AWB459_17 Datasheet, PDF(1/23 Page) Advanced Semiconductor Business Inc.

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AWB459_17 Datasheet, PDF (1/23 Pages) Advanced Semiconductor Business Inc. – Wide band MMIC Amplifie

AWB459

Wide band MMIC Amplifier

Features

Description

ï 20 dB Gain at 1200 MHz

ï 2D3.e5scdrBipmtioPn1dB at 1200 MHz

ï 38 dBm Output IP3 at 1200 MHz

ï 1.25 dB NF

ï +5 V Single Supply

The AWB459, a gain block 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

systems up to 2 GHz. It has an active bias network

for stable current over temperature and process

variation. The amplifier is available in a SOT89

package and passes through the stringent DC, RF,

and reliability tests

Typical Performance

(Supply Voltage = +5 V, TA = +25 ï°C, Z0 = 50 ï)

Parameters

Frequency

Gain

S11

S22

Output IP31)

Noise Figure

Output P1dB

Units

MHz

dBm

Typical

512

24.0 23.5

-15

-16

-15

-16

0.8

1.1

23.0 23.5

800

20.0

-12

-18

1.2

23.5

1200

20.0

-14

-12

1.25

23.5

1600

20.5

-13

-10

1.4

24.0

Current

130

Device Voltage

1) OIP3 is measured with two tones at an output power of +10 dBm/tone separated by 1 MHz.

Product Specifications

Parameters

Units

Testing Frequency

Gain

S11

S22

Output IP3

Noise Figure

Output P1dB

Current

Device Voltage

MHz

dBm

Min

Typ.

Max

1200

20.0

-14

-12

1.25

23.5

110

130

AWB459

Package Style: SOT89

Applications

ï IF 1.5 ~ 500 MHz (6.5 V)

ï IF 21.4 ~ 512 MHz (3 V)

ï IF 30 ~ 512 MHz

(3 V & 5 V & 8 V)

ï IF 30 ~ 512 MHz (8 V, 140 mA)

ï DVB 470 ~ 800 MHz (5 V & 8 V)

ï IF 1.5 ~ 1000 MHz (8 V)

ï MoCA

(800 ~ 1600 MHz, 5 V & 8 V)

ï1200 ~ 1700 MHz (5 V & 8 V)

ï Wide Band

(1000 ~ 2000 MHz, 5 V & 8 V)

(30 ~ 2000 MHz, 3 V & 5 V & 8 V)

Pin Configuration

Absolute Maximum Ratings

Parameters

Rating

Operating Case Temperature

Storage Temperature

Device Voltage

-40 to ï«85 ï°C

-40 to ï«150 ï°C

+10 V

Operating Junction Temperature

Input RF Power

(CW, 50 ï matched as in 512 MHz application circuit)*

Thermal Resistance

+150 ï°C

+26 dBm

43 ï°C/W

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

The max. input power, in principle, depends upon the application frequency and the matching circuit.

1/23

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

Pin No.

Function

RF IN

GND

RF OUT & Bias

July 2017

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