HSMS-2863-BLKG Avago Technologies US Inc., HSMS-2863-BLKG Datasheet - Page 11

HSMS-2863-BLKG

Manufacturer Part Number

HSMS-2863-BLKG

Description

DIODE SCHOTTKY DETECT HF SOT-23

Manufacturer

Avago Technologies US Inc.

Datasheet

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

Specifications of HSMS-2863-BLKG

Diode Type

Schottky - 1 Pair Common Anode

Package / Case

SOT-23-3, TO-236-3, Micro3™, SSD3, SST3

Voltage - Peak Reverse (max)

Capacitance @ Vr, F

0.3pF @ 0V, 1MHz

Diode Case Style

SOT-23

Leaded Process Compatible

Yes

Peak Reflow Compatible (260 C)

Yes

Mounting Type

Surface Mount

Current Rating

Diode Configuration

Dual Common Anode

Forward Current If Max

1mA

Capacitance Ct

0.3pF

No. Of Pins

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

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

HSMS-2863-BLKG

Manufacturer:

AVAGO/安华高

Quantity:

20 000

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Figure 25. Output Voltage vs. Temperature and Bias Current

in the 915 MHz Voltage Doubler using the HSMS-286C.

Figure 26. Output Voltage vs. Temperature and Bias Current

in the 5.80 GHz Voltage Detector using the HSMS-286B Schottky.

Six Lead Circuits

The differential detector is often used to provide temper‑

ature compensation for a Schottky detector, as shown in

Figures 27 and 28.

Figure 27. Differential Detector.

Figure 28. Conventional Differential Detector.

These circuits depend upon the use of two diodes

having matched V

temperatures. This is best achieved by using two diodes

matching

network

120

100

-55

-35

1.0 µA

10 µA

3.0 µA

0.5 µA

bias

3.0 µA

1.0 µA

10 µA

0.5 µA

-15

HSMS-2865

TEMPERATURE (

INPUT POWER = – 30 dBm

INPUT POWER = –30 dBm

characteristics over all operating

detector

diode

reference diode

differential

amplifier

to differential

amplifier

in a single package, such as the SOT‑143 HSMS‑2865 as

shown in Figure 29.

In high power differential detectors, RF coupling from

the detector diode to the reference diode produces a

rectified voltage in the latter, resulting in errors.

Isolation between the two diodes can be obtained

by using the HSMS‑286K diode with leads 2 and 5

grounded. The difference between this product and the

conventional HSMS‑2865 can be seen in Figure 29.

Figure 29. Comparing Two Diodes.

The HSMS‑286K, with leads 2 and 5 grounded, offers

some isolation from RF coupling between the diodes.

This product is used in a differential detector as shown

in Figure 30.

Figure 30. High Isolation Differential Detector.

In order to achieve the maximum isolation, the designer

must take care to minimize the distance from leads 2

and 5 and their respective ground via holes.

Tests were run on the HSMS‑282K and the conventional

HSMS‑2825 pair, which compare with each other in the

same way as the HSMS‑2865 and HSMS‑286K, with the

results shown in Figure 31.

Figure 31. Comparing HSMS-282K with HSMS-2825.

5000

1000

100

0.5

-35

HSMS-2865

Frequency = 900 MHz

SOT-143

Square law

response

-25

INPUT POWER (dBm)

HSMS-286K

-15

37 dB

47 dB

detector

diode

-5

reference diode

HSMS-2825

ref. diode

RF diode

out

HSMS-286K

SOT-363

HSMS-282K

ref. diode

to differential

amplifier

HSMS-2863-BLKG Avago Technologies US Inc., HSMS-2863-BLKG Datasheet - Page 11

HSMS-2863-BLKG

Specifications of HSMS-2863-BLKG

Available stocks

Related parts for HSMS-2863-BLKG