D12F200 Datasheet, PDF(8/13 Page) Delta Electronics, Inc.

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D12F200 Datasheet, PDF (8/13 Pages) Delta Electronics, Inc. – 4.5V~13.8Vin, 0.6V~5.0Vout, 40A

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DESIGN CONSIDERATIONS

FEATURES DESCRIPTIONS

The D12F200 uses a two phase and voltage mode controlled

buck topology. The output can be trimmed in the range of

0.6Vdc to 5.0Vdc by a resistor from Trim pin to Ground.

The converter can be turned ON/OFF by remote control.

Positive on/off (ENABLE pin) logic implies that the converter

DC output is enabled when the signal is driven high (greater

than 1.2V) or floating and disabled when the signal is driven

low (below 0.6V).

The converter provides an open collector Power Good signal.

The power good signal is pulled low when output is not within

Â±10% of Vout or Enable is OFF.

For output voltages above 1.8V, please refer to Figure 31

below for minimum input voltage requirement for proper

module operations.

The converter can protect itself by entering hiccup mode

against over current and short circuit condition.

Safety Considerations

It is recommended that the user to provide a fuse in the input

line for safety. The output voltage set-point and the output

current in the application could define the amperage rating of

the fuse.

5.5

5.0

Vo=5V

4.5

4.0

3.5

Vo=3. 3V

3.0

Vo=2. 5V

2.5

2.0

Vo=1. 8V

1.5

1.0

Vo=0. 6V

0.5

0.0

3.5 4.5 5.5 6.5 7.5 8.5 9.5 10.5 11.5 12.5 13.5 14.5

INPUT VOLTAGE(V)

Figure 31: minimum input voltage required for output

voltages above 1.8V

Enable (On/Off)

The ENABLE (on/off) input allows external circuitry to put the

D12F200 converter into a low power dissipation (sleep) mode.

Positive ENABLE is available as standard.

Positive ENABLE units of the D12F200 series are turned on if the

ENABLE pin is high or floating. Pulling the pin low will turn off the

unit. With the active high function, the output is guaranteed to turn

on if the ENABLE pin is driven above 1.2V. The output will turn off

if the ENABLE pin voltage is pulled below 0.6V.

Input Under-Voltage Lockout

The input under-voltage lockout prevents the converter from

being damaged while operating when the input voltage is too

low. The under-voltage lockout is adjustable by adding a resistor

(Figure 32) between Enable pin and ground pin per the following

equation:

Re n(KÎ©) = 315

14Ven + 3.8

Default lockout range is between 4.3V and 4.0V.

Unit

Vin

Vout

Enable Trim(+)

Ren

GND

Figure 32: Enable input drive circuit example.

Reflected Ripple Current and Output Ripple and Noise

Measurement

The measurement set-up outlined in Figure 33 has been used for

both input reflected/ terminal ripple current and output voltage

ripple and noise measurements on D12F200 converters.

Input reflected current measurement point

Vin+

Ltest

DC-DC Converter

Cin

1uF

Ceramic

10uF

Tan

Load

Output voltage ripple noise measurement point

DS_D12F200_11042008

Cs=330Î¼F OS-con cap x1, Ltest=1Î¼H, Cin=330Î¼F OS-con cap x1

Figure 33: Input reflected ripple/ capacitor ripple current and

output voltage ripple and noise measurement setup for

D12F200

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