CGB241

Data Sheet

2-Stage Bluetooth & WLAN InGaP HBT Power Amplifier

Applications:

Bluetooth Class 1

Home RF

Cordless Phones

IEEE 802.11b

ISM-band Spread
Spectrum

Description:

The CGB241 GaAs Power Amplifier MMIC has been
especially developed for wireless applications in the
2.4 - 2.5 GHz ISM band (e.g. Bluetooth class 1, or
IEEE 802.11b). Its high power added efficiency (typi-
cally 50%) and single positive supply operation makes
the device ideally suited to handheld applications. The
device delivers 22.5 dBm output power at a supply volt-
age of 3.2 V, with an overall

PAE

of 50%. The output

power can be adjusted using an analog control voltage
(

CTR

). Simple external input-, interstage-, and output

matching circuits are used to adapt to the different re-
quirements of linearity and harmonic suppression in
various applications.

Package Outline:

Features:

2-stage Bluetooth InGaP HBT power amplifier

Single voltage supply

Wide operating voltage range 2.0 - 5.5 V

· P

OUT

= 22.5 dBm at

= 3.2 V

Overall power added efficiency (

PAE

) typically

50%

Analog power control with four power steps

Pin Configuration:
1:

Vc1

RFin

Vcntrl1

Vcntrl2

Vc2

7 (paddle): GND

High

PAE

at lowpower mode

High harmonic suppression typ. 35 dBc

Easy external matching concept

Thin Small Leadless Package (

= 2.6mm

)

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1/14

Rev. A; November 14th, 2005.

CGB241

Data Sheet

2-Stage Bluetooth & WLAN InGaP HBT Power Amplifier

Absolute Maximum Ratings

Parameter Symbol

Limit

Values

Unit

min.

max.

Max. Supply Voltage

CC,MAX

0 5.5

Max. Control Voltage

CTR,MAX

0 3.2

Max. Current Stage 1

C1,MAX

0 40

Max. Current Stage 2

C2,MAX

0 160

Max. Total Power Dissipation

)

TOT

0.5

Max. RF Input Power

)

IN,MAX

+10

dBm

Channel Temperature

)

150

°C

Storage Temperature

Stg

- 55

150

°C

) Thermal resistance between junction and pad 7 ( = heatsink ):

THCH

= 100 K/W.

) No RF input signal should be applied at turn on of DC Power. An output VSWR of 1:1 is assumed.

Typical Electrical Characteristics in CGB241 Reference Design

= 25 °C;

= 3.2 V;

= 2.4 ... 2.5 GHz;

OUT

= 50 Ohms

Parameter

Symbol

Limit Values

Unit

Test Conditions

min

typ

max

Supply Current
Small-Signal Operation

CC,SS

120

150

= - 10 dBm

CTR

= 2.5 V

Power Gain
Small-Signal Operation

24 26 dB

= - 10 dBm

CTR

= 2.5 V

Output Power
Power Step 1

OUT,1

dBm

= + 3 dBm

CTR

= 1.15 V

Supply Current
Power Step 1

CC,1

= + 3 dBm

CTR

= 1.15 V

Power Added Efficiency
Power Step 1

PAE

= + 3 dBm

CTR

= 1.15 V

Output Power
Power Step 2

OUT,2

dBm

= + 3 dBm

CTR

= 1.3 V

Supply Current
Power Step 2

CC,2

= + 3 dBm

CTR

= 1.3 V

Power Added Efficiency
Power Step 2

PAE

= + 3 dBm

CTR

= 1.3 V

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2/14

Rev. A; November 14th, 2005.

CGB241

Data Sheet

2-Stage Bluetooth & WLAN InGaP HBT Power Amplifier

Electrical Characteristics in CGB241 Reference Design (cont.)

Parameter

Symbol

Limit Values

Unit

Test Conditions

Min

typ

max

Output Power
Power Step 3

OUT,3

dBm

= + 3 dBm

CTR

= 1.5 V

Supply Current
Power Step 3

CC,3

= + 3 dBm

CTR

= 1.5 V

Power Added Efficiency
Power Step 3

PAE

= + 3 dBm

CTR

= 1.5 V

Output Power
Power Step 4

OUT,4

22.0 22.5 dBm

= + 3 dBm

CTR

= 2.5 V

Supply Current
Power Step 4

CC,4

130

170

= + 3 dBm

CTR

= 2.5 V

Power Added Efficiency
Power Step 4

PAE

40 50 - %

= + 3 dBm

CTR

= 2.5 V

Harm. Suppression

Power Step 4

-10

dBc

= + 3 dBm

CTR

= 2.5 V

Turn-Off Current

CC,OFF

0.5

uA V

= n/c

CTR

< -2.0 V

No RF Input

Off-State Isolation

21,0

= + 3 dBm

CTR

= 0 V

Stable Load VSWR
(no oscillation for any phase
of load)

VSWR

= + 3 dBm

= 3.2 V

CTR

= 2.5 V

= 50 Ohms

Maximum Load VSWR
(no damage to device)
allowed for 10s
RF must not be applied
before DC is turned on !

VSWR

= + 5 dBm

= 4.8 V

CTR

= 2.5 V

= 50 Ohms

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3/14

Rev. A; November 14th, 2005.

CGB241

Data Sheet

2-Stage Bluetooth & WLAN InGaP HBT Power Amplifier

Typical Device Performance

PAE versus Vcc

Pout versus Vcc

Vcntrl: 2.5V; Pin: +3 dBm @ 2.45 GHz

Vcntrl: 2.5V; Pin: +3 dBm @ 2.45

GHz

2.5

3.5

4.5

Vcc (V)

PAE (%)

2.5

3.5

4.5

Vcc (V)

Pout (dBm)

Supply Current

(

CTR

) Output

Power

OUT

(

CTR

)

Icc vs Vctrl

Pin: 2.45GHz / +3dBm

100

120

140

160

180

1.5

2.5

Vctrl (V)

Icc (mA)

Vcc :2.8V

Vcc :3.2V

Pout vs Vctrl

Pin: 2.45 GHz / +3dBm

1.5

2.5

Vctrl(V)

Pout (dBm

)

Vcc :2.8V

Vcc :3.2V

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Rev. A; November 14th, 2005.

CGB241

Data Sheet

2-Stage Bluetooth & WLAN InGaP HBT Power Amplifier

Output Power Compression

OUT

(

)

Pout vs Pin

Vctrl:2.5V, f(IN) :2.45GHz

5.0

10.0

15.0

20.0

25.0

-20

-15

-10

-5

Pin (dBm)

Pout (dBm)

Vcc :3.2V

Vcc :2.8V

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5/14

Rev. A; November 14th, 2005.

CGB241

Data Sheet

2-Stage Bluetooth & WLAN InGaP HBT Power Amplifier

Pinning

Figure 1

CGB241 Outline: SLIM-7 Package

Pad Symbol Function

1 V

Supply voltage of 1

stage / interstage match

2 RF

RF input

3 NC

No connection; It is recommended to ground this pad as short as possi-
ble e.g. by a via under the pad.

4 V

CTR1

Control voltage 1

stage

5 V

CTR2

Control voltage 2

stage

6 V

Supply voltage of 2

stage / RF output

GND

RF and DC ground (pad located on backside of package)
Heatsink. Thermal resistance between junction pad 7:

THCH

= 100

K/W.

Functional Diagram

(2)

RFin

(1)

Vc1

(6) Vc2

(7) Gnd

(4)

Vctr1

(5)

Vctr2

Figure 2

CGB241 Functional Diagram

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Rev. A; November 14th, 2005.

CGB241

Data Sheet

2-Stage Bluetooth & WLAN InGaP HBT Power Amplifier

Application Note 1: CGB241 Reference Design

RF In

RF Out

Vcc

TRL1

TRL2

CGB241

TRL3

Vctr

Figure 3

Schematic of CGB241 reference design.

Part Type

Value Outline Source

Part

No.

Cer. Capacitor

22 pF

0402

Murata COG

Cer. Capacitor

22 pF

0402

Murata COG

)

Cer. Capacitor

1.5 pF

0603

AVX ACCU-P

06035J1R5BBT

Cer. Capacitor

2.2 pF

0402

Murata COG

Cer. Capacitor

10 pF

0402

Murata COG

Cer. Capacitor

1 µF

0603

Murata X7R

Cer. Capacitor

1 nF

0402

Murata X7R

L1 Inductor

nH 0603 Toko

LL1608FS

R1 Resistor

R 0402 Mira

TRL1 Microstrip

Line FR4 substrate;

= 0,2 mm;

= 0,32 mm

TRL2 Microstrip

Line FR4 substrate;

= 0,2 mm;

= 0,32 mm

TRL3 Microstrip

Line FR4 substrate;

= 0,2 mm;

= 0,32 mm

) Cost optimization might take place by using lower-Q AVX-CU capacitors instead of the AccuP ver-

sion. This will lead to better

performance, however resulting in a loss of about 2% PAE. Line length

is the total distance from the corner of tuning capacitor to the corner of MMIC's package. Length of

bend structures measured in the middle of the corresponding conductor.

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7/14

Rev. A; November 14th, 2005.

CGB241

Data Sheet

2-Stage Bluetooth & WLAN InGaP HBT Power Amplifier

TriQuint Semiconductor, Inc.

L
1

,,White Dots" =

Ground Vias

CGB

241

RF Out

(SMA)

RF In

(SMA)

Figure 4

Layout of CGB241 reference design.

Notes:

Vc1 and Vc2 are connected together on the PCB.

Vctr1 and Vctr2 are connected together on the PCB.

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8/14

Rev. A; November 14th, 2005.

CGB241

Data Sheet

2-Stage Bluetooth & WLAN InGaP HBT Power Amplifier

Tape and Reel Information:

PART

FEATURE

SYMBOL SIZE (in) SIZE (mm)

LENGTH A0

0.062

1.57

WIDTH B0

0.087

2.21

DEPTH K0

0.023

0.59

CAVITY

PITCH P1

0.157

4.00

CAVITY TO PERFORATION
LENGTH DIRECTION

P2 0.079

2.00

DISTANCE
BETWEEN
CENTERLINE

CAVITY TO PERFORATION
WIDTH DIRECTION

F 0.138

3.50

COVER TAPE

WIDTH

0.213

5.40

CARRIER TAPE WIDTH

0.315

8.00

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11/14

Rev. A; November 14th, 2005.

CGB241

Data Sheet

2-Stage Bluetooth & WLAN InGaP HBT Power Amplifier

Ordering Information:

Type Marking

Package

CGB241 XXXX

SLIM-7

ESD: Electrostatic discharge sensitive device
Observe handling precautions!

Moisture: The CGB241 is rated Moisture Sensitivity Level 1 at 260ºC per JEDEC
Standard IPC/JEDEC J-STD-020.

RoHS: The CGB241 is compliant with RoHS Directive (Restrictions on the use of
certain Hazardous Substances in Electrical and Electronic Equipment).

Additional Information

For latest specifications, additional product information, worldwide sales and distribution locations, and information about
TriQuint:

Web: www.triquint.com

Tel: (503) 615-9000

Email:

info_wireless@tqs.com

Fax: (503) 615-8902

For technical questions and additional information on specific applications:

Email:

info_wireless@tqs.com

The information provided herein is believed to be reliable; TriQuint assumes no liability for inaccuracies or omissions. TriQuint assumes no responsibility for
the use of this information, and all such information shall be entirely at the user's own risk. Prices and specifications are subject to change without notice. No
patent rights or licenses to any of the circuits described herein are implied or granted to any third party.
TriQuint does not authorize or warrant any TriQuint product for use in life-support devices and/or systems.
Copyright © 2003 TriQuint Semiconductor, Inc. All rights reserved.
Revision 1.4- ,December 12th, 2003

For additional information and latest specifications, see our website: www.triquint.com

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Rev. A; November 14th, 2005.

ÐÐ»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: CGB241

Document Outline

Ð­Ð»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: CGB241

Document Outline

ÐÐ»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: CGB241