HMPP-389X Datasheet, PDF(6/11 Page) Agilent(Hewlett-Packard) – MiniPak Surface Mount RF PIN Switch Diodes

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HMPP-389X Datasheet, PDF (6/11 Pages) Agilent(Hewlett-Packard) – MiniPak Surface Mount RF PIN Switch Diodes

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Testing the HMPP-389T on the

Demo-board

Introduction

The HMPP-389T PIN diode is a

high frequency shunt switch. It

has been designed as a smaller

and higher performance version of

the HSMP-389T (SC-70 package).

The DEMO-HMPP-389T demo-

board allows customers to evalu-

ate the performance of the

HMPP-389T without having to

fabricate their own PCB. Since a

shunt switchâs isolation is limited

primarily by its parasitic induc-

tance, the productâs true potential

cannot be shown if a conventional

microstrip pcb is used. In order to

overcome this problem, a coplanar

waveguide over ground-plane

structure is used for the demo-

board. The bottom ground-plane is

connected to the upper ground

traces using multiple via-holes.

Demo-board Preparation

Since the performance of the

shunt switch is ultimately limited

by the demo-board, a short

discussion of the constructional

aspects will be beneficial. Edge-

mounted SMA connectors

(Johnson #142-0701-881) were

mounted on both the reference

and test lines. A special mounting

technique has been used to

minimize reflection at the pcb to

connector interface. Prior to

mounting, the connector pins

were cut down to two pin diam-

eters in length. Subsequently, the

connector fingers were soldered

to the upper ground plane (Figure

13). Solder was filled between the

connector body and fingers on the

lower ground plane until the small

crescent of exposed teflon was

completely covered (Figure 14).

A 50â¦ reference line is provided at

the top to calibrate the board loss.

The bottom line allows the

HMPP-389T diode to be tested as

a shunt switch.

reference line

Figure 13. Soldering details of connector

fingers to upper ground plane.

Test Results

Measurements of the reference

lineâs return and insertion losses

were used to gauge the effective-

ness of the VSWR mitigating steps.

In our prototype, the worst case

return loss of the reference line

was 20 dB at 5 GHz (Figure 15).

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-22

-26

-30

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-38

1

2

3

4

5

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FREQUENCY (GHz)

Figure 15. Swept return loss of reference line.

Insertion loss of the reference was

very low and generally, increased

with frequency (Figure 16). If the

demo-board has been constructed

carefully, there should not be any

evidence of resonance. The

reference lineâs insertion loss

trace can be stored in the VNAâs

display memory and used to

correct for the insertion loss of

the test line in the subsequent

measurements.

Agilent

SK063A

test line HMPP-389T

Figure 12. Demo-board DEMO-HMPP-389T.

Figure 14. Soldering details of connector

fingers to lower ground plane.

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