BUD42D Datasheet, PDF(10/14 Page) ON Semiconductor – High Speed, High Gain Bipolar NPN Transistor with Antisaturation Network and Transient Voltage Suppression Capability

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BUD42D Datasheet, PDF (10/14 Pages) ON Semiconductor – High Speed, High Gain Bipolar NPN Transistor with Antisaturation Network and Transient Voltage Suppression Capability

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BUD42D

D = 0.5

0.2

0.1

0.1 0.05

0.02

0.01

SINGLE PULSE

0.01

0.1

P(pk)

DUTY CYCLE, D = t1/t2

RÎ¸JC(t) = r(t) RÎ¸JC

RÎ¸JC = 5Â°C/W MAX

D CURVES APPLY FOR POWER

PULSE TRAIN SHOWN

READ TIME AT t1

TJ(pk) â TC = P(pk) RÎ¸JC(t)

t, TIME (ms)

Figure 31. Thermal Response

100

1000

Minimum Pad Sizes Recommended for Surface Mounted Applications

5.80

0.228

6.20

0.244

3.0

0.118

2.58

0.101

1.6

0.063

6.172

0.243

Ç Ç SCALE 3:1

inches

TYPICAL SOLDER HEATING PROFILE

For any given circuit board, there will be a group of

control settings that will give the desired heat pattern. The

operator must set temperatures for several heating zones,

and a figure for belt speed. Taken together, these control

settings make up a heating âprofileâ for that particular

circuit board. On machines controlled by a computer, the

computer remembers these profiles from one operating

session to the next. Figure 32 shows a typical heating

profile for use when soldering a surface mount device to a

printed circuit board. This profile will vary among

soldering systems but it is a good starting point. Factors that

can affect the profile include the type of soldering system in

use, density and types of components on the board, type of

solder used, and the type of board or substrate material

being used. This profile shows temperature versus time.

The line on the graph shows the actual temperature that

might be experienced on the surface of a test board at or

near a central solder joint. The two profiles are based on a

high density and a low density board. The Vitronics

SMD310 convection/infrared reflow soldering system was

used to generate this profile. The type of solder used was

62/36/2 Tin Lead Silver with a melting point between

177â189Â°C. When this type of furnace is used for solder

reflow work, the circuit boards and solder joints tend to

heat first. The components on the board are then heated by

conduction. The circuit board, because it has a large surface

area, absorbs the thermal energy more efficiently, then

distributes this energy to the components. Because of this

effect, the main body of a component may be up to 30

degrees cooler than the adjacent solder joints.

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