NE02133-T1B_技术文档

NEC's NPN SILICON HIGH

FREQUENCY TRANSISTOR

NE021

SERIES

FEATURES

• HIGH INSERTION GAIN: 18.5 dB at 500 MHz

• LOW NOISE FIGURE: 1.5 dB at 500 MHz

• HIGH POWER GAIN: 12 dB at 2 GHz

E

B

• LARGE DYNAMIC RANGE: 19 dBm at 1 dB,

2 GHz Gain Compression

DESCRIPTION

00 (CHIP)

07/07B

NEC's NE021 series of NPN silicon transistors provides eco-

nomical solutions to wide ranges of amplifier and oscillator

problems. Low noise and high current capability provide low

intermodulation distortion. The NE021 series is available as a

chip or in several package styles. The series uses the NEC

gold, platinum, titanium, and platinum-silicide metallization

system to provide the utmost in reliability. NE02107 is avail-

able in both common-base and common-emitter configura-

tions and has been qualified for high-reliability space applica-

tions.

33 (SOT 23 STYLE)

35 (MICRO-X)

NE02135

TYPICAL NOISE PARAMETERS (TA = 25°C)

FREQ.

NFOPT

GA

ΓOPT

(MHz)

(dB)

MAG

ANG

Rn/50

VCE = 10 V, IC = 5 mA

500

1.2

1.5

2.0

2.4

2.6

3.6

3.7

18.60

13.82

11.83

9.36

.36

.31

.50

.44

.52

.68

.71

69

.14

.12

.05

.06

.10

.14

.21

39 (SOT 143 STYLE)

1000

1500

2000

2500

3000

3500

124

165

-175

-161

-141

-139

NE02139

7.82

TYPICAL NOISE PARAMETERS(TA = 25°C)

7.51

FREQ.

(MHz)

NFOPT

(dB)

GA

ΓOPT

6.31

(dB)

MAG

ANG

Rn/50

VCE = 10 V, IC = 20 mA

500

1.8

1.9

2.4

2.9

3.2

3.9

4.3

21.32

16.15

13.50

11.02

9.12

.16

.33

.46

.53

.57

.62

.67

149

169

.15

.13

.09

.08

.14

.27

.42

500

1.8

2.1

2.3

2.6

17.5

12.5

9.5

0.11

0.27

0.36

0.43

156

168

.20

.16

.18

.21

1000

1500

2000

2500

3000

3500

1000

1500

2000

-179

-167

-154

-139

-134

-156

-147

7.5

8.10

6.48

California Eastern Laboratories

NE021 SERIES

ELECTRICAL CHARACTERISTICS (TA = 25°C)

PART NUMBER

EIAJ¹REGISTERED NUMBER

PACKAGE OUTLINE

NE02100

NE02107

00 (CHIP)

TYP

07/07B³

TYP

SYMBOLS

PARAMETERS AND CONDITIONS

UNITS MIN

MAX

MIN

MAX

fT

Gain Bandwidth Product at VCE = 10 V, IC = 20 mA

GHz

4.5

|S21|²

Insertion Power Gain at VCE = 10 V, IC = 20 mA,

f = 0.5 GHz

f = 1 GHz

f = 2 GHz

dB

18.5

13

6.5

18.5

13

6.5

5.5

NFMIN

Minimum Noise Figure²at

VCE = 10 V, IC = 3 mA, f = 0.5 GHz

VCE = 10 V, IC = 5 mA, f = 2 GHz

dB

1.5

2.7

1.5

2.7

4.5

1.0

250

1.0

70

4.5

1.0

250

1.0

90

ICBO

IEBO

Collector Cutoff Current at VCB = 15 V, IE = 0

Emitter Cutoff Current at VEB = 2 V, IC = 0

Forward Current Gain at VCE = 10 V, IC = 20 mA

µA

hFE

20

70

20

70

CCB

Collector to Base Capacitance⁴at VCB = 10 V, IE = 0, f = 1 MHz pF

0.6

RTH (J-C)

RTH (J-A)

Thermal Resistance (Junction to Case)

Thermal Resistance (Junction to Ambient)

Total Power Dissipation

°C/W

500

700

5

PT

mW

580

700

350

ELECTRICAL CHARACTERISTICS (TA = 25°C)

PART NUMBER

EIAJ¹REGISTERED NUMBER

PACKAGE OUTLINE

NE02133

2SC2351

33

NE02135

2SC2149

35

NE02139

2SC4092

39

SYMBOLS

PARAMETERS AND CONDITIONS

UNITS

MIN TYP MAX MIN TYP MAX MIN TYP MAX

fT

Gain Bandwidth Product at VCE = 10 V,

IC = 20 mA

GHz

4.5

10

|S21E|²

Insertion Power Gain at

VCE = 10 V, IC = 20 mA,

f = 0.5 GHz

dB

15

10

5

18.5

13

5.7

f = 1 GHz

f = 2 GHz

9

4

9

5

NFMIN

Minimum Noise Figure⁶at

VCE = 10 V, IC = 3 mA,

f = 0.5 GHz

dB

1.5

2.7

VCE = 10 V, IC = 5 mA,

f = 1 GHz

1.5

dB

1.5

3

f = 2 GHz

4.0

1.0

250

ICBO

IEBO

hFE

Collector Cutoff Current at VCB = 15 V,

IE = 0

µA

1.0

Emitter Cutoff Current at VEB = 2 V,

IC = 0

Forward Current Gain at

VCE = 10 V, IC = 20 mA

40

70

200

20

70

40

70

200

CCB

Collector to Base Capacitance⁴at

VCB = 10 V, IE = 0 , f = 1 MHz

pF

°C/W

mW

0.75 1.0

0.6

1.0

120

600

500

.75

RTH (J-C)

RTH (J-A)

Thermal Resistance (Junction to Case)

Thermal Resistance (Junction to Ambient)

Total Power Dissipation

666

500

200

5

PT

150 290

Notes:

1. Electronic Industrial Association of Japan.

2. Input and output are tuned for optimum noise figures.

3. Common base electrical charactristics see S-Parameters.

5. Minimum dissipations based on RTH (J-A) for applications without effective

heat sink, maximum dissipations based on RTH (J-C) for applications with

effective heat sink.

4. CCB measurement employs a three-terminal capacitance bridge

incorporating a guard circuit. The emitter terminal shall be

connected to the guard terminal.

6. Output and Input are tuned for minimum noise figure.

NE021 SERIES

ABSOLUTE MAXIMUM RATINGS¹(TA = 25°C)

SYMBOLS

VCBO

VCEO

VEBO

IC

PARAMETERS

Collector to Base Voltage

Collector to Emitter Voltage

Emitter to Base Voltage

CollectorCurrent

UNITS

RATINGS

V

25

12²

NE02100, NE02107

DC POWER DERATING CURVES

V

3

70

800

600

400

NE02100

mA

°C

R

TH(J-C) = 70˚C/W

TJ

JunctionTemperature

StorageTemperature

200³

NE02107

TH(J-C) = 90˚C/W

TSTG

°C

-65 to +200⁴

R

Notes:

1. Operation in excess of any one of these parameters may result

in permanent damage.

R

TH (J-A) =

500˚C/W

2. Typical BVCER = 25 V for R ≤ 300 Ω.

3. Maximum TJ for the NE02133 and NE02139

is +150°C.

NE02107

200

0

4. Maximum storage temperature for the NE02135 is -65 to

+150°C. Maximum storage temperature for the

NE02133 and NE02139 is -55 to 150°C.

0

50

100

150

200

Ambient Temperature, TA (°C)

TYPICAL PERFORMANCE CURVES (TA = 25°C)

NE02133

NE02135

DC POWER DERATING CURVES

400

800

600

400

1. Mounted On Al

(32x21x10mm) And Encapsulated

2O3 Substrate

WITH INFINITE

HEAT SINK

In Epoxy Resin (RTH

2. Mounted On Al

(18x29x0.8mm) RTH

3. Mounted On Al

(10x15x0.8mm) RTH

4. Free Air, RTH J-A) = 666˚C/W

(J-A) = 267˚C/W

300

200

2

O

3

Substrate

1

RTH(J-C) = 120˚ C/W

(

J-A) = 370˚C/W

Substrate

J-A) = 490˚C/W

2O3

(

MOUNTED ON AI

SUBSTRATE

2O3

2

(

(20X50X0.6") RTH(J-A)

=

3

4

190˚C/W

100

0

200

0

FREE AIR

TH(J-A) = 600˚C/W

R

0

50

100

150

200

0

50

100

150

200

Ambient Temperature, TA (°C)

VOLTAGE CURRENT

CHARACTERISTICS

DEVICE CAPACITANCE

2

70

50

f =1 MHz

IE = 0

VCE = 10 V

30

20

CCB

1

10

7

CEB

5

0.7

3

2

0.5

0.3

1

0.7

0.5

0.6

0.7

0.8

0.9

0

0.5

1

2

3

5

7

10

20 30

Base to Emitter Voltage, VBE (V)

Collector to Base Voltage, VCB (V)

Emitter to Base Voltage, VEB (V)

NE021 SERIES

TYPICAL PERFORMANCE CURVES ^(TA = 25°C)

NE02107, NE02135

NE02133

GAIN vs. FREQUENCY

40

32

V

CE = 10 V

V

CE = 10 V

I

C = 20 mA

I

C = 20mA

32

24

16

24

16

2

|S21|

MAG

|S21

|

MAG

8

0

8

0

0.2

0.3

0.5

0.7

1.0

2.0

70

3

0.2

0.3

0.5 0.7

1.0

2.0

0.1

Frequency, f (GHz)

NE02107

INSERTION GAIN vs.

COLLECTOR CURRENT

NOISE FIGURE vs.

COLLECTOR CURRENT

5

30

25

V

CE = 10 V

2 GHz

100 MHz

4

3

V

CE = 10 V

20

15

10

500 MHz

2

1 GHz

2 GHz

0.5 GHz

NE02133

NE02107, NE02135

1

0

5

0

10

20

30

40

50

60

1

2

3

5

7

10

20

30

Collector Current, IC (mA)

GAIN BANDWIDTH PRODUCT

AND FORWARD CURRENT GAIN

vs. COLLECTOR CURRENT

NOISE FIGURE AND ASSOCIATED

GAIN vs. FREQUENCY

5

4

3

2

500

5.0

20

16

12

V

I

CE = 10 V

C = 5 mA

f

T

G

A

3.0

2.0

300

200

V

CE = 10 V

NF

8

1.0

100

NE02133

NE02100, NE02107, NE02135

1

0

4

0

70

50

0.7

0.5

hFE

1

2

3

5

7

10

20 30 50 70 100

0.1

0.2

0.3

0.5 0.7

1

2

Collector Current, IC (mA)

Frequency, f (GHz)

NE021 SERIES

TYPICAL COMMON EMITTER SCATTERING PARAMETERS¹(TA = 25°C)

j50

90˚

S

21

120˚

60˚

j100

j25

S

0.1 GHz

150˚

30˚

11

S

12

j10

0

5 GHz

S

21

5 GHz

S

12

180˚

10

25

50

100

0

0.5 0.4 0.3 0.20.1

0˚

0.1 GHz

S

22

S

22

10

0.1 GHz

5 GHz

-j10

15

20

-150˚

-30˚

Coordinates in Ohms

Frequency in GHz

S

11

0.1 GHz

-j100

-j25

(VCE = 10 V, IC = 20 mA)

-120˚

S21

25

-60˚

-j50

-90˚

NE02100

VCE = 10 V, IC = 5 mA

FREQUENCY

S11

S21

S12

S22

K

MAG²

(dB)

(MHz)

MAG

ANG

MAG

ANG

MAG

ANG

MAG ANG

100

500

.84

.75

.73

.71

.70

-32

-114

-150

-164

-173

-179

176

172

168

165

161

11.83

7.22

4.13

2.85

2.16

1.75

1.49

1.28

1.13

1.02

.92

160

113

89

76

66

57

49

42

34

27

20

.03

.07

.09

.10

.11

.12

.13

.14

70

36

27

28

30

32

33

34

35

.94

.56

.39

.36

.33

.34

.35

.37

.39

.41

-16

-45

-51

-56

-61

-67

-73

-80

-88

-94

-100

.11

.29

.54

.77

.97

1.14

1.25

1.35

1.41

1.47

1.49

26.4

19.9

16.9

15.0

13.5

10.1

8.3

6.9

5.9

4.9

4.2

1000

1500

2000

2500

3000

3500

4000

4500

5000

VCE = 10 V, IC = 10 mA

100

500

.75

.72

.71

.70

-47

-137

-162

-173

-179

176

172

168

165

162

159

20.04

9.40

4.97

3.37

2.56

2.05

1.74

1.50

1.33

1.19

1.08

153

105

86

75

66

58

51

44

37

30

24

.02

.05

.06

.07

.08

.09

.10

.11

.12

.13

.14

65

34

38

41

43

44

43

.89

.41

.27

.23

.22

.23

.24

.25

.27

.29

.31

-24

-57

-62

-66

-71

-76

-82

-88

-95

.11

.39

.69

29.2

22.5

19.0

16.8

13.2

10.9

9.2

7.9

6.8

5.9

5.1

1000

1500

2000

2500

3000

3500

4000

4500

5000

.92

1.09

1.19

1.27

1.31

1.36

1.39

-100

-106

VCE = 10 V, IC = 20 mA

100

500

.68

.72

.71

-70

-152

-170

-178

177

172

169

166

162

160

157

29.75

10.58

5.42

3.65

2.74

2.21

1.86

1.61

1.42

1.28

1.15

145

99

84

74

66

58

51

44

38

31

25

.02

.04

.05

.06

.07

.09

.10

.11

.12

.13

.14

59

37

43

48

50

51

52

51

49

48

.81

.30

.19

.17

.19

.20

.22

.24

.27

-33

-65

-69

-73

-78

-83

-87

-93

-99

.14

.53

.87

31.6

24.3

20.4

16.4

13.2

11.3

9.7

8.4

7.3

6.4

5.6

1000

1500

2000

2500

3000

3500

4000

4500

5000

1.05

1.17

1.23

1.27

1.30

1.34

1.33

1.34

-105

-109

Notes:

1. S-Parameters include bond wires.

BASE:Total 1 wire (s), 1 per bond pad, 0.0115 (291 µm) long each wire.

COLLECTOR: Total 1 wire (s), 1 per bond pad, 0.0072" (182 µm)

long each wire.

EMITTER: Total 2 wire (s), 1 per side, 0.015" (393 µm) long each wire.

WIRE: 0.0007' (17.7 µm) dia., gold.

2. Gain Calculations:

2

1 + | ∆ |²- |S11

|

²- |S22

|

|S21

|S12

|

K ²- 1 ). _{When K ≤ 1, MAG is undefined and MSG values are used.}

∆ = S11 S22 - S21 S12

|S21

|

(K ±

MAG =

MSG =

, K =

,

|S12

2 |S12

S21|

NE021 SERIES

TYPICAL COMMON BASE SCATTERING PARAMETERS ^(TA = 25°C)

90˚

j50

120˚

60˚

j100

j25

S

11

S

12

4 GHz

150˚

30˚

j10

0

S

11

S

12

0.1 GHz

10

S22

0

0.1 GHz

180˚

0.1 GHz

0.5 .10 .15 .20 .25

0˚

25

50

100

S

21

S

21

0.4

0.8

4 GHz

0.1 GHz

-j10

1.2

1.6

2.0

-150˚

-30˚

Coordinates in Ohms

Frequency in GHz

(VCB = 10 V, IC = 20 mA)

-j100

-j25

-120˚

S21

-60˚

S22

-90˚

-j50

4 GHz

NE02107B

VCB = 10 V, IC = 5 mA

FREQUENCY

S11

S21

S12

S22

K

MAG¹

(dB)

(MHz)

MAG

ANG

MAG

ANG

MAG

ANG

MAG ANG

-0.477

-0.808

-1.645

-1.076

-0.782

-0.574

-0.484

-0.427

-0.180

22.480

22.504

22.355

17.559

14.177

12.816

11.047

9.688

100

500

.79

.83

.87

.86

175

170

163

157

149

145

136

126

117

1.77

1.78

1.72

1.71

1.57

1.53

1.40

1.21

1.12

-10

-24

-44

-64

-87

.01

.03

.06

.08

.11

.13

.17

106

111

117

109

106

103

95

1.01

1.02

1.05

1.09

1.08

1.11

1.10

1.08

-9

-22

-40

-58

-75

-81

-96

-111

-125

1000

1500

2000

2500

3000

3500

4000

-99

-122

-140

-164

86

76

8.188

VCB = 10 V, IC = 10 mA

0.671

-0.431

-1.429

-0.950

-0.857

-0.707

-0.601

-0.458

-0.317

22.648

22.625

17.830

14.574

13.222

11.167

9.853

100

500

.88

.87

.90

.92

.95

.96

.95

177

171

164

159

152

144

135

125

116

1.84

1.83

1.82

1.72

1.68

1.57

1.45

1.33

-6

-19

-38

-57

-76

.01

.03

.06

.08

.12

.15

.18

-31

112

132

118

117

108

98

1.01

1.00

1.05

1.08

1.10

1.09

1.13

1.12

1.10

-6

-18

-36

-53

-69

-81

-96

-111

-126

1000

1500

2000

2500

3000

3500

4000

-92

-113

-135

-156

88

77

8.686

VCB = 10 V, IC = 20 mA

0.315

-0.850

-1.189

-0.960

-0.832

-0.727

-0.658

-0.532

-0.388

22.788

22.765

17.970

14.795

12.888

11.435

10.142

8.970

100

500

.92

.93

176

171

164

159

152

142

132

121

112

1.90

1.89

1.88

1.81

1.75

1.67

1.55

1.42

-6

-19

-37

-55

-75

.01

.03

.06

.09

.12

.15

.18

56

139

129

126

119

110

100

89

1.02

1.01

1.05

1.09

1.10

1.09

1.13

1.12

-6

-18

-36

-53

-69

-80

-95

-110

-125

1000

1500

2000

2500

3000

3500

4000

.92

.96

.97

1.01

1.02

1.03

1.02

-90

-110

-132

-154

79

VCB = 10 V, IC = 40 mA

0.239

-0.583

-1.140

-0.901

-0.798

-0.727

-0.591

-0.502

-0.341

22.856

22.810

18.016

14.843

13.034

11.563

10.226

9.091

100

600

.95

.94

176

171

163

158

151

141

132

120

111

1.93

1.91

1.90

1.83

1.81

1.72

1.58

1.46

-7

-20

-38

-57

-77

.01

.03

.06

.09

.12

.15

.18

-74

116

133

126

119

111

100

88

1.02

1.01

1.05

1.09

1.10

1.09

1.13

1.10

-7

-19

-36

-53

-69

-81

-97

-113

-127

1000

1500

2000

2500

3000

3500

4000

.94

.98

.99

1.04

1.05

1.03

-92

-115

-136

-157

77

Note:

1. Gain Calculations:

2

1 + | ∆ |²- |S11

|

²- |S22

S21|

|

|S21

|

K ²- 1 ). _{When K ≤ 1, MAG is undefined and MSG values are used.}

∆ = S11 S22 - S21 S12

|S21

|

(

K ±

MAG =

MSG =

, K =

,

|S12

|

|S12

2 |S12

NE021 SERIES

TYPICAL COMMON EMITTER SCATTERING PARAMETERS (TA = 25°C)

j50

90˚

120˚

60˚

j100

j25

S

21

0.1 GHz

S

11

150˚

30˚

4 GHz

j10

0

S

12

4 GHz

0.5 .10 .15 .20 .25

0.1 GHz

S

12

180˚

10

25

50

100

0

0˚

S

21

6

S

22

4 GHz

S

22

4 GHz

12

18

24

0.1 GHz

-j10

-150˚

-30˚

S

11

Coordinates in Ohms

Frequency in GHz

(VCE = 10 V, IC = 20 mA)

0.1 GHz

-j100

-j25

-120˚

S21

30

-60˚

-j50

-90˚

NE02107

VCE = 10 V, IC = 5 mA

FREQUENCY

S11

S21

S12

S22

K

MAG¹

(MHz)

MAG

ANG

MAG

ANG

MAG

ANG

MAG

ANG

(dB)

100

500

.82

.70

.68

.67

.68

-36

13.90

7.38

4.17

2.87

2.18

1.73

1.49

1.27

1.16

157

107

82

66

53

40

28

17

6

.01

.07

.08

.09

.10

.11

.12

.13

.14

73

35

25

24

26

22

23

19

17

.95

.54

.39

.38

.37

.38

.40

.43

.45

-16

-47

-59

-68

-78

0.022

31.430

20.230

17.170

15.036

13.385

10.227

8.867

-125

-161

-178

170

159

151

142

134

0.345

0.628

0.783

0.928

1.081

1.116

1.119

1.101

1000

1500

2000

2500

3000

3500

4000

-90

-102

-112

-122

7.802

7.249

VCE = 10 V, IC = 10 mA

0.085

0.489

0.821

0.907

1.071

1.052

1.074

1.046

1.023

33.535

22.728

19.208

16.284

12.933

11.355

10.096

9.080

100

500

.69

.67

-54

-145

-172

175

165

15

146

137

130

22.57

9.37

5.00

3.40

2.57

2.07

1.80

1.53

1.41

150

100

79

65

53

41

30

20

8

.01

.05

.06

.08

.09

.11

.12

.14

.15

69

36

37

40

35

34

30

23

.89

.39

.27

.26

.25

.28

.31

.34

.36

-23

-58

-70

-77

-87

1000

1500

2000

2500

3000

3500

4000

-97

-108

-116

-125

8.803

VCE = 10 V, IC = 20 mA

0.170

0.774

1.205

1.041

1.077

1.058

1.063

1.065

0.947

35.001

25.470

18.622

15.998

13.207

11.658

10.601

9.238

100

500

.58

.67

.68

.67

.68

-79

-161

179

168

159

150

142

134

127

31.63

10.57

5.47

3.70

2.78

2.26

1.96

1.68

1.53

142

95

77

64

53

42

31

21

9

.01

.03

.04

.07

.09

.11

.12

.14

.16

65

45

46

48

44

39

36

27

.81

.28

.19

.20

.23

.25

.28

.31

-32

-68

-78

-84

-96

-105

-114

-122

-128

1000

1500

2000

2500

3000

3500

4000

9.806

VCE = 10 V, IC = 30 mA

100

500

.55

.67

.68

-96

-167

176

166

158

148

141

133

126

35.99

10.79

5.52

3.75

2.81

2.26

1.96

1.66

1.51

137

93

75

63

52

41

30

20

9

.01

.02

.04

.07

.09

.11

.13

.14

.16

63

48

53

52

53

46

42

38

29

.75

.24

.17

.18

.21

.24

.27

.30

-37

-69

-77

-83

-96

-106

-115

-123

-131

0.236

1.157

1.192

1.028

1.065

1.057

1.008

1.066

0.984

35.562

24.914

18.752

16.271

13.383

11.669

11.227

9.175

1000

1500

2000

2500

3000

3500

4000

9.749

Note:

1. Gain Calculations:

2

1 + | ∆ |²- |S11

|

²- |S22

|

|S21

|S12

|

K ²- 1 ). _{When K ≤ 1, MAG is undefined and MSG values are used.}

∆ = S11 S22 - S21 S12

|S21

|

(

K ±

MAG =

MSG =

, K =

,

|S12

|

2 |S12

S21|

NE021 SERIES

TYPICAL COMMON EMITTER SCATTERING PARAMETERS ^(TA = 25°C)

j50

90˚

120˚

60˚

j100

j25

S

12

S

21

2 GHz

150˚

0.1 GHz

30˚

j10

0

S

11

S

12

S

21

2 GHz

0.1 GHz

2 GHz

0.6 .12 .18 .24 .30

180˚

10

25

50

100

0

0˚

3

S22

8

2 GHz

S

22

-j10

0.1 GHz

S11

12

16

-150˚

0.1 GHz

-30˚

Coordinates in Ohms

Frequency in GHZ

(VCE = 10 V, IC = 20 mA)

-j100

-j25

-120˚

S21

20

-60˚

-j50

-90˚

NE02133

VCE = 10 V, IC = 5 mA

FREQUENCY

S11

S21

S12

S22

K

MAG¹

(dB)

(MHz)

MAG

ANG

MAG

ANG

MAG

ANG

MAG

ANG

100

200

500

1000

1500

2000

.80

.63

.37

.27

.29

-37

-63

-114

-158

172

151

13.53

10.48

5.56

3.02

2.16

1.74

150

129

99

76

63

.03

.04

.09

.15

.21

.27

73

59

61

60

63

58

.91

.72

.48

.40

.34

.31

-18

-29

-38

-41

-49

-62

0.178

0.477

0.795

0.988

1.039

1.031

26.542

24.183

17.908

13.039

8.914

49

7.022

VCE = 10 V, IC = 10 mA

100

200

.66

.46

.27

.21

.23

.26

-48

-78

-129

-169

165

146

19.53

13.52

6.29

3.31

2.35

1.87

139

118

93

74

62

.02

.03

.09

.16

.23

.29

79

58

67

66

64

59

.81

.58

.38

.34

.29

.26

-27

-35

-36

-40

-47

-62

0.235

0.761

0.900

0.993

1.007

1.011

29.897

26.539

18.444

13.157

9.593

500

1000

1500

2000

50

7.438

VCE = 10 V, IC = 20 mA

100

200

.51

.33

.21

.19

.21

.24

-61

-91

-143

-177

160

142

19.37

15.04

6.57

3.41

2.41

1.92

129

109

89

72

61

.02

.03

.08

.16

.24

.30

79

64

71

69

67

59

.70

.48

.33

.32

.26

.23

-32

-35

-32

-37

-45

-59

0.497

0.909

1.010

1.005

1.006

1.013

29.861

27.001

18.522

12.847

9.524

500

1000

1500

2000

49

7.369

Note:

1. Gain Calculations:

2

1 + | ∆ |²- |S11 ²- |S22

| |

|S21

|S12

|

K ²- 1 ). _{When K ≤ 1, MAG is undefined and MSG values are used.}

∆ = S11 S22 - S21 S12

|S21

|S12

|

(

K ±

MAG =

MSG =

, K =

,

2 |S12

S21|

MAG = Maximum Available Gain

MSG = Maximum Stable Gain

NE021 SERIES

TYPICAL COMMON EMITTER SCATTERING PARAMETERS (TA = 25°C)

j50

90˚

120˚

60˚

j100

j25

S

11

S

12

S

21

4 GHz

150˚

30˚

0.1 GHz

j10

0

S

21

180˚

10

25

50

100

0

0.5 0.1 .15 0.2 .25

0˚

4 GHz

S

12

6

8

S

22

4 GHz

S

22

4 GHz

0.1 GHz

-j10

12

24

S

11

-150˚

-30˚

Coordinates in Ohms

Frequency in GHz

(VCE = 10 V, IC = 20 mA)

0.1 GHz

-j100

-j25

-120˚

S21

30

-60˚

-j50

-90˚

NE02135

VCE = 10 V, IC = 5 mA

FREQUENCY

(MHz)

S11

S21

S12

S22

K

MAG¹

MAG

ANG

MAG

ANG

MAG

ANG

MAG

ANG

(dB)

28.395

19.530

16.500

14.393

12.430

9.441

8.030

6.974

6.656

0.023

100

500

.84

.68

.66

.65

.66

.67

.68

-36

-126

-163

178

163

151

141

129

121

13.82

7.18

4.02

2.75

2.10

1.68

1.46

1.24

1.14

156

106

81

64

52

39

27

17

5

.02

.08

.09

.10

.12

.13

.14

.16

.17

73

35

27

30

26

23

.94

.51

.34

.31

.33

.36

.38

-18

-53

-66

-74

-83

0.368

0.664

0.890

0.960

1.075

1.125

1.099

1.069

1000

1500

2000

2500

3000

3500

4000

-95

-106

-116

-127

VCE = 10 V, IC = 10 mA

100

500

0.666

0.592

0.604

0.595

0.609

0.615

0.632

0.642

0.649

-50

-147

-179

163

152

139

126

114

104

23.536

9.285

4.955

3.288

2.527

2.022

1.726

1.439

1.315

149

99

77

63

46

39

28

12

5

0.004

0.033

0.051

0.073

0.109

0.132

0.152

0.175

0.199

65

39

36

41

38

27

0.854

0.363

0.276

0.240

0.195 -104

0.204 -115

0.212 -125

0.233 -135

0.256 -144

-28

-72

-82

-87

0.634

0.859

1.128

1.172

1.138

1.180

1.168

1.155

1.113

37.697

24.493

17.700

14.054

11.397

9.287

8.071

6.763

6.156

1000

1500

2000

2500

3000

3500

4000

VCE = 10 V, IC = 20 mA

1.982

1.428

1.445

1.210

1.115

1.142

1.110

1.094

1.060

36.428

23.189

17.244

14.212

11.942

9.815

8.698

7.477

6.881

100

500

0.545

0.593

0.602

0.605

0.616

0.623

0.639

0.644

0.649

-74

-163

173

158

148

135

123

111

102

32.448

10.200

5.276

3.505

2.718

2.159

1.841

1.549

1.411

140

94

75

61

46

39

29

13

6

0.002

0.020

0.040

0.072

0.108

0.133

0.156

0.180

0.205

67

46

49

50

44

48

43

32

0.763

0.270

0.217

0.188

0.161 -110

0.176 -120

0.188 -128

0.210 -135

0.232 -142

-38

-80

-89

-93

1000

1500

2000

2500

3000

3500

4000

VCE = 10 V, IC = 30 mA

0.275

0.958

1.016

1.103

1.058

1.095

1.086

1.089

0.970

35.484

25.276

18.563

14.446

12.315

10.207

9.052

100

500

.58

.64

.65

.66

.67

.68

-95

-169

173

162

152

141

132

122

115

35.35

10.11

5.15

3.49

2.63

2.10

1.82

1.54

1.44

134

91

74

62

52

39

29

20

9

.01

.03

.06

.08

.11

.13

.15

.17

.20

59

50

55

63

54

46

42

38

31

.72

.22

.14

.15

.17

.19

.22

.24

-40

-82

-97

-103

-112

-122

-129

-137

-146

1000

1500

2000

2500

3000

3500

4000

7.748

8.573

See note on next page.

NE021 SERIES

TYPICAL COMMON EMITTER SCATTERING PARAMETERS (TA = 25°C)

j50

90˚

120˚

60˚

j100

j25

S

11

150˚

30˚

2 GHz

S

12

j10

0

2 GHz

S

21

S

12

S

21

0.1 GHz

2 GHz

180˚

4

8

12 16 20

10

25

50

100

0

0˚

S

22

.04

0.1 GHz

S

22

.08

.12

.16

2 GHz

-j10

S

11

-150˚

-30˚

0.1 GHz

Coordinates in Ohms

Frequency in GHz

(VCE = 10 V, IC = 5 mA)

-j100

-j25

-120˚

S21

.20

-60˚

-j50

-90˚

NE02139

VCE = 10 V, IC = 5 mA

FREQUENCY

(MHz)

S11

S21

S12

S22

K

MAG¹

(dB)

MAG

ANG

MAG

ANG

MAG

ANG

MAG

ANG

0.167

0.329

0.563

0.738

0.860

0.938

0.977

1.017

1.046

1.059

1.096

27.135

21.430

18.797

16.985

15.398

14.105

12.978

11.247

9.850

100

200

400

600

800

1000

1200

1400

1600

1800

2000

.78

.71

.57

.50

.49

.51

.52

.53

.56

-39

-74

13.96

11.81

7.51

5.68

4.16

3.50

2.83

2.59

2.19

2.09

1.79

156

131

107

93

72

81

55

63

49

42

.027

.058

.081

.093

.104

.117

.129

.144

.155

.173

.181

63

62

42

39

37

36

38

36

.91

.77

.54

.42

.35

.30

.27

.25

.22

.21

.19

-21

-36

-50

-56

-59

-63

-66

-73

-79

-88

-98

-114

-143

-164

-180

168

160

150

142

135

8.908

8.065

36

VCE = 10 V, IC = 10 mA

0.267

0.534

0.773

0.912

0.984

1.023

1.038

1.044

1.045

1.048

1.084

29.113

23.790

20.566

18.320

16.309

13.826

12.288

11.116

10.104

9.263

100

200

.63

.56

.47

.45

.47

.48

.50

.51

.52

.54

-58

-98

20.38

15.27

8.90

6.48

4.66

3.89

3.13

2.86

2.41

2.30

1.97

145

119

98

87

76

69

61

54

48

42

36

.025

.039

.062

.073

.091

.109

.126

.143

.160

.181

.191

58

60

44

50

49

50

48

44

46

42

41

.81

.61

.39

.30

.25

.21

.18

.17

.14

.12

-31

-45

-57

-60

-63

-68

-71

-80

-88

-99

-113

400

600

-139

-164

180

168

157

152

143

136

130

800

1000

1200

1400

1600

1800

2000

8.371

VCE = 10 V, IC = 20 mA

100

200

.53

.47

.43

.44

.45

.46

.48

.50

.51

.52

.55

-82

-121

-157

-177

170

161

152

147

139

133

127

25.86

17.23

9.44

6.74

4.82

4.01

3.23

2.95

2.48

2.36

2.02

136

110

92

83

74

67

39

53

47

41

36

.021

.033

.051

.069

.090

.107

.127

.149

.164

.187

.197

35

61

50

57

55

54

50

45

44

.72

.48

.30

.23

.20

.16

.14

.13

.10

.09

-41

-51

-58

-60

-61

-66

-71

-80

-91

0.435

0.711

0.905

0.971

1.024

1.044

1.028

1.035

1.038

1.030

1.055

30.904

25.017

21.298

18.616

15.561

13.619

12.483

11.252

10.206

9.506

400

600

800

1000

1200

1400

1600

1800

2000

-104

-121

8.680

Note:

1. Gain Calculations:

2

1 + | ∆ |²- |S11

|

²- |S22

|

|S21

|S12

|

K ²- 1 ). _{When K ≤ 1, MAG is undefined and MSG values are used.}

∆ = S11 S22 - S21 S12

|S21

|S12

|

(

K ±

MAG =

MSG =

, K =

,

2 |S12

S21|

MAG = Maximum Available Gain, MSG = Maximum Stable Gain

NE021 SERIES

OUTLINE DIMENSIONS (Units in mm)

NE02100 (CHIP)

PACKAGE OUTLINE 07

E

0.35±0.01

0.30

MARKING

C

0.29

5.0 MIN (ALL LEADS)

0.23

0.052

B

0.5±0.07

45˚

0.35±0.01

EMITTER

BASE

INTERNAL

CODE

MONTH INDICATOR

YEAR INDICATOR

0.094

0.106

E

1.0±0.1

0.07φ

+0.4

2.5

-0.2

+0.06

-0.03

0.1

+0.4

-0.2

1.3

*07B has emitter and base reversed..

PACKAGE OUTLINE 33

RECOMMENDED P.C.B. LAYOUT

+0.2

-0.3

2.8

2.4

2

0.95

2.9 ± 0.2

2

+0.10

-0.05

(ALL LEADS)

0.4

1.9

3

1

+0.2

-0.1

+0.10

-0.15

1.9

1.5

0.65

0.95

LEAD

CONNECTIONS

0.8

1.1 to 1.4

0.8

1. Emitter

2. Base

1

1.0

3. Collector

+0.10

-0.06

0 to 0.1

0.16

NE021 SERIES

PACKAGE OUTLINE 35

(MICRO-X)

E

3.8 MIN

ALL LEADS

0.5±0.06

B

C

45˚

E

2.55±0.2

φ2.1

+0.06

0.1

-0.04

1.8 MAX

0.55

PACKAGE OUTLINE 39

RECOMMENDED P.C.B. LAYOUT

(SOT-23)

+0.2

-0.3

2.8

+0.10

+0.2

-0.1

2.4

0.4

-0.05

(LEADS 2, 3, 4)

1.5

3

2

1

3

4

2

2.9 ± 0.2 0.95

1.9

0.85

1.9

+0.10

-0.05

0.6

1.0

+0.2

-0.1

1.1

0.8

+0.10

0.16

-0.06

1

4

1.0

5˚

LEAD

0 to 0.1

CONNECTIONS

1. Collector

2. Emitter

3. Base

4. Emitter

ORDERING INFORMATION

PART NUMBER

NE02100

QUANTITY

PACKAGING

100

1

Waffle Pack

Hard Pack

Tape & Reel

ESD Bag

NE02107/NE02107B

NE02133-T1B

NE02135

3000

1

NE02139-T1

3000

Tape & Reel

Life Support Applications

These NEC products are not intended for use in life support devices, appliances, or systems where the malfunction of these products can reasonably be expected

to result in personal injury. The customers of CEL using or selling these products for use in such applications do so at their own risk and agree to fully indemnify

CEL for all damages resulting from such improper use or sale.

08/05/2002

A Business Partner of NEC Compound Semiconductor Devices, Ltd.


型号：	NE02133-T1B
厂家：	ETC
描述：	NECs NPN SILICON HIGH FREQUENCY TRANSISTOR NEC的NPN硅高频三极管
文件：	总12页 (文件大小：172K)
中文：	中文翻译
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NE02133-T1B [ETC]

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