HMPP-389X Datasheet, PDF(8/11 Page) Agilent(Hewlett-Packard) – MiniPak Surface Mount RF PIN Switch Diodes

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HMPP-389X Datasheet, PDF (8/11 Pages) Agilent(Hewlett-Packard) – MiniPak Surface Mount RF PIN Switch Diodes

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Assembly Information

The MiniPak diode is mounted to

the PCB or microstrip board using

the pad pattern shown in

Figure 21.

0.4

0.5

0.4

0.3

0.5

0.3

Figure 21. PCB Pad Layout, MiniPak

(dimensions in mm).

This mounting pad pattern is

satisfactory for most applications.

However, there are applications

where a high degree of isolation is

required between one diode and

the other is required. For such

applications, the mounting pad

pattern of Figure 22 is

recommended.

0.40 mm via hole

(4 places)

0.20

0.8

2.40

0.40

2.60

Figure 22. PCB Pad Layout, High Isolation

MiniPak (dimensions in mm).

This pattern uses four via holes,

connecting the crossed ground

strip pattern to the ground plane

of the board.

SMT Assembly

Reliable assembly of surface

mount components is a complex

process that involves many

material, process, and equipment

factors, including: method of

heating (e.g., IR or vapor phase

reflow, wave soldering, etc.)

circuit board material, conductor

thickness and pattern, type of

solder alloy, and the thermal

conductivity and thermal mass of

components. Components with a

low mass, such as the MiniPak

package, will reach solder reflow

temperatures faster than those

with a greater mass.

Agilentâs diodes have been quali-

fied to the time-temperature

profile shown in Figure 23. This

profile is representative of an IR

reflow type of surface mount

assembly process.

After ramping up from room

temperature, the circuit board

with components attached to it

(held in place with solder paste)

passes through one or more

preheat zones. The preheat zones

increase the temperature of the

board and components to prevent

thermal shock and begin evaporat-

ing solvents from the solder paste.

The reflow zone briefly elevates

the temperature sufficiently to

produce a reflow of the solder.

The rates of change of tempera-

ture for the ramp-up and cool-

down zones are chosen to be low

enough to not cause deformation

of the board or damage to compo-

nents due to thermal shock. The

maximum temperature in the

reflow zone (TMAX) should not

exceed 255Â°C.

These parameters are typical for a

surface mount assembly process

for Agilent diodes. As a general

guideline, the circuit board and

components should be exposed

only to the minimum temperatures

and times necessary to achieve a

uniform reflow of solder.

350

300

250

221

200

150

Preheat 130â 170Â°C

100

Min. 60 s

Max. 150 s

0 30 60 90 120 150 180 210

TIME (seconds)

Figure 23. Surface Mount Assembly Temperature Profile.

Peak Temperature

Min. 240Â°C

Max. 255Â°C

Reflow Time

Min. 60 s

Max. 90 s

240 270 300 330 360

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