NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Part | Manufacturer | Description | Samples | Ordering |
| BZX79-B3V3,133 | NXP Semiconductors | DIODE ZENER DIODE,SINGLE, TWO TERMINAL,3.3V V(Z),2%,DO-35, Voltage Regulator Diode | 
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| BZX79-B3V3,143 | NXP Semiconductors | DIODE ZENER DIODE,SINGLE, TWO TERMINAL,3.3V V(Z),2%,DO-35, Voltage Regulator Diode |
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| BZX79-C3V3,143 | NXP Semiconductors | DIODE ZENER DIODE,SINGLE, TWO TERMINAL,3.3V V(Z),5%,DO-35, Voltage Regulator Diode |
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| NZH3V3A,115 | NXP Semiconductors | DIODE ZENER DIODE,SINGLE, TWO TERMINAL,3.3V V(Z),3.4%,SOD-123VAR, Voltage Regulator Diode |
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| Catalog Datasheet Results | Type | Document Tags |
| Abstract: two cells) turns on the 3.3V zener and disables the timer. Connecting a battery drops the BATT+ , during a fast charge, but must shut off when the battery is disconnected. Zener diode D1 makes that , to flash. Other cell counts require different zener voltages: During a fast charge, the LED ... | Original |
3 pages, |
IC 555 timer data sheet ic 555 timer astable multivibrator 555-timer circuit datasheet of ic 555 datasheet ic 555 application note ic 555 1.4V zener diode Astable Multivibrator 3.3V 3.3v zener data sheet IC 555 555-timer 555 TIMER IC datasheet abstract |
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| Abstract: 249 + 3.3V/0.02A = 414 The module has an internal resistance of 249 in series with a 3.3V zener , sufficient to cause current to flow through the 3.3V zener diode. Therefore, the ohm-meter will display ... | Original |
5 pages, |
3.3V ZENER DIODE datasheet abstract |
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| Abstract: of the transistor is now in series with the load so a 3.3V zener diode is chosen. If this diode is , voltage of the first regulator will be close to 5.6V and that of the second stage 3.1V. The 3.3V zener , supply. A 3.3V zener diode typically has a temperature coefficient of -2mV/ºC. The VBE of the output , 3.3V zener regulator to increase due to the low bias current as well as the high on resistance of the 3.3V zener diode. This configuration almost cancels the temperature coefficient of the output voltage ... | Original |
16 pages, |
SA4101 "PNP Transistor" SMD 3.3v zener power LED 4W 220v diagram clamp meter schematic A10N S20K275 SA4104A 1N4007 sma 250v energy meter circuit diagram e20 220v kc-1206 3.3V ZENER DIODE RM4104ASEB RM4104ASEB RM4104ASEB abstract |
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| Abstract: TB480 TB480.0 Introduction VPULL-UP = 5.5V VDD 0.1uF 10k 3.3V Zener VDD = 3.3V 10k , Figure 2 shows an example circuit with a Zener diode to lower the 5.5V input voltage to 3.3V for VDD. , DIODE ON VDD TO REDUCE INPUT VOLTAGE TO 3.3V · Stable Frequency Output vs VDD · Smaller Package , has the I2C lines pulled up to 5.5V (or other voltage higher than 3.6V), but has a 3.3V regulator on board requires a simple modification to connect the VDD to 3.3V instead of 5.5V. Figure 1 shows an ... | Original |
2 pages, |
DS1337 DATA SHEET ISL12057 DS1337 TB480 DS1337 abstract |
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| Abstract: exceed VCC+0.3 volts. The zener diode clamps the signal to 3.3V maximum and 0.3V minimum to ensure that , 13VAC 13VAC 300 R1 60Hz/50Hz Signal 3.3V zener 1k R2 1k VCC CLKIN VSS SCL SDA , regulated to 3.3V in an L4931 L4931 voltage regulator to supply VCC to the M41T50 M41T50 device. te le There is , AC lead of the rectifier. The resistor and the zener diode are the keys to extracting the 60Hz/50Hz signal from the transformer's output. The resistor (R1) limits the current to the zener diode and to the ... | Original |
3 pages, |
"Digital Alarm Clock" M41T50 transformer 50hz sine wave 50Hz SIGNAL REFERENCE Power supply AC to DC zener diode L4931 bridge rectifier 240V AC 240v dc AN2051 zener diode for 240v ac voltage STEP DOWN TRANSFORMER IC DC to AC step up transformer bridge rectifier 240V AC AN2051 abstract |
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| Abstract: Signal 3.3V zener 1k R2 1k VCC CLKIN VSS SCL SDA VSS AI10427 AI10427 November 2004 1/3 , ) is 240V. The bridge rectifier converts AC to DC, which is then regulated to 3.3V in an L4931 L4931 voltage , 3.3V maximum and 0.3V minimum to ensure that the voltage does not exceed the limits of the devices , matter which transformer lead you connect to which AC lead of the rectifier. The resistor and the zener , ) limits the current to the zener diode and to the rest of the load. The resulting signal is a relatively ... | Original |
3 pages, |
power transformer 50hz Digital Alarm Clock AN2051 bridge rectifier 240V AC zener diode for 240v ac voltage bridge rectifier 240V AC 240v dc DC to AC step up transformer M41T50 L4931 AN2051 abstract |
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| Abstract: positive voltage in and out of the drain. D1 is a 3.3V zener diode which is used to drop the negative , , the zener diode will turn on and pull up the -5V by 3.3V to -1.7V. The base of Q1 is tied to ground , Panasonic Panasonic Description GaAs PHEMPT MMIC LNA 3.3V Zener Diode NPN General Purpose Amplifier , removing) the zener diode with one of a lower break down voltage. If a lower voltage ( < -5V) is being applied, then a zener diode with a higher break down voltage should be used. The P-channel MOSFET being ... | Original |
7 pages, |
MMBT2222A IRLML6401 HMC463LP5 1SMA5913BT3 transistor fet N-Channel RF Amplifier HMC463LP5 abstract |
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| Abstract: Zener diode to lower the 5.5V input voltage to 3.3V for VDD. The second difference that may affect , VPULLUP = 5.5V 0.1uF VDD 10k VDD = 3.3V SDA SCL FT/OUT GND FIGURE 1. EXAMPLE CIRCUIT WITH VDD AT 3.3V AND I2C AND IRQX PULL-UP TO 5.5V VPULLUP = 5.5V 0.1uF 3.3V Zener VDD , voltage higher than 3.6V), but has a 3.3V regulator on board requires a simple modification to connect the VDD to 3.3V instead of 5.5V. Figure 1 shows an example circuit with VDD to 3.3V and I2C lines ... | Original |
2 pages, |
zener diode 3.3V BAT54C diode zener 3v DS1340 DS1340 application note ISL12059 M41T00S 1.4V zener diode 3V Zener diode DIODE ZENER 3.3V TB482 M41T00S abstract |
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| Abstract: example circuit with a Zener diode to lower the 5.5V input voltage to 3.3V for VDD. · No ATR and DTR , Technical Brief 481 VPULLUP = 5.5V 10k VDD 0.1uF 10k 3.3V Zener ISL12058 ISL12058 VDD = 3.3V 10k , circuit with a Zener diode to lower the 5.5V input voltage to 3.3V for VDD. · One Interrupt Output for , Day of the Week, Date, Month, and Year June 9, 2009 TB481 TB481.0 example circuit with VDD to 3.3V , ) ISL12058 ISL12058 VIN = 3.3V · Dual Alarms with every second interrupt on Alarm1 and every minute interrupt ... | Original |
2 pages, |
zener 3.3v ISL12082 ISL1208 ISL12058 BAT54C 3.3v zener TB481 ISL12058 abstract |
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| Abstract: Signals A second recommended circuit is a 3.3V Zener diode with a series resistor of 240 on the input , Zener (3.3V) Figure 4 · Zener Diode Circuit Figure 5 · Resultant Waveforms of Zener Diode Circuit , 5.5V input (yellow) Signal clamped to 3.3V (pink) Output signal from counter (blue) Figure 3 · , rate, especially on the failing edge. 1 MHz input signal Signal clamped to 3.3V by discrete , 50 Series Resistor 1MHz input signal Signal clamped to 3.3V by discrete (pink) Output ... | Original |
5 pages, |
zener diode voltage list 3.3V ZENER DIODE zener diode circuit conclusion of zener diode voltage AC199 AC199 abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
| Over 1.1 million files (1986-2013): html articles, reference designs, gerber files, chemical content, spice models, programs, code, pricing, images, circuits, parametric data, RoHS data, cross references, pcns, military data, and more. Please note that due to their age, these files do not always format correctly in modern browsers. Disclaimer. |
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| on the 3.3V zener and disables the timer. Connecting a battery drops the BATT+ voltage to 2.8V charge, but must shut off when the battery is disconnected. Zener diode D1 makes that decision. With no cell counts require different zener voltages: During a fast charge, the LED should glow www.datasheetarchive.com/files/maxim/0004/appno020.htm |
Maxim | 04/04/2001 | 6.95 Kb | HTM | appno020.htm |
| drop at about 4V by the 3.3V zener and the decoupling diode. Considering 1V drop across the photod is not poss ible be - cause this is fixed by the 3.3V zener. The reduction of winding voltages 10 1.5M 17 R13 47K 7 6 1 2 4 3 3.3 V 1N4148 1N4148 1N4148 1N4148 470 m F 25V 470 m , D5 1N4148 1N4148 1N4148 1N4148 D3 5.6V Zener, 1/4 W D6, D8 STTA106 STTA106 STTA106 STTA106 ST, TurboSwitch D7 BYT11-800 BYT11-800 BYT11-800 BYT11-800 ST, Ultrafast D9 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/6515-v3.htm |
STMicroelectronics | 25/05/2000 | 23.5 Kb | HTM | 6515-v3.htm |
| , typically at 11V in normal operation, is now force d to drop at about 4V by the 3.3V zener and the correct this by increasing its cathode voltage, which is not poss ible be - cause this is fixed by the 3.3V zener. The reduction of winding voltages concerns the primary side as well: the voltage generated 6 1 2 4 3 3.3 V 1N4148 1N4148 1N4148 1N4148 470 m F 25V 470 m F 25V C14 250V C13 220 m F 100V C19 4148 D3 5.6V Zener, 1/4 W D6, D8 STTA106 STTA106 STTA106 STTA106 ST, TurboSwitch D7 BYT11-800 BYT11-800 BYT11-800 BYT11-800 ST, Ultrafast D9, D10, D11 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/6515.htm |
STMicroelectronics | 20/10/2000 | 24.52 Kb | HTM | 6515.htm |
| normal operation, is now force d to drop at about 4V by the 3.3V zener and the decoupling diode increasing its cathode voltage, which is not poss ible be - cause this is fixed by the 3.3V zener. The 7 6 1 2 4 3 3.3 V 1N4148 1N4148 1N4148 1N4148 470 m F 25V 470 m F 25V C14 250V C13 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/6514-v3.htm |
STMicroelectronics | 21/09/2000 | 22.43 Kb | HTM | 6514-v3.htm |
| drop at about 4V by the 3.3V zener and the decoupling diode. Considering 1V drop across the photodio is not poss ible be - cause this is fixed by the 3.3V zener. The reduction of winding voltages +15V 5W -15V 5W GND 17 R13 47K 7 6 1 2 4 3 3.3 V 1N4148 1N4148 1N4148 1N4148 470 m F 25V 470 m F 25 www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/6514.htm |
STMicroelectronics | 20/10/2000 | 23.45 Kb | HTM | 6514.htm |
| Synthesizers NB2669A NB2669A NB2669A NB2669A 3,3V / 2.5V Low Power, Reduced EMI Clock Synthesizer NB2760A NB2760A NB2760A NB2760A 3.3V / 2.5V Low Power, Reduced EMI Clock Synthesizer NB2762A NB2762A NB2762A NB2762A 3.3V / 2.5V Low Power, Reduced EMI Clock Synthesizer NB2769A NB2769A NB2769A NB2769A 3.3V / 2.5V Low Power, Reduced EMI Clock Synthesizer NB2869A NB2869A NB2869A NB2869A 3.3V / 2.5V Low Power, Reduced EMI Clock Synthesizer NB2969A NB2969A NB2969A NB2969A 3.3V /2.5V Low Power www.datasheetarchive.com/files/on-semiconductor/html/ds/emiclocksynthesizers.htm |
On Semiconductor | 12/06/2008 | 20.25 Kb | HTM | emiclocksynthesizers.htm |
| Min Nom Max Unit Zener Voltage (T A =25 ºC, I ZT =76 mA) V Z 3.3 V JAN1N3821A JAN1N3821A JAN1N3821A JAN1N3821A (#7107) Zener Voltage Regulator Diode Division Scottsdale A Zener Knee Impedance (Izk=1 mA) Z ZK www.datasheetarchive.com/files/microsemi/products/7107-v1.htm |
Microsemi | 08/12/1999 | 9.26 Kb | HTM | 7107-v1.htm |
| Min Nom Max Unit Zener Voltage (T A =25 ºC, I ZT =113.6 mA) V Z 3.3 V MLL5913C-1 MLL5913C-1 MLL5913C-1 MLL5913C-1 (#21655) Zener Voltage Regulator Diode Division Scottsdale A Zener Knee Impedance (Izk=1 mA) Z ZK www.datasheetarchive.com/files/microsemi/products/21655-v1.htm |
Microsemi | 08/12/1999 | 9.11 Kb | HTM | 21655-v1.htm |
| Min Nom Max Unit Zener Voltage (T A =25 ºC, I ZT =76 mA) V Z 3.3 V 1N3821A 1N3821A 1N3821A 1N3821A (#2201) Zener Voltage Regulator Diode Division Scottsdale A Zener Knee Impedance (Izk=1 mA) Z ZK www.datasheetarchive.com/files/microsemi/products/2201-v1.htm |
Microsemi | 08/12/1999 | 9.25 Kb | HTM | 2201-v1.htm |
| Min Nom Max Unit Zener Voltage (T A =25 ºC, I ZT =76 mA) V Z 3.3 V MLXV3821A-1 MLXV3821A-1 MLXV3821A-1 MLXV3821A-1 (#13202) Zener Voltage Regulator Diode Division Scottsdale A Zener Knee Impedance (Izk=1 mA) Z ZK www.datasheetarchive.com/files/microsemi/products/13202.htm |
Microsemi | 08/12/1999 | 9.22 Kb | HTM | 13202.htm |