Datasheet RF2047, RF2047PCBA Datasheet (RF Micro Devices)

Preliminary

RF2047

4

Typical Applications

• Broadband, Low Noise Gain Blocks

• IF or RF Buffer Amplifiers

• Driver Stage for Power Amplifiers

Product Description

The RF2047 is a general purpose, low cost RF amplifier
IC. The device is manufactured on an advanced Gallium
Arsenide Heterojunction Bipolar Transistor (HBT) pro­cess, and has been designed for use as an easily-cas­cadable 50Ω gain block. Applications include IF and RF
amplification in wireless voice and data communication
products operating in frequency bands up to 6000MHz.
The device is self-contained with 50Ω input and output
impedances and requires only two external DC biasing
elements to operate as specified. With a goal of
enhanced reliability, the extremely small Micro-X ceramic
package offers significantly lower thermal resistance than
similar size plastic packages.

GENERAL PURPOSE AMPLIFIER

• Final PA for Low Power Applications

• High Reliability Applications

• Broadband Test Equipment

45°

+1°

0.070
sq.

NOTES:

1. Shadedlead is pin 1.

2. Darkened areas are metallization.

0.055

+ 0.005

0.020

+ 0.002

0.200 sq.
Typ

0.040

+ 0.002

4

AMPLIFIERS

GENERAL PURPOSE

Optimum Technology Matching® Applied

Si BJT GaAs MESFETGaAs HBT
Si Bi-CMOS

ü

SiGe HBT

GND

4

13

2

GND

Functional Block Diagram

Si CMOS

MARKING - C7

RF OUTRF OUTRF IN

Package Style: Micro-X Cer a m ic

Features

• DC to 6000MHz Operation

• Internally matched Input and Output

• 16dB Small Signal Gain

• +26dBm Output IP3

• +12dBm Output Power

• Excellent Gain Flatness

Ordering Information

RF2047 General Purpose Amplifier
RF2047 PCBA Fully Assembled EvaluationBoard

RF Micro Devices, Inc.
7625 Thorndike Road
Greensboro,NC 27409, USA

Tel (336) 664 1233

Fax (336) 664 0454

http://www.rfmd.com

Rev A4 010110

4-25

4

RF2047

Preliminary

Absolute Maximum Ratings

Parameter Rating Unit

SupplyCurrent 75 mA
Input RF Power +15 dBm
Operating Ambient Temperature -40 to +85 ° C
Storage Temperature -60 to +150 °C

Parameter

Min. Typ. Max.

Specification

RF Micro Devices believes the furnishedinformation is correct and accurate
at the time of this printing. However, RF Micro Devices reservesthe right to
make changes to its products without notice. RF Micro Devices does not
assume responsibility for the use of the described product(s).

Unit Condition

Overall

Frequency Range DC to 6000 MHz
3dB Bandwidth >6 GHz
Gain 16.3 dB Freq=100MHz

16.0 dB Freq=1000MHz

14.0 15.3 dB Freq=2000MHz

15.0 dB Freq=3000MHz

14.8 dB Freq=4000MHz

AMPLIFIERS

Gain Flatness ±0.5 dB 100MHz to 2000MHz

GENERAL PURPOSE

Noise Figure 4.2 dB Freq=2000MHz
Input VSWR 1.8:1 In a 50Ω system, DC to 3000MHz

Output VSWR 1.7:1 In a 50 Ω system, DC to 3000MHz

Output IP
Output P
Reverse Isolation 19.4 dB Freq=2000MHz

3

1dB

14.0 dB Freq=6000MHz

1.6:1 In a 50Ω system, 3000MHz to 6000MHz

2.2:1 In a 50Ω system, 3000MHz to 6000MHz
+26 dBm Freq=2000MHz±50kHz, P

+11.9 dBm Freq=2000MHz

Thermal

Theta

JC

Maximum junction temperature 112 °C
Mean Time Between Failures

Mean Time Between Failures
Mean Time Between Failures

196 °C/W

4

1.5x10

6

9.3x10

11

2.9x10

years T
years T
years T

Power Supply

Device Operating Voltage 3.0 3.6 4.0 V At pin 3 with I
Operating Current 40 mA

Caution! ESD sensitive device.

T=25°C, VD=3.6V,ICC=40mA

TONE

ICC=40mA,P

=+85°C

AMB

=+25°C

AMB

=-40°C

AMB

With 22Ω bias resistor

DISS

CC

=135mW

=40mA

=-10dBm

4-26

Rev A4 010110

Preliminary

R

RF2047

Pin Function Description Interface Schematic

1RFIN

2GND
3RFOUT

4GND

RF input pin. This pin is NOT internally DC blocked. A DC blocking
capacitor, suitable for the frequency of operation, should be used in
most applications. DC coupling of the input is not allowed,because this
will override the internal feedback loop and cause temperature instabil­ity.

Ground connection. Keep traces physically short and connect immedi­ately to ground plane for best performance.

RF output and bias pin. Biasing is accomplished with an external series
resistor and choke inductor to V

DC current into this pin to a desired level. The resistor value is deter­mined by the following equation:

------------------------------------------------------ -

R

=

Care shouldalso be taken in the resistor selection to ensure that the
current into the part never exceeds 75 mA over the planned oper­ating temperature.T his means that a resistor between the supply and

this pin is always required, even if a supply near 3.6V is available, to
provide DC feedback to prevent thermal runaway. Because DC is
present on this pin, a DC blocking capacitor, suitable for the frequency
of operation, should be used in most applications. The supply side of
the bias network should also be well bypassed.

Same as pin 2.

. The resistor is selected to set the

CC

V

SUPPLYVDEVICE

–()

I

CC

RF IN

RF OUT

4

AMPLIFIERS

GENERAL PURPOSE

RF IN

Application Schemati c

10 nF 22 pF

4

22 pF

13

2

V

CC

47 nH

R

BIAS

FOUT

22 pF

Rev A4 010110

4-27

RF2047

P1-1

NC

P1

Preliminary

Evaluation Board Schema t ic

(Download Bill of Materials from www.rfmd.com.)

1

VCC

2

GND

3

Drawing 204X400-

4

VCC

R1

Ω

22

C3

100 pFC41

P1-1

µ

F

4

C1

RF IN

AMPLIFIERS

GENERAL PURPOSE

50Ωµstrip 50Ωµstrip

J1

100 pF

13

2

L1

100 nH

C2

100 pF

RF OUT

J2

Evaluation Board Layout

Board Size 1.195" x 1.000"

4-28

Rev A4 010110

Preliminary

RF2047

Gain versus Frequency AcrossTemperature

I

=40mA

17.00

16.00

15.00

Gain (dB)

14.00

13.00

12.00

0.10 0.69 1.28 1.87 2.46 3.05 3.64 4.23 4.82 5.41 6.00

CC

Frequency(GHz)

OutputIP3 versus Frequency Across Temperature

I

=40mA

28.00

27.00

26.00

CC

-40 C
26 C
85 C

-40 C
26 C
85 C

Output P1dBversus Frequency Across Temperature

I

=40mA

16.00

15.00

14.00

13.00

Output P1dB (dBm)

12.00

11.00

10.00

-40 C
26 C
85 C

0.10 0.69 1.28 1.87 2.46 3.05 3.64 4.23 4.82 5.41 6.00

CC

Frequency(GHz)

Noise Figure versus Frequency Across Temperature

I

=40mA

10.00

9.00

8.00

7.00

-40 C
26 C
85 C

CC

4

AMPLIFIERS

GENERAL PURPOSE

25.00

24.00

3rd Order Intercept Power (dBm)

23.00

22.00

0.10 0.69 1.28 1.87 2.46 3.05 3.64 4.23 4.82 5.41 6.00

Frequency(GHz)

Input VSWR versus Frequency Across Temperature

I

=40mA

2.00

1.50

VSWR

-40 C
26 C
85 C

CC

6.00

5.00

Noise Figure (dB)

4.00

3.00

2.00

0.10 0.69 1.28 1.87 2.46 3.05 3.64 4.23 4.82 5.41 6.00

Frequency(GHz)

OutputVSWR versus Frequency Across Temperature

I

=40mA

2.00

1.50

VSWR

-40 C
26 C
85 C

CC

1.00

0.10 0.69 1.28 1.87 2.46 3.05 3.64 4.23 4.82 5.41 6.00

Rev A4 010110

Frequency(GHz)

1.00

0.10 0.69 1.28 1.87 2.46 3.05 3.64 4.23 4.82 5.41 6.00

Frequency(GHz)

4-29

RF2047

Preliminary

4

Reverse Isolation versus Frequency Across

20.00

19.00

18.00

17.00

Reverse Isolation (dB)

16.00

15.00

0.10 0.69 1.28 1.87 2.46 3.05 3.64 4.23 4.82 5.41 6.00

Temperature, I

Frequency(GHz)

=40mA

CC

-40 C
26 C
85 C

AMPLIFIERS

GENERAL PURPOSE

4-30

Rev A4 010110