FAN5094MTC Fairchild Semiconductor, FAN5094MTC Datasheet - Page 17

FAN5094MTC

Manufacturer Part Number

FAN5094MTC

Description

IC CTRLR DC/DC SYNC BUCK 28TSSOP

Manufacturer

Fairchild Semiconductor

Datasheet

1.FAN5094MTCX.pdf (22 pages)

Specifications of FAN5094MTC

Applications

Controller, Intel Pentium® IV

Voltage - Input

12V

Number Of Outputs

Voltage - Output

1.1 ~ 1.85 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

28-TSSOP

Output Voltage

1.850 V

Mounting Style

SMD/SMT

Operating Temperature Range

0 C to + 70 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

FAN5094MTC_NL
FAN5094MTC_NL

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

FAN5094MTC

Manufacturer:

Fairchild Semiconductor

Quantity:

135

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PRODUCT SPECIFICATION

Output Enable/Soft Start (ENABLE/SS)

The FAN5094 will accept an open collector/TTL signal for

controlling the output voltage. The low state disables the

output voltage. When disabled, the PWRGD output is in the

low state.

Even if an enable is not required in the circuit, this pin

should have attached a capacitor (typically 100nF) to soft-

start the switching. A softstart capacitor may be approxi-

mately chosen by the formula:

However, C must be 100nF.

Oscillator

The FAN5094 oscillator section runs at a frequency deter-

mined by a resistor from the RT pin to ground according to

the formula

The oscillator generates two square waves, 180° out of phase

with each other. One is used internally, the other is sent to a

second FAN5094 on the CLK pin.

The square wave generates two internal sawtooth ramps,

each at one-half the square wave frequency, and running

180 out of phase with each other. These ramps cause the

turn-on time of the two phases to be phased apart and the

four phases to be 90° apart each. The oscillator frequency of

the FAN5094 can be programmed from 400KHz to 4MHz

with each phase running at 100KHz to 1MHz, respectively.

Selection of a frequency will depend on various system

performance criteria, with higher frequency resulting in

smaller components but lower efﬁciency.

Programmable Active Droop™

The FAN5094 features Programmable Active Droop™: as

the output current increases, the output voltage drops propor-

tionately an amount that can be programmed with an exter-

nal resistor. This feature is offered in order to allow

maximum headroom for transient response of the converter.

The current is sensed losslessly by measuring the voltage

across the low-side MOSFET during its on time. Consult the

section on current sensing for details. Note that this method

makes the droop dependent on the temperature and initial

tolerance of the MOSFET, and the droop must be calculated

taking account of these tolerances. Given a maximum load

current, the amount of droop can be programmed with a

resistor to ground on the droop pin, according to the formula

REV. 1.0.2 5/13/02

Droop

2 n V

-------------------------------------------------- -

t 10 A

--------------------- -

max

50 10

--------------------- -

f Hz

out

Droop

DS on

with V

resistor, I

n the number of phases, and R

one phase’s low-side MOSFET.

Typical response time of the FAN5094 to an output voltage

change is 100nsec.

Important Note! The oscillator frequency must be selected

before selecting the droop resistor, because the value of RT

is used in the calculation of R

Over-Voltage Protection

The FAN5094 constantly monitors the output voltage for

protection against over-voltage conditions. If the voltage at

the VFB pin exceeds 2.2V, an over-voltage condition is

assumed and the FAN5094 latches on the external low-side

MOSFET and latches off the high-side MOSFET. The

DC-DC converter returns to normal operation only after V

has been recycled.

Thermal Design Considerations

Because of the very large gate capacitances that the

FAN5094 may be driving, the IC may dissipate substantial

power. It is important to provide a path for the IC’s heat to be

removed, to avoid overheating. In practice, this means that

each of the pins should be connected to as large a trace as

possible. Use of the heavier weights of copper on the PCB is

also desirable. Since the MOSFETs also generate a lot of

heat, efforts should be made to thermally isolate them from

the IC.

Over Temperature Protection

If the FAN5094 die temperature exceeds approximately

150 C, the IC shuts itself off. It remains off until the temper-

ature has dropped approximately 25 C, at which time it

resumes normal operation.

Component Selection

MOSFET Selection

This application requires N-channel Enhancement Mode Field

Effect Transistors. Desired characteristics are as follows:

• Low Drain-Source On-Resistance,

• R

• Power package with low Thermal Resistance;

• Drain-Source voltage rating > 15V;

• Low gate charge, especially for higher frequency

For the low-side MOSFET, the on-resistance (R

primary parameter for selection. Because of the small duty

cycle of the high-side, the on-resistance determines the

power dissipation in the low-side MOSFET and therefore

signiﬁcantly affects the efﬁciency of the DC-DC converter.

For high current applications, it may be necessary to use two

MOSFETs in parallel for the low-side for each phase.

operation.

DS,ON

Droop

max

< 10m (lower is better);

the desired droop voltage, RT the oscillator

the load current at which the droop is desired,

DS, on

Droop

the on-state resistance of

DS,ON

FAN5094

) is the

FAN5094MTC Fairchild Semiconductor, FAN5094MTC Datasheet - Page 17

FAN5094MTC

Specifications of FAN5094MTC

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