MRF5003 Freescale Semiconductor, Inc, MRF5003 Datasheet

MRF5003

Manufacturer Part Number

MRF5003

Description

Manufacturer

Freescale Semiconductor, Inc

Datasheet

1.MRF5003.pdf (10 pages)

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MOTOROLA

SEMICONDUCTOR TECHNICAL DATA

The RF MOSFET Line

RF Power Field Effect Transistor

N–Channel Enhancement–Mode

applications at frequencies to 520 MHz. The high gain and broadband

performance of this device makes it ideal for large–signal, common source

amplifier applications in 7.5 Volt and 12.5 Volt mobile, portable, and base

station FM equipment.

REV 6

MAXIMUM RATINGS

THERMAL CHARACTERISTICS

MOTOROLA RF DEVICE DATA

Drain–Source Voltage

Drain–Gate Voltage (R GS = 1.0 Meg Ohm)

Gate–Source Voltage

Drain Current — Continuous

Total Device Dissipation @ T C = 25 C

Storage Temperature Range

Operating Junction Temperature

Thermal Resistance, Junction to Case

The MRF5003 is designed for broadband commercial and industrial

Motorola, Inc. 1994

Guaranteed Performance at 512 MHz, 7.5 Volts

Characterized with Series Equivalent Large–Signal Impedance Parameters

S–Parameter Characterization at High Bias Levels

Excellent Thermal Stability

All Gold Metal for Ultra Reliability

Capable of Handling 20:1 VSWR, @ 15.5 Vdc, 512 MHz, 2.0 dB Overdrive

Suitable for 12.5 Volt Applications

True Surface Mount Package

Available in Tape and Reel by Adding R1 Suffix to Part Number.

R1 Suffix = 500 Units per 16 mm, 7 inch Reel.

Circuit board photomaster available upon request by contacting

RF Tactical Marketing in Phoenix, AZ.

Derate above 25 C

NOTE – CAUTION – MOS devices are susceptible to damage from electrostatic charge. Reasonable precautions in handling and

packaging MOS devices should be observed.

Output Power = 3.0 Watts

Power Gain = 9.5 dB

Efficiency = 45%

Characteristic

Rating

Symbol

V DGR

V DSS

R JC

V GS

T stg

P D

I D

T J

CASE 430–01, STYLE 2

MRF5003

3.0 W, 7.5 V, 512 MHz

– 65 to +150

RF POWER FET

BROADBAND

N–CHANNEL

Value

12.5

0.07

Max

200

1.7

Order this document

by MRF5003/D

MRF5003

Watts

W/ C

Unit

Vdc

Adc

C/W

Related parts for MRF5003

MRF5003 Summary of contents

Page 1

... The RF MOSFET Line RF Power Field Effect Transistor N–Channel Enhancement–Mode The MRF5003 is designed for broadband commercial and industrial applications at frequencies to 520 MHz. The high gain and broadband performance of this device makes it ideal for large–signal, common source amplifier applications in 7.5 Volt and 12.5 Volt mobile, portable, and base station FM equipment ...

Page 2

... DS = 12.5 Vdc 1.0 MHz) Reverse Transfer Capacitance ( 12.5 Vdc 1.0 MHz) FUNCTIONAL TESTS (In Motorola Test Fixture) Common–Source Amplifier Power Gain ( 7.5 Vdc, P out = 3 mA) Drain Efficiency ( 7.5 Vdc, P out = 3 mA) MRF5003 2 Symbol Min V (BR)DSS 36 I DSS — I GSS — ...

Page 3

... MHz 7 400 500 0 100 Figure 3. Output Power versus Input Power V DD C15 RF OUTPUT Z9 Z10 Z11 Z12 400 MHz 470 MHz 520 MHz 12 200 300 400 500 INPUT POWER (MILLIWATTS) MRF5003 3 ...

Page 4

... Figure 6. Output Power versus Supply Voltage 1000 800 600 400 200 GATE–SOURCE VOLTAGE (VOLTS) Figure 8. Drain Current versus Gate Voltage (Typical Device Shown) MRF5003 4 TYPICAL CHARACTERISTICS 300 470 MHz 200 mW 6 100 ...

Page 5

... Conjugate of the load impedance at given output Ω 100 Safe Operating Area 7 mA, P out = 3 Ohms Ohms 2.8 – j9.2 3.6 – j1.7 2.7 – j8.5 3.3 – j1.5 2.5 – j7.8 2.7 – j1.1 2.0 – j7.2 2.5 – j0.8 1.3 – j6.5 2.4 – j0.5 power, voltage, frequency, and η D > 50%. MRF5003 5 ...

Page 6

... MHz | 0.80 – 125 100 0.76 – 150 200 0.76 – 164 300 0.77 – 169 400 0.79 – 172 500 0.80 – 174 700 0.83 – 178 850 0.85 – 179 1000 0.87 – 177 MRF5003 φ 10.8 117 0.07 6.0 96 0.08 3.0 75 0.08 1.9 61 0.07 1.3 50 0.06 0.99 41 0.05 0.61 28 0.03 0.45 21 0.02 ...

Page 7

... Input/Output Connectors — SMA OUTPUT Z10 Z11 Z12 Z13 0.1 µF, 100 mil Chip 160 pF, 100 mil Chip 43 Ω, 0.1 W Chip Resistor 1000 Ω, 0.1 W Chip Resistor 10 kΩ Potentiometer 3000 Ω, 0.1 W Chip Resistor 5 Turns, 0.126 ID, #20 AWG Enamel See Photomaster 1N4734 Motorola Zener MRF5003 7 ...

Page 8

... INPUT POWER (MILLIWATTS) Figure 14. Output Power versus Input Power Figure 16. Output Power versus Gate Voltage MRF5003 400 MHz 470 MHz 7 1000 1200 400 410 420 Figure 15 ...

Page 9

... See Figure 8 for a typical plot of drain current ver- sus gate voltage. RF power FETs operate optimally with a quiescent drain current ( whose value is application de- pendent. The MRF5003 was characterized mA, which is the suggested value of bias current for typical ap- plications. For special applications such as linear amplifica- tion may have to be selected to optimize the critical parameters ...

Page 10

... AMPLIFIER DESIGN Impedance matching networks similar to those used with bipolar transistors are suitable for the MRF5003. For exam- ples see Motorola Application Note AN721, “Impedance Matching Networks Applied to RF Power Transistors”. Both small–signal S–parameters and large–signal impedances are provided. While the S–parameters will not produce an exact design solution for high power operation, they do yield a good first approximation ...

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