

es the efficiency and results in a lower short-circuit

current.

______________________________________________________________________________________

ILIM

GND

Voltage-divider:

100kΩ from ILIM/ILIM1 to GND

200kΩ from ILIM/ILIM1 to VL

Voltage-divider:

200kΩ from ILIM/ILIM1 to GND

100kΩ from ILIM/ILIM1 to VL

ILIM

VALLEY

is used. The equation for R

ILIM

DS(ON)

is either the DC resistance of the inductor or

ILIM CONNECTION

RECOMMENDED

is a logic-level setting, and can allow a

or choose a low-side MOSFET with a

1 2

. The latter is preferred as it increas-

LIM

is the value of the inductor valley

without affecting V

VALLEY

DS(ON)

−

ILIM

P P

−

Peak Current Limit

is the maximum on-

is negative, either

127.5

170.0

(mV)

MIN

38.5

85.0

DS ON

ILIM

(

values at the

)

(mV)

. To ensure

TYP

100

150

200

below sets

) has four

115.0

172.5

230.0

MAX

(mV)

56.5

To use the DC resistance of the output inductor for cur-

rent sensing, an RC circuit is added (see Figure 7). The

RC time constant is set to be twice the inductor (L / R

time constant. Pick the value of R4 in the range of 470Ω

to 2kΩ, and then calculate the capacitor value from: C9

= 2L / (R

R4 to the CS- connection to minimize input-offset error.

The equivalent current-sense resistance is equal to the

DC resistance of the inductor (R

To use a current-sense resistor, connect the resistor as

shown in Figure 8. Since most current-sense resistors

have inductance, the RC circuit is also required

and is calculated in the same manner as inductor

current sensing. Place C11 close to CS+ and CS- pins

to decouple the high-frequency noise pickup. Place

C10 (same value as C9) across R5 to aid in short-

circuit recovery.

Figure 7. Inductor R

Figure 8. Using a Current-Sense Resistor

MAX8543/

MAX8544

MAX8543/

MAX8544

× R4). Add a resistor (R5) equal in value to

CS+

CS-

CS+

CS-

Current Sensing

C11

OUT

C10

)

MAX8543EEE+ Maxim Integrated Products, MAX8543EEE+ Datasheet - Page 20

MAX8543EEE+

Specifications of MAX8543EEE+

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