Datasheet RF2629, RF2629PCBA Datasheet (RF Micro Devices)

ü

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10

IF AMPLIERS

Product Description

Ordering Information

Typical Applications

Features

Functional Block Diagram

RF Micro Devices, Inc.
7628 Thorndike Road
Greensboro,NC 27409, USA

Tel (336) 664 1233

Fax (336) 664 0454

http://www.rfmd.com

Optimum Technology Matching® Applied

Si BJT GaAs MESFETGaAs HBT
Si Bi-CMOS

SiGe HBT

Si CMOS

1

2

3

4

8

7

6

5

IN+

IN-

GND

GC

VCC1

VCC2

OUT+

OUT-

GAIN

CONTROL

NOTES:

1. Shaded lead is pin 1.

2. All dimensions are exclusive of
flash, protrusions or burrs.

3. Lead coplanarity: 0.002 with
respect to datum "A".

0.012

6° MAX

0° MIN

0.021

+0.004

0.006

+0.002

0.192

+ 0.008

0.0256

0.118

+0.004sq.

0.006

+0.003

0.034

-A-

RF2629

3V CDMA/FM TRANSMIT AGC AMPLIFIER

• 3V CDMA/FM Cellular Systems

• 3V CDMA PCS Systems

• 3V TDMA Cellular/PCS Systems

• Supports Dual-Mode AMPS/CDMA

• Supports Dual-Mode TACS/CDMA

• Portable Battery-Powered Equipment

The RF2629 is a complete AGC amplifier designed for
the transmit section of 3V dual-mode CDMA/FM cellular
and PCS applications. It is designed to amplify IF signals
while providing more than 84dB of gain control range.
Noise Figure, IP3, and other specifications are designed
for CDMA and dual mode CDMA/AMPS handsets. This
circuit is designed as part of the RFMD CDMA Chip Set,
consisting of this Transmit IF AGC Amp, a Transmit
Upconverter, a Receive LNA/Mixer, and a Receive IF
AGC Amp. The IC is manufactured on an advanced high
frequency Silicon Bipolar process and is packaged in a
standard miniature 8-lead plastic MSOP package.

• Supports Dual Mode Operation

• Supports PCS and Cellular Applications

• -48dB to +38dB Gain Control Range

• Single 3V Power Supply

• 12MHz to 175MHz Operation

• Miniature Surface Mount Package

RF2629 3V CDMA/FM Transmit AGC Amplifier
RF2629 PCBA Fully Assembled Evaluation Board

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Package Style: MSOP-8

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IF AMPLIERS

Absolute M aximum Ratings

Parameter Rating Unit

Supply Voltage -0.5 to +7.0 V

DC

Control Voltage -0.5 to +5.0 V
Input Power Levels +10 dBm
Operating Ambient Temperature -40 to +85 °C
Storage Temperature -40 to +150 °C

Parameter

Specification

Unit Condition

Min. Typ. Max.

Overall

T=25°C,130MHz,VCC=3.0V, Pin=-40dBm,
Z

S

=1kΩ,ZL=1kΩ,1kΩ External Output Ter-

minating Resistor (Effective Z

L

=500Ω)(See

Application Example)
Frequency Range 12 to 175 MHz
Maximum Gain +35 +38 dB V

GC

=2.3V

Minimum Gain -48 -45 dB V

GC

=0.3V

Gain Slope 57 dB/V Measured in 0.5V increments
Gain Control Voltage Range 0 to 2.4 V

DC

Gain Control Input Impedance 30 kΩ
Noise Figure 10.5 13 dB At maximum gain and 130MHz
Input IP3 -26

-28

-25

-26

dBm
dBm

At +10dB gain and referenced to 1kΩ,

Pin=-45dBm pertone

At +35dB gain and referenced to 1kΩ,

Pin=-45dBm pertone
Input Impedance 1 kΩ Differential
Stability (Max VSWR) 10:1 Spurious< - 70dBm

Power Supply

Voltage 2.7 to 3.3 V
Current Consumption 23 25 mA Maximum gain, V

CC

=3.0V

Current Consumption 22 24 mA Minimum gain, V

CC

=3.0V

Caution! ESD sensitive device.

RF Micro Devices believes the furnished informationis correct and accurate
at the time of this printing. However, RFMicro Devices reserves the right to
make changes to its products without notice. RF Micro Devices does not
assume responsibility for theuse of the described product(s).

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RF2629

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IF AMPLIERS

Pin Function Description Interface Schematic

1IN+

Balanced input pin. This pin is internally DC-biased and should be DC
blocked if connected to a device with a DC level, other than V

CC

,

present. A DC to connection to V

CC

is ac ceptable. For single-ended

input operation, one pin is used as an input and the other input is AC­coupled to ground. The balanced input impedance is 1kΩ, while the
single-ended input impedance is 500Ω.

2IN-

Same as pin 2, except complementary input. See pin 1 schematic.

3GND

Ground connection. For best performance, keep traces physically short
and connect immediately to ground plane.

4GC

Analog gain adjustment for all amplifiers. Valid control ranges are from
0V to 3.0V. Maximum gain is selected with 3.0V. Minimum gain is
selectedwith 0V. These voltagesare valid only for a 3.3kΩ DC source
impedance.

5OUT-

Balanced output pin. This is an open-coll ector output, designed to
operate int o a 500Ω balanced load. The load sets the operating imped­ance, but an external choke or m atching inductor to V

CC

must also be

supplied in order to correctly bias this output. This bias inductor is typi­cally incorp o rated in the matchingnetworkb e tween the output and next
stage. Because this pin is biased to V

CC

, a DC-blocking capacitor must

be used if the next stage’s input has a DC path to ground.

6OUT+

Same as pin 5, except complementary output. See pin 5 schematic.

7VCC1

Supply voltage pin. External bypassing is required. The trace length
between the pin and the bypass capacitors should be minimized. The
ground side of the bypass capacitors should connect immediately to
ground plane. Pins 7 and 8 may share one bypass capacitor if trace
lengths are kept minimal.

8VCC2

Same as pin 7.

580

Ω

V

CC

580

Ω

CDMA-CDMA+

23.5 k

Ω

15 k

Ω

12.7 k

Ω

V

CC

OUT-OUT+

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IF AMPLIERS

Applicatio n Schematic

Evaluation Board Schema t ic

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

1

2

3

4

8

7

6

5

GAIN

CONTROL

10 nF

10 nF

IN+

IN-

Measurement

Reference Plane

Z

IN

=1 k

Ω

ZS=1 k

Ω

R2:

1k

Ω

C2

C2

L1C1

L1C1

V

CC

10 nF

V

CC

CDMA Filter

OUT+

OUT-

Z

OUT

=1 k

Ω

Z

LOAD

=1 k

Ω

Z

LOAD,EFF

=500

Ω

Measurement

Reference Plane

10 nF

3.3 k

Ω

GAIN

R2 sets the balanced output impedance to 1 k

Ω

. L1 and C2
serve dual purposes. L1 serves as an output bias choke, and C2
serves as a series DC block. In addition, the values of L1 and
C2 may be chosen to form an impedance matching network if
the load impedance is not 1 k

Ω

. Otherwise, the values of L1 and
C1 are chosen to form a parallel-resonant tank circuit at the IF
when the IF filter's input impedance is 1 k

Ω.

GAIN

CONTROL

C8

33 pF

L3

100nH

L4

100nH

C6

10 nF

C7

10 nF

R1

3.3 k

Ω

T1

C3

5pF

C1

10 nF

C4

5pF

C2

10 nF

L1

270 nH

L2

270 nH

1

2

3

4

8

7

6

5

T2

C5

1nF

50

Ω µ

strip

J2

SMA

OUT

50

Ω µ

strip

J1

SMA

CDMA

1
2
3

P1-1

P1-3

VCC
GND

P1

GC

GC

VCC

2629400, Rev A

VCC

C10

10 nF

R2

510

Ω

R3

510

Ω

1

1

C11

22 pF

C12

22 pF

C9

33 pF

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IF AMPLIERS

Evaluation Board Layout

Board Size 2.750" x 2.000"

Board Thickness 0.031”, FR-4

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IF AMPLIERS

Gain versus Gain Control Voltage

(VCC= 3.0 V, 130 MHz)

-60.0

-50.0

-40.0

-30.0

-20.0

-10.0

0.0

10.0

20.0

30.0

40.0

50.0

60.0

0.0 0.5 1.0 1.5 2.0 2.5

GC (Volts)

Gain (dB)

-30 C
+25 C
+85 C

IIP3 versus Gain

(VCC= 3.0 V, 130 MHz)

-50.0

-40.0

-30.0

-20.0

-10.0

0.0

10.0

-60.0 -40.0 -20.0 0.0 20.0 40.0 60.0

Gain (dB)

IIP3 (dB)

+25 C
+85 C

-30 C