MRF182 - Motorola / Freescale Semiconductor

MRF182MOTOROLA RF DEVICE DATA

The RF MOSFET Line

 

  

N–Channel Enhancement–Mode Lateral

MOSFETs

•High Gain, Rugged Device

•Broadband Performance from HF to 1 GHz

•Bottom Side Source Eliminates DC Isolators, Reducing Common

Mode Inductances

MAXIMUM RATINGS

Rating Symbol Value Unit

Drain–Source Voltage VDSS 65 Vdc

Gate–Source Voltage VGS ±20 Vdc

Total Device Dissipation @ TC = 70°C

Derate above 70°CPD74

0.57 W

W/°C

Storage Temperature Range Tstg – 65 to +150 °C

Operating Junction Temperature TJ200 °C

THERMAL CHARACTERISTICS

Characteristic Symbol Max Unit

Thermal Resistance, Junction to Case RθJC 1.75 °C/W

ELECTRICAL CHARACTERISTICS (TC = 25°C unless otherwise noted)

Characteristic Symbol Min Typ Max Unit

OFF CHARACTERISTICS

Drain–Source Breakdown Voltage

(VGS = 0, ID = 1.0

Adc) V(BR)DSS 65 – – Vdc

Zero Gate Voltage Drain Current

(VDS = 28 V, VGS = 0) IDSS ––1µAdc

Gate–Source Leakage Current

(VGS = 20 V, VDS = 0) IGSS ––1µAdc

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

packaging MOS devices should be observed.

Order this document

by MRF182/D



SEMICONDUCTOR TECHNICAL DATA





30 W, 1.0 GHz

LATERAL N–CHANNEL

BROADBAND

RF POWER MOSFETs

CASE 360B–01, STYLE 1

(MRF182)

CASE 360C–03, STYLE 1

(MRF182S)

 Motorola, Inc. 1997

REV 5

MRF182

2MOTOROLA RF DEVICE DATA

ELECTRICAL CHARACTERISTICS – continued (TC = 25°C unless otherwise noted)

Characteristic Symbol Min Typ Max Unit

ON CHARACTERISTICS

Gate Threshold Voltage

(VDS = 10 V, ID = 100 µA) VGS(th) 234Vdc

Gate Quiescent Voltage

(VDS = 28 V, ID = 50 mA) VGS(Q) 345Vdc

Drain–Source On–V oltage

(VGS = 10 V, ID = 3 A) VDS(on) –0.9 1.2 Vdc

Forward T ransconductance

(VDS = 10 V, ID = 3 A) gfs 1.6 1.8 – S

DYNAMIC CHARACTERISTICS

Input Capacitance

(VDS = 28 V, VGS = 0, f = 1 MHz) Ciss –56 – pF

Output Capacitance

(VDS = 28 V, VGS = 0, f = 1 MHz) Coss –28 – pF

Reverse T ransfer Capacitance

(VDS = 28 V, VGS = 0, f = 1 MHz) Crss –2.5 – pF

FUNCTIONAL CHARACTERISTICS

Common Source Power Gain

(VDD = 28 Vdc, Pout = 30 W, IDQ = 50 mA, f = 945 MHz) Gps 11 14 – dB

Drain Efficiency

(VDD = 28 Vdc, Pout = 30 W, IDQ = 50 mA, f = 945 MHz) η50 60 – %

Load Mismatch

(VDD = 28 Vdc, Pout = 30 W, IDQ = 50 mA, f = 945 MHz,

Load VSWR 5:1 at All Phase Angles) ΨNo Degradation in Output Power

Series Equivalent Input Impedance

(VDD = 28 Vdc, Pout = 30 W, IDQ = 50 mA, f = 960 MHz) Zin –0.81 + j1.6 – ohms

Series Equivalent Output Impedance

(VDD = 28 Vdc, Pout = 30 W, IDQ = 50 mA, f = 960 MHz) Zout –2.15 – j1.7 – ohms

MRF182MOTOROLA RF DEVICE DATA

Figure 1. MRF182 Schematic

B1 Short RF Bead Fair Rite–274301944

C1 18 pF Chip Capacitor

C2, C3, C6, C9 43 pF Chip Capacitor

C4 100 pF Chip Capacitor

C5, C12 10 µF, 50 Vdc Electrolytic Capacitor

C7, C10 1000 pF Chip Capacitor

C8, C11 0.1 µF, 50 Vdc Chip Capacitor

C13 250 µF, 50 Vdc Electrolytic Capacitor

C14 0.6–4.5 pF Variable Capacitor

C6 C7

C10

C11

L1 B1

DUT

C14

C13

C12

TL1 TL2 TL3 TL4

INPUT RF

OUTPUT

VGG VDD

L1 5 T urns, 20 AWG, IDIA 0.126

R1 10 kΩ, 1/4 W Resistor

R2 13 kΩ, 1/4 W Resistor

R3 1.0 kΩ, 1/4 W Chip Resistor

R4 4 x 39 Ω, 1/8 W Chip Resistor

″TL1–TL4 Microstrip Line See Photomaster

Ckt Board 1/32 ″ Glass Teflon, εr = 2.55

ARLON–GX–0300–55–22

MRF182

4MOTOROLA RF DEVICE DATA

TYPICAL CHARACTERISTICS

P , OUTPUT POWER (WATTS)

out

VDS, SUPPLY VOLT AGE (VOLTS)

Pout, OUTPUT POWER (W ATTS)

, DRAIN EFFICIENCY (%)

05 101520 30 40 14 18 22 2628

16 20 24

Gps, POWER GAIN (dB)

Pout, OUTPUT POWER (W ATTS)

Pin, INPUT POWER (WATTS)

Figure 2. Output Power versus

Input Power at 1 GHz

P , OUTPUT POWER (WATTS)

Figure 3. Power Gain versus

Output Power at 1 GHz

00.5 1 1.5 2 2.5 15 25 35 40

out

20 30

C, CAPACITANCE (pF)

VDS, DRAIN SOURCE VOLTAGE (VOLTS)

Pin, INPUT POWER (WATTS)

P , OUTPUT POWER (WATTS)

100

00.5 1 1.5 2 2.5 3 5 15 25 30

out

10 20

Figure 4. Drain Efficiency versus

Output Power at 1 GHz Figure 5. Output Power versus Supply Voltage

Figure 6. Output Power versus Input Power Figure 7. Capacitance versus Drain

Source Voltage

25 35

VDS = 28 Vdc

IDQ = 50 mA

f = 1 GHz

VDS = 28 Vdc

IDQ = 50 mA

f = 1 GHz

IDQ = 50 mA

VDS = 28 Vdc

IDQ = 50 mA

f = 1 GHz

VDS = 13.5 Vdc

IDQ = 50 mA

f = 1 GHz

Pin = 1.23 W

0.75 W

0.35 W

Ciss

Coss

Crss

MRF182MOTOROLA RF DEVICE DATA

Table 1. Typical Common Source S–Parameters (VDS = 13.5 V)

ID = 1.0 A

fS11 S21 S12 S22

MHz |S11|∠φ|S21|∠φ|S12|∠φ|S22|∠φ

ÁÁÁÁÁ

0.933

ÁÁÁÁ

–131

ÁÁÁÁÁ

40.81

ÁÁÁÁÁ

112

ÁÁÁÁ

0.021

ÁÁÁÁÁ

ÁÁÁÁ

0.664

ÁÁÁÁÁ

–138

ÁÁÁÁÁ

0.922

ÁÁÁÁ

–148

ÁÁÁÁÁ

29.31

ÁÁÁÁÁ

104

ÁÁÁÁ

0.022

ÁÁÁÁÁ

ÁÁÁÁ

0.700

ÁÁÁÁÁ

–151

ÁÁÁÁÁ

0.892

ÁÁÁÁ

–156

ÁÁÁÁÁ

22.19

ÁÁÁÁÁ

ÁÁÁÁ

0.022

ÁÁÁÁÁ

ÁÁÁÁ

0.718

ÁÁÁÁÁ

–158

ÁÁÁÁÁ

0.877

ÁÁÁÁ

–161

ÁÁÁÁÁ

17.91

ÁÁÁÁÁ

ÁÁÁÁ

0.023

ÁÁÁÁÁ

ÁÁÁÁ

0.725

ÁÁÁÁÁ

–162

ÁÁÁÁÁ

0.870

ÁÁÁÁ

–164

ÁÁÁÁÁ

14.67

ÁÁÁÁÁ

ÁÁÁÁ

0.023

ÁÁÁÁÁ

ÁÁÁÁ

0.732

ÁÁÁÁÁ

–164

ÁÁÁÁÁ

0.863

ÁÁÁÁ

–166

ÁÁÁÁÁ

12.57

ÁÁÁÁÁ

ÁÁÁÁ

0.022

ÁÁÁÁÁ

ÁÁÁÁ

0.735

ÁÁÁÁÁ

–166

ÁÁÁÁÁ

0.860

ÁÁÁÁ

–168

ÁÁÁÁÁ

11.00

ÁÁÁÁÁ

ÁÁÁÁ

0.022

ÁÁÁÁÁ

ÁÁÁÁ

0.738

ÁÁÁÁÁ

–168

ÁÁÁÁÁ

0.860

ÁÁÁÁ

–169

ÁÁÁÁÁ

9.79

ÁÁÁÁÁ

ÁÁÁÁ

0.022

ÁÁÁÁÁ

ÁÁÁÁ

0.740

ÁÁÁÁÁ

–169

ÁÁÁÁÁ

100

ÁÁÁÁÁ

0.859

ÁÁÁÁ

–170

ÁÁÁÁÁ

8.79

ÁÁÁÁÁ

ÁÁÁÁ

0.022

ÁÁÁÁÁ

–1

ÁÁÁÁ

0.741

ÁÁÁÁÁ

–169

ÁÁÁÁÁ

150

ÁÁÁÁÁ

0.859

ÁÁÁÁ

–173

ÁÁÁÁÁ

5.78

ÁÁÁÁÁ

ÁÁÁÁ

0.022

ÁÁÁÁÁ

–7

ÁÁÁÁ

0.750

ÁÁÁÁÁ

–172

ÁÁÁÁÁ

200

ÁÁÁÁÁ

0.862

ÁÁÁÁ

–175

ÁÁÁÁÁ

4.29

ÁÁÁÁÁ

ÁÁÁÁ

0.022

ÁÁÁÁÁ

–11

ÁÁÁÁ

0.759

ÁÁÁÁÁ

–172

ÁÁÁÁÁ

250

ÁÁÁÁÁ

0.868

ÁÁÁÁ

–176

ÁÁÁÁÁ

3.38

ÁÁÁÁÁ

ÁÁÁÁ

0.021

ÁÁÁÁÁ

–14

ÁÁÁÁ

0.770

ÁÁÁÁÁ

–173

ÁÁÁÁÁ

300

ÁÁÁÁÁ

0.880

ÁÁÁÁ

–177

ÁÁÁÁÁ

2.77

ÁÁÁÁÁ

ÁÁÁÁ

0.020

ÁÁÁÁÁ

–17

ÁÁÁÁ

0.780

ÁÁÁÁÁ

–173

ÁÁÁÁÁ

350

ÁÁÁÁÁ

0.877

ÁÁÁÁ

–177

ÁÁÁÁÁ

2.32

ÁÁÁÁÁ

ÁÁÁÁ

0.020

ÁÁÁÁÁ

–19

ÁÁÁÁ

0.793

ÁÁÁÁÁ

–173

ÁÁÁÁÁ

400

ÁÁÁÁÁ

0.882

ÁÁÁÁ

–178

ÁÁÁÁÁ

1.98

ÁÁÁÁÁ

ÁÁÁÁ

0.019

ÁÁÁÁÁ

–22

ÁÁÁÁ

0.808

ÁÁÁÁÁ

–173

ÁÁÁÁÁ

450

ÁÁÁÁÁ

0.892

ÁÁÁÁ

–179

ÁÁÁÁÁ

1.72

ÁÁÁÁÁ

ÁÁÁÁ

0.018

ÁÁÁÁÁ

–24

ÁÁÁÁ

0.816

ÁÁÁÁÁ

–173

ÁÁÁÁÁ

500

ÁÁÁÁÁ

0.899

ÁÁÁÁ

–180

ÁÁÁÁÁ

1.51

ÁÁÁÁÁ

ÁÁÁÁ

0.017

ÁÁÁÁÁ

–26

ÁÁÁÁ

0.828

ÁÁÁÁÁ

–174

ÁÁÁÁÁ

550

ÁÁÁÁÁ

0.898

ÁÁÁÁ

180

ÁÁÁÁÁ

1.33

ÁÁÁÁÁ

ÁÁÁÁ

0.017

ÁÁÁÁÁ

–27

ÁÁÁÁ

0.838

ÁÁÁÁÁ

–174

ÁÁÁÁÁ

600

ÁÁÁÁÁ

0.907

ÁÁÁÁ

179

ÁÁÁÁÁ

1.19

ÁÁÁÁÁ

ÁÁÁÁ

0.016

ÁÁÁÁÁ

–28

ÁÁÁÁ

0.849

ÁÁÁÁÁ

–175

ÁÁÁÁÁ

650

ÁÁÁÁÁ

0.914

ÁÁÁÁ

179

ÁÁÁÁÁ

1.07

ÁÁÁÁÁ

ÁÁÁÁ

0.015

ÁÁÁÁÁ

–28

ÁÁÁÁ

0.859

ÁÁÁÁÁ

–175

ÁÁÁÁÁ

700

ÁÁÁÁÁ

0.916

ÁÁÁÁ

177

ÁÁÁÁÁ

0.95

ÁÁÁÁÁ

ÁÁÁÁ

0.014

ÁÁÁÁÁ

–25

ÁÁÁÁ

0.867

ÁÁÁÁÁ

–176

ÁÁÁÁÁ

750

ÁÁÁÁÁ

0.920

ÁÁÁÁ

177

ÁÁÁÁÁ

0.88

ÁÁÁÁÁ

ÁÁÁÁ

0.015

ÁÁÁÁÁ

–26

ÁÁÁÁ

0.874

ÁÁÁÁÁ

–176

ÁÁÁÁÁ

800

ÁÁÁÁÁ

0.924

ÁÁÁÁ

176

ÁÁÁÁÁ

0.80

ÁÁÁÁÁ

ÁÁÁÁ

0.015

ÁÁÁÁÁ

–27

ÁÁÁÁ

0.884

ÁÁÁÁÁ

–177

ÁÁÁÁÁ

850

ÁÁÁÁÁ

0.929

ÁÁÁÁ

175

ÁÁÁÁÁ

0.74

ÁÁÁÁÁ

ÁÁÁÁ

0.015

ÁÁÁÁÁ

–33

ÁÁÁÁ

0.891

ÁÁÁÁÁ

–178

ÁÁÁÁÁ

900

ÁÁÁÁÁ

0.929

ÁÁÁÁ

174

ÁÁÁÁÁ

0.68

ÁÁÁÁÁ

ÁÁÁÁ

0.013

ÁÁÁÁÁ

–38

ÁÁÁÁ

0.897

ÁÁÁÁÁ

–178

ÁÁÁÁÁ

950

ÁÁÁÁÁ

0.933

ÁÁÁÁ

173

ÁÁÁÁÁ

0.63

ÁÁÁÁÁ

ÁÁÁÁ

0.011

ÁÁÁÁÁ

–39

ÁÁÁÁ

0.905

ÁÁÁÁÁ

–179

ÁÁÁÁÁ

1000

ÁÁÁÁÁ

0.934

ÁÁÁÁ

173

ÁÁÁÁÁ

0.58

ÁÁÁÁÁ

ÁÁÁÁ

0.010

ÁÁÁÁÁ

–37

ÁÁÁÁ

0.912

ÁÁÁÁÁ

–180

ÁÁÁÁÁ

1050

ÁÁÁÁÁ

0.930

ÁÁÁÁ

172

ÁÁÁÁÁ

0.54

ÁÁÁÁÁ

ÁÁÁÁ

0.009

ÁÁÁÁÁ

–33

ÁÁÁÁ

0.918

ÁÁÁÁÁ

180

ÁÁÁÁÁ

1100

ÁÁÁÁÁ

0.938

ÁÁÁÁ

171

ÁÁÁÁÁ

0.52

ÁÁÁÁÁ

ÁÁÁÁ

0.009

ÁÁÁÁÁ

–29

ÁÁÁÁ

0.924

ÁÁÁÁÁ

179

ÁÁÁÁÁ

1150

ÁÁÁÁÁ

0.933

ÁÁÁÁ

170

ÁÁÁÁÁ

0.48

ÁÁÁÁÁ

ÁÁÁÁ

0.008

ÁÁÁÁÁ

–28

ÁÁÁÁ

0.929

ÁÁÁÁÁ

178

ÁÁÁÁÁ

1200

ÁÁÁÁÁ

0.930

ÁÁÁÁ

169

ÁÁÁÁÁ

0.45

ÁÁÁÁÁ

ÁÁÁÁ

0.008

ÁÁÁÁÁ

–25

ÁÁÁÁ

0.930

ÁÁÁÁÁ

177

ÁÁÁÁÁ

1250

ÁÁÁÁÁ

0.939

ÁÁÁÁ

168

ÁÁÁÁÁ

0.42

ÁÁÁÁÁ

ÁÁÁÁ

0.007

ÁÁÁÁÁ

–23

ÁÁÁÁ

0.935

ÁÁÁÁÁ

177

ÁÁÁÁÁ

1300

ÁÁÁÁÁ

0.936

ÁÁÁÁ

168

ÁÁÁÁÁ

0.40

ÁÁÁÁÁ

ÁÁÁÁ

0.007

ÁÁÁÁÁ

–21

ÁÁÁÁ

0.934

ÁÁÁÁÁ

176

ÁÁÁÁÁ

1350

ÁÁÁÁÁ

0.933

ÁÁÁÁ

167

ÁÁÁÁÁ

0.38

ÁÁÁÁÁ

ÁÁÁÁ

0.006

ÁÁÁÁÁ

–19

ÁÁÁÁ

0.936

ÁÁÁÁÁ

175

ÁÁÁÁÁ

1400

ÁÁÁÁÁ

0.937

ÁÁÁÁ

166

ÁÁÁÁÁ

0.35

ÁÁÁÁÁ

ÁÁÁÁ

0.005

ÁÁÁÁÁ

–14

ÁÁÁÁ

0.939

ÁÁÁÁÁ

174

ÁÁÁÁÁ

1450

ÁÁÁÁÁ

0.937

ÁÁÁÁ

165

ÁÁÁÁÁ

0.33

ÁÁÁÁÁ

ÁÁÁÁ

0.005

ÁÁÁÁÁ

–5

ÁÁÁÁ

0.934

ÁÁÁÁÁ

174

ÁÁÁÁÁ

1500

ÁÁÁÁÁ

0.927

ÁÁÁÁ

164

ÁÁÁÁÁ

0.32

ÁÁÁÁÁ

–2

ÁÁÁÁ

0.004

ÁÁÁÁÁ

ÁÁÁÁ

0.930

ÁÁÁÁÁ

173

MRF182

6MOTOROLA RF DEVICE DATA

Table 2. Typical Common Emitter S–Parameters (VDS = 28 V)

ID = 1.0 A

fS11 S21 S12 S22

MHz |S11|∠φ|S21|∠φ|S12|∠φ|S22|∠φ

ÁÁÁÁÁ

0.964

ÁÁÁÁ

–99

ÁÁÁÁÁ

54.39

ÁÁÁÁÁ

129

ÁÁÁÁ

0.014

ÁÁÁÁÁ

ÁÁÁÁ

0.429

ÁÁÁÁÁ

–108

ÁÁÁÁÁ

0.949

ÁÁÁÁ

–121

ÁÁÁÁÁ

43.46

ÁÁÁÁÁ

118

ÁÁÁÁ

0.017

ÁÁÁÁÁ

ÁÁÁÁ

0.478

ÁÁÁÁÁ

–125

ÁÁÁÁÁ

0.909

ÁÁÁÁ

–134

ÁÁÁÁÁ

34.35

ÁÁÁÁÁ

109

ÁÁÁÁ

0.018

ÁÁÁÁÁ

ÁÁÁÁ

0.520

ÁÁÁÁÁ

–137

ÁÁÁÁÁ

0.884

ÁÁÁÁ

–142

ÁÁÁÁÁ

28.27

ÁÁÁÁÁ

103

ÁÁÁÁ

0.018

ÁÁÁÁÁ

ÁÁÁÁ

0.540

ÁÁÁÁÁ

–144

ÁÁÁÁÁ

0.875

ÁÁÁÁ

–148

ÁÁÁÁÁ

23.38

ÁÁÁÁÁ

ÁÁÁÁ

0.019

ÁÁÁÁÁ

ÁÁÁÁ

0.553

ÁÁÁÁÁ

–149

ÁÁÁÁÁ

0.862

ÁÁÁÁ

–152

ÁÁÁÁÁ

20.10

ÁÁÁÁÁ

ÁÁÁÁ

0.019

ÁÁÁÁÁ

ÁÁÁÁ

0.562

ÁÁÁÁÁ

–152

ÁÁÁÁÁ

0.861

ÁÁÁÁ

–156

ÁÁÁÁÁ

17.64

ÁÁÁÁÁ

ÁÁÁÁ

0.019

ÁÁÁÁÁ

ÁÁÁÁ

0.569

ÁÁÁÁÁ

–154

ÁÁÁÁÁ

0.858

ÁÁÁÁ

–158

ÁÁÁÁÁ

15.72

ÁÁÁÁÁ

ÁÁÁÁ

0.019

ÁÁÁÁÁ

ÁÁÁÁ

0.575

ÁÁÁÁÁ

–156

ÁÁÁÁÁ

100

ÁÁÁÁÁ

0.858

ÁÁÁÁ

–160

ÁÁÁÁÁ

14.11

ÁÁÁÁÁ

ÁÁÁÁ

0.019

ÁÁÁÁÁ

ÁÁÁÁ

0.580

ÁÁÁÁÁ

–157

ÁÁÁÁÁ

150

ÁÁÁÁÁ

0.856

ÁÁÁÁ

–166

ÁÁÁÁÁ

9.26

ÁÁÁÁÁ

ÁÁÁÁ

0.018

ÁÁÁÁÁ

–7

ÁÁÁÁ

0.606

ÁÁÁÁÁ

–160

ÁÁÁÁÁ

200

ÁÁÁÁÁ

0.862

ÁÁÁÁ

–169

ÁÁÁÁÁ

6.80

ÁÁÁÁÁ

ÁÁÁÁ

0.018

ÁÁÁÁÁ

–12

ÁÁÁÁ

0.633

ÁÁÁÁÁ

–161

ÁÁÁÁÁ

250

ÁÁÁÁÁ

0.871

ÁÁÁÁ

–171

ÁÁÁÁÁ

5.29

ÁÁÁÁÁ

ÁÁÁÁ

0.017

ÁÁÁÁÁ

–16

ÁÁÁÁ

0.661

ÁÁÁÁÁ

–161

ÁÁÁÁÁ

300

ÁÁÁÁÁ

0.882

ÁÁÁÁ

–173

ÁÁÁÁÁ

4.27

ÁÁÁÁÁ

ÁÁÁÁ

0.016

ÁÁÁÁÁ

–21

ÁÁÁÁ

0.690

ÁÁÁÁÁ

–162

ÁÁÁÁÁ

350

ÁÁÁÁÁ

0.883

ÁÁÁÁ

–174

ÁÁÁÁÁ

3.52

ÁÁÁÁÁ

ÁÁÁÁ

0.015

ÁÁÁÁÁ

–23

ÁÁÁÁ

0.718

ÁÁÁÁÁ

–162

ÁÁÁÁÁ

400

ÁÁÁÁÁ

0.895

ÁÁÁÁ

–175

ÁÁÁÁÁ

2.97

ÁÁÁÁÁ

ÁÁÁÁ

0.014

ÁÁÁÁÁ

–26

ÁÁÁÁ

0.747

ÁÁÁÁÁ

–163

ÁÁÁÁÁ

450

ÁÁÁÁÁ

0.904

ÁÁÁÁ

–176

ÁÁÁÁÁ

2.54

ÁÁÁÁÁ

ÁÁÁÁ

0.013

ÁÁÁÁÁ

–28

ÁÁÁÁ

0.767

ÁÁÁÁÁ

–164

ÁÁÁÁÁ

500

ÁÁÁÁÁ

0.911

ÁÁÁÁ

–177

ÁÁÁÁÁ

2.20

ÁÁÁÁÁ

ÁÁÁÁ

0.012

ÁÁÁÁÁ

–30

ÁÁÁÁ

0.789

ÁÁÁÁÁ

–165

ÁÁÁÁÁ

550

ÁÁÁÁÁ

0.911

ÁÁÁÁ

–178

ÁÁÁÁÁ

1.90

ÁÁÁÁÁ

ÁÁÁÁ

0.011

ÁÁÁÁÁ

–30

ÁÁÁÁ

0.807

ÁÁÁÁÁ

–166

ÁÁÁÁÁ

600

ÁÁÁÁÁ

0.923

ÁÁÁÁ

–179

ÁÁÁÁÁ

1.69

ÁÁÁÁÁ

ÁÁÁÁ

0.010

ÁÁÁÁÁ

–30

ÁÁÁÁ

0.825

ÁÁÁÁÁ

–167

ÁÁÁÁÁ

650

ÁÁÁÁÁ

0.929

ÁÁÁÁ

–180

ÁÁÁÁÁ

1.50

ÁÁÁÁÁ

ÁÁÁÁ

0.009

ÁÁÁÁÁ

–29

ÁÁÁÁ

0.841

ÁÁÁÁÁ

–168

ÁÁÁÁÁ

700

ÁÁÁÁÁ

0.929

ÁÁÁÁ

179

ÁÁÁÁÁ

1.32

ÁÁÁÁÁ

ÁÁÁÁ

0.009

ÁÁÁÁÁ

–22

ÁÁÁÁ

0.855

ÁÁÁÁÁ

–169

ÁÁÁÁÁ

750

ÁÁÁÁÁ

0.933

ÁÁÁÁ

178

ÁÁÁÁÁ

1.21

ÁÁÁÁÁ

ÁÁÁÁ

0.010

ÁÁÁÁÁ

–22

ÁÁÁÁ

0.865

ÁÁÁÁÁ

–170

ÁÁÁÁÁ

800

ÁÁÁÁÁ

0.938

ÁÁÁÁ

177

ÁÁÁÁÁ

1.09

ÁÁÁÁÁ

ÁÁÁÁ

0.009

ÁÁÁÁÁ

–20

ÁÁÁÁ

0.877

ÁÁÁÁÁ

–171

ÁÁÁÁÁ

850

ÁÁÁÁÁ

0.942

ÁÁÁÁ

176

ÁÁÁÁÁ

1.00

ÁÁÁÁÁ

ÁÁÁÁ

0.010

ÁÁÁÁÁ

–31

ÁÁÁÁ

0.886

ÁÁÁÁÁ

–172

ÁÁÁÁÁ

900

ÁÁÁÁÁ

0.942

ÁÁÁÁ

175

ÁÁÁÁÁ

0.92

ÁÁÁÁÁ

ÁÁÁÁ

0.008

ÁÁÁÁÁ

–37

ÁÁÁÁ

0.894

ÁÁÁÁÁ

–173

ÁÁÁÁÁ

950

ÁÁÁÁÁ

0.947

ÁÁÁÁ

174

ÁÁÁÁÁ

0.84

ÁÁÁÁÁ

ÁÁÁÁ

0.006

ÁÁÁÁÁ

–38

ÁÁÁÁ

0.904

ÁÁÁÁÁ

–174

ÁÁÁÁÁ

1000

ÁÁÁÁÁ

0.946

ÁÁÁÁ

173

ÁÁÁÁÁ

0.77

ÁÁÁÁÁ

ÁÁÁÁ

0.005

ÁÁÁÁÁ

–28

ÁÁÁÁ

0.912

ÁÁÁÁÁ

–175

ÁÁÁÁÁ

1050

ÁÁÁÁÁ

0.943

ÁÁÁÁ

172

ÁÁÁÁÁ

0.72

ÁÁÁÁÁ

ÁÁÁÁ

0.005

ÁÁÁÁÁ

–18

ÁÁÁÁ

0.919

ÁÁÁÁÁ

–176

ÁÁÁÁÁ

1100

ÁÁÁÁÁ

0.948

ÁÁÁÁ

171

ÁÁÁÁÁ

0.67

ÁÁÁÁÁ

ÁÁÁÁ

0.004

ÁÁÁÁÁ

–9

ÁÁÁÁ

0.926

ÁÁÁÁÁ

–177

ÁÁÁÁÁ

1150

ÁÁÁÁÁ

0.945

ÁÁÁÁ

171

ÁÁÁÁÁ

0.62

ÁÁÁÁÁ

ÁÁÁÁ

0.005

ÁÁÁÁÁ

ÁÁÁÁ

0.932

ÁÁÁÁÁ

–178

ÁÁÁÁÁ

1200

ÁÁÁÁÁ

0.939

ÁÁÁÁ

170

ÁÁÁÁÁ

0.59

ÁÁÁÁÁ

ÁÁÁÁ

0.004

ÁÁÁÁÁ

ÁÁÁÁ

0.934

ÁÁÁÁÁ

–179

ÁÁÁÁÁ

1250

ÁÁÁÁÁ

0.949

ÁÁÁÁ

169

ÁÁÁÁÁ

0.54

ÁÁÁÁÁ

ÁÁÁÁ

0.005

ÁÁÁÁÁ

ÁÁÁÁ

0.940

ÁÁÁÁÁ

–180

ÁÁÁÁÁ

1300

ÁÁÁÁÁ

0.947

ÁÁÁÁ

168

ÁÁÁÁÁ

0.51

ÁÁÁÁÁ

–3

ÁÁÁÁ

0.005

ÁÁÁÁÁ

ÁÁÁÁ

0.939

ÁÁÁÁÁ

180

ÁÁÁÁÁ

1350

ÁÁÁÁÁ

0.944

ÁÁÁÁ

167

ÁÁÁÁÁ

0.48

ÁÁÁÁÁ

–4

ÁÁÁÁ

0.005

ÁÁÁÁÁ

ÁÁÁÁ

0.941

ÁÁÁÁÁ

179

ÁÁÁÁÁ

1400

ÁÁÁÁÁ

0.945

ÁÁÁÁ

166

ÁÁÁÁÁ

0.44

ÁÁÁÁÁ

–7

ÁÁÁÁ

0.004

ÁÁÁÁÁ

ÁÁÁÁ

0.943

ÁÁÁÁÁ

178

ÁÁÁÁÁ

1450

ÁÁÁÁÁ

0.944

ÁÁÁÁ

165

ÁÁÁÁÁ

0.42

ÁÁÁÁÁ

–9

ÁÁÁÁ

0.005

ÁÁÁÁÁ

ÁÁÁÁ

0.940

ÁÁÁÁÁ

177

ÁÁÁÁÁ

1500

ÁÁÁÁÁ

0.933

ÁÁÁÁ

164

ÁÁÁÁÁ

0.40

ÁÁÁÁÁ

–10

ÁÁÁÁ

0.005

ÁÁÁÁÁ

ÁÁÁÁ

0.936

ÁÁÁÁÁ

176

MRF182MOTOROLA RF DEVICE DATA

PACKAGE DIMENSIONS

CASE 360B–01

ISSUE O

(MRF182)

HNFC

SEATING

PLANE

NOTES:

1. DIMENSIONING AND TOLERANCING PER ANSI

Y14.5M, 1982.

2. CONTROLLING DIMENSION: INCH.

DIM

AMIN MAX MIN MAX

MILLIMETERS

0.790 0.810 20.07 20.57

INCHES

B0.220 0.240 5.59 6.09

C0.125 0.175 3.18 4.45

D0.205 0.225 5.21 5.71

E0.050 0.070 1.27 1.77

F0.004 0.006 0.11 0.15

G0.562 BSC 14.27 BSC

H0.070 0.090 1.78 2.29

K0.215 0.255 5.47 6.47

N0.350 0.370 8.89 9.39

Q0.120 0.140 3.05 3.55

STYLE 1:

PIN 1. DRAIN

2. GATE

3. SOURCE

Q2 PL

0.25 (0.010) B M

–B–

–A–

–T–

CASE 360C–03

ISSUE B

(MRF182S)

NOTES:

1. DIMENSIONING AND TOLERANCING PER ANSI

Y14.5M, 1982.

2. CONTROLLING DIMENSION: INCH.

STYLE 1:

PIN 1. DRAIN

2. GATE

3. SOURCE

DIM

AMIN MAX MIN MAX

MILLIMETERS

0.370 0.390 9.40 9.91

INCHES

B0.220 0.240 5.59 6.09

C0.105 0.155 2.67 3.94

D0.205 0.225 5.21 5.71

E0.035 0.045 0.89 1.14

F0.004 0.006 0.11 0.15

H0.057 1.45

K0.085 0.115 2.16 2.92

N0.350 0.370 8.89 9.39

HNF

SEATING

PLANE

–B–

–A–

–T–

0.067 1.70

MRF182

8MOTOROLA RF DEVICE DATA

Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding

the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and

specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters which may be provided in Motorola

data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals”

must be validated for each customer application by customer’s technical experts. Motorola does not convey any license under its patent rights nor the rights of

others. Motorola products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other

applications intended to support or sustain life, or for any other application in which the failure of the Motorola product could create a situation where personal injury

or death may occur. Should Buyer purchase or use Motorola products for any such unintended or unauthorized application, Buyer shall indemnify and hold Motorola

and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees

arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that

Motorola was negligent regarding the design or manufacture of the part. Motorola and are registered trademarks of Motorola, Inc. Motorola, Inc. is an Equal

Opportunity/Af firmative Action Employer.

Mfax is a trademark of Motorola, Inc.

How to reach us:

USA/EUROPE/Locations Not Listed: Motorola Literature Distribution; JAPAN: Nippon Motorola Ltd.: SPD, Strategic Planning Office, 4–32–1,

P.O. Box 5405, Denver, Colorado 80217. 303–675–2140 or 1–800–441–2447 Nishi–Gotanda, Shinagawa–ku, Tokyo 141, Japan. 81–3–5487–8488

Mfax: RMFAX0@email.sps.mot.com – TOUCHT ONE 602–244–6609 ASIA/PACIFIC: Motorola Semiconductors H.K. Ltd.; 8B Tai Ping Industrial Park,

– US & Canada ONLY 1–800–774–1848 51 Ting Kok Road, Tai Po, N.T., Hong Kong. 852–26629298

INTERNET: http://motorola.com/sps

MRF182/D

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