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Part Manufacturer Description Datasheet BUY
1016 Keystone Electronics Corp 1016 visit Digikey
1016-1 Keystone Electronics Corp 1016-1 visit Digikey
1016430000 Weidmüller Interface GmbH & Co. KG Strip Terminal Block, 18.5A, 3.31mm2, 1 Row(s), 1 Deck(s) visit Digikey
1016480000 Weidmüller Interface GmbH & Co. KG Strip Terminal Block, 18.5A, 3.31mm2, 1 Row(s), 1 Deck(s) visit Digikey
1016340000 Weidmüller Interface GmbH & Co. KG Strip Terminal Block, 18.5A, 3.31mm2, 1 Row(s), 1 Deck(s) visit Digikey
1016410000 Weidmüller Interface GmbH & Co. KG Strip Terminal Block, 18.5A, 3.31mm2, 1 Row(s), 1 Deck(s) visit Digikey

transistor fn 1016

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: 20 4.5 fn = 0.3Hz to 10Hz fn = 10Hz to 10kHz fn = 0.3Hz to 10Hz fn = 10Hz to 10kHz Linear , ) Time, (100uSec/Div) 3.4 - 11 OMA501SK OMA501SKC OMA501SD OMA501SDZ TRANSISTOR SAFE OPERATING , 8 6 0. 10 8 6 Voltage Across Output Transistor, (V) 2 4 6 8 10 20 40 60 80 100 1 2 4 6 8 10 20 40 60 80 100 Voltage Across Output Transistor, (V) Voltage Across Output Transistor, (V) MECHANICAL OUTLINE TO-3-8 A B DIM A B C D E F G H International Rectifier
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transistor FN 1016 pin configuration 1A10PA OMA501AK D-10 TRANSISTOR SE 135 MIL-STD-883 OMA501 40VDC D-10Z
Abstract: exception of the l/fn region), is defined as® eN = v"4kTRNB (7) where R^ a 0.67/gfs, the equivalent resistance for noise. The e^j, except in the l/fn region, closely approximates the equivalent thermal noise voltage of the channel resistance. In the so-called l/fn region, ej^j is expressed as eN = V4KRNB(1 + fj/fn) (8) where n varies between 1 and 2 and is device- and lot-oriented. The characteristic bulge in e^ in the l/fn region has been observed to some extent in all junction FETs submitted to test. The -
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siliconix fet Siliconix JFET Siliconix FET Design Catalog siliconix FET DESIGN Siliconix "fet" siliconix catalog
Abstract: Noise* Voltage Noise Current Noise fâ'ž = 0.3Hz to 10Hz fn = 10Hzto 10kHz fâ'ž = 0.3Hz to 10Hz fâ'ž = , OMA501SKC OMA5Q1SD QMA501SDZ TRANSISTOR SAFE OPERATING AREA (SOA) @ 25°C Case Temperature Typical Copper , Transistor, (V) 2 4 6 810 20 Voltage Across Output Transistor, (V) 2 4 6 810 20 40 6080100 Vortage Across Output Transistor, (V) MECHANICAL OUTLINE TO-3-8 SEATING PLANE _ DIM INCHES MILLIMETERS MIN MAX , BASIC J .593 BASIC 15.06 BASIC K .400 .500 10.16 12.70 Q .151 .161 3.84 4.09 R .980 1.020 24.89 -
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transistor Bc 540 transistor Bc 540 pin TRANSISTOR BC 384 basic operational amplifier TRANSISTOR BC 534 10K100K1M 0D017S3 QMA501SK 100-J 000175M
Abstract: OUTPUT CURRENT (mA) 700 800 This Material Copyrighted By Its Respective Manufacturer fN rH CO cri U , specified. The RESET output NPN transistor is controlled by the two circuits described (see Block Diagram). , specified minimum causes the RESET output transistor to be in the ON (saturation) state. When the output voltage is above the specified level, this circuit permits the RESET output transistor to go into the OFF , the RESET output transistor to go to the OFF (open) state only when the voltage on the Delay lead is -
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CS-8129DW16 CS-8129T5 CS-8129TH5 CS-8129TV5 CS-8129DWR16 SU-1-02 CS-8129
Abstract: /°C dB 10 M£i 250 Common-mode MO Input Noise* Voltage Noise 3 pV,p-p fn , O O JJ (D n OMA501SK OMA501SKC OMA501SD OMA501SDZ TRANSISTOR SAFE OPERATING AREA (SOA) @ , Vortage Across Output Transistor, (V) Typical Standard TO-3 2 4 6 810 20 40 Typical Power DIP 6 2 Voltage Across Output Transistor, (V) 4 6 810 20 40 6080100 Vottage Across Output Transistor, (V) MECHANICAL OUTLINE TO-3-8 DIM A B C D E F G H J K -
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D0D17SM
Abstract: 10kHz fn = 0.3Hz to 10Hz f, = 10Hz to 10kHz Linear Operation F = DC,V cm = ± (|V oc| -6 ) 3 5 20 4.5 , /Div) 3.4 -11 Omnirel ® OMA501SK OMA501SKC OMA501SD OMA501SDZ TRANSISTOR SAFE OPERATING , Transistor. (V) Voltage Across Output Transisior. (V) Voltage Across Output Transistor. (V , 0.97 1.07 2.03 2.67 40° BASIC 12.7 BASIC 30.12 BASIC 15.06 BASIC 10.16 12.70 3.84 4.09 24.89 25.91 -
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Abstract: ,. +13dBm Active Transistor Power Dissipation.360mW Operating Case Temperature , your localMpriiantallvt, tfitilbulOf or R*fd iaJ«i offlc« for furthir Information. Llstlngi are fn , 9,70 117.0 9.97 101.6 10.20 85.6 10.59 67.7 11.04 49,5 â 11.65 26.2 11.88 â'"1.3 dB Ang -
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S-500 saa 1124 SAA 7000 Avantek amplifier ut utc 803 Avantek amplifier UTC transistor rf m 1104
Abstract: Gain I RFour £ 1M 100 200 300 440 Frequency, MHz 5.5 m T3 , .+15dBm Active Transistor Power Dissipation . 560 mW Operating Case Temperature , 4.26 3.97 14.28 14.24 14.21 14.28 14.16 13.35 12.00 10.16 7.96 : 5.67 3.48 1.57 -.24 -1.95 -3,61 -4,97 -
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Avantek* UTC transistor c 4793 AVANTEK uto AVANTEK utc Avantek amplifier 12.5 sa AVANTEK
Abstract: » «Off» tf t1 tn Ft=1/tf Fn=1/tn TIME Figure 1 - Normal Operation Oscillator Timing , flasher relay. The output structure is an Emitter of an NPN transistor. It contains the free wheeling , and R1. In the normal operating mode, the flashing frequency is: Fn = 1/R1*C1*Kn. With a defective (open) 21 W lamp (Figure 2), the flashing frequency changes to: Fn = 2.2*Fn. The typical first flash , '" 001BA) A Dimension, mm 5 8 Symbol 4 F MAX 8.51 10.16 B 1 MIN A System Logic Semiconductor
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SL33193 UAA1041B UAA1041 SL33193N SL33193D 012AA
Abstract: tf t1 tn Ft=1/tf Fn=1/tn TIME Figure 1 - Normal Operation Oscillator Timing Diagram , structure is an Emitter of an NPN transistor. It contains the free wheeling diode circuitry necessary to , mode, the flashing frequency is: Fn = 1/R1*C1*Kn. With a defective (open) 21 W lamp (Figure 2), the flashing frequency changes to: Fn = 2.2*Fn. The typical first flash delay (the time between the moment , 4 8.51 10.16 6.1 7.11 5.33 C L F MAX B 1 MIN A B D IK Semicon
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IL33193 IL33193N IL33193D relay simbol FLASHER RELAY 24v vehicle ignition circuits circuit diagram of flasher relay 8 pin internal circuit diagram of starter transistor 135b
Abstract: tf t1 tn Ft=1/tf Fn=1/tn TIME Figure 1 - Normal Operation Oscillator Timing Diagram , structure is an Emitter of an NPN transistor. It contains the free wheeling diode circuitry necessary to , mode, the flashing frequency is: Fn = 1/R1*C1*Kn. With a defective (open) 21 W lamp (Figure 2), the flashing frequency changes to: Fn = 2.2*Fn. The typical first flash delay (the time between the moment , 4 8.51 10.16 6.1 7.11 5.33 C L F MAX B 1 MIN A B D Kodenshi
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KK33193 KK33193N KK33193D KK54123 24v electronic flasher without relay 24v vehicle ignition switches
Abstract: optocouplers CNW82/CNW83 FEATURES â'¢ Wide body DIL encapsulation, with a pin distance of 10.16 mm â , If Transistor Vceo Photocoupler nA isolation voltage March 1991 bb53T31 OOSSSST Tfl3 , optocouplers CNW 82/CNW 83 LIMITING VALUES fn accordance with the Absolute Maximum System (IEC 134). , dissipation Transistor Photocoupler T -, T( junction temperature T* soldering temperature up , /W ^tti t* from junction to ambient when mounted on PCB 400 K/W Transistor -
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E90700 BS415 BS7002 CNW82 CNW83 53T31
Abstract: RLO1 LOG amp. (3) output 34 ST To the base of the power supply transistor 14 RLO2 , control 38 TRB To the base of the transmission transistor 18 TAO Transmitter att. output (hands-free mode) 39 TRE To the emitter of the transmission transistor 19 RAO Receiver att , VCC2 12.0 Unit V Supply current IL 120 mA Power dissipation Note) PD 1016 , Power Dissipation (PD) 1,600 Open condition Rthj- a=123°C/W PD=1016mW(25°C) 1,400 1,200 1016 Panasonic
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AN6175K transistor r1010 dYNAMIC mIC pre amp ICs FN 1016 mic preamplifier ZL300 mic PRE-AMPLIFIER SDIP042-P-0600A
Abstract: resolved into two second-order elements as shown in Figure 10.10. Determining fn and qn allows a , permissible ripples, as fn and qn settings in each stage is changed. Table 10.4 lists fn and qn values for the Chebyshev type LPF. Table 10.4 fn and qn Values for Chebyshev Type LPF Ripple=0.1dB fn Ripple=0.2dB qn fn Ripple=0.25dB qn fn Ripple=0.3dB qn fn qn Ripple=0.5dB fn qn 0.8637210 Second order 1.8204497 0.7673593 1.5351966 0.7966418 1.4539722 OKI Electric Industry
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TC574000 MSM9805-XXX MSM6722 MSM6658A-XXX MSM6656A-XXX MSM6655A-XXX E2D0078-39-91 MSM6650
Abstract: form of digital logic which eliminates transistor storage time permitting very high speed operation , transistor structure and operation. TTL The designation "bipolar" essentially refers to the basic component utilized to build this family of integrated circuits, the bipolar transistor. By employing a bipolar transistor in a logic function's output driver as well as the input buffer, it results in a , available in the standard 8­pin plastic DIP (N suffix), 8­pin SOIC (D suffix) and 20­pin PLCC (FN suffix Motorola
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MC14000B TTL 74-series IC LIST MC672 equivalent EDA 2500 manual MC10101 mc12073 sn74ls151 multiplexer vhdl code MC1648 DL122/D
Abstract: Small-Outline Package (TVSOP) DBQ ­ Quarter-Size Outline Package (QSOP) DBV, DCK ­ Small-Outline Transistor , (LCCC) FN ­ Plastic Leaded Chip Carrier (PLCC) GB ­ Ceramic Pin Grid Array (CPGA) HFP, HS, HT, HV ­ , , 28 PDIP A NP, NT 28 A FN 44 B FN 16, 20, 24 B DBQ viii RC , PPM 208 DBV 5 FN 44, 68, 84 PQ 132 DGV 14, 16 PAG 64 DL 28, 48, 56 PAH 52 DW 16, 20, 24, 28 PCA 100 FN 20, 28 PCB 120 N 14, 16 Texas Instruments
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SN74HC1G00 SCAD001D sn74154 SN74ALVC1G32 SDFD001B JK flip flop IC
Abstract: ) UP, UG, UI L E E F FN FN FK L L 20-Pin Leadless Chip Carrier (Square 0.350, Hermetic) LS E E F FN FN FK L L LT LTC LF LP LH MF LM AD , Transistor ST - - - - - - UR S3, S5 S4 M3, M5 - - - - , (0.231 ­ 0.3175) 0.024 ­ 0.040 (0.610 ­ 1.016) 0.005 ­ 0.012 (0.127 ­ 0.305) GW36 SSOP 1197 , 0.0125 (0.231 ­ 0.3175) 0.024 ­ 0.040 (0.610 ­ 1.016) 0.005 ­ 0.0115 (0.127 ­ 0.292) G44 SSOP Linear Technology
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lead side brazed hermetic SO18 SO20 SO24 to-247 to-220 to-3p WO10 14--PACKAGE
Abstract: 3.0 ­ 3.0 ­ 4.0 ­ 4.0 tf t1 tn Fn = 1/tn Ft = 1/tf TIME TIME INTRODUCTION The , directly drives the flasher relay. The output structure is an Emitter of an NPN transistor. It contains , frequency is: Fn = 1/R1*C1*Kn. With a defective (open) 21 W lamp (Figure 2), the flashing frequency changes to: Fn = 2.2*Fn. The typical first flash delay (the time between the moment when the indicator , K L M N MILLIMETERS MIN MAX 9.40 10.16 6.10 6.60 3.94 4.45 0.38 0.51 1.02 1.78 Motorola
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MC33193 200L2 FLASHER IC DIP MC33193D MC33193P MC33193/D
Abstract: Freescale Semiconductor, Inc. t1 tn Fn = 1/tn Ft = 1/tf TIME TIME INTRODUCTION The , directly drives the flasher relay. The output structure is an Emitter of an NPN transistor. It contains , components C1 and R1. In the normal operating mode, the flashing frequency is: Fn = 1/R1*C1*Kn. With a defective (open) 21 W lamp (Figure 2), the flashing frequency changes to: Fn = 2.2*Fn. The typical first , 10.16 6.10 6.60 3.94 4.45 0.38 0.51 1.02 1.78 2.54 BSC 0.76 1.27 0.20 0.30 2.92 3.43 Freescale Semiconductor
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Abstract: 4.0 ­ 4.0 tf t1 tn Fn = 1/tn Ft = 1/tf TIME TIME INTRODUCTION The MC33193 is , flasher relay. The output structure is an Emitter of an NPN transistor. It contains the free wheeling , : Fn = 1/R1*C1*Kn. With a defective (open) 21 W lamp (Figure 2), the flashing frequency changes to: Fn = 2.2*Fn. The typical first flash delay (the time between the moment when the indicator switch is , F G H J K L M N MILLIMETERS MIN MAX 9.40 10.16 6.10 6.60 3.94 4.45 0.38 0.51 Motorola
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