Datasheet BFR96T Datasheet (Vishay Telefunken)

Silicon NPN Planar RF Transistor

Electrostatic sensitive device.
Observe precautions for handling.

Applications

RF amplifier up to GHz range specially for wide band
antenna amplifier.

Features

D

High power gain

D

Low noise figure

D

High transition frequency

3

2

BFR96T

Vishay Telefunken

94 9308

1

13623

BFR96T Marking: BFR96T
Plastic case (TO 50)
1 = Collector, 2 = Emitter, 3 = Base

Absolute Maximum Ratings

T

= 25_C, unless otherwise specified

amb

Parameter Test Conditions Symbol Value Unit
Collector-base voltage V
Collector-emitter voltage V
Emitter-base voltage V
Collector current I
Total power dissipation T

≤ 60 °C P

amb

Junction temperature T
Storage temperature range T

CBO
CEO
EBO

C
tot

j

stg

20 V
15 V

2.5 V
75 mA

500 mW
175

–65 to +150

Maximum Thermal Resistance

T

= 25_C, unless otherwise specified

amb

Parameter T est Conditions Symbol Value Unit

Junction ambient on glass fibre printed board (40 x 25 x 1.5) mm

plated with 35mm Cu

3

R

thJA

230 K/W

°

C

°

C

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BFR96T

Vishay Telefunken

Electrical DC Characteristics

T

= 25_C, unless otherwise specified

amb

Parameter Test Conditions Symbol Min Typ Max Unit
Collector cut-off current VCE = 20 V, VBE = 0 I
Collector-base cut-off current VCB = 10 V, IE = 0 I
Emitter-base cut-off current VEB = 2.5 V, IC = 0 I
Collector-emitter breakdown voltage IC = 5 mA, IB = 0 V
DC forward current transfer ratio VCE = 10 V, IC = 50 mA h

VCE = 10 V, IC = 75 mA h

Electrical AC Characteristics

T

= 25_C, unless otherwise specified

amb

Parameter Test Conditions Symbol Min Typ Max Unit
Transition frequency VCE = 10 V, IC = 50 mA, f = 500 MHz f
Collector-base capacitance VCB = 10 V, f = 1 MHz C
Collector-emitter capacitance VCE = 10 V, f = 1 MHz C
Emitter-base capacitance VEB = 0.5 V, f = 1 MHz C
Noise figure VCE = 10 V, IC = 50 mA, ZS = 50 W,

f = 500 MHz
VCE = 10 V, IC = 50 mA, ZS = 50 W,

f = 800 MHz

Power gain VCE = 10 V, IC = 50 mA, ZS = 50 W,

Z

Linear output voltage – two
tone intermodulation test

= Z

L

VCE = 10 V, IC = 50 mA, dIM = 60 dB,
f

= 806 MHz, f2 = 810 MHz,

1

ZS = ZL = 50

, f = 500 MHz

Lopt

W

Third order intercept point VCE = 10 V, IC = 50 mA, f = 800 MHz IP

F 3.3 dB

F 3.8 dB

G

V1 = V

CES
CBO
EBO

(BR)CEO

FE
FE

T
cb
ce
eb

pe

2

3

100mA
100 nA

10

m

A
15 V
25 75 150
25

4 5 GHz

0.85 pF

0.3 pF

3.0 pF

16 dB

400 mV

34 dBm

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Document Number 85036

Rev. 3, 20-Jan-99

Common Emitter S–Parameters

5

BFR96T

Vishay Telefunken

Z0 = 50 W,T

VCE/V IC/mA f/MHz

= 25_C, unless otherwise specified

amb

5 1000 0.572 166.4 2.05 62.8 0.117 53.4 0.411 –69.8

1200 0.565 157.4 1.73 55.8 0.135 56.4 0.425 –77.2
1500 0.548 145.6 1.39 46.7 0.167 59.2 0.454 –88.2
1800 0.532 134.3 1.18 38.4 0.202 59.9 0.489 –98.7
2000 0.512 128.1 1.07 33.9 0.222 59.6 0.510 –105.6

10 1000 0.529 161.3 2.44 63.4 0.129 62.1 0.294 –81.4

1200 0.520 153.8 2.06 57.1 0.153 62.3 0.308 –88.3
1500 0.505 143.3 1.66 48.6 0.190 61.2 0.336 –98.0
1800 0.493 133.1 1.41 40.8 0.226 59.3 0.367 –107.2
2000 0.475 127.1 1.28 36.1 0.244 57.9 0.387 –112.9

20 1000 0.502 158.5 2.71 63.7 0.139 66.6 0.226 –96.4

1200 0.496 151.3 2.28 57.6 0.166 65.1 0.242 –102.4
1500 0.479 141.6 1.85 49.8 0.205 62.2 0.269 –110.8
1800 0.470 131.7 1.56 42.5 0.242 58.9 0.297 –118.2
2000 0.458 126.3 1.42 37.6 0.259 56.8 0.315 –122.8

30 1000 0.494 157.0 2.81 63.7 0.144 68.1 0.205 –105.3

1200 0.486 150.3 2.36 57.8 0.170 65.9 0.221 –110.7
1500 0.473 140.9 1.92 50.0 0.210 62.6 0.247 –118.0
1800 0.461 131.1 1.62 42.8 0.247 58.9 0.274 –124.3
2000 0.447 126.0 1.47 38.2 0.266 56.5 0.291 –128.5

S11 S21 S12 S22

LIN

MAG

100 0.730 –69.4 12.04 139.0 0.046 58.6 0.812 –29.26
300 0.629 –136.2 6.26 102.7 0.073 41.3 0.506 –46.8
500 0.605 –162.0 3.98 86.6 0.084 42.5 0.425 –52.8
800 0.588 176.3 2.55 70.9 0.102 49.1 0.403 –62.6

100 0.592 –94.1 17.80 128.5 0.036 54.8 0.677 –41.8
300 0.554 –153.1 7.77 96.7 0.057 50.7 0.361 –58.7
500 0.544 –172.9 4.79 83.7 0.076 56.0 0.296 –64.5
800 0.541 170.1 3.04 70.3 0.107 60.8 0.285 –74.3

100 0.494 –121.1 22.50 119.1 0.027 56.4 0.538 –54.3
300 0.510 –166.2 8.77 92.6 0.050 62.3 0.260 –71.9
500 0.510 179.3 5.32 81.7 0.075 66.2 0.215 –79.1
800 0.511 165.9 3.37 69.9 0.113 67.2 0.214 –89.7

100 0.466 –135.8 24.37 114.8 0.023 59.1 0.468 –61.1
300 0.498 –171.8 9.13 91.0 0.049 67.3 0.222 –80.1
500 0.499 176.3 5.55 80.8 0.075 70.3 0.186 –88.4
800 0.497 164.1 3.48 69.7 0.116 69.5 0.191 –99.1

ANG

deg deg deg deg

LIN

MAG

ANG

LIN

MAG

ANG

LIN

MAG

ANG

Document Number 85036
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BFR96T

Vishay Telefunken

S1 1 S21 S12 S22

VCE/V IC/mA f/MHz

100 0.456 –144.1 25.30 112.3 0.021 62.7 0.426 –65.4
300 0.493 –174.8 9.30 90.0 0.048 70.6 0.201 –85.7
500 0.495 174.7 5.62 80.2 0.076 72.1 0.172 –94.8
800 0.494 163.0 3.54 69.5 0.118 70.5 0.181 –105.1

40 1000 0.491 156.3 2.84 63.5 0.146 68.7 0.195 –110.7

1200 0.485 149.4 2.40 57.7 0.173 66.4 0.212 –115.8
1500 0.469 140.9 1.94 50.0 0.213 62.5 0.238 –122.5
1800 0.459 131.1 1.64 42.9 0.251 58.8 0.264 –128.1
2000 0.448 126.1 1.49 38.1 0.269 56.4 0.281 –132.0

100 0.454 –150.0 25.82 110.6 0.021 63.6 0.398 –68.4
300 0.491 –176.4 9.37 89.4 0.048 72.3 0.189 –89.5
500 0.494 173.6 5.66 79.9 0.077 73.2 0.164 –99.0
800 0.492 162.4 3.56 69.2 0.119 71.2 0.175 –108.9

5 50 1000 0.488 155.6 2.86 63.4 0.147 69.1 0.190 –114.4

1200 0.482 149.2 2.41 57.6 0.174 66.7 0.207 –119.0
1500 0.471 140.7 1.96 50.0 0.215 62.7 0.233 –125.1
1800 0.461 130.7 1.65 42.8 0.253 58.8 0.258 –130.5
2000 0.449 125.4 1.49 38.2 0.271 56.2 0.274 –134.2

100 0.459 –156.8 26.13 108.5 0.019 66.9 0.360 –72.3
300 0.492 –178.9 9.34 88.5 0.048 74.6 0.174 –94.5
500 0.493 172.1 5.64 79.4 0.077 74.6 0.155 –104.3
800 0.497 161.6 3.54 68.7 0.120 71.8 0.169 –113.5

70 1000 0.494 155.2 2.85 62.8 0.149 69.5 0.185 –118.5

1200 0.489 148.8 2.40 57.2 0.176 67.0 0.202 –122.6
1500 0.472 140.1 1.94 49.7 0.217 62.8 0.228 –128.3
1800 0.464 130.5 1.64 42.5 0.255 58.8 0.254 –133.3
2000 0.451 125.6 1.48 38.0 0.273 56.3 0.270 –136.6

LIN

MAG

ANG

deg deg deg deg

LIN

MAG

ANG

LIN

MAG

ANG

LIN

MAG

ANG

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Document Number 85036

Rev. 3, 20-Jan-99

BFR96T

Vishay Telefunken

S1 1 S21 S12 S22

VCE/V IC/mA f/MHz

100 0.743 –65.5 12.28 140.5 0.041 59.8 0.830 –26.3
300 0.623 –132.2 6.55 104.2 0.068 42.7 0.540 –42.3
500 0.592 –159.2 4.19 87.9 0.079 43.9 0.458 –47.4
800 0.574 178.5 2.70 72.1 0.096 50.3 0.436 –56.4

5 1000 0.561 167.5 2.17 64.1 0.111 54.8 0.440 –63.4

1200 0.551 159.1 1.83 57.2 0.128 57.7 0.453 –70.4
1500 0.533 147.2 1.47 48.0 0.158 60.7 0.480 –81.2
1800 0.517 135.4 1.24 39.7 0.192 61.6 0.513 –91.6
2000 0.502 128.9 1.13 35.1 0.211 61.5 0.534 –98.3

100 0.603 –87.6 18.43 130.2 0.033 56.5 0.701 –37.5
300 0.536 –149.1 8.23 97.9 0.054 51.6 0.392 –51.8
500 0.524 –170.0 5.10 84.8 0.072 56.8 0.326 –56.3
800 0.517 172.3 3.24 71.5 0.101 61.5 0.312 –65.2

10 10 1000 0.506 163.4 2.60 64.5 0.123 63.0 0.319 –72.1

1200 0.499 155.3 2.19 58.1 0.145 63.2 0.332 –78.9
1500 0.486 144.9 1.77 49.7 0.180 62.3 0.356 –88.9
1800 0.478 134.3 1.49 41.9 0.215 60.6 0.386 –98.2
2000 0.462 128.8 1.36 37.4 0.234 59.3 0.406 –104.1

100 0.492 –113.0 23.61 120.8 0.026 57.0 0.561 –48.5
300 0.485 –162.2 9.35 93.7 0.048 62.0 0.284 –61.5
500 0.482 –178.0 5.71 82.7 0.071 66.2 0.237 –66.6
800 0.481 168.0 3.60 70.9 0.108 67.5 0.233 –76.4

20 1000 0.475 160.0 2.89 64.7 0.133 67.1 0.242 –83.4

1200 0.470 153.1 2.44 58.8 0.158 65.8 0.256 –89.8
1500 0.456 143.7 1.97 50.8 0.195 63.0 0.281 –99.0
1800 0.449 133.7 1.67 43.5 0.231 60.1 0.309 –107.0
2000 0.432 128.5 1.51 38.8 0.249 57.9 0.326 –112.2

LIN

MAG

ANG

deg deg deg deg

LIN

MAG

ANG

LIN

MAG

ANG

LIN

MAG

ANG

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BFR96T

Vishay Telefunken

S1 1 S21 S12 S22

VCE/V IC/mA f/MHz

100 0.454 –126.2 25.82 116.2 0.023 59.1 0.486 –54.5
300 0.468 –167.9 9.78 91.8 0.047 67.0 0.239 –67.1
500 0.466 179.0 5.94 81.7 0.072 70.0 0.201 –73.0
800 0.469 166.4 3.74 70.6 0.111 69.6 0.203 –83.3

30 1000 0.463 159.0 3.01 64.5 0.136 68.4 0.214 –90.1

1200 0.458 152.0 2.53 58.8 0.162 66.5 0.229 –96.4
1500 0.444 143.0 2.05 51.1 0.201 63.2 0.254 –104.9
1800 0.438 133.0 1.73 43.6 0.238 59.8 0.281 –112.3
2000 0.423 127.9 1.57 39.3 0.255 57.5 0.298 –117.1

100 0.438 –134.3 26.90 113.5 0.021 61.3 0.441 –57.8
300 0.460 –171.0 9.97 90.8 0.046 70.0 0.214 –70.6
500 0.459 177.1 6.04 81.1 0.073 71.7 0.183 –77.0
800 0.463 165.5 3.80 70.3 0.113 70.4 0.188 –87.5

10 40 1000 0.455 158.0 3.05 64.4 0.139 68.9 0.201 –94.3

1200 0.453 152.0 2.57 58.9 0.165 66.9 0.216 –100.3
1500 0.439 142.9 2.08 51.0 0.204 63.3 0.241 –108.3
1800 0.435 133.3 1.76 43.8 0.240 59.7 0.268 –115.3
2000 0.423 127.6 1.59 39.1 0.258 57.3 0.285 –119.7

100 0.431 –140.0 27.51 111.5 0.020 62.5 0.410 –60.4
300 0.454 –172.7 10.04 90.0 0.046 71.5 0.198 –72.8
500 0.456 176.4 6.08 80.7 0.073 72.7 0.171 –79.5
800 0.460 164.9 3.81 70.0 0.114 71.0 0.179 –90.1

50 1000 0.456 158.2 3.06 64.2 0.140 69.2 0.193 –96.7

1200 0.453 151.5 2.59 58.5 0.167 67.0 0.209 –102.5
1500 0.443 142.6 2.09 51.1 0.205 63.3 0.234 –110.3
1800 0.437 132.9 1.76 43.8 0.242 59.7 0.261 –116.9
2000 0.423 128.1 1.60 39.4 0.259 57.2 0.278 –121.3

LIN

MAG

ANG

deg deg deg deg

LIN

MAG

ANG

LIN

MAG

ANG

LIN

MAG

ANG

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Document Number 85036

Rev. 3, 20-Jan-99

BFR96T

Vishay Telefunken

Typical Characteristics (T

600

500

400

300

200

100

tot

P – Total Power Dissipation ( mW )

0

0 40 80 120 160 200

T

– Ambient Temperature ( °C )13592

amb

Figure 1. Total Power Dissipation vs.

Ambient Temperature

7000

6000

5000

4000

= 25_C unless otherwise specified)

amb

2.0

1.6

1.2

0.8

0.4

cb

C – Collector Base Capacitance ( pF )

0

0 4 8 12 16 20

VCB – Collector Base Voltage ( V )13594

Figure 3. Collector Base Capacitance vs.

Collector Base Voltage

5

4

3

f=800MHz

f=1MHz

3000

2000

1000

T

f – Transition Frequency ( MHz )

0

0 10203040506070

IC – Collector Current ( mA )13593

VCE=10V

f=500MHz

Figure 2. Transition Frequency vs. Collector Current

2

F – Noise Figure ( dB )

1

0

f=500MHz

0 1020304050

IC – Collector Current ( mA )13595

VCE=8V
Z

=50

S

W

Figure 4. Noise Figure vs. Collector Current

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BFR96T

ÁÁ

Vishay Telefunken

VCE = 10 V, IC = 50 mA , Z0 = 50

S

11

j

S

21

j0.5

j0.2

0

–j0.2

13 538

0.2

–j0.5

0.3

1.0

0.1

2.0 GHz

0.5

1

–j

Figure 5. Input reflection coefficient

j2

2

5

–j5

–j2

W

S

12

90°

120°

150°

j5

1.0

1

180°

–150°

–120° –60°

13 539

0.1

–90°

Figure 7. Reverse transmission coefficient

S

22

60°

2.0 GHz

0.08 0.16

30°

0°

–30°

90°

120°

150°

180°

–150°

–120° –60°

13 540

0.1

0.3

2.0 GHz

–90°

20 40

Figure 6. Forward transmission coefficient

60°

30°

–30°

j

j0.5

j0.2

0°

0

–j0.2

13 541

–j0.5

0.2

0.5

2.0 GHz

1

0.5

0.1

–j

j2

j5

2

5

–j2

1

–j5

Figure 8. Output reflection coefficient

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Document Number 85036

Rev. 3, 20-Jan-99

Dimensions of BFR96T in mm

BFR96T

Vishay Telefunken

96 12244

Document Number 85036
Rev. 3, 20-Jan-99

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BFR96T

Vishay Telefunken

Ozone Depleting Substances Policy Statement

It is the policy of Vishay Semiconductor GmbH to

1. Meet all present and future national and international statutory requirements.

2. Regularly and continuously improve the performance of our products, processes, distribution and operating
systems with respect to their impact on the health and safety of our employees and the public, as well as their

impact on the environment.
It is particular concern to control or eliminate releases of those substances into the atmosphere which are known as

ozone depleting substances (ODSs).
The Montreal Protocol (1987) and its London Amendments (1990) intend to severely restrict the use of ODSs and

forbid their use within the next ten years. V arious national and international initiatives are pressing for an earlier ban
on these substances.

Vishay Semiconductor GmbH has been able to use its policy of continuous improvements to eliminate the use of
ODSs listed in the following documents.

1. Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendments respectively

2. Class I and II ozone depleting substances in the Clean Air Act Amendments of 1990 by the Environmental
Protection Agency (EPA) in the USA

3. Council Decision 88/540/EEC and 91/690/EEC Annex A, B and C (transitional substances) respectively.

Vishay Semiconductor GmbH can certify that our semiconductors are not manufactured with ozone depleting
substances and do not contain such substances.

We reserve the right to make changes to improve technical design and may do so without further notice.

Parameters can vary in different applications. All operating parameters must be validated for each customer application

by the customer. Should the buyer use Vishay-Telefunken products for any unintended or unauthorized application, the

buyer shall indemnify Vishay-Telefunken against all claims, costs, damages, and expenses, arising out of, directly or

indirectly , any claim of personal damage, injury or death associated with such unintended or unauthorized use.

Vishay Semiconductor GmbH, P.O.B. 3535, D-74025 Heilbronn, Germany

Telephone: 49 (0)7131 67 2831, Fax number: 49 (0)7131 67 2423

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Document Number 85036

Rev. 3, 20-Jan-99