CXG1010N Datasheet, PDF(1/6 Page) Sony Corporation

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CXG1010N Datasheet, PDF (1/6 Pages) Sony Corporation – Power Amplifier for PHS

CXG1010N

Power Amplifier for PHS

For the availability of this product, please contact the sales office.

Description

The CXG1010N is a power amplifier for PHS. This

16 pin SSOP (Plastic)

IC is designed using the Sonyâs GaAs J-FET process

and operates at a single power supply.

Features

â¢ High output power

21.5 dBm

â¢ Positive power supply drive VDD=3.4 V

â¢ Low current consumption 200 mA

â¢ High gain

40 dB Typ.

â¢ Low distortion (ACP)

â59 dBc Typ.

â¢ Small mold package 16-pin SSOP

Structure

GaAs J-FET MMIC

Absolute Maximum Ratings (Ta=25 Â°C)

â¢ Supply voltage

VDD

â¢ Voltage between gate and source

Vgs0

1.5

â¢ Drain current

IDD

500

â¢ Power dissipation

â¢ Channel temperature Tch

175

Â°C

â¢ Operating temperature Top â35 to +85 Â°C

â¢ Storage temperature Tstg â65 to +150 Â°C

Electrical Characteristics

VDD=3.4 V, VCTL=2.0 V, f=1.90 GHz

Item

â1 Current consumption

â1 Gate voltage adjustment value

Input VSWR

Output power (for â15.5 dBm input)

â2 Power gain

â2

â3 Gain control

â2 Average leak power level

(600 kHzÂ±100 kHz)

â2 Average leak power level

(900 kHzÂ±100 kHz)

Symbol

IDD

VGG2

VSWRIN

POUT

GCTL

PLEAK600

PLEAK900

Min.

21.5

Typ.

200

0.5

1.5

â59

â65

Max.

1.0

2.0

â54

â59

(Ta=25 Â°C)

Unit

dBm

dBc

â1 This value is adjusted by VGG1 and VGG2 set with Sonyâs recommended current adjustment method when

21.5 dBm is output. In this time, the voltage ratio of VGG1 and VGG2 should match to the voltage ratio

generated by the resistance of the recommended gate bias circuit.

â2 When 21.5 dBm is output.

â3 GCTL=GP (VCTL 2.0 V)âGP (VCTL 0 V)

Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by

any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the

operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.

â1â

E95836-TE

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