FSDL321 Fairchild Semiconductor, FSDL321 Datasheet - Page 13

FSDL321

Manufacturer Part Number

FSDL321

Description

IC SWIT PWM GREEN CM OVP HV 8DIP

Manufacturer

Fairchild Semiconductor

Datasheets

1.FSDL321L.pdf (20 pages)

2.FSDL321.pdf (20 pages)

Specifications of FSDL321

Output Isolation

Isolated

Frequency Range

45 ~ 55kHz

Voltage - Input

8 ~ 20 V

Voltage - Output

650V

Power (watts)

17W

Operating Temperature

25°C ~ 140°C

Package / Case

8-DIP (0.300", 7.62mm)

Power Switch Family

FSDL321

Power Switch On Resistance

14Ohm

Output Current

Number Of Outputs

Single

Mounting

Through Hole

Supply Current

3mA

Package Type

PDIP

Operating Temperature (min)

-25C

Operating Temperature (max)

85C

Operating Temperature Classification

Commercial

Pin Count

Power Dissipation

1.4W

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

FSDL321_NL
FSDL321_NL

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Application Tips

1. Methods of Reducing Audible Noise

magnetic components, which generate audible noises when

the operating frequency is in the range of 20~20,000 Hz.

Even though they operate above 20 kHz, they can make

noise depending on the load condition. Designers can

employ several methods to reduce these noises. Here are

three of these methods:

to tighten magnetic components. The motion of core, bobbin

and coil and the chattering or magnetostriction of core can

cause the transformer to produce audible noise. The use of

rigid glue and varnish helps reduce the transformer noise.

But, it also can crack the core. This is because sudden

changes in the ambient temperature cause the core and the

glue to expand or shrink in a different ratio according to the

temperature.

snubber capacitor is another noise reduction solution. Some

dielectric materials show a piezoelectric effect depending on

the electric field intensity. Hence, a snubber capacitor

becomes one of the most significant sources of audible

noise. It is considerable to use a zener clamp circuit instead

of an RCD snubber for higher efficiency as well as lower

audible noise.

range is the third method. Generally, humans are more sensi-

tive to noise in the range of 2~4 kHz. When the fundamental

frequency of noise is located in this range, one perceives the

noise as louder although the noise intensity level is identical.

Refer to Figure 14. Equal Loudness Curves.

suspected to be a source of noise, this method may be help-

ful. If the frequency of Burst mode operation lies in the

range of 2~4 kHz, adjusting feedback loop can shift the

Burst operation frequency. In order to reduce the Burst oper-

ation frequency, increase a feedback gain capacitor (C

opto-coupler supply resistor (R

Figure 15. Typical Feedback Network of FPS.

Switching mode power converters have electronic and

Glue or Varnish

The most common method involves using glue or varnish

Ceramic Capacitor

Using a film capacitor instead of a ceramic capacitor as a

Adjusting Sound Frequency

Moving the fundamental frequency of noise out of 2~4 kHz

When FPS acts in Burst mode and the Burst operation is

) and decrease a feedback gain resistor (R

) and feedback capacitor

) as shown in

2. Other Reference Materials

AN-4134: Design Guidelines for Off-line Forward Convert-

AN-4137: Design Guidelines for Off-line Flyback Convert-

AN-4140: Transformer Design Consideration for Off-line

AN-4141: Troubleshooting and Design Tips for Fairchild

AN-4147: Design Guidelines for RCD Snubber of Flyback

AN-4148: Audible Noise Reduction Techniques for FPS

Figure 15. Typical Feedback Network of FPS

ers Using Fairchild Power Switch (FPS

ers Using Fairchild Power Switch (FPS)

Flyback Converters using Fairchild Power Switch

(FPS

Power Switch (FPS

Applications

Figure 14. Equal Loudness Curves

)

) Flyback Applications

FSDH321, FSDL321

)

FSDL321 Fairchild Semiconductor, FSDL321 Datasheet - Page 13

FSDL321

Specifications of FSDL321

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