Freescale MRF9135LR3, MRF9135LSR3 Technical Data

C

O

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Freescale Semiconductor

Technical Data

RF Power Field Effect Transistors

N-Channel Enhancement-Mode Lateral MOSFETs

Document Number: MRF9135L

Rev. 8, 5/2006

Designed for broadband commercial and industrial applications with
frequencies from 865 to 895 MHz. The high gain and broadband performance
of these devices make them ideal for large -signal, common - source amplifier
applications in 26 volt base station equipment.

• Typical N- CDMA Performance @ 880 MHz, 26 Volts, I

IS- 95 CDMA Pilot, Sync, Paging, Traffic Codes 8 Through 13

Output Power — 25 Watts Avg.
Power Gain — 17.8 dB
Efficiency — 25%
Adjacent Channel Power —

750 kHz: - 47 dBc @ 30 kHz BW

• Capable of Handling 10:1 VSWR, @ 26 Vdc, 880 MHz, 135 Watts CW

Output Power

N

Features

• Internally Matched for Ease of Use

• High Gain, High Efficiency and High Linearity

• Integrated ESD Protection

• Designed for Maximum Gain and Insertion Phase Flatness

• Excellent Thermal Stability

• Characterized with Series Equivalent Large- Signal Impedance Parameters

• Low Gold Plating Thickness on Leads, 40µ″ Nominal.

RMATI

• RoHS Compliant

• In Tape and Reel. R3 Suffix = 250 Units per 32 mm, 13 inch Reel.

= 1100 mA

DQ

MRF9135LR3

MRF9135LSR3

880 MHz, 135 W, 26 V

LATERAL N- CHANNEL

RF POWER MOSFETs

CASE 465-06, STYLE 1

NI-780

MRF9135LR3

CASE 465A- 06, STYLE 1

NI-780S

MRF9135LSR3

Table 1. Maximum Ratings

Rating Symbol Value Unit

Drain-Source Voltage V

Gate-Source Voltage V

HIVE INF

Total Device Dissipation @ TC = 25°C

Derate above 25°C

Storage Temperature Range T

Case Operating Temperature T

Operating Junction Temperature T

AR

Table 2. Thermal Characteristics

Characteristic Symbol Value

Thermal Resistance, Junction to Case R

Table 3. ESD Protection Characteristics

Test Conditions Class

Human Body Model 1 (Minimum)

Machine Model M2 (Minimum)

Charge Device Model C7 (Minimum)

1. MTTF calculator available at http://www.freescale.com/rf. Select Tools/Software/Application Software/Calculators to
access the MTTF calculators by product.

DSS

GS

P

stg

θ

D

C

J

JC

- 0.5, +65 Vdc

- 0.5, +15 Vdc

- 65 to +200 °C

298

1.7

150 °C

200 °C

(1)

0.6 °C/W

W

W/°C

Unit

ARCHIVE INFORMATION

 Freescale Semiconductor, Inc., 2006, 2008. All rights reserved.

RF Device Data
Freescale Semiconductor

MRF9135LR3 MRF9135LSR3

1

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Table 4. Electrical Characteristics

Characteristic

Off Characteristics

Zero Gate Voltage Drain Leakage Current

(V

= 65 Vdc, VGS = 0 Vdc)

DS

Zero Gate Voltage Drain Leakage Current

= 26 Vdc, VGS = 0 Vdc)

(V

DS

Gate-Source Leakage Current

(V

= 5 Vdc, VDS = 0 Vdc)

GS

On Characteristics

Gate Threshold Voltage

(V

= 10 Vdc, ID = 450 µA)

DS

Gate Quiescent Voltage

(V

= 26 Vdc, ID = 1100 mAdc)

DS

Drain-Source On - Voltage

N

(V

= 10 Vdc, ID = 3 Adc)

GS

Forward Transconductance

(V

= 10 Vdc, ID = 9 Adc)

DS

Dynamic Characteristics

Output Capacitance

(V

= 26 Vdc ± 30 mV(rms)ac @ 1 MHz, VGS = 0 Vdc)

DS

Reverse Transfer Capacitance

(V

= 26 Vdc ± 30 mV(rms)ac @ 1 MHz, VGS = 0 Vdc)

RMATI

HIVE INF

AR

DS

Functional Tests (In Freescale Test Fixture, 50 ohm system) Single - Carrier N- CDMA, 1.2288 MHz Channel Bandwidth Carrier,
PAR = 9.8 dB @ 0.01% Probability on CCDF

Common-Source Amplifier Power Gain

(V

= 26 Vdc, P

DD

f = 880.0 MHz)

Drain Efficiency

(V

= 26 Vdc, P

DD

f = 880.0 MHz)

Adjacent Channel Power Ratio

(V

= 26 Vdc, P

DD

f = 880.0 MHz; ACPR @ 25 W, 1.23 MHz Bandwidth, 750 kHz
Channel Spacing)

Input Return Loss

(V

= 26 Vdc, P

DD

f = 880.0 MHz)

Common-Source Amplifier Power Gain

(V

= 26 Vdc, P

DD

f = 865 MHz and 895 MHz)

Drain Efficiency

(V

= 26 Vdc, P

DD

f = 865 MHz and 895 MHz)

Adjacent Channel Power Ratio

(V

= 26 Vdc, P

DD

f = 865 MHz and 895 MHz; ACPR @ 25 W, 1.23 MHz Bandwidth, 750
kHz Channel Spacing)

Input Return Loss

(V

= 26 Vdc, P

DD

f = 865 MHz and 895 MHz)

= 25 W Avg. N-CDMA, IDQ = 1100 mA,

out

= 25 W Avg. N-CDMA, IDQ = 1100 mA,

out

= 25 W Avg. N-CDMA, IDQ = 1100 mA,

out

= 25 W Avg. N-CDMA, IDQ = 1100 mA,

out

= 25 W Avg. N-CDMA, IDQ = 1100 mA,

out

= 25 W Avg. N-CDMA, IDQ = 1100 mA,

out

= 25 W Avg. N-CDMA, IDQ = 1100 mA,

out

= 25 W Avg. N-CDMA, IDQ = 1100 mA,

out

(TC = 25°C, 50 ohm system unless otherwise noted)

Symbol Min Typ Max Unit

I

DSS

I

DSS

I

GSS

V

GS(th)

V

GS(Q)

V

DS(on)

g

fs

C

oss

C

rss

G

ps

η 22 25 — %

ACPR — -47 -45 dBc

IRL — - 13.5 -9 dB

G

ps

η — 24 — %

ACPR — -46 — dBc

IRL — - 12.5 — dB

— — 10 µAdc

— — 1 µAdc

— — 1 µAdc

2 2.8 4 Vdc

3.25 3.7 5 Vdc

— 0.19 0.4 Vdc

— 12 — S

— 109 — pF

— 4.4 — pF

16 17.8 — dB

— 17 — dB

ARCHIVE INFORMATION

MRF9135LR3 MRF9135LSR3

2

RF Device Data

Freescale Semiconductor

C

O

O

V

GG

+

C9 C8 C7

B2

B1

V

+++

L1

C18 C20 C21

C19

C22L2

+

C23

DD

C11

DUT

C10

Z12

Z11Z10

C13

C12

Z11 0.105″ x 0.630″ Microstrip
Z12 0.145″ x 0.630″ Microstrip
Z13 0.200″ x 0.630″ x 0.220″ Taper
Z14 0.180″ x 0.220″ Microstrip
Z15 0.110″ x 0.220″ Microstrip
Z16 0.200″ x 0.220″ Microstrip
Z17 0.900″ x 0.080″ Microstrip
Z18 0.360″ x 0.080″ Microstrip
Z19 0.410″ x 0.080″ Microstrip
PCB Arlon GX- 0300 - 55 - 22, 0.030″

Z15

C14

Z16Z13 Z14 Z17 Z18 Z19

C17

C16C15

, εr = 2.55

INPUT

N

RF

Z1

Z2

C1

Z4

Z3 Z8 Z9

C2

Z1 0.430″ x 0.080″ Microstrip
Z2 0.430″ x 0.080″ Microstrip
Z3 0.800″ x 0.080″ Microstrip
Z4 0.200″ x 0.220″ Microstrip
Z5 0.110″ x 0.220″ Microstrip
Z6 0.175″ x 0.220″ Microstrip
Z7 0.200″ x 0.220″ x 0.630″ Taper
Z8 0.250″ x 0.630″ Microstrip
Z9 0.050″ x 0.630″ Microstrip
Z10 0.050″ x 0.630″ Microstrip

Z5 Z6 Z7

C3

C4

C5

C6

Figure 1. 880 MHz Test Circuit Schematic

RMATI

Table 5. 880 MHz Test Circuit Component Designations and Values

Part Description Part Number Manufacturer

B1, B2 Ferrite Beads, Short 2743019447 Fair Rite

C1, C7, C17, C18 47 pF Chip Capacitors 100B470JP 500X ATC

C2, C16 0.6-4.5 Variable Capacitors, Gigatrim 27271SL Johanson

C3 8.2 pF Chip Capacitor 100B8R2BP 500X AT C

C4, C15 0.8-8.0 Variable Capacitors, Gigatrim 27291SL Johanson

C5, C6 12 pF Chip Capacitors 100B120JP 500X ATC

C8 20K pF Chip Capacitor 200B203MP50X ATC

C9, C20, C21, C22 10 µF, 35 V Tantalum Capacitors T491D106K035AS Kemet

HIVE INF

C10, C11, C12, C13 7.5 pF Chip Capacitors 100B7R5JP 500X AT C

C14 11 pF Chip Capacitor 100B110JP 500X AT C

C19 0.56 µF, 50 V Chip Capacitor C1825C564K5RA7800 Kemet

C23 470 µF, 63 V Electrolytic Capacitor SME63VB471M12X25LL United Chemi- Con

L1, L2 12.5 nH Coilcraft inductors A04T-5 Coilcraft

AR

WB1, WB2 10 mil Brass Shim (0.205 x 0.530) RF- Design Lab RF- Design Lab

RF

OUTPUT

ARCHIVE INFORMATION

RF Device Data
Freescale Semiconductor

MRF9135LR3 MRF9135LSR3

3

C

O

O

C9 B1

B2

C23

C8

C20 C21 C22

C19

N

RMATI

C7

L1

C1

Freescale has begun the transition of marking Printed Circuit Boards (PCBs) with the Freescale Semiconductor
signature/logo. PCBs may have either Motorola or Freescale markings during the transition period. These changes will have
no impact on form, fit or function of the current product.

C2

C3

C4

Figure 2. 880 MHz Test Circuit Component Layout

C5

WB1 WB2

C6

C10

C12

CUT OUT AREA

C11

C13

C14

C18

L2

C15

C16

MRF9135L
900 MHz

Rev−02

C17

HIVE INF

AR

MRF9135LR3 MRF9135LSR3

4

ARCHIVE INFORMATION

RF Device Data

Freescale Semiconductor