DISCRETE SEMICONDUCTORS DATA SHEET BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs Product specification Supersedes data of 1999 Dec 01 2000 Mar 29 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs PINNING FEATURES • Short channel transistor with high forward transfer admittance to input capacitance ratio PIN • Low noise gain controlled amplifier • Partly internal self-biasing circuit to ensure good cross-modulation performance during AGC and good DC stabilization. DESCRIPTION 1 source 2 drain 3 gate 2 4 gate 1 handbook, 2 columns 3 4 2 1 Top view MSB035 BF1202R marking code: LEp APPLICATIONS Fig.2 • VHF and UHF applications with 3 to 9 V supply voltage, such as digital and analogue television tuners and professional communications equipment. handbook, 2 columns 4 3 Simplified outline (SOT143R). page 3 4 2 1 DESCRIPTION Enhancement type N-channel field-effect transistor with source and substrate interconnected. Integrated diodes between gates and source protect against excessive input voltage surges. The BF1202, BF1202R and BF1202WR are encapsulated in the SOT143B, SOT143R and SOT343R plastic packages respectively. 1 2 Top view Top view MSB014 MSB842 BF1202 marking code: LDp BF1202WR marking code: LE Fig.1 Fig.3 Simplified outline (SOT143B). Simplified outline (SOT343R). QUICK REFERENCE DATA SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT VDS drain-source voltage − − 10 V ID drain current − − 30 mA Ptot total power dissipation − − 200 mW yfs forward transfer admittance 25 30 40 mS Cig1-ss input capacitance at gate 1 − 1.7 2.2 pF Crss reverse transfer capacitance f = 1 MHz − 15 30 fF F noise figure f = 800 MHz − 1.1 1.8 dB Xmod cross-modulation input level for k = 1% at 40 dB AGC 100 105 − dBµV Tj operating junction temperature − − 150 °C CAUTION This product is supplied in anti-static packing to prevent damage caused by electrostatic discharge during transport and handling. For further information, refer to Philips specs.: SNW-EQ-608, SNW-FQ-302A and SNW-FQ-302B. 2000 Mar 29 2 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs LIMITING VALUES In accordance with the Absolute Maximum Rating System (IEC 60134). SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT VDS drain-source voltage − 10 V ID drain current − 30 mA IG1 gate 1 current − ±10 mA IG2 gate 2 current − ±10 mA Ptot total power dissipation BF1202; BF1202R Ts ≤ 113 °C; note 1 − 200 mW BF1202WR Ts ≤ 119 °C; note 1 − 200 mW Tstg storage temperature −65 +150 °C Tj operating junction temperature − 150 °C Note 1. Ts is the temperature of the soldering point of the source lead. THERMAL CHARACTERISTICS SYMBOL PARAMETER VALUE UNIT BF1202; BF1202R 185 K/W BF1202WR 155 K/W thermal resistance from junction to soldering point Rth j-s MCD951 250 Ptot handbook, halfpage (mW) 200 (2) (1) 150 100 50 0 0 50 100 150 200 Ts (°C) (1) BF1202WR. (2) BF1202; BF1202R. Fig.4 Power derating curve. 2000 Mar 29 3 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs STATIC CHARACTERISTICS Tj = 25 °C unless otherwise specified. SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT VG1-S = VG2-S = 0; ID = 10 µA 10 − V V(BR)G1-SS gate 1-source breakdown voltage VG2-S = VDS = 0; IG1-S = 10 mA 6 − V V(BR)G2-SS gate 2-source breakdown voltage VG1-S = VDS = 0; IG2-S = 10 mA 6 − V V(BR)DSS drain-source breakdown voltage V(F)S-G1 forward source-gate 1 voltage VG2-S = VDS = 0; IS-G1 = 10 mA 0.5 1.5 V V(F)S-G2 forward source-gate 2 voltage VG1-S = VDS = 0; IS-G2 = 10 mA 0.5 1.5 V VG1-S(th) gate 1-source threshold voltage VG2-S = 4 V; VDS = 5 V; ID = 100 µA 0.3 1.0 V VG2-S(th) gate 2-source threshold voltage VG1-S = 5 V; VDS = 5 V; ID = 100 µA 0.3 1.2 V IDSX drain-source current VG2-S = 4 V; VDS = 5 V; RG1 = 120 kΩ; note 1 8 16 mA IG1-SS gate 1 cut-off current VG2-S = VDS = 0; VG1-S = 5 V − 50 nA IG2-SS gate 2 cut-off current VG1-S = VDS = 0; VG2-S = 4 V − 20 nA Note 1. RG1 connects G1 to VGG = 5 V. DYNAMIC CHARACTERISTICS Common source; Tamb = 25 °C; VG2-S = 4 V; VDS = 5 V; ID = 12 mA; unless otherwise specified. SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT yfs forward transfer admittance pulsed; Tj = 25 °C 25 30 Cig1-ss input capacitance at gate 1 f = 1 MHz − 1.7 2.2 pF Cig2-ss input capacitance at gate 2 f = 1 MHz − 1 − pF Coss output capacitance f = 1 MHz − 0.85 − pF Crss reverse transfer capacitance f = 1 MHz − 15 30 fF F noise figure Gtr Xmod power gain cross-modulation mS f = 10.7 MHz; GS = 20 mS; BS = 0 − 9 11 dB f = 400 MHz; YS = YS opt − 0.9 1.5 dB f = 800 MHz; YS = YS opt − 1.1 1.8 dB f = 200 MHz; GS = 2 mS; BS = BS opt; GL = 0.5 mS; BL = BL opt − 34.5 − dB f = 400 MHz; GS = 2 mS; BS = BS opt; GL = 1 mS; BL = BL opt − 30.5 − dB f = 800 MHz; GS = 3.3 mS; BS = BS opt; GL = 1 mS; BL = BL opt − 26.5 − dB 90 − − dBµV input level for k = 1%; fw = 50 MHz; funw = 60 MHz; note 1 at 0 dB AGC at 10 dB AGC − 92 − dBµV at 40 dB AGC 100 105 − dBµV Note 1. Measured in Fig.21 test circuit. 2000 Mar 29 40 4 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs MCD952 20 handbook, halfpage VG2-S = 4 V ID (mA) 2.5 V 2V 3V VG1-S = 1.5 V ID (mA) 3.5 V 16 MCD953 24 handbook, halfpage 1.4 V 16 12 1.3 V 1.2 V 1.5 V 8 1.1 V 8 1V 4 0.9 V 1V 0 0.4 0 0.8 1.2 0 1.6 2 VG1-S (V) 0 VDS = 5 V. Tj = 25 °C. 2 4 6 8 10 VDS (V) VG2-S = 4 V. Tj = 25 °C. Fig.5 Transfer characteristics; typical values. Fig.6 Output characteristics; typical values. MCD954 100 handbook, halfpage VG2-S = 4 V IG1 (µA) MCD955 40 handbook, halfpage 3.5 V 3.5 V yfs 3V VG2-S = 4 V (mS) 80 30 3V 60 2.5 V 20 2.5 V 40 2V 10 20 2V 1.5 V 1V 0 0 0.5 0 1 1.5 2 2.5 VG1-S (V) 0 4 VDS = 5 V. Tj = 25 °C. VDS = 5 V. Tj = 25 °C. Fig.7 Fig.8 Gate 1 current as a function of gate 1 voltage; typical values. 2000 Mar 29 5 8 12 16 20 ID (mA) Forward transfer admittance as a function of drain current; typical values. Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs MCD956 20 MCD957 16 handbook, halfpage handbook, halfpage ID (mA) ID (mA) 16 12 12 8 8 4 4 0 10 0 20 30 0 40 50 IG1 (µA) 0 2 3 4 5 VGG (V) VDS = 5 V; VG2-S = 4 V; Tj = 25 °C. RG1 = 120 kΩ (connected to VGG); see Fig.21. VDS = 5 V; VG2-S = 4 V. Tj = 25 °C. Fig.9 1 Drain current as a function of gate 1 current; typical values. Fig.10 Drain current as a function of gate 1 supply voltage (= VGG); typical values. MCD958 20 handbook, halfpage ID (mA) RG1 = 68 kΩ 16 82 kΩ MCD959 16 handbook, halfpage ID (mA) VGG = 5 V 4.5 V 12 4V 100 kΩ 12 120 kΩ 3.5 V 150 kΩ 3V 8 180 kΩ 8 220 kΩ 4 4 0 0 0 2 4 0 6 VGG = VDS (V) 2 4 VG2-S (V) VG2-S = 4 V; Tj = 25 °C. RG1 connected to VGG; see Fig.21. VDS = 5 V; Tj = 25 °C. RG1 = 120 kΩ (connected to VGG); see Fig.21. Fig.11 Drain current as a function of gate 1 (= VGG) and drain supply voltage; typical values. Fig.12 Drain current as a function of gate 2 voltage; typical values. 2000 Mar 29 6 6 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs MCD960 40 MCD961 0 handbook, halfpage handbook, gain halfpage IG1 (µA) reduction (dB) −10 VGG = 5 V 30 4.5 V −20 4V 20 3.5 V 3V −30 10 −40 −50 0 0 2 4 VG2-S (V) 6 0 1 2 3 VAGC (V) 4 VDS = 5 V; Tj = 25 °C. RG1 = 120 kΩ (connected to VGG); see Fig.21. VDS = 5 V; VGG = 5 V; RG1 = 120 kΩ; f = 50 MHz; Tamb = 25 °C. Fig.13 Gate 1 current as a function of gate 2 voltage; typical values. Fig.14 Typical gain reduction as a function of the AGC voltage; see Fig.21. MCD962 120 handbook, halfpage MCD963 16 handbook, halfpage Vunw (dBµV) ID (mA) 110 12 100 8 90 4 80 0 10 20 30 40 50 gain reduction (dB) 0 0 VDS = 5 V; VGG = 5 V; RG1 = 120 kΩ; f= 50 MHz; funw = 60 MHz; Tamb = 25 °C. 20 30 40 50 gain reduction (dB) VDS = 5 V; VGG = 5 V; RG1 = 120 kΩ; f = 50 MHz; Tamb = 25 °C. Fig.15 Unwanted voltage for 1% cross-modulation as a function of gain reduction; typical values; Fig.21. 2000 Mar 29 10 Fig.16 Drain current as a function of gain reduction; typical values; see Fig.21. 7 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs MCD964 102 handbook, halfpage MCD965 103 handbook, halfpage Yis (mS) ϕrs (deg) yrs (µS) 10 −103 ϕrs 102 −102 bis yrs gis 1 10−1 10 −10 10 102 103 1 10 f (GHz) −1 103 102 f (MHz) VDS = 5 V; VG2 = 4 V. ID = 12 mA; Tamb = 25 °C. VDS = 5 V; VG2 = 4 V. ID = 12 mA; Tamb = 25 °C. Fig.17 Input admittance as a function of frequency; typical values. Fig.18 Reverse transfer admittance and phase as a function of frequency; typical values. MCD966 102 handbook, halfpage yfs (mS) −102 ϕfs (deg) yfs MCD967 10 handbook, halfpage Yos (mS) bos 1 −10 10 ϕfs 1 10 102 10−1 f (MHz) −1 103 10−2 10 gos 102 103 f (MHz) VDS = 5 V; VG2 = 4 V. ID = 12 mA; Tamb = 25 °C. VDS = 5 V; VG2 = 4 V. ID = 12 mA; Tamb = 25 °C. Fig.19 Forward transfer admittance and phase as a function of frequency; typical values. Fig.20 Output admittance as a function of frequency; typical values. 2000 Mar 29 8 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs VAGC handbook, full pagewidth R1 10 kΩ C1 4.7 nF C3 4.7 nF RGEN 50 Ω R2 50 Ω RL 50 Ω L1 C2 ≈ 2.2 µH DUT C4 4.7 nF RG1 4.7 nF VGG VI VDS MGS315 Fig.21 Cross-modulation test set-up. Table 1 f (MHz) Scattering parameters: VDS = 5 V; VG2-S = 4 V; ID = 12 mA; Tamb = 25 °C s21 s11 s12 s22 MAGNITUDE (ratio) ANGLE (deg) MAGNITUDE (ratio) ANGLE (deg) MAGNITUDE (ratio) ANGLE (deg) MAGNITUDE (ratio) ANGLE (deg) 50 0.988 −3.26 2.989 176.2 0.0005 92.6 0.995 −1.50 100 0.988 −6.52 3.017 172.5 0.0009 88.0 0.995 −3.01 200 0.984 −12.99 2.990 165.0 0.0018 82.5 0.994 −5.95 300 0.977 −19.39 2.949 157.6 0.0027 78.2 0.992 −8.86 400 0.965 −25.65 2.913 150.3 0.0036 75.4 0.990 −11.79 500 0.951 −31.76 2.853 143.2 0.0039 71.8 0.988 −14.65 600 0.936 −37.68 2.793 136.3 0.0042 69.9 0.986 −17.41 700 0.919 −43.42 2.727 129.5 0.0044 68.9 0.984 −20.10 800 0.903 −48.94 2.664 123.0 0.0043 68.5 0.980 −22.69 900 0.887 −54.25 2.593 116.7 0.0041 70.7 0.975 −25.27 1000 0.870 −59.34 2.518 110.5 0.0038 72.4 0.970 −27.90 Table 2 Noise data: VDS = 5 V; VG2-S = 4 V; ID = 12 mA; Tamb = 25 °C Γopt f (MHz) Fmin (dB) (ratio) (deg) Rn (Ω) 400 0.9 0.805 28.5 50 800 1.1 0.725 47.2 40 2000 Mar 29 9 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs PACKAGE OUTLINES Plastic surface mounted package; 4 leads SOT143B D B E A X y HE v M A e bp w M B 4 3 Q A A1 c 1 2 Lp b1 e1 detail X 0 1 2 mm scale DIMENSIONS (mm are the original dimensions) UNIT A A1 max bp b1 c D E e e1 HE Lp Q v w y mm 1.1 0.9 0.1 0.48 0.38 0.88 0.78 0.15 0.09 3.0 2.8 1.4 1.2 1.9 1.7 2.5 2.1 0.45 0.15 0.55 0.45 0.2 0.1 0.1 OUTLINE VERSION REFERENCES IEC JEDEC EIAJ ISSUE DATE 97-02-28 SOT143B 2000 Mar 29 EUROPEAN PROJECTION 10 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs Plastic surface mounted package; reverse pinning; 4 leads D SOT143R B E A X y HE v M A e bp w M B 3 4 Q A A1 c 2 1 Lp b1 e1 detail X 0 1 2 mm scale DIMENSIONS (mm are the original dimensions) UNIT A A1 max bp b1 c D E e e1 HE Lp Q v w y mm 1.1 0.9 0.1 0.48 0.38 0.88 0.78 0.15 0.09 3.0 2.8 1.4 1.2 1.9 1.7 2.5 2.1 0.55 0.25 0.45 0.25 0.2 0.1 0.1 OUTLINE VERSION SOT143R 2000 Mar 29 REFERENCES IEC JEDEC EIAJ SC-61B 11 EUROPEAN PROJECTION ISSUE DATE 97-03-10 99-09-13 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs Plastic surface mounted package; reverse pinning; 4 leads D SOT343R E B A X HE y v M A e 3 4 Q A A1 c 2 w M B 1 bp Lp b1 e1 detail X 0 1 2 mm scale DIMENSIONS (mm are the original dimensions) UNIT A A1 max bp b1 c D E e e1 HE Lp Q v w y mm 1.1 0.8 0.1 0.4 0.3 0.7 0.5 0.25 0.10 2.2 1.8 1.35 1.15 1.3 1.15 2.2 2.0 0.45 0.15 0.23 0.13 0.2 0.2 0.1 OUTLINE VERSION REFERENCES IEC JEDEC EIAJ ISSUE DATE 97-05-21 SOT343R 2000 Mar 29 EUROPEAN PROJECTION 12 Philips Semiconductors Product specification BF1202; BF1202R; BF1202WR N-channel dual-gate PoLo MOS-FETs DATA SHEET STATUS DATA SHEET STATUS PRODUCT STATUS DEFINITIONS (1) Objective specification Development This data sheet contains the design target or goal specifications for product development. Specification may change in any manner without notice. Preliminary specification Qualification This data sheet contains preliminary data, and supplementary data will be published at a later date. Philips Semiconductors reserves the right to make changes at any time without notice in order to improve design and supply the best possible product. Product specification Production This data sheet contains final specifications. Philips Semiconductors reserves the right to make changes at any time without notice in order to improve design and supply the best possible product. Note 1. Please consult the most recently issued data sheet before initiating or completing a design. DEFINITIONS DISCLAIMERS Short-form specification The data in a short-form specification is extracted from a full data sheet with the same type number and title. For detailed information see the relevant data sheet or data handbook. Life support applications These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Philips Semiconductors customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips Semiconductors for any damages resulting from such application. Limiting values definition Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 60134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Right to make changes Philips Semiconductors reserves the right to make changes, without notice, in the products, including circuits, standard cells, and/or software, described or contained herein in order to improve design and/or performance. Philips Semiconductors assumes no responsibility or liability for the use of any of these products, conveys no licence or title under any patent, copyright, or mask work right to these products, and makes no representations or warranties that these products are free from patent, copyright, or mask work right infringement, unless otherwise specified. Application information Applications that are described herein for any of these products are for illustrative purposes only. Philips Semiconductors make no representation or warranty that such applications will be suitable for the specified use without further testing or modification. 2000 Mar 29 13 Philips Semiconductors Product specification N-channel dual-gate PoLo MOS-FETs NOTES 2000 Mar 29 14 BF1202; BF1202R; BF1202WR Philips Semiconductors Product specification N-channel dual-gate PoLo MOS-FETs NOTES 2000 Mar 29 15 BF1202; BF1202R; BF1202WR Philips Semiconductors – a worldwide company Argentina: see South America Australia: 3 Figtree Drive, HOMEBUSH, NSW 2140, Tel. +61 2 9704 8141, Fax. +61 2 9704 8139 Austria: Computerstr. 6, A-1101 WIEN, P.O. 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