AT-32011-BLK - Agilent / Hewlett-Packard

Low Current, High Performance

NPN Silicon Bipolar Transistor

Technical Data

Features

• High Performance Bipolar

Transistor Optimized for

Low Current, Low Voltage

Operation

• 900 MHz Performance:

AT-32011: 1 dB NF, 14 dB GA

AT-32033: 1 dB NF, 12.5 dB GA

• Characterized for End-Of-

Life Battery Use (2.7 V)

• SOT-23 and SOT-143 SMT

Plastic Packages

• Tape-And-Reel Packaging

Option Available[1]

Description

Agilent’s AT-32011 and AT-32033

are high performance NPN bipolar

transistors that have been

optimized for maximum ft at low

voltage operation, making them

ideal for use in battery powered

applications in wireless markets.

The AT-32033 uses the 3 lead SOT-

23, while the AT-32011 places the

same die in the higher

performance 4 lead SOT-143. Both

packages are industry standard,

and compatible with high volume

surface mount assembly

techniques.

The 3.2 micron emitter-to-emitter

pitch and reduced parasitic design

of these transistors yields

extremely high performance

products that can perform a

multiplicity of tasks. The

20 emitter finger interdigitated

geometry yields an easy to match

to and extremely fast transistor

with moderate power, low noise

resistance, and low operating

currents.

Optimized performance at 2.7 V

makes these devices ideal for use

in 900 MHz, 1.8 GHz, and 2.4 GHz

battery operated systems as an

LNA, gain stage, buffer, oscillator,

or active mixer. Typical amplifier

designs at 900 MHz yield 1.2 dB

noise figures with 12 dB or more

associated gain at a 2.7 V, 2 mA

bias, with noise performance

being relatively insensitive to

input match. High gain capability

at 1 V, 1 mA makes these devices a

good fit for 900 MHz pager

applications. Voltage breakdowns

are high enough for use at 5 volts.

The AT-3 series bipolar transistors

are fabricated using an optimized

version of Agilent’s 10 GHz ft, 30

GHz f MAX Self-Aligned-Transistor

(SAT) process. The die are nitride

passivated for surface protection.

Excellent device uniformity,

performance and reliability are

produced by the use of ion-

implantation, self-alignment

techniques, and gold metalization

in the fabrication of these devices.

AT-32011

AT-32033

BASE EMITTER

EMITTER COLLECTOR

BASE EMITTER

COLLECTOR

320

SOT-23 (AT-32033)

SOT-143 (AT-32011)

Note:

1. Refer to “Tape-and-Reel Packaging for Semiconductor Devices.”

Outline Drawing

Electrical Specifications, TA = 25°C

AT-32011 AT-32033

Symbol Parameters and Test Conditions Units Min. Typ. Max. Min. Typ. Max.

NF Noise Figure

VCE = 2.7 V, IC = 2 mA f = 0.9 GHz dB 1.0[1] 1.3[1] 1.0[2] 1.3[2]

GAAssociated Gain

VCE = 2.7 V, IC = 2 mA f = 0.9 GHz dB 12.5[1] 14[1] 11[2] 12.5[2]

hFE Forward Current Transfer Ratio

VCE = 2.7 V, IC = 2 mA – 70 300 70 300

ICBO Collector Cutoff Current

VCB = 3 V µA 0.2 0.2

IEBO Emitter Cutoff Current

VEB = 1 V µA 1.5 1.5

Notes:

1. Test circuit A, Figure 1. Numbers reflect device performance de-embedded from circuit losses. Input loss = 0.3 dB;

output loss = 0.3 dB.

2. Test circuit B, Figure 1. Numbers reflect device performance de-embedded from circuit losses. Input loss = 0.3 dB;

output loss = 0.3 dB.

AT-32011, AT-32033 Absolute Maximum Ratings

Absolute

Symbol Parameter Units Maximum[1]

VEBO Emitter-Base Voltage V 1.5

VCBO Collector-Base Voltage V 11

VCEO Collector-Emitter Voltage V 5.5

ICCollector Current mA 32

PTPower Dissipation[2, 3] mW 200

TjJunction Temperature °C 150

TSTG Storage Temperature °C -65 to 150

Thermal Resistance[2]:

θjc = 550 °C/W

Notes:

1. Operation of this device above any one

of these parameters may cause permanent

damage.

2. TMounting Surface = 25°C.

3. Derate at 1.82 mW/°C for TC > 40°C.

1000 pF V

W = 10 L = 1870

W = 10

CKT A: L = 380

CKT B: L = 380

W = 30

L = 60

W = 10 L = 1870

1000 pF

W = 10

CKT A: L = 105

CKT B: L = 850

CKT A: W = 30 L = 50 x 2

CKT B: W = 30 L = 60

TEST CIRCUIT

BOARD MATL = 0.062" FR-4 (ε = 4.8)

RF IN

W = 30

L = 60

CKT A: 25 Ω

CKT B: 5 Ω

RF OUT

NOT TO SCALE

DIMENSIONS IN MILS

Figure 1. Test Circuit for Noise Figure and Associated Gain.

This circuit is a compromise match between best noise figure, best gain, stability, and a practical

synthesizable match.

Characterization Information, TA = 25°C

AT-32011 AT-32033

Symbol Parameters and Test Conditions Units Typ. Typ.

P1dB Power at 1 dB Gain Compression (opt tuning)

VCE = 2.7 V, IC = 20 mA f = 0.9 GHz dBm 13 13

G1dB Gain at 1 dB Gain Compression (opt tuning)

VCE = 2.7 V, IC = 20 mA f = 0.9 GHz dB 16.5 15

IP3Output Third Order Intercept Point (opt tuning)

VCE = 2.7 V, IC = 20 mA f = 0.9 GHz dBm 24 24

|S21|E2Gain in 50 Ω System

VCE = 2.7 V, IC = 2 mA f = 0.9 GHz dB 13 11.5

NOISE FIGURE (dB)

FREQUENCY (GHz)

1 1.5

0.5

0.5 2.5

1.5

1 mA

2 mA

5 mA

10 mA

20 mA

Ga (dB)

FREQUENCY (GHz)

1.0 1.5

0.5 2.5

2.0

1 mA

2 mA

5 mA

10 mA

20 mA

Ga (dB)

FREQUENCY (GHz)

1.0 1.5

0.5 2.5

2.0

1 mA

2 mA

5 mA

10 mA

20 mA

Figure 4. AT-32033 Associated Gain at

Optimum Noise Match vs. Frequency

and Current at VCE = 2.7 V.

Figure 2. AT-32011 and AT-32033

Minimum Noise Figure vs. Frequency

and Current at VCE = 2.7 V.

Figure 3. AT-32011 Associated Gain at

Optimum Noise Match vs. Frequency

and Current at VCE = 2.7 V.

Figure 6. AT-32011 1 dB Compressed

Gain vs. Frequency and Current at

VCE = 2.7 V.

Figure 5. AT-32011 and AT-32033

Power at 1 dB Gain Compression vs.

Frequency and Current at VCE = 2.7 V.

Figure 7. AT-32033 1 dB Compressed

Gain vs. Frequency and Current at

VCE = 2.7 V.

P 1dB (dBm)

-5

FREQUENCY (GHz)

1.0 1.5

0.5 2.5

2.0

2 mA

5 mA

10 mA

20 mA

G 1dB (dB)

FREQUENCY (GHz)

1.0 1.5

0.5 2.5

2.0

2 mA

5 mA

10 mA

20 mA

G 1dB (dB)

FREQUENCY (GHz)

1.0 1.5

0.5 2.5

2.0

2 mA

5 mA

10 mA

20 mA

Ga (dBm)

-50

TEMPERATURE (°C)

0 100

2.5

1.0

0.5

1.5

2.0

NOISE FIGURE (dB)

Ga (dBm)

-50

TEMPERATURE (°C)

0 100

2.5

1.0

0.5

1.5

2.0

NOISE FIGURE (dB)

IP3 (dBm)

FREQUENCY (MHz)

1.0 1.5

0.5 2.5

2.0

2 mA

5 mA

10 mA

20 mA

Figure 14. AT-32011 Noise Figure and

Associated Gain at VCE = 2.7 V,

IC= 2 mA vs. Temperature in Test

Circuit, Figure 1. (Circuit Losses

De-embedded).

Figure 15. AT-32033 Noise Figure and

Associated Gain at VCE = 2.7 V,

IC= 2 mA vs. Temperature in Test

Circuit, Figure 1. (Circuit Losses

De-embedded).

Figure 16. AT-32011 and AT-32033

Third Order Intercept vs. Frequency

and Bias at VCE = 2.7 V, with Optimal

Tuning.

P 1dB (dBm)

-5

FREQUENCY (GHz)

1.0 1.5

-2.5

0.5 2.5

2.5

2.0

7.5

2 mA

5 mA

G 1dB (dB)

FREQUENCY (GHz)

1.0 1.5

0.5 2.5

2.0

2 mA

5 mA

G 1dB (dB)

FREQUENCY (GHz)

1.0 1.5

0.5 2.5

2.0

2 mA

5 mA

Figure 11. AT-32011 and AT-32033

Power at 1 dB Gain Compression vs.

Frequency and Current at VCE = 1 V.

Figure 12. AT-32011 1 dB Compressed

Gain vs. Frequency and Current at

VCE = 1 V.

Figure 13. AT-32033 1 dB Compressed

Gain vs. Frequency and Current at

VCE = 1 V.

Figure 8. AT-32011 and AT-32033

Power at 1 dB Gain Compression vs.

Frequency and Current at VCE = 5 V.

Figure 9. AT-32011 1 dB Compressed

Gain vs. Frequency and Current at

VCE = 5 V.

Figure 10. AT-32033 1 dB Compressed

Gain vs. Frequency and Current at

VCE = 5 V.

P 1dB (dBm)

-5

FREQUENCY (GHz)

1.0 1.5

0.5 2.5

2.0

2 mA

5 mA

10 mA

20 mA

G 1dB (dB)

FREQUENCY (GHz)

1.0 1.5

0.5 2.5

2.0

2 mA

5 mA

10 mA

20 mA

G 1dB (dB)

FREQUENCY (GHz)

1.0 1.5

0.5 2.5

2.0

2 mA

5 mA

10 mA

20 mA

AT-32011, AT-32033 Typical Performance

AT-32011 Typical Scattering Parameters, Common Emitter, Zo = 50 Ω VCE = 1 V, IC = 1 mA

Freq. S11 S21 S12 S22

GHz Mag Ang dB Mag Ang dB Mag Ang Mag Ang

0.1 0.97 -11 11.09 3.59 172 -33.55 0.021 83 0.99 -5

0.5 0.88 -52 10.13 3.21 141 -20.85 0.091 59 0.92 -21

0.9 0.78 -86 8.67 2.71 117 -17.62 0.132 41 0.82 -32

1.0 0.75 -94 8.35 2.62 112 -17.27 0.137 37 0.79 -35

1.5 0.67 -127 6.35 2.08 89 -16.30 0.153 23 0.71 -45

1.8 0.63 -144 5.25 1.83 77 -16.28 0.154 16 0.67 -50

2.0 0.61 -155 4.75 1.73 70 -16.42 0.151 13 0.65 -53

2.4 0.59 -175 3.48 1.49 57 -16.86 0.144 9 0.62 -59

3.0 0.59 157 1.77 1.23 40 -17.89 0.128 8 0.61 -68

4.0 0.63 120 -0.39 0.96 18 -18.40 0.120 23 0.59 -84

5.0 0.69 94 -2.39 0.76 0 -15.60 0.166 35 0.59 -104

AT-32033 Typical Noise Parameters,

Common Emitter, Zo = 50 Ω, 1 V, IC = 1 mA

Freq. Fmin Rn

GHz dB Mag Ang –

0.5[1] 0.42 0.87 25 0.48

0.9 0.71 0.73 55 0.34

1.8 1.37 0.42 143 0.11

2.4 1.80 0.50 -162 0.07

Note:

1. 0.5 GHz noise parameter values are extrapolated, not measured.

Γopt

AT-32033 Typical Scattering Parameters, Common Emitter, Zo = 50 Ω V CE = 1 V, IC = 1 mA

Freq. S11 S21 S12 S22

GHz Mag Ang dB Mag Ang dB Mag Ang Mag Ang

0.1 0.97 -11 11.09 3.58 170 -32.75 0.023 83 0.99 -5

0.5 0.81 -52 9.88 3.12 134 -20.30 0.097 60 0.90 -22

0.9 0.61 -87 8.07 2.53 107 -17.57 0.132 46 0.78 -33

1.0 0.56 -95 7.65 2.41 101 -17.24 0.137 44 0.76 -35

1.5 0.41 -136 5.43 1.87 77 -16.61 0.148 39 0.68 -42

1.8 0.36 -160 4.30 1.64 66 -16.36 0.152 41 0.65 -46

2.0 0.34 -177 3.74 1.54 59 -16.05 0.158 44 0.63 -49

2.4 0.34 154 2.49 1.33 47 -15.10 0.176 49 0.61 -55

3.0 0.38 119 0.96 1.12 32 -12.77 0.230 55 0.59 -65

4.0 0.46 81 -0.84 0.91 15 -8.68 0.368 50 0.56 -87

5.0 0.51 56 -1.90 0.80 5 -5.68 0.520 37 0.51 -114

GAIN (dB)

-5

FREQUENCY (GHz)

15 MSG

MAG

S21 MSG

Figure 18. AT-32033 Gains vs.

Frequency at VCE = 1 V, IC= 1 mA.

AT-32011 Typical Noise Parameters,

Common Emitter, Zo = 50 Ω, 1 V, IC = 1 mA

Freq. Fmin Rn

GHz dB Mag Ang –

0.5[1] 0.42 0.79 26 0.44

0.9 0.71 0.70 54 0.35

1.8 1.37 0.53 119 0.18

2.4 1.80 0.55 158 0.08

Note:

1. 0.5 GHz noise parameter values are extrapolated, not measured.

Γopt

GAIN (dB)

-5

FREQUENCY (GHz)

15 MSG

MAG

S21

Figure 17. AT-32011 Gains vs.

Frequency at VCE = 1 V, IC= 1 mA.

AT-32011 Typical Scattering Parameters, Common Emitter, Zo = 50 Ω VCE = 2.7 V, IC = 2 mA

Freq. S11 S21 S12 S22

GHz Mag Ang dB Mag Ang dB Mag Ang Mag Ang

0.1 0.94 -13 16.67 6.81 170 -35.25 0.017 82 0.99 -6

0.5 0.80 -60 15.10 5.69 136 -23.07 0.070 57 0.86 -24

0.9 0.67 -97 12.97 4.45 112 -20.34 0.096 41 0.73 -35

1.0 0.64 -104 12.48 4.21 107 -20.05 0.099 39 0.70 -37

1.5 0.55 -137 10.04 3.18 86 -19.21 0.110 30 0.61 -45

1.8 0.51 -154 8.77 2.75 76 -19.04 0.112 28 0.58 -49

2.0 0.50 -165 8.13 2.55 70 -18.99 0.112 27 0.56 -52

2.4 0.48 176 6.75 2.18 58 -18.84 0.114 27 0.54 -57

3.0 0.49 150 4.97 1.77 43 -18.52 0.119 30 0.52 -64

4.0 0.54 116 2.73 1.37 22 -16.98 0.142 36 0.50 -77

5.0 0.61 92 0.83 1.10 4 -14.50 0.188 37 0.50 -95

AT-32011 Typical Noise Parameters,

Common Emitter, Zo = 50 Ω, 2.7 V, IC = 2 mA

Freq. Fmin Rn

GHz dB Mag Ang –

0.5[1] 0.57 0.69 22 0.30

0.9 0.78 0.60 51 0.25

1.8 1.25 0.42 117 0.14

2.4 1.57 0.44 159 0.08

Note:

1. 0.5 GHz noise parameter values are extrapolated, not measured.

Γopt

AT-32033 Typical Scattering Parameters, Common Emitter, Zo = 50 Ω VCE = 2.7 V, IC = 2 mA

Freq. S11 S21 S12 S22

GHz Mag Ang dB Mag Ang dB Mag Ang Mag Ang

0.1 0.93 -13 16.61 6.77 167 -34.89 0.018 82 0.99 -6

0.5 0.68 -56 14.29 5.18 127 -23.10 0.070 61 0.83 -22

0.9 0.44 -86 11.48 3.75 101 -20.35 0.096 55 0.71 -30

1.0 0.39 -93 10.88 3.50 96 -19.91 0.101 54 0.70 -31

1.5 0.23 -129 8.16 2.56 76 -17.99 0.126 55 0.64 -36

1.8 0.18 -156 6.89 2.21 66 -16.89 0.143 57 0.62 -39

2.0 0.16 -176 6.19 2.04 60 -16.14 0.156 57 0.61 -42

2.4 0.17 146 4.91 1.76 50 -14.70 0.184 58 0.60 -47

3.0 0.22 108 3.35 1.47 36 -12.51 0.237 57 0.58 -56

4.0 0.32 76 1.51 1.19 18 -9.19 0.347 51 0.55 -73

5.0 0.40 56 0.17 1.02 4 -6.54 0.471 40 0.51 -95

AT-32033 Typical Noise Parameters,

Common Emitter, Zo = 50 Ω, 2.7 V, IC = 2 mA

Freq. Fmin Rn

GHz dB Mag Ang –

0.5[1] 0.57 0.77 15 0.36

0.9 0.78 0.63 49 0.28

1.8 1.25 0.32 136 0.10

2.4 1.57 0.40 -159 0.08

Note:

1. 0.5 GHz noise parameter values are extrapolated, not measured.

Γopt

GAIN (dB)

FREQUENCY (GHz)

MSG

MAG

S21

Figure 19. AT-32011 Gains vs.

Frequency at VCE = 2.7 V, IC= 2 mA.

GAIN (dB)

FREQUENCY (GHz)

MSG

MAG

S21 MSG

Figure 20. AT-32033 Gains vs.

Frequency at VCE = 2.7 V, IC= 2 mA.

AT-32011 Typical Scattering Parameters, Common Emitter, Zo = 50 Ω VCE = 2.7 V , IC = 20 mA

Freq. S11 S21 S12 S22

GHz Mag Ang dB Mag Ang dB Mag Ang Mag Ang

0.1 0.52 -49 31.08 35.79 149 -37.78 0.013 72 0.83 -22

0.5 0.36 -138 22.96 14.06 102 -28.93 0.036 62 0.40 -42

0.9 0.34 -168 18.33 8.25 86 -25.15 0.055 64 0.31 -42

1.0 0.34 -174 17.46 7.47 83 -24.41 0.060 64 0.30 -42

1.5 0.34 165 14.13 5.09 71 -21.35 0.086 63 0.28 -45

1.8 0.34 155 12.61 4.27 64 -19.92 0.101 61 0.28 -49

2.0 0.35 148 11.74 3.86 60 -19.08 0.111 60 0.27 -52

2.4 0.36 136 10.23 3.25 52 -17.60 0.132 57 0.27 -58

3.0 0.39 120 8.38 2.62 40 -15.86 0.161 51 0.26 -67

4.0 0.45 98 6.00 2.00 23 -13.68 0.207 42 0.24 -84

5.0 0.52 82 4.25 1.63 7 -11.93 0.253 32 0.23 -106

AT-32011 Typical Noise Parameters,

Common Emitter, Zo = 50 Ω, 2.7 V, IC = 20 mA

Freq. Fmin Rn

GHz dB Mag Ang –

0.5[1] 1.39 0.15 65 0.16

0.9 1.51 0.14 105 0.13

1.8 1.78 0.28 -164 0.12

2.4 1.96 0.40 -142 0.13

Note:

1. 0.5 GHz noise parameter values are extrapolated, not measured.

Γopt

GAIN (dB)

FREQUENCY (GHz)

MAG

S21 MSG

MSG

Figure 21. AT-32011 Gains vs.

Frequency at VCE = 2.7 V, IC= 20 mA.

AT-32033 Typical Scattering Parameters, Common Emitter, Zo = 50 Ω VCE = 2. 7 V, IC = 20 mA

Freq. S11 S21 S12 S22

GHz Mag Ang dB Mag Ang dB Mag Ang Mag Ang

0.1 0.50 -35 29.84 31.03 137 -37.08 0.014 77 0.79 -18

0.5 0.16 -52 19.58 9.53 94 -25.35 0.054 77 0.53 -20

0.9 0.08 -36 14.81 5.50 81 -20.63 0.093 75 0.50 -24

1.0 0.07 -31 13.96 4.99 78 -19.66 0.104 74 0.50 -25

1.5 0.06 12 10.71 3.43 66 -16.31 0.153 69 0.49 -31

1.8 0.07 31 9.31 2.92 60 -14.75 0.183 66 0.48 -35

2.0 0.08 40 8.50 2.66 56 -13.85 0.203 63 0.47 -38

2.4 0.11 48 7.16 2.28 48 -12.32 0.242 59 0.46 -44

3.0 0.15 53 5.62 1.91 37 -10.49 0.299 52 0.43 -54

4.0 0.21 52 3.86 1.56 20 -8.11 0.393 41 0.39 -71

5.0 0.26 48 2.61 1.35 6 -6.34 0.482 29 0.33 -91

AT-32033 Typical Noise Parameters,

Common Emitter, Zo = 50 Ω, 2.7 V, IC = 20 mA

Freq. Fmin Rn

GHz dB Mag Ang –

0.5[1] 1.39 0.15 45 0.28

0.9 1.51 0.12 100 0.22

1.8 1.78 0.28 -135 0.14

2.4 1.96 0.46 -107 0.22

Note:

1. 0.5 GHz noise parameter values are extrapolated, not measured.

Γopt

GAIN (dB)

FREQUENCY (GHz)

S21 MSG

MAG

MSG

Figure 22. AT-32033 Gains vs.

Frequency at VCE = 2.7 V, IC= 20 mA.

AT-32011 Typical Noise Parameters,

Common Emitter, Zo = 50 Ω, 2.7 V, IC = 2 mA

Freq. Fmin Rn

GHz dB Mag Ang –

0.5[1] 0.52 0.73 20 0.34

0.9 0.75 0.63 49 0.28

1.8 1.26 0.44 111 0.16

2.4 1.60 0.45 153 0.09

Note:

1. 0.5 GHz noise parameter values are extrapolated, not measured.

AT-32011 Typical Scattering Parameters, Common Emitter, Zo = 50 Ω VCE = 5 V, IC = 2 mA

Freq. S11 S21 S12 S22

GHz Mag Ang dB Mag Ang dB Mag Ang Mag Ang

0.1 0.95 -13 16.65 6.80 170 -35.84 0.016 82 0.99 -6

0.5 0.81 -57 15.18 5.74 137 -23.56 0.066 58 0.87 -23

0.9 0.68 -93 13.16 4.55 113 -20.72 0.092 43 0.74 -34

1.0 0.64 -100 12.69 4.31 109 -20.42 0.095 40 0.72 -36

1.5 0.55 -133 10.31 3.28 88 -19.49 0.106 32 0.63 -43

1.8 0.51 -150 9.05 2.84 78 -19.29 0.109 29 0.60 -47

2.0 0.49 -161 8.43 2.64 71 -19.22 0.109 28 0.58 -50

2.4 0.47 180 7.06 2.25 60 -19.03 0.112 29 0.55 -55

3.0 0.47 153 5.29 1.84 45 -18.72 0.116 31 0.54 -62

4.0 0.52 118 3.07 1.42 24 -17.19 0.138 37 0.52 -75

5.0 0.59 94 1.17 1.14 6 -14.73 0.183 38 0.51 -92

Γopt

GAIN (dB)

FREQUENCY (GHz)

MSG

MAG

S21

Figure 23. AT-32011 Gains vs.

Frequency at VCE = 5 V, IC= 2 mA.

AT-32033 Typical Scattering Parameters, Common Emitter, Zo = 50 Ω VCE = 5 V, IC = 2 mA

Freq. S11 S21 S12 S22

GHz Mag Ang dB Mag Ang dB Mag Ang Mag Ang

0.1 0.94 -13 16.56 6.73 167 -35.39 0.017 82 0.99 -5

0.5 0.69 -54 14.34 5.21 128 -23.74 0.065 62 0.85 -21

0.9 0.45 -82 11.62 3.81 102 -20.92 0.090 56 0.73 -28

1.0 0.40 -89 11.03 3.56 98 -20.35 0.096 55 0.72 -30

1.5 0.23 -121 8.33 2.61 77 -18.49 0.119 56 0.66 -35

1.8 0.17 -147 7.04 2.25 68 -17.39 0.135 58 0.65 -37

2.0 0.15 -167 6.36 2.08 62 -16.59 0.148 59 0.63 -40

2.4 0.14 151 5.06 1.79 51 -15.14 0.175 60 0.62 -44

3.0 0.20 109 3.52 1.50 37 -12.92 0.226 59 0.61 -53

4.0 0.31 76 1.66 1.21 19 -9.55 0.333 53 0.59 -70

5.0 0.38 55 0.26 1.03 5 -6.80 0.457 42 0.55 -90

AT-32033 Typical Noise Parameters,

Common Emitter, Zo = 50 Ω, 5 V, IC = 2 mA

Freq. Fmin Rn

GHz dB Mag Ang –

0.5[1] 0.52 0.79 15 0.42

0.9 0.75 0.65 48 0.30

1.8 1.26 0.33 127 0.11

2.4 1.60 0.39 -166 0.07

Note:

1. 0.5 GHz noise parameter values are extrapolated, not measured.

Γopt

GAIN (dB)

FREQUENCY (GHz)

MSG

MAG

S21 MSG

Figure 24. AT-32033 Gains vs.

Frequency at VCE = 5 V, IC= 2 mA.

AT-32011 Typical Scattering Parameters, Common Emitter, Zo = 50 Ω VCE = 5 V, IC = 20 mA

Freq. S11 S21 S12 S22

GHz Mag Ang dB Mag Ang dB Mag Ang Mag Ang

0.1 0.58 -43 31.28 36.64 151 -38.13 0.012 72 0.83 -21

0.5 0.35 -128 23.51 14.99 103 -29.05 0.035 62 0.42 -40

0.9 0.31 -161 18.93 8.84 87 -25.30 0.054 64 0.33 -40

1.0 0.30 -167 18.06 8.00 84 -24.57 0.059 64 0.32 -40

1.5 0.29 170 14.74 5.46 72 -21.50 0.084 63 0.30 -44

1.8 0.30 158 13.22 4.58 65 -20.06 0.099 61 0.29 -47

2.0 0.30 151 12.35 4.15 61 -19.23 0.109 60 0.29 -50

2.4 0.32 138 10.85 3.49 53 -17.77 0.129 57 0.28 -56

3.0 0.35 121 8.99 2.82 42 -16.03 0.158 52 0.27 -64

4.0 0.41 98 6.64 2.15 25 -13.85 0.203 42 0.25 -80

5.0 0.48 83 4.90 1.76 9 -12.12 0.248 33 0.24 -100

AT-32011 Typical Noise Parameters,

Common Emitter, Zo = 50 Ω, 5 V, IC = 20 mA

Freq. Fmin Rn

GHz dB Mag Ang –

0.5[1] 1.38 0.18 50 0.20

0.9 1.50 0.15 88 0.16

1.8 1.78 0.23 176 0.13

2.4 1.96 0.34 -156 0.12

Note:

1. 0.5 GHz noise parameter values are extrapolated, not measured.

Γopt

GAIN (dB)

FREQUENCY (GHz)

MAG

S21

MSG

Figure 25. AT-32011 Gains vs.

Frequency at VCE = 5 V, IC= 20 mA.

AT-32033 Typical Scattering Parameters, Common Emitter, Zo = 50 Ω VCE = 5 V, IC = 20 mA

Freq. S11 S21 S12 S22

GHz Mag Ang dB Mag Ang dB Mag Ang Mag Ang

0.1 0.55 -31 30.00 31.61 138 -37.72 0.013 78 0.81 -16

0.5 0.20 -44 19.91 9.90 95 -25.85 0.051 77 0.56 -19

0.9 0.13 -31 15.15 5.72 82 -21.01 0.089 75 0.53 -22

1.0 0.12 -28 14.30 5.19 79 -20.18 0.098 74 0.53 -23

1.5 0.10 -7 11.03 3.56 68 -16.77 0.145 69 0.52 -30

1.8 0.09 5 9.63 3.03 61 -15.19 0.174 66 0.51 -33

2.0 0.10 13 8.82 2.76 57 -14.33 0.192 64 0.50 -36

2.4 0.11 25 7.49 2.37 50 -12.77 0.230 60 0.49 -42

3.0 0.13 36 5.93 1.98 39 -10.90 0.285 54 0.47 -51

4.0 0.18 42 4.19 1.62 23 -8.50 0.376 43 0.42 -67

5.0 0.22 43 2.98 1.41 8 -6.65 0.465 31 0.37 -86

AT-32033 Typical Noise Parameters,

Common Emitter, Zo = 50 Ω, 5 V, IC = 20 mA

Freq. Fmin Rn

GHz dB Mag Ang –

0.5[1] 1.38 0.25 35 0.30

0.9 1.50 0.19 85 0.23

1.8 1.78 0.21 -150 0.14

2.4 1.96 0.39 -114 0.19

Note:

1. 0.5 GHz noise parameter values are extrapolated, not measured.

Γopt

GAIN (dB)

FREQUENCY (GHz)

S21 MSG

MAG

Figure 26. AT-32033 Gains vs.

Frequency at VCE = 5 V, IC= 20 mA.

Ordering Information

Part Number Increment Comments

AT-32011-BLK 100 Bulk

AT-32011-TR1 3000 7" Reel

AT-32033-BLK 100 Bulk

AT-32033-TR1 3000 7" Reel

Package Dimensions

SOT-143 Plastic Package SOT-23 Plastic Package

1.40 (0.055)

1.20 (0.047) 2.65 (0.104)

2.10 (0.083)

0.60 (0.024)

0.45 (0.018)

0.54 (0.021)

0.37 (0.015)

0.10 (0.004)

0.013 (0.0005)

1.02 (0.040)

0.89 (0.035)

2.04 (0.080)

1.78 (0.070)

DIMENSIONS ARE IN MILLIMETERS (INCHES)

0.152 (0.006)

0.066 (0.003)

0.69 (0.027)

0.45 (0.018)

3.06 (0.120)

2.80 (0.110)

1.02 (0.041)

0.85 (0.033)

XXX

PACKAGE

MARKING

CODE

SIDE VIEW END VIEW

TOP VIEW

DIMENSIONS ARE IN MILLIMETERS (INCHES)

0.10 (0.004)

0.013 (0.0005)

3.06 (0.120)

2.80 (0.110)

1.02 (0.041)

0.85 (0.033)

0.92 (0.036)

0.78 (0.031)

XXX

PACKAGE

MARKING

CODE 1.40 (0.055)

1.20 (0.047) 2.65 (0.104)

2.10 (0.083)

0.54 (0.021)

0.37 (0.015)

0.60 (0.024)

0.45 (0.018)

2.04 (0.080)

1.78 (0.070)

TOP VIEW

0.15 (0.006)

0.09 (0.003)

0.69 (0.027)

0.45 (0.018)

END VIEW

SIDE VIEW

www.semiconductor.agilent.com

Data subject to change.

5965-8920E (11/99)