HSMS-286P-BLKG Avago Technologies US Inc., HSMS-286P-BLKG Datasheet - Page 9

HSMS-286P-BLKG

Manufacturer Part Number

HSMS-286P-BLKG

Description

DIODE SCHOTTKY DETECT HF SOT-363

Manufacturer

Avago Technologies US Inc.

Datasheets

1.HSMS-2860-BLKG.pdf (18 pages)

2.HSMS-286P-BLKG.pdf (6 pages)

Specifications of HSMS-286P-BLKG

Diode Type

Schottky - 2 Pair Series Connection

Voltage - Peak Reverse (max)

Capacitance @ Vr, F

0.25pF @ 0V, 1MHz

Package / Case

SC-70-6, SC-88, SOT-363

Capacitance Ct

0.25pF

Diode Case Style

SOT-363

Series Resistance @ If

6ohm

Peak Reflow Compatible (260 C)

Yes

Leaded Process Compatible

Yes

Forward Voltage

350mV

Capacitance, Junction

0.25 pF

Configuration

Bridge Quad

Package Type

SOT-363

Primary Type

Schottky Barrier

Resistance, Thermal, Junction To Case

150 °C/W

Speed, Switching

Temperature, Junction, Maximum

+150 °C

Temperature, Operating

-65 to +150 °C

Voltage, Forward

350 mV

Voltage, Reverse

7 V

Breakdown Voltage

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Max

Power Dissipation (max)

Resistance @ If, F

Lead Free Status / Rohs Status

RoHS Compliant part Electrostatic Device

Other names

516-1939
HSMS-286P-BLKG

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Manufacturer

Quantity

Price

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Part Number:

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Figure 17. Input Impedance, 3 µA Bias.

The corresponding input match is shown in Figure 18. As

was the case with the lower frequency design, bandwidth

is more than adequate for the intended RFID application.

Figure 18. Input Return Loss, 3 µA Bias.

A word of caution to the designer is in order. A glance

at Figure 17 will reveal the fact that the circuit does

not provide the optimum impedance to the diode at

2.45 GHz. The temptation will be to adjust the circuit

elements to achieve an ideal single frequency match, as

illustrated in Figure 19.

Two SMA connectors (E.F. Johnson 142‑0701‑631 or

equivalent), a high‑Q capacitor (ATC 100A101MCA50 or

equivalent), miscellaneous hardware and an HSMS‑286B

are added to create the test circuit shown in Figure 16.

The calculated input impedance for this network is

shown in Figure 17.

-10

-15

-20

-5

FREQUENCY (GHz): 2.3-2.6

2.3

HSMS-0005 fig 21 was 18

HSMS-285X fig 22 was 19

FREQUENCY (GHz)

2.45

2.6

Figure 19. Input Impedance. Modified 2.45 GHz Circuit.

This does indeed result in a very good match at midband,

as shown in Figure 20.

Figure 20. Input Return Loss. Modified 2.45 GHz Circuit.

However, bandwidth is narrower and the designer runs

the risk of a shift in the mid band frequency of his circuit

if there is any small deviation in circuit board or diode

character istics due to lot‑to‑lot variation or change in

temper‑ature. The matching technique illustrated in

Figure 17 is much less sensitive to changes in diode and

circuit board processing.

5.8 GHz Detector Circuit

A possible design for a 5.8 GHz detector is given in Figure

21.

Figure 21. 5.8 GHz Matching Network for the HSMS-286x Series at 3 µA Bias.

INPUT

-10

-15

-20

-5

FREQUENCY (GHz): 2.3-2.6

2.3

HSMS-0005 fig 23 was 20

2.45 GHz

HSMS-285X fig 24 was 21

TRANSMISSION LINE

DIMENSIONS ARE FOR

MICROSTRIP ON

0.032" THICK FR-4.

WIDTH = 0.045"

LENGTH = 0.073"

WIDTH = 0.016"

LENGTH = 0.037"

FREQUENCY (GHz)

2.45

20 pF

VIDEO

OUT

2.6

HSMS-286P-BLKG Avago Technologies US Inc., HSMS-286P-BLKG Datasheet - Page 9

HSMS-286P-BLKG

Specifications of HSMS-286P-BLKG

Available stocks

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