FSDH0265RL_NL Fairchild Semiconductor, FSDH0265RL_NL Datasheet - Page 10

FSDH0265RL_NL

Manufacturer Part Number

FSDH0265RL_NL

Description

Manufacturer

Fairchild Semiconductor

Datasheet

1.FSDH0265RL_NL.pdf (20 pages)

Specifications of FSDH0265RL_NL

Power Switch Family

FSDH0265

Power Switch On Resistance

5Ohm

Output Current

1.3A

Number Of Outputs

Single

Mounting

Surface Mount

Supply Current

3mA

Package Type

LSOP

Operating Temperature (min)

-25C

Operating Temperature (max)

85C

Operating Temperature Classification

Commercial

Pin Count

Power Dissipation

1.56W

Lead Free Status / Rohs Status

Compliant

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FSDH0265RN, FSDM0265RN

Functional Description

1. Startup : In previous generations of Fairchild Power

Switches (FPS

DC input voltage line. In this generation the startup resistor

is replaced by an internal high voltage current source and a

switch that shuts off when 15mS goes by after the supply

voltage, Vcc, gets above 12V. The source turns back on if

Vcc drops below 8V.

2. Feedback Control : The FSDx0265RN employs current

mode control, shown in figure 5. An opto-coupler (such as

the H11A817A) and shunt regulator (such as the KA431) are

typically used to implement the feedback network. Compar-

ing the feedback voltage with the voltage across the Rsense

resistor plus an offset voltage makes it possible to control the

switching duty cycle. When the reference pin voltage of the

KA431 exceeds the internal reference voltage of 2.5V, the

H11A817A LED current increases, thus pulling down the

feedback voltage and reducing the duty cycle. This event

typically happens when the input voltage is increased or the

output load is decreased.

3. Leading edge blanking (LEB) : At the instant the inter-

nal Sense FET is turned on, there usually exists a high cur-

rent spike through the Sense FET, caused by the primary side

capacitance and secondary side rectifier diode reverse recov-

ery. Excessive voltage across the Rsense resistor would lead

to incorrect feedback operation in the current mode PWM

control. To counter this effect, the FPS

edge blanking (LEB) circuit. This circuit inhibits the PWM

comparator for a short time (T

turned on.

Figure 4. High voltage current source

Vin,dc

) the Vstr pin had an external resistor to the

Vcc

15m S After UVLO

UVLO <8V

LEB

start(>12V)

off

) after the Sense FET is

Istr

employs a leading

Vstr

J-FET

4. Protection Circuit : The FPS

functions such as over load protection (OLP), over voltage

protection (OVP), abnormal over current protection

(AOCP), under voltage lock out (UVLO) and thermal shut-

down (TSD). Because these protection circuits are fully inte-

grated inside the IC without external components, the

reliability is improved without increasing cost. Once the

fault condition occurs, switching is terminated and the Sense

FET remains off. This causes Vcc to fall. When Vcc reaches

the UVLO stop voltage, 8V, the protection is reset and the

internal high voltage current source charges the Vcc capaci-

tor via the Vstr pin. When Vcc reaches the UVLO start volt-

age,12V, the FPS

manner, the auto-restart can alternately enable and disable

the switching of the power Sense FET until the fault condi-

tion is eliminated.

4.1 Over Load Protection (OLP) : Overload is defined as

the load current exceeding a pre-set level due to an unex-

pected event. In this situation, the protection circuit should

be activated in order to protect the SMPS. However, even

when the SMPS is in the normal operation, the over load

protection circuit can be activated during the load transition.

In order to avoid this undesired operation, the over load pro-

tection circuit is designed to be activated after a specified

time to determine whether it is a transient situation or an

overload situation. In conjunction with the Ipk current limit

pin (if used) the current mode feedback path would limit the

current in the Sense FET when the maximum PWM duty

cycle is attained. If the output consumes more than this max-

imum power, the output voltage (Vo) decreases below the set

voltage. This reduces the current through the opto-coupler

LED, which also reduces the opto-coupler transistor current,

thus increasing the feedback voltage (Vfb). If Vfb exceeds

3V, the feedback input diode is blocked and the 5uA Idelay

current source starts to charge Cfb slowly up to Vcc. In this

condition, Vfb continues increasing until it reaches 6V, when

the switching operation is terminated as shown in figure 6.

The delay time for shutdown is the time required to charge

Figure 5. Pulse width modulation (PWM) circuit

431

Vfb

Cfb

resumes its normal operation. In this

5uA

Vcc

Vref

Vfb*

0.9mA

2.5R

has several protective

OSC

OLP

driver

Gate

FSDH0265RL_NL Fairchild Semiconductor, FSDH0265RL_NL Datasheet - Page 10

FSDH0265RL_NL

Specifications of FSDH0265RL_NL

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