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Part ECAD Model Manufacturer Description Datasheet Download Buy Part
BP-BASSENSORSMKII BP-BASSENSORSMKII ECAD Model Texas Instruments Building automation sensors BoosterPack module
PDRV5013AGQDBZT PDRV5013AGQDBZT ECAD Model Texas Instruments MAGNETIC FIELD SENSOR-HALL EFFECT
PDRV5053OAQDBZT PDRV5053OAQDBZT ECAD Model Texas Instruments MAGNETIC FIELD SENSOR-HALL EFFECT
PDRV5013ADQLPG PDRV5013ADQLPG ECAD Model Texas Instruments MAGNETIC FIELD SENSOR-HALL EFFECT
PDRV5053PAQDBZT PDRV5053PAQDBZT ECAD Model Texas Instruments MAGNETIC FIELD SENSOR-HALL EFFECT
PDRV5053OAQLPG PDRV5053OAQLPG ECAD Model Texas Instruments MAGNETIC FIELD SENSOR-HALL EFFECT

IR Sensor TK 1836 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2010 - si4432

Abstract: TRX 434 RF TRANSMITTER trx 434 trx 434 rf module wireless energy meter block diagram ezradiopro qfn20 TRX 434 RF TRANSMITTER in circuit 434 MHz RFID circuit diagram of Garage Door Openers
Text: Remote controls, IR replacement/extension LBD Temp Sensor 8-Bit ADC TXMOD 1 2 GPIO SCLK , detector, temperature sensor , power-on-reset, general purpose ADC, and 32.768 KHz RC or XTAL · , automation · Garage and gate door openers · Active RFID VR_DIG · Baby monitors · Sensor nodes POR , Subsystem · Multiple error detection Communication (Radio) Current Sensor 8-bit MCU Current Sensor ELECTRICITY METER · 16 byte payload per packet Wireless Development Suite Metering SoC


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PDF 64-byte QFN20 Si4432 SEL-SRW-2010E si4432 TRX 434 RF TRANSMITTER trx 434 trx 434 rf module wireless energy meter block diagram ezradiopro qfn20 TRX 434 RF TRANSMITTER in circuit 434 MHz RFID circuit diagram of Garage Door Openers
2012 - smv r010

Abstract: No abstract text available
Text: ) Abweichung TK = Kontaktstellentemperatur / Stability (Nominal load) deviation TK = Terminal temperature , • Bauteilemontage: IR - und Wellenlöten Mounting: IR - and wave-soldering Bauform / Size 4723 APPLIKATIONEN / APPLICATION • Messwiderstand für Leistungshybride Current sensor for , supplies www.rhopointcomponents.com Issue SMV-2011-11-11 p1 of 4 SMV Bauform / Size : 4723 TK , % Kontaktstellentemperatur TK [°C] / Terminal temperature TK [°C] Widerstandsänderung [%


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PDF MIL-STD-202 204-B MIL-STD-26e 108-f 120dB SMV-2011-11-11 smv r010
2001 - fan 7320

Abstract: R2E225 W1G115 r1g225 R2E225-BB w2e200 r4s225 LZ36 RM40D RH63M
Text: IR /265497 RH28M IR /265498 RH31M IR /265499 RH35M IR /265500 RH40M RM35D IR /265501 RH45M RM40D IR /265502 RH50M RM45D IR /265503 RH56M RM50D IR /265504 RH63M RM56D IR /265505 RH71M 9607-2-4013 Max. Dimensions (inches) a b c 5.08 (129 , Permanent Split Capacitor Black Motor "E" 1 Tk (T.O.P.) Brown Blue Motor Run Capacitor , 1 Blue Shaded Pole Motor "S" Tk (T.O.P.) 1 Tk (T.O.P.) Tk (T.O.P.) Line Voltage


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PDF LZ29-1 LZ32-4 LZ28-1 LZ22N LZ212 LZ260 LZ261 E133000 LR96263 SA6016 fan 7320 R2E225 W1G115 r1g225 R2E225-BB w2e200 r4s225 LZ36 RM40D RH63M
2004 - melf diode 666

Abstract: No abstract text available
Text: 1 1 1 1 1 1 1 1 1 1 1 1 1 0.5 0.5 0.5 0.5 0.5 0.5 0.5 IR µA < 50 < 10 <4 <2 <2 <2 <1 < 0.5 < 0.1 , 9.28 10.2 11.22 12.24 13.26 15.3 16.3 18.36 20.4 22.45 24.5 27.6 30.6 33.6 36.7 39.8 43.9 47.9 52 57.1 , at Tj = 150 °C NOTE: Additional measurement of voltage group TZMB9V1 to TZMB75, IR at 95 % VZmin = , ) TZMB. Vishay Semiconductors 600 500 400 300 200 100 0 TK VZ ­Temperature Coefficient of VZ , . Z-Voltage 100 V Ztn=V Zt/V Z(25°C) I F ­ Forward Current ( mA) 1.2 1.1 1.0 0.9 0.8 ­60 TK VZ =10 x


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PDF OD-80) D-74025 03-Feb-04 melf diode 666
Not Available

Abstract: No abstract text available
Text: Operation The sensor contains IR transmitter, receiver and amplifier with transistor output. The light , Photoelectrics Level Sensors Types VP, Modulated • • • • • • • Sensor for , High chemical resistance to most acids and bases VP01/03: Output OFF when sensor in liquid VP02/04: Output ON when sensor in liquid No electrical or thermal connection between liquid and electrical , Ordering Key Optical level sensor with modulated, infrared light for the detection of liquids. Fitted


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PDF VP01/03: VP02/04: VP02/04 VP01/03
KT860

Abstract: KT870 KT872 5 PIN JS5 IC lfr-20 Y405
Text: device throat) are either IR transmissive polysulfone (P1700-1615) for applications where aperture , ■IR Transmissive'Polysulfone Discrete Shells With .02° SQ, Leads 7 = Opaque Polysulfone , Front Of Sensor 5 - .050" 1 - .010" Aperture Width in Front of Emitter 5 ■.050" 1 - ,010" * ' , Mounting Tab Emitter Side Sensor Side -.010" Aperture in Front of Sensor - ,050" Aperture in Front of , parallel faces inside the device throat) are either IR transmissive polysulfone (P1700-1615) for


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PDF KT860/KT870 KT860 KT870 KT872 5 PIN JS5 IC lfr-20 Y405
2014 - Not Available

Abstract: No abstract text available
Text: /65/EU compliant – Applications – Current sensor for power hybrid applications – Power , rated power) deviation after 2000h, TK = Terminal temperature 1 5 to 500 1 < 30 -55 to +140 3 < 10 100 < 10 < 0.5 % ( TK =95 °C) < 1.0 % ( TK =110 °C) See all standard values , Reflow-, IR - and wave-soldering Temperature °C 260 255 217 Time sec peak 40 , ±0.2 % Operational Life 2000 h, TK max at nominal load ±1.0 %, TK = 110 °C High Temperature Exposure


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PDF 2011/65/EU 2000h, 23-June-2014
Not Available

Abstract: No abstract text available
Text: e ra tu re C o e ffic ie n t o f S e n s itiv ity The Thermopile Sensor series TPS 624 consist of series of 68 ther­ moelements, forming a sensitive area of 1,8 x 1,8 m m 2 The sensor . is hermetically sealed into a TO-5 housing w ith optical filter. The 6 series sensor is also available w ith , typical Noise Voltage 100.160 IMEP D e tec tivity Tim e constant TK o f Resistance Standard, 1 Hz, 500 K pk-pk, 300 K, 1 Hz < 0 .1 % /K TK o f Responsivity < ±0,05 % /K


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PDF 634-T.
2004 - Not Available

Abstract: No abstract text available
Text: Current IZT Temperature Coefficient TKVZ Test Current IZK VISHAY Reverse Leakage Current IR @ Tamb = , <2 <2 <2 <2 <5 <5 <5 < 10 < 10 < 10 < 10 < 10 IR @ Tamb = 150 °C @ VR V min BZX55C2V4 BZX55C2V7 , 5.72 6.32 6.94 7.65 8.36 9.28 10.2 11.22 12.24 13.26 15.3 16.3 18.36 20.4 22.45 24.5 27.6 30.6 33.6 , Test Current IZK Reverse Leakage Current IR @ Tamb = 25 °C µA < 10 <4 <2 <2 <2 <1 < 0.5 < 0.1 < 0.1 , <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <5 <5 <5 < 10 < 10 < 10 < 10 < 10 IR @ Tamb =


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PDF BZX55-Series DO-35 D-74025 16-Apr-04
2004 - t001

Abstract: No abstract text available
Text: Leakage Current IR @ Tamb = 25°C IR @ Tamb = 150°C µA < 50 < 10 <4 <2 <2 <2 <1 < 0.5 < 0.1 < 0.1 < 0.1 , 13.26 15.3 16.3 18.36 20.4 22.45 24.5 27.6 30.6 33.6 36.7 39.8 43.9 47.9 52 57.1 63.2 69.4 76.5 < 85 , Reverse Leakage Current VZ @ IZT IR @ Tamb = 25°C µA < 50 < 10 <4 <2 <2 <2 <1 < 0.5 < 0.1 < 0.1 , < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 IR @ Tamb = 150°C V < 100 < 50 < 40 < 40 , 500 400 300 200 100 0 TK VZ ­Temperature Coefficient of VZ ( 10­4 /K) 15 10 5 I Z=5mA 0


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PDF BZT55-Series OD-80 D-74025 16-Apr-04 t001
2005 - Not Available

Abstract: No abstract text available
Text: Temperature Coefficient TKVZ Test Current IZK VISHAY Reverse Leakage Current IR @Tamb = 25 °C IR @ Tamb , 3.68 3.98 4.38 4.80 5.20 5.72 6.32 6.94 7.65 8.36 9.28 10.20 11.22 12.24 13.26 15.30 16.30 18.36 20.40 , Current IR IR @Tamb = @Tamb = 25°C 150°C µA < 50 < 10 <4 <2 <2 <2 <1 < 0.5 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 , ­60 95 9599 TK VZ =10 x 10­4/K Tj =25°C 100 8 x 10­4/K 6 x 10­4/K 4 x 10­4/K 2 x 10­4/K 0 ­2 x , Voltage under Operating Conditions at Tamb=25°C TK VZ ­Temperature Coefficient of VZ ( 10­4 /K) Fig. 5


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PDF BZM55-Series BZT55. OD-323 OD-110 08-Apr-05
2005 - Not Available

Abstract: No abstract text available
Text: Leakage Current IR @ Tamb = 25°C IR @ Tamb = 150°C µA < 50 < 10 <4 <2 <2 <2 <1 < 0.5 < 0.1 < 0.1 < 0.1 , 13.26 15.3 16.3 18.36 20.4 22.45 24.5 27.6 30.6 33.6 36.7 39.8 43.9 47.9 52 57.1 63.2 69.4 76.5 < 85 , Reverse Leakage Current VZ @ IZT IR @ Tamb = 25°C µA < 50 < 10 <4 <2 <2 <2 <1 < 0.5 < 0.1 < 0.1 , < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 IR @ Tamb = 150°C V < 100 < 50 < 40 < 40 , 500 400 300 200 100 0 TK VZ ­Temperature Coefficient of VZ ( 10­4 /K) 15 10 5 I Z=5mA 0


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PDF BZT55-Series OD-80 08-Apr-05
2003 - BZM55B5V1

Abstract: BZM55C4V3 BZM55C3V9 BZM55C3V6 BZM55C3V3 BZM55C3V0 BZM55C2V7 BZM55C2V4 BZM55C BZM55
Text: BZM55C3V6 3.4 BZM55C3V9 %/K Reverse Leakage Current IR @Tamb = 25 °C IR @ Tamb = 150 , Current IZT TKVZ IZK IR IR @Tamb = @Tamb = 25°C 150°C @VR mA µA V mA min , < 170 5 0.03 0.11 1 < 0.1 <2 12 BZM55B18 * 17.64 18.36 < 50 < 170 , 15 20 V Ztn=V Zt/V Z(25°C) 1.2 TK VZ =10 x 10­4/K 1.1 0 1.0 ­2 x 10­4/K ­4 x , 10­4/K 2 x 10­4/K 0.8 ­60 25 V Z ­ Z-Voltage ( V ) 95 9598 TK VZ ­Temperature


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PDF BZM55. BZT55. 10k/box D-74025 10-Jun-03 BZM55B5V1 BZM55C4V3 BZM55C3V9 BZM55C3V6 BZM55C3V3 BZM55C3V0 BZM55C2V7 BZM55C2V4 BZM55C BZM55
2004 - sod110 package

Abstract: No abstract text available
Text: Temperature Coefficient TKVZ Test Current IZK VISHAY Reverse Leakage Current IR @Tamb = 25 °C IR @ Tamb , 3.68 3.98 4.38 4.80 5.20 5.72 6.32 6.94 7.65 8.36 9.28 10.20 11.22 12.24 13.26 15.30 16.30 18.36 20.40 , Current IR IR @Tamb = @Tamb = 25°C 150°C µA < 50 < 10 <4 <2 <2 <2 <1 < 0.5 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 , ­60 95 9599 TK VZ =10 x 10­4/K Tj =25°C 100 8 x 10­4/K 6 x 10­4/K 4 x 10­4/K 2 x 10­4/K 0 ­2 x , Voltage under Operating Conditions at Tamb=25°C TK VZ ­Temperature Coefficient of VZ ( 10­4 /K) Fig. 5


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PDF BZM55-Series BZT55. OD-323 OD-110 D-74025 19-Apr-04 sod110 package
2004 - Not Available

Abstract: No abstract text available
Text: Current IZK VISHAY Reverse Leakage Current IR @ Tamb = 25 °C µA < 50 < 10 <4 <2 <2 <2 <1 < 0.5 < 0.1 , IR @ Tamb = 150 °C @ VR V min BZX55C2V4 BZX55C2V7 BZX55C3V0 BZX55C3V3 BZX55C3V6 BZX55C3V9 , 12.24 13.26 15.3 16.3 18.36 20.4 22.45 24.5 27.6 30.6 33.6 36.7 39.8 43.9 47.9 52 57.1 63.2 69.4 76.5 , Coefficient TKVZ BZX55-Series Vishay Semiconductors Test Current IZK Reverse Leakage Current IR @ , <2 <2 <5 <5 <5 < 10 < 10 < 10 < 10 < 10 IR @ Tamb = 150 °C @ VR V min BZX55B2V7 BZX55B3V0


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PDF BZX55-Series DO-35 D-74025 16-Apr-04
2003 - BZX55

Abstract: BZX55C BZX55C2V4 BZX55C2V7 BZX55C3V0 BZX55C3V3 BZX55C3V6 BZX55C3V9 BZX55C4V3
Text: < 85 BZX55C3V3 3.1 3.5 BZX55C3V6 3.4 BZX55C3V9 %/K Reverse Leakage Current IR @ Tamb = 25 °C IR @ Tamb = 150 °C µA mA @ VR V min max 5 -0.09 -0.06 , BZX55B3V6 3.52 3.68 BZX55B3V9 3.82 BZX55B4V3 %/K Reverse Leakage Current IR @ Tamb = 25 °C IR @ Tamb = 150 °C µA mA @ VR V min max 5 -0.09 -0.06 1 , 17.64 18.36 < 50 < 170 5 0.03 0.11 1 < 0.1 <2 13 BZX55B20 19.6


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PDF BZX55. DO-35 30k/box D-74025 27-Mar-03 BZX55 BZX55C BZX55C2V4 BZX55C2V7 BZX55C3V0 BZX55C3V3 BZX55C3V6 BZX55C3V9 BZX55C4V3
2003 - BZM55

Abstract: BZM55C4V3 BZM55C3V9 BZM55C3V6 BZM55C3V3 BZM55C3V0 BZM55C2V7 BZM55C2V4 BZM55C BZT55
Text: 3.5 BZM55C3V6 3.4 BZM55C3V9 %/K Reverse Leakage Current IR @Tamb = 25 °C IR @ , Leakage Current IR @Tamb = 25°C IR @Tamb = 150°C µA mA @V R V min max 5 , 12 BZM55B18 * 17.64 18.36 < 50 < 170 5 0.03 0.11 1 < 0.1 <2 13 , =25°C 100 I Z=5mA 10 1 0 5 10 15 20 V Ztn=V Zt/V Z(25°C) 1.2 TK VZ =10 x , Z-Voltage ( V ) 95 9598 TK VZ ­Temperature Coefficient of VZ ( 10­4 /K) 5 95 9601 Figure 1


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PDF BZM55. BZT55. 10k/box D-74025 27-Mar-03 BZM55 BZM55C4V3 BZM55C3V9 BZM55C3V6 BZM55C3V3 BZM55C3V0 BZM55C2V7 BZM55C2V4 BZM55C BZT55
2003 - BZT55

Abstract: BZT55C BZT55C2V4 BZT55C2V7 BZT55C3V0 BZT55C3V3 BZT55C3V6 BZT55C3V9
Text: Reverse Leakage Current IR @ Tamb = 25°C IR @ Tamb = 150°C µA mA @VR V min max , of Zener Voltage Test Current VZ @ IZT rzj@ IZT, f = 1 kHz IZT TKVZ IZK IR @ , BZT55B3V3 3.24 3.36 BZT55B3V6 3.52 BZT55B3V9 %/K Reverse Leakage Current IR @ Tamb , 0.11 1 < 0.1 <2 12 BZT55B18 * 17.64 18.36 < 50 < 170 5 0.03 0.11 , 40 80 120 160 200 Tamb ­ Ambient T emperature(°C ) 95 9602 TK VZ ­Temperature


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PDF BZT55. 10k/box OD-80 D-74025 10-Jun-03 BZT55 BZT55C BZT55C2V4 BZT55C2V7 BZT55C3V0 BZT55C3V3 BZT55C3V6 BZT55C3V9
2003 - Not Available

Abstract: No abstract text available
Text: Coefficient TKVZ Test Current IZK VISHAY Reverse Leakage Current IR @Tamb = 25°C IR @Tamb = 150°C µA , 10.20 11.22 12.24 13.26 15.30 16.30 18.36 20.40 22.45 24.5 27.6 30.6 33.6 36.7 39.8 43.9 47.9 52.0 57.1 , Test Current IZK Reverse Leakage Current IR @Tamb = 25°C IR @Tamb = 150°C µA < 100 < 10 <4 <2 <2 <2 , VoltageChange VZ ­VoltageChange ( mV ) 1.3 V Ztn=V Zt/V Z(25°C) 1.2 1.1 1.0 0.9 0.8 ­60 95 9599 TK VZ =10 x , Operating Conditions at Tamb=25°C TK VZ ­Temperature Coefficient of VZ ( 10­4 /K) Figure 5. Typical


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PDF BZM55. BZT55. 10k/box D-74025 26-Feb-03
2003 - BZT55B7V5

Abstract: No abstract text available
Text: Current IZK VISHAY Reverse Leakage Current IR @ Tamb = 25°C IR @ Tamb = 150°C µA < 50 < 10 <4 <2 <2 , Zener Voltage TKVZ Test Current IZK Reverse Leakage Current VZ @ IZT IR @ Tamb = 25°C µA , IR @ Tamb = 150°C V < 100 < 50 < 40 < 40 < 40 < 40 < 20 < 10 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 , 18.36 20.4 22.45 24.5 27.6 30.6 33.6 36.7 39.8 43.9 47.9 52 57.1 63.2 69.4 76.5 < 85 < 85 < 90 < 90 < 90 , specified) P tot ­Total Power Dissipation ( mW) VISHAY 600 500 400 300 200 100 0 TK VZ


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PDF BZT55. OD-80 10k/box D-74025 26-Feb-03 BZT55B7V5
2005 - Not Available

Abstract: No abstract text available
Text: Current IZT Temperature Coefficient TKVZ Test Current IZK VISHAY Reverse Leakage Current IR @ Tamb = , <2 <2 <2 <2 <5 <5 <5 < 10 < 10 < 10 < 10 < 10 IR @ Tamb = 150 °C @ VR V min BZX55C2V4 BZX55C2V7 , 5.72 6.32 6.94 7.65 8.36 9.28 10.2 11.22 12.24 13.26 15.3 16.3 18.36 20.4 22.45 24.5 27.6 30.6 33.6 , Test Current IZK Reverse Leakage Current IR @ Tamb = 25 °C µA < 10 <4 <2 <2 <2 <1 < 0.5 < 0.1 < 0.1 , <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <5 <5 <5 < 10 < 10 < 10 < 10 < 10 IR @ Tamb =


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PDF BZX55-Series DO-35 08-Apr-05
c7805

Abstract: C7812 IR Sensor TK 1836 c7815 7812A UC7915 7812A voltage regulator voltage regulator 7812A features UC494 C117H
Text: era ture and A ir Flo w Sensor LT1054M LT1054C C harge Pum p C onvertor ISDN p rim ary S ide C , y lN T E O R A T E D C IR C U ITS UNITRODE Power Supply Controls PWM Performance Chart , egulator C ontrollers 5V Fixed (1835 Series) Adjustable ( 1836 Series) M agnetic Am plifer Controller 8 , A T E D C IR C U IT S - UIVIITRODE Power Supply Controls PRODUCT APPLICATIONS CIRCUITS P , to U C16 10/3610 Schottky A rray · T Y P IC A L A P P U (^A TK )N S M atched, Four Diode M


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PDF UC1524/2524/3524 UC1524A/2524A/3524A UC1525A/2525A/3525A UC1527A/2527A/3527A UC1526/2526/3526 UC1526A/2526A/3526A UC1823/2823/3823 UC1825/2825/3825 UC494 UC494A/UC494AC c7805 C7812 IR Sensor TK 1836 c7815 7812A UC7915 7812A voltage regulator voltage regulator 7812A features C117H
2003 - BZX55 Vishay

Abstract: BZX55C3V9 BZX55C3V6 BZX55C3V3 BZX55C3V0 BZX55C2V7 BZX55C2V4 BZX55C BZX55 BZX55C4V3
Text: Reverse Leakage Current IR @ Tamb = 25 °C IR @ Tamb = 150 °C µA mA @ VR V min max , BZX55B3V6 3.52 3.68 BZX55B3V9 3.82 BZX55B4V3 %/K Reverse Leakage Current IR @ Tamb = 25 °C IR @ Tamb = 150 °C µA mA @ VR V min max 5 -0.09 -0.06 1 , 17.64 18.36 < 50 < 170 5 0.03 0.11 1 < 0.1 <2 13 BZX55B20 19.6 , Voltage under Operating Conditions at Tamb=25°C www.vishay.com 4 TK VZ =10 x 10­4/K 0.8 ­60


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PDF BZX55. DO-35 30k/box D-74025 12-Juni-03 BZX55 Vishay BZX55C3V9 BZX55C3V6 BZX55C3V3 BZX55C3V0 BZX55C2V7 BZX55C2V4 BZX55C BZX55 BZX55C4V3
2004 - BZT55

Abstract: BZM55C4V7 BZM55C4V3 BZM55C3V9 BZM55C3V6 BZM55C3V3 BZM55C3V0 BZM55C2V7 BZM55C2V4 BZM55C
Text: Current IZT TKVZ IZK mA %/K min Reverse Leakage Current IR @Tamb = 25 °C IR @ , Current IZT TKVZ IZK IR IR @Tamb = @Tamb = 25°C 150°C @VR mA µA V mA min , < 170 5 0.03 0.11 1 < 0.1 <2 12 BZM55B18 * 17.64 18.36 < 50 < 170 , I Z=5mA 10 1 0 5 10 15 20 V Ztn=V Zt/V Z(25°C) 1.2 TK VZ =10 x 10­4/K 1.1 , ( mA) TK VZ ­Temperature Coefficient of VZ ( 10­4 /K) V R=2V Tj =25°C 0 0 95 9602 10


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PDF BZM55-Series BZT55. OD-323 OD-110 D-74025 19-Apr-04 BZT55 BZM55C4V7 BZM55C4V3 BZM55C3V9 BZM55C3V6 BZM55C3V3 BZM55C3V0 BZM55C2V7 BZM55C2V4 BZM55C
2004 - BZT55C12

Abstract: 02T02
Text: Current IZK VISHAY Reverse Leakage Current IR @ Tamb = 25°C IR @ Tamb = 150°C µA < 50 < 10 <4 <2 <2 , 8.36 9.28 10.2 11.22 12.24 13.26 15.3 16.3 18.36 20.4 22.45 24.5 27.6 30.6 33.6 36.7 39.8 43.9 47.9 52 , Test Current IZK Reverse Leakage Current VZ @ IZT IR @ Tamb = 25°C µA < 50 < 10 <4 <2 <2 <2 <1 , < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 < 0.1 IR @ Tamb = 150°C V , ( mW) VISHAY 600 500 400 300 200 100 0 TK VZ ­Temperature Coefficient of VZ ( 10­4 /K) 15


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PDF BZT55-Series OD-80 D-74025 16-Apr-04 BZT55C12 02T02
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