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S913T/S913TR/S913TRW
Vishay Telefunken
MOSMIC(R) for TV-Tuner Prestage with 9 V Supply Voltage
MOSMIC - MOS Monolithic Integrated Circuit Electrostatic sensitive device. Observe precautions for handling.
Applications
Low noise gain controlled input stages in UHF-and VHF- tuner with 9 V supply voltage.
AGC RF in C block C block G2 G1 S D RF out C block
94 9296
RFC VDD
Features
D D D D
Integrated gate protection diodes Low noise figure High gain Biasing network on chip
D Improved cross modulation at gain reduction D High AGC-range D SMD package
2
1
1
2
94 9279
13 579
94 9278
95 10831
3
4
4
3
S913T Marking: 913 Plastic case (SOT 143) 1 = Source, 2 = Drain, 3 = Gate 2, 4 = Gate 1
S913TR Marking: 13R Plastic case (SOT 143R) 1 = Source, 2 = Drain, 3 = Gate 2, 4 = Gate 1
1
2
13 654
13 566
4
3
S913TRW Marking: W13 Plastic case (SOT 343R) 1 = Source, 2 = Drain, 3 = Gate 2, 4 = Gate 1
Document Number 85059 Rev. 3, 20-Jan-99
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S913T/S913TR/S913TRW
Vishay Telefunken Absolute Maximum Ratings
Tamb = 25_C, unless otherwise specified Parameter Drain - source voltage Drain current Gate 1/Gate 2 - source peak current Gate 1/Gate 2 - source voltage Total power dissipation Channel temperature Storage temperature range Test Conditions Symbol Value VDS 12 ID 30 IG1/G2SM 10 VG1/G2SM 6 Ptot 200 TCh 150 Tstg -55 to +150 Unit V mA mA V mW C C
Tamb 60 C
Maximum Thermal Resistance
Tamb = 25_C, unless otherwise specified Parameter Test Conditions Channel ambient on glass fibre printed board (25 x 20 x 1.5) mm3 plated with 35mm Cu Symbol RthChA Value 450 Unit K/W
Electrical DC Characteristics
Tamb = 25_C, unless otherwise specified Parameter Gate 1 - source breakdown voltage Gate 2 - source breakdown voltage Gate 1 - source leakage current Gate 2 - source leakage current Drain current Self-biased operating current Gate 2 - source cut-off voltage Test Conditions IG1S = 10 mA, VG2S = VDS = 0 IG2S = 10 mA, VG1S = VDS = 0 +VG1S = 5 V, VG2S = VDS = 0 -VG1S = 5 V, VG2S = VDS = 0 VG2S = 5 V, VG1S = VDS = 0 VDS = 9 V, VG1S = 0, VG2S = 4 V VDS = 9 V, VG1S = nc, VG2S = 4 V VDS = 9 V, VG1S = nc, ID = 100 mA Symbol Min V(BR)G1SS 7 V(BR)G2SS +IG1SS -IG1SS IG2SS IDSS IDSP VG2S(OFF) 50 7 7 Typ Max Unit 10 V 10 50 100 20 500 14 V
mA mA
nA
mA
mA V
10 1.0
Caution for Gate 1 switch-off mode:
No external DC-voltage on Gate 1 in active mode! Switch-off at Gate 1 with VG1S < 0.7 V is feasible. Using open collector switching transistor (inside of PLL), insert 10 kW collector resistor.
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Document Number 85059 Rev. 3, 20-Jan-99
S913T/S913TR/S913TRW
Vishay Telefunken Electrical AC Characteristics
VDS = 9 V, VG2S= 4 V, f = 1 MHz , Tamb = 25_C, unless otherwise specified Parameter Forward transadmittance Gate 1 input capacitance Feedback capacitance Output capacitance Power g gain AGC range Noise figure g Test Conditions Symbol Min y21s 20 Cissg1 Crss Coss Gps Gps 16.5 DGps 40 F F Typ 24 2.1 20 0.9 26 20 1 1.3 Max Unit 28 mS 2.5 pF fF pF dB dB dB dB dB
GS = 2 mS, GL = 0.5 mS, f = 200 MHz GS = 3,3 mS, GL = 1 mS, f = 800 MHz VDS = 9 V, VG2S = 1 to 4 V, f = 800 MHz GS = 2 mS, GL = 0.5 mS, f = 200 MHz GS = 3,3 mS, GL = 1 mS, f = 800 MHz
Common Source S-Parameters
VDS = 9 V , VG2S = 4 V , Z0 = 50 W, Tamb = 25_C, unless otherwise specified S11 LOG ANG MAG dB deg -0.02 -4.1 -0.04 -7.9 -0.12 -11.9 -0.19 -15.7 -0.29 -19.7 -0.41 -23.1 -0.52 -26.8 -0.66 -30.3 -0.81 -33.6 -0.97 -36.9 -1.12 -40.3 -1.28 -43.3 -1.42 -46.5 -1.55 -49.6 -1.70 -52.4 -1.87 -55.4 -1.99 -58.4 -2.11 -61.3 -2.24 -64.2 -2.38 -67.1 -2.50 -69.9 -2.67 -72.8 -2.72 -75.7 -2.85 -78.5 -2.95 -81.4 -3.06 -84.4 S21 LOG ANG MAG dB deg 7.50 174.9 7.41 169.0 7.31 162.9 7.20 157.3 7.07 150.8 6.94 145.8 6.71 140.0 6.59 134.8 6.34 129.9 6.17 124.6 5.96 119.7 5.74 114.7 5.55 110.6 5.36 105.8 5.17 101.5 4.98 97.0 4.84 93.0 4.68 88.4 4.52 84.5 4.31 80.3 4.14 75.8 3.96 71.9 3.90 67.6 3.80 64.2 3.67 60.0 3.55 55.7 S12 LOG ANG MAG dB deg -63.74 88.2 -57.58 85.0 -54.15 82.1 -51.78 79.3 -50.15 76.8 -48.89 75.0 -47.92 72.9 -47.25 71.2 -46.77 69.8 -46.47 68.5 -46.32 67.8 -46.34 68.8 -46.24 70.0 -46.36 71.0 -46.67 72.9 -47.12 76.2 -47.41 81.6 -47.72 89.3 -47.55 98.3 -47.07 104.4 -46.96 110.4 -46.72 119.7 -45.93 128.4 -44.91 137.0 -43.76 144.2 -42.39 149.1 S22 LOG ANG MAG dB deg -0.13 -1.6 -0.14 -3.0 -0.16 -4.5 -0.18 -5.8 -0.20 -7.6 -0.24 -8.9 -0.27 -10.2 -0.31 -11.7 -0.35 -12.9 -0.40 -14.5 -0.44 -15.7 -0.49 -17.0 -0.54 -18.2 -0.57 -19.4 -0.62 -20.8 -0.66 -22.0 -0.71 -23.3 -0.74 -24.8 -0.79 -25.9 -0.86 -27.3 -0.95 -28.4 -0.98 -29.7 -1.01 -31.1 -1.03 -32.4 -1.06 -33.8 -1.15 -35.0
f/MHz 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050 1100 1150 1200 1250 1300
Document Number 85059 Rev. 3, 20-Jan-99
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S913T/S913TR/S913TRW
Vishay Telefunken Typical Characteristics (Tamb = 25_C unless otherwise specified)
y21s - Forward Transadmittance ( mS ) Ptot - Total Power Dissipation ( mW ) 250 40 VDS=9V f=200MHz 30
200
150
20
100 50 0 0 25 50 75 100 125 150
10
0 0
95 10774
1
2
3
4
95 10771
Tamb - Ambient Temperature ( C )
VG2S - Gate 2 Source Voltage ( V )
Figure 1. Total Power Dissipation vs. Ambient Temperature
C issg1 - Gate 1 Input Capacitance ( pF ) 20
Figure 4. Forward Transadmittance vs. Gate 2 Source Voltage
4
ID - Drain Current ( mA )
16
3
12 VG2S=5V 8 4 0 0 1 2 3 4 5 6 7 4V 3V 2V
2
1 VDS=9V f=200MHz 0 0 1 2 3 4 5 6
1V 8 9
95 10775
95 10772
VDS - Drain Source Voltage ( V )
VG2S - Gate 2 Source Voltage ( V )
Figure 2. Drain Current vs. Drain Source Voltage
Figure 5. Gate 1 Input Capacitance vs. Gate 2 Source Voltage
2 C oss - Output Capacitance ( pF )
20 VDS=9V ID - Drain Current ( mA ) 16
VG2S=4V f=200MHz 1.5
12
1
8 4 0 0 1 2 3 4
0.5
0 3
95 11145
5
7
9
11
95 10773
VG2S - Gate 2 Source Voltage ( V )
VDS - Drain Source Voltage ( V )
Figure 3. Drain Current vs. Gate 2 Source Voltage
Figure 6. Output Capacitance vs. Drain Source Voltage
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Document Number 85059 Rev. 3, 20-Jan-99
S913T/S913TR/S913TRW
Vishay Telefunken
20 - Transducer Gain ( dB ) CM - Cross Modulation ( dB ) 80
0
60
-20
40
2
S 21
-40 VDS=9V f=800MHz -60 0 1 2 3 4
20 VDS=9V f=800MHz 0 2 3 4 5 6
95 10776
VG2S - Gate 2 Source Voltage ( V )
95 11146
VG2S - Gate 2 Source Voltage ( V )
Figure 7. Transducer Gain vs. Gate 2 Source Voltage
Figure 8. Cross Modulation vs. Gate 2 Source Voltage
Document Number 85059 Rev. 3, 20-Jan-99
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S913T/S913TR/S913TRW
Vishay Telefunken VDS = 9 V, VG2S = 4 V , Z0 = 50 W S11
j 120 j0.5 j2 30 j0.2 j5 1050 0 0.2 0.5 1 2 5
S12
90 60
50
1
1300MHz 180
550 50 0.008 0.016 0
-j0.2
12 952
S21
90 120 550 300 1300MHz 50 1.0 2.0 0 800 1050 30 60
0
-j0.2 -150 -30
-j0.5 -120
12 954
-60 -90
12 955
Figure 10. Forward transmission coefficient
Figure 12. Output reflection coefficient
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300 550 1300MHz -j0.5 -j 1050 800 -j2
-j5 -150 -30
-120
12 953
-60 -90
Figure 9. Input reflection coefficient
Figure 11. Reverse transmission coefficient
S22
j j0.5 j2
j0.2
j5
0.2
0.5
1
2
5
50
1
-j5
550
1300MHz -j2 -j
Document Number 85059 Rev. 3, 20-Jan-99
S913T/S913TR/S913TRW
Vishay Telefunken Dimensions of S913T in mm
96 12240
Dimensions of S913TR in mm
96 12239
Document Number 85059 Rev. 3, 20-Jan-99
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S913T/S913TR/S913TRW
Vishay Telefunken Dimensions of S913TRW in mm
96 12238
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Document Number 85059 Rev. 3, 20-Jan-99
S913T/S913TR/S913TRW
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. Various 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
Document Number 85059 Rev. 3, 20-Jan-99
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