HPND-4038 Avago Technologies US Inc., HPND-4038 Datasheet - Page 5

HPND-4038

Manufacturer Part Number

HPND-4038

Description

IC RF PIN DIODE BEAM LEAD SW

Manufacturer

Avago Technologies US Inc.

Type

Switchr

Datasheet

1.HPND-4038.pdf (6 pages)

Specifications of HPND-4038

Function

Diode

Configuration

Single

Reverse Voltage

60 V

Forward Continuous Current

10 mA

Carrier Life

0.045 us

Forward Voltage Drop

1.1 V @ 20 mA

Maximum Diode Capacitance

0.065 pF @ 30 V

Maximum Operating Temperature

+ 150 C

Maximum Series Resistance @ Maximum If

1 Ohm (Typ) @ 50 mA

Maximum Series Resistance @ Minimum If

2 Ohm @ 10 mA

Minimum Operating Temperature

- 65 C

Mounting Style

SMD/SMT

Power Dissipation

250 mW

Package / Case

Case 83

Operating Temperature Classification

Military

Operating Temperature (max)

150C

Operating Temperature (min)

-65C

Pin Count

Diode Type

RF Pin

Capacitance Cd Max @ Vr F

0.065pF

Resistance @ If

1.5ohm

Forward Current If(av)

20mA

Operating Temperature Range

-65Â°C To +150Â°C

Breakdown Voltage

60V

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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Part Number

Manufacturer

Quantity

Price

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Part Number:

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Manufacturer:

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Company:

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Part Number:

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Manufacturer:

Avago Technologies

Quantity:

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Part Number:

HPND-4038

Manufacturer:

AVAGO/安华高

Quantity:

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Bonding and Handling Procedures for Beam Lead Diodes

1. Storage

Under normal circumstances, storage of beam lead

diodes in Avago supplied waffle/gel packs is sufficient.

In particularly dusty or chemically hazardous environ-

ments, storage in an inert atmosphere desiccator is

advised.

2. Handling

In order to avoid damage to beam lead devices, par-

ticular care must be exercised during inspection,

testing, and assembly. Although the beam lead diode

is designed to have exceptional lead strength, its small

size and delicate nature requires that special handling

techniques be observed so that the devices will not be

mechanically or electrically damaged. A vacuum pickup

is recommended for picking up beam lead devices, par-

ticularly larger ones, e.g., quads. Care must be exercised

to assure that the vacuum opening of the needle is suf-

ficiently small to avoid passage of the device through

the opening. A #27 tip is recommended for picking up

single beam lead devices. A 20X magnification is needed

for precise positioning of the tip on the device. Where a

vacuum pickup is not used, a sharpened wooden Q-tip

dipped in isopropyl alcohol is very commonly used to

handle beam lead devices.

3. Cleaning

For organic contamination use a warm rinse of trichlo-

roethane, or its locally approved equivalent, followed by

a cold rinse in acetone and methanol. Dry under infrared

heat lamp for 5–10 minutes on clean filter paper. Freon

degreaser, or its locally approved equivalent, may

replace trichloroethane for light organic contamination.

• Ultrasonic cleaning is not recommended.

• Acid solvents should not be used.

4. Bonding

Thermocompression: See Application Note 979 “The

Handling and Bonding of Beam Lead Devices Made

Easy”. This method is good for hard substrates only.

Wobble: This method picks up the device, places it on

the substrate and forms a thermo-compression bond all

in one operation. This is described in the latest version

of MIL-STD-883, Method 2017, and is intended for hard

substrates only.

Resistance Welding or Parallel-GAP Welding: To make

welding on soft substrates easier, a low pressure welding

head is recommended. Suitable equipment is available

from HUGHES, Industrial Products Division in Carlsbad,

CA.

Epoxy: With solvent free, low resistivity epoxies

(available from ABLESTIK and improvements in dispens-

ing equipment, the quality of epoxy bonds is sufficient

for many applications.

5. Lead Stress

In the process of bonding a beam lead diode, a certain

amount of “bugging” occurs. The term bugging refers

to the chip lifting away from the substrate during the

bonding process due to the deformation of the beam by

the bonding tool. This effect is beneficial as it provides

stress relief for the diode during thermal cycling of the

substrate. The coefficient of expansion of some substrate

materials, specifically soft substrates, is such that some

bugging is essential if the circuit is to be operated over

wide temperature extremes.

Thick metal clad ground planes restrict the thermal

expansion of the dielectric substrates in the X-Y axis.

The expansion of the dielectric will then be mainly

in the Z axis, which does not affect the beam lead

device. An alternate solution to the problem of dielec-

tric ground plane expansion is to heat the substrate to

the maximum required operating temperature during

the beam lead attachment. Thus, the substrate is at

maximum expansion when the device is bonded. Sub-

sequent cooling of the substrate will cause bugging,

similar to bugging in thermocompression bonding or

epoxy bonding. Other methods of bugging are pre-

forming the leads during assembly or prestressing the

substrate.

HPND-4038 Avago Technologies US Inc., HPND-4038 Datasheet - Page 5

HPND-4038

Specifications of HPND-4038

Available stocks

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