ASW205 Datasheet, PDF(1/17 Page) Advanced Semiconductor Business Inc.

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ASW205 Datasheet, PDF (1/17 Pages) Advanced Semiconductor Business Inc. – MMIC Amplifier

ASW205

5 ~ 6000 MHz MMIC Amplifier

Features

ïï 20.7 dB Gain at 2 GHz

ïï 19.5 dBm P1dB at 2 GHz

ïï 32.5 dBm Output IP3 at 2 GHz

ïï MTTF > 100 Years

ïï Single Supply

Description

The ASW205, a power amplifier MMIC, has a high

linearity, high gain, and high efficiency over a wide

range of frequency, being suitable for use in both

receiver and transmitter of telecommunication sys-

tems 5 MHz to 6 GHz. The amplifier is available in a

SOT89 package and passes through the stringent

DC, RF, and reliability tests.

ASW205

Package Style: SOT89

Typical Performance

(Supply Voltage = Device Voltage, TA = +25 ï°C, Zo = 50 ï)

Parameters

Units

Typical

Frequency

MHz

150

900

Gain

25.7

24.2

S11

-17

-15

S22

Output IP3

dBm

-10

33.51)

-10

33.51)

Noise Figure

3.3

3.5

Output P1dB

dBm

18.5

19.0

Current

Device Voltage

1) OIP3 is measured with two tones at an output power of +0 dBm/tone separated by 1 MHz.

2) OIP3 is measured with two tones at an output power of +5 dBm/tone separated by 1 MHz.

2000

20.7

-17

-9

32.51)

3.6

19.5

2700

18.3

-11

-10

31.01)

3.9

18.0

3000

18.7

-18

-14

27.52)

3.5

17.0

Application Circuit

ï 500 ~ 2700 MHz

ï 5 ~ 4000 MHz

ï IF

ï 3000 ~ 4500 MHz

ï 50 ~ 1000 MHz (75 ï)

ï 5 ~ 200 MHz (75 ï)

ï 500 ~ 2700 MHz (3.3 V/ 35 mA)

Product Specifications

Parameters

Testing Frequency

Gain

S11

S22

Output IP3

Noise Figure

Output P1dB

Current

Device Voltage

Units

MHz

dBm

Min

Typ

Max

2000

20.7

-17

-9

32.5

3.6

19.5

ï 5 ~ 105 MHz (75 ï)

Pin Configuration

Absolute Maximum Ratings

Parameters

Operating Case Temperature

Storage Temperature

Device Voltage

Operating Junction Temperature

Input RF Power (Continuous)*

Thermal Resistance

Rating

-40 to ï«85 ï°C

-40 to ï«150 ï°C

+5.5 V

+150 ï°C

+22 dBm

145 ï°C/W

* Please find the max. input power data from http://www.asb.co.kr/pdf/Maximum_Input_Power_Analysis.pdf

1/17

ASB Inc. ï· sales@asb.co.kr ï· Tel: +82-42-528-7225

Pin No. Function

RF IN

GND

RF OUT & Bias

April 20173

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