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SOT23-5EV-VREG Microchip Technology Inc EVAL BOARD SOT23-5 VOLTAGE REG visit Digikey
97-20-29S-431 Amphenol Industrial Operations 97-20-29S-431 visit Digikey
97-20-8P-431 Amphenol Industrial Operations 97-20-8P-431 visit Digikey
VT-UIPM-431-H Red Lion Controls VT-UIPM-431-H MOD+BASE,SK visit Digikey
LMH6704MF Texas Instruments 1 CHANNEL, VIDEO AMPLIFIER, PDSO6, SOT23, 6-PIN visit Texas Instruments
LM8365BALMFX27 Texas Instruments 1-CHANNEL POWER SUPPLY SUPPORT CKT, PDSO5, SOT23-5 visit Texas Instruments

431 sot23-5

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: TL431G TL431CSF 431 TL431GCSF 431 TL431ASF 431 TL431GASF 431 TL431SF 431 TL431GSF 431 0.5% TL431CF 431 Reel 1% TL431AF 431 Reel 2% TL431F 431 , VREF ] [ Fig 3. Test circuit for IKA(OFF) ] 2008 ­ Rev. 1.2 -5- HTC PROGRAMMABLE , =2.495V ± 0.5% 2.497 2.496 2.495 2.494 5 4 3 Output 2 1 2.493 2.492 0 0 20 40 60 80 100 120 -1 0 1 2 TJ-Junction Temperature () 3 4 5 6 -
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TL431 MARKING 431 REGULATOR sot23 TL431 SOT-23 TL431 application note sot23 tl431 marking TL431 5v TL431/A/C 50PPM/ TL431TA
Abstract: TL431G TL431CSF 431 TL431GCSF 431 TL431ASF 431 TL431GASF 431 TL431SF 431 TL431GSF 431 0.5% TL431CF 431 Reel 1% TL431AF 431 Reel 2% TL431F 431 , .1.3 -5- HTC PROGRAMMABLE PRECISION SHUNT REGULATOR TL431/A/C The deviation parameters VREF/T , TL431/A/C 4. High-Current Shunt Regulator 5. Precision 5-V 1.5A Regulator 6. Efficient 5 -
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TL431C tl431 application circuits 431 regulator TL431ATA tl431 htc 431 sot89
Abstract: μH 744 025 220 22 μH 744 025 220 22 μH 744 025 220 18 μH 744 032 180 15 μH 744 032 001 5 , 95 % SOT23-5 SOT23-5 SOIC8 DFN6 Würth Elektronik Inductor Value 4.7 ÂuH 2.2 ÂuH 2.2 , 089 431 00 15 μH 744 089 431 50 15 μH 744 089 431 50 15 μH 744 089 431 50 15 μH 744 089 431 50 Best suitable inductor 1.8 μH 744 043 001 8 2.2 μH 744 043 002 2 3.3 μH 744 373 , 432 20 18 μH 744 043 180 15 μH 744 089 431 50 Inductor Value L â'" Resistor Values R1/R2 Würth Elektronik
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SP6669 XRP6668
Abstract: Circuit for VZ = VREF Figure 5. Test Circuit for VZ > VREF Figure 6. Test Circuit for Off-State , Output Impedance (2) VZ = VREF, II = 10 mA, TA = Full Range (Figure 4 ) IZ = 10 mA (Figure 5 ) VZ from , = 10 k, R2 = , II = 10 mA (Figure 5 ) R1 = 10 k, R2 = , II = 10 mA, TA = Full Range (Figure 5 ) VZ = , external resistors, R1 and R2, (see Figure 5 ), the dynamic output impedance of the overall circuit, rZ, is , : LM431 5 LM431 SNVS020F ­ MAY 2004 ­ REVISED SEPTEMBER 2010 www.ti.com Typical Performance Texas Instruments
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N1E sot23 LM431BCM3 LM431BCM3X LM431AIM3X LM431AIM3 LM431ACM3X ISO/TS16949
Abstract: Circuits Note: VZ = VREF (1 + R1/R2) + IREFâ'¢ R1 Figure 4. Test Circuit for VZ = VREF Figure 5 , 4 ) IZ = 10 mA (Figure 5 ) VZ from VREF to 10V â'1.4 â'2.7 VZ from 10V to 36V â'1.0 â'2.0 Reference Input Current R1 = 10 k , R2 = âž, II = 10 mA (Figure 5 ) 2.0 4.0 , mA, TA = Full Range (Figure 5 ) 0.4 1.2 A IZ(MIN) Minimum Cathode Current for , Figure 5 ), the dynamic output impedance of the overall circuit, rZ, is defined as: Submit Texas Instruments
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SNVS020G
Abstract: Circuits Note: VZ = VREF (1 + R1/R2) + IREFâ'¢ R1 Figure 4. Test Circuit for VZ = VREF Figure 5 , 10 mA (Figure 5 ) IREF Reference Input Current R1 = 10 kΩ, R2 = âž, II = 10 mA (Figure 5 , , TA = Full Range (Figure 5 ) 0.4 1.2 μA IZ(MIN) Minimum Cathode Current for Regulation , Figure 5 ), the dynamic output impedance of the overall circuit, rZ, is defined as: Submit , Product Folder Links: LM431 5 LM431 SNVS020G â'" MAY 2000 â'" REVISED APRIL 2013 www.ti.com Texas Instruments
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Abstract: Circuits Note: VZ = VREF (1 + R1/R2) + IREFâ'¢ R1 Figure 4. Test Circuit for VZ = VREF Figure 5 , 10 mA (Figure 5 ) IREF Reference Input Current R1 = 10 kΩ, R2 = âž, II = 10 mA (Figure 5 , , TA = Full Range (Figure 5 ) 0.4 1.2 μA IZ(MIN) Minimum Cathode Current for Regulation , Figure 5 ), the dynamic output impedance of the overall circuit, rZ, is defined as: Submit , Product Folder Links: LM431 5 LM431 SNVS020G â'" MAY 2000 â'" REVISED APRIL 2013 www.ti.com Texas Instruments
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sot 23 marking code 431
Abstract: Circuit for VZ = VREF Figure 5. Test Circuit for VZ > VREF Figure 6. Test Circuit for Off-State , Output Impedance (2) VZ = VREF, II = 10 mA, TA = Full Range (Figure 4 ) IZ = 10 mA (Figure 5 ) VZ from , = 10 k, R2 = , II = 10 mA (Figure 5 ) R1 = 10 k, R2 = , II = 10 mA, TA = Full Range (Figure 5 ) VZ = , external resistors, R1 and R2, (see Figure 5 ), the dynamic output impedance of the overall circuit, rZ, is , © 2000­2013, Texas Instruments Incorporated Submit Documentation Feedback Product Folder Links: LM431 5 Texas Instruments
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Abstract: with SOT89, SC70-6 and SOT23-5 planned â'¢ This enables the ZXCT1051 to monitor supply/load , not important as â'˜431 references are mainly used in low voltage applications. 1 to 100 , (typ) 0.5 -40 to 125 Package SOT23, TO92, SOT223 SOT23, TO92, SOT89, SOT23-5, SC70 , www.zetex.com Competition There are a large number of competitors selling 431-type shunt regulators , of â'˜431 type suppliers. Company Zetex Part number TI ZR431 ZTL431/2 TL431/2 2 Zetex Semiconductors
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ZTL431 ZTL432 ZTL431ACSTZ ZTL432AFTA
Abstract: TL431-C 431 SOT-23 3L 431 from -40 to +125. SOT-89 3L Absolute Maximum Ratings (Operating , % SOT-89 1% 2% SOT-23 TL431CSF Reel TL431F 431 431 Reel Reel Reel TL 431 , . 1.1 -5- HTC PROGRAMMABLE PRECISION SHUNT REGULATOR TL431/A/C TYPICAL OPERATING , =2.495V ± 0.5% 2.497 2.496 2.495 2.494 5 4 3 Output 2 1 2.493 2.492 0 0 20 40 60 80 100 120 -1 0 1 2 TJ-Junction Temperature () 3 4 5 6 -
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sot-23 MARKING CODE 431 431 sot-23 TL431 sot package sot-23 431 sot 23 TL 431 regulator TL431 sot-23 marking 431 TL431-A
Abstract: Circuits Note: VZ = VREF (1 + R1/R2) + IREFâ'¢ R1 Figure 4. Test Circuit for VZ = VREF Figure 5 , 10 mA (Figure 5 ) IREF Reference Input Current R1 = 10 kΩ, R2 = âž, II = 10 mA (Figure 5 , , TA = Full Range (Figure 5 ) 0.4 1.2 μA IZ(MIN) Minimum Cathode Current for Regulation , Figure 5 ), the dynamic output impedance of the overall circuit, rZ, is defined as: Submit , Product Folder Links: LM431 5 LM431 SNVS020G â'" MAY 2000 â'" REVISED APRIL 2013 www.ti.com Texas Instruments
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Abstract: -55 DC Test Circuits DS010055-4 DS010055-5 FIGURE 1. Test Circuit for VZ = VREF Note: VZ = , Temperature (Note 5) Ratio of the Change in Reference Voltage to the Change in Cathode Voltage IREF IREF , at 3mW/°C. Note 5: Deviation of reference input voltage, VDEV, is defined as the maximum variation of , DS010055-3 5 www.national.com LM431 Typical Performance Characteristics Input Current vs VZ , RESPECT TO TEXT ORIENTATION. REMAINING PINS ARE NUMBERED. 5. XXX IN DRAWING NUMBER REPRESENTS PACKAGE SIZE National Semiconductor
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marking code AE SMD Transistor smd transistor 2T transistor smd code marking 431 transistor 431 smd n1f smd national marking code 8 soic DS010055-28 DS010055-1 DS010055-54 DS010055-2 DS010055 LM431CCZ/
Abstract: +2.55 +2.59 +2.59 +2.85 +2.89 +2.89 +3. +3. +3. +3.04 +3.04 +3.93 +4.25 +4.31 +4.31 +4.5 +4.5 +4.5 +4.5 , 1/2.25 1/2.25 N/A 50 N/A 50 ADM1810-10 ADM1810-15 ADM1810-5 ADM1811-10 ADM1811-15 ADM1811-5 ADM1812-10 ADM1812-15 ADM1812-5 4.25 4 4.5 4.25 4 4.5 4.25 4 4.5 4.75 4.24 4.75 4.75 4.24 4.75 4.75 -
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12 sot23-3 23 SOT23-3 ADM1811 NA SOT23-3 ADM709R ADM809R ADM810R ADM709S ADM809S ADM810S
Abstract: -4 DS010055-5 FIGURE 1. Test Circuit for VZ = VREF Note: VZ = VREF (1 + R1/R2) + IREF · R1 FIGURE 2 , ) VDEV Deviation of Reference Input Voltage Over Temperature (Note 5) Ratio of the Change in Reference , SO-8 at 6.5 mW/°C, the SOT-23 at 2.2 mW/°C and the micro SMD at 3mW/°C. Note 5: Deviation of , overall circuit, rZ, is defined as: Equivalent Circuit DS010055-3 5 www.national.com LM431 , ORIENTATION. REMAINING PINS ARE NUMBERED. 5. XXX IN DRAWING NUMBER REPRESENTS PACKAGE SIZE VARIATION WHERE X1 National Semiconductor
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transistor smd marking 431 K TRANSISTOR SMD MARKING CODE 2t transistor smd marking 431 SMD TRANSISTOR MARKING 2T smd transistor A1 sot-23 431 SMD SOT-23 CODE MARKING AN-1112 LM431CCZ LM431CIZ LM431AIBP 27AN-1112
Abstract: Precision Shunt Regulators SO-8 8 SOT-23 7 SOT-89 TO-92 3 6 5 1 1 1 2 2 , 3 6 Anode 5 NC NC 4 3 Top View 1. Cathode 2. Vref 3. Anode 2 1 SOT-23 (U , Vishay formerly General Semiconductor Typical Performance Characteristics Fig. 5 ­ Reference , -6 -8 -10 -12 0 5 10 15 20 25 Cathode Voltage (V) Document Number 74806 , 40 60 80 100 120 Temperature (°C) www.vishay.com 5 GS431B/TL431A/TL431 Vishay Vishay Semiconductors
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GS431B TL431A TL431 current limit tl431a to92 R2B marking code precision shunt regulators 431 431 marking code sot TL 431 SO8
Abstract: LMV 431 A SOT23-3 TO92: Plastic Package Top View SOT23-5 20030819 , Muna A. Update Industrial Range for SOT23-5 per Kelly Flaherty Modified graphic 100958-51 updated , ds100958 11800 24060 33200 24180 19880809 LMV 431 LMV431/LMV431A/LMV431B (1.24V) DS100958-13-JP © National Semiconductor Corporation LMV431/LMV431A/LMV431B (1.24V) 2005 5 , 5 www.national.com/JPN/ LMV431/LMV431A/LMV431B LMV431AI TA 25 LMV431BC TA 25 National Semiconductor
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LMV431B MA05A MF05A sot23-5 transistor T1 T1 SOT23-3 r2rz 028W TRANSISTOR 431 R2 sot23-3 39PPM/ LMV431 MF03A
Abstract: LMV 431 A SOT23-3 TO92: Plastic Package Top View SOT23-5 20030819 , Muna A. Update Industrial Range for SOT23-5 per Kelly Flaherty Modified graphic 100958-51 updated , ds100958 11800 24060 33200 24180 19880809 LMV 431 LMV431/LMV431A/LMV431B (1.24V) DS100958-13-JP © National Semiconductor Corporation LMV431/LMV431A/LMV431B (1.24V) 2005 5 , 5 www.national.com/JPN/ LMV431/LMV431A/LMV431B LMV431AI TA 25 LMV431BC TA 25 National Semiconductor
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Package M5 SOT23 transistor M5 sot23-3 LMV431C 431 SOT23 transistor w 431
Abstract: Output Driver FM803JP3X* 5 256 4.00 No No Active Low Open-Drain -40 to +85 SC70-3 TnR FM803LP3X* 5 256 4.63 No No Active Low Open-Drain -40 to +85 SC70-3 TnR FM803MP3X* 5 256 4.38 No No Active Low Open-Drain -40 to +85 , SC70-3 TnR FM803JS3X 5 256 4.00 No No Active Low Open-Drain -40 to +105 SOT23-3 TnR FM803LS3X 5 256 4.63 No No Active Low Open-Drain -40 to +105 Fairchild Semiconductor
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FM803RP3X FM803SP3X FM803MS3X FM803RS3X KA3501 tnr 220 KA3505 KA3511 low voltage reset SC70-3 FM803TP3X FM803SS3X
Abstract: GS431B/TL431A/TL431 Vishay Siliconix Adjustable Precision Shunt Regulators SO-8 8 7 6 5 1 2 3 , -E3 TL431AIS/5-E3 TL431IS/5H-E3 Package Vref Tolerance 0.5% 1.0% 2.0% 0.5% 1.0% 2.0% 0.5% 1.0% 2.0% 0.5% 1.0 , Ref 7 Anode 6 Anode 5 NC SO-8 SOT-23 (U1) GS431BIX/11H-E3 TL431AIX/11H-E3 SOT-89 TL431IX/11H , 800 VZ = VREF TA = 25°C IZ(MIN) 2.58 2.56 TL431 VZ = VREF IZ = 10mA Fig. 5 ­ Reference Voltage vs , ) Change In Reference Voltage (mV) -5 IZ=10mA TA=25°C 2.0 VZ=VREF VZ=30V 1.5 -10 -15 -20 Vishay Siliconix
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SOT-89 marking N2 tl431ailp TL431 883 sot89 E3 SOT-89 N2 10k431 MO-78AA S-31068--R MS-012AA
Abstract: Shunt Regulators SO-8 8 7 6 5 1 2 3 4 1 2 1 2 3 SOT-23 3 SOT-89 TO-92 S Suffix U , Semiconductor Ordering Information Cathode 1 Top View 8 Ref 7 Anode 6 Anode 5 NC SO-8 GS431BIxx , 10mA Fig. 5 ­ Reference Voltage vs. Temperature Reference Voltage (V) Cathode Current (uA , VZ=VREF VZ=30V 1.5 -4 -6 -8 -10 1.0 0.5 -12 0 5 10 15 20 25 30 35 40 0.0 -40 , -Jun-02 Temperature (°C) www.vishay.com 5 GS431B/TL431A/TL431 Vishay formerly General Semiconductor Fig. 10 ­ Vishay Semiconductors
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TL431 sot23-3 tl431 on semiconductor TL431 SOT23 Code sot-89 on semiconductor SOT-23 R2B GS431
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