500 MILLION PARTS FROM 12000 MANUFACTURERS

Part | Manufacturer | Description | Samples | Ordering |

UC1612J/883B | Texas Instruments | SILICON, RECTIFIER DIODE | |||

UC1611J/883B | Texas Instruments | SILICON, RECTIFIER DIODE | |||

UC1610J/883B | Texas Instruments | SILICON, BRIDGE RECTIFIER DIODE |

Part | Manufacturer | Description | Last Check | Distributor | Ordering |

Catalog Datasheet | MFG & Type | Document Tags |

Abstract: Circuits .236 Polyphase Rectifier Circuits , Rectifier. No patent liability shall be incurred for the use of the circuits or devices described herein , .138 CHAPTER 4 AC PHASE Phase Control Circuits .167 Ferroresonant Transformer Regulated AC Power Motor Control Circuits ... | OCR Scan |
4 pages, |
General Electric SCR induction heater control circuits DC BATTERY CONTACTORS SCR HOCKEY PUK triac dc motor control circuits scr control circuit for welding 3 phase inverters ac induction motor dc motor control triac rectifier cycloconverters induction heating circuits induction heater SCR Handbook IR SCR handbook scr stud 218 parallel triac thyristor handbook "SCR applications Handbook" welding transformer SCR SCR Applications Handbook TEXT |

Abstract: selecting rectifier diodes for multiplier circuits. CR2 C1 Figure 1A Basic multiplier circuits , the case of the three circuits of Figure 1, the maximum reverse voltage seen by each rectifier diode , Application Note Vishay Semiconductors Using Rectifiers in Voltage Multiplier Circuits By , current power source that needs only minimal regulation. A few familiar examples are CRT circuits , multiplier circuits and discusses guidelines for electronic component selection. Since General ... | Vishay Semiconductors Original |
4 pages, |
sine square multiplier high voltage CRT transformer GP02-40 TEXT |

Abstract: emphasis on selecting rectifier diodes for multiplier circuits. C1 RL ± 2 Vm as RL 00 Vm sin t , Application Note Vishay General Semiconductor Using Rectifiers in Voltage Multiplier Circuits , circuits, electrostatic copiers, and photoflash applications. Required voltages typically range from 10 , 1A. Basic Multiplier Circuits. Half-Wave Voltage Doubler RS1 This article explores the basic operation of multiplier circuits and discusses guidelines for electronic component selection. Since ... | Vishay General Semiconductor Original |
4 pages, |
GP02-40 88842 23 kV rectifier calculation TEXT |

Abstract: Using Rectifiers In Voltage Multiplier Circuits RS By Joseph M. Beck Senior Applications , minimal regulation. A few familiar examples are CRT circuits, electrostatic copiers, and photoflash , circuits. Half-wave Voltage Doubler RS1 C1 RL When your design requires this type of power source , voltage. ±2Vm as RL00 VmSinwt C2 RS2 Figure 1B Basic multiplier circuits. Full-wave Voltage Doubler RS This article explores the basic operation of multiplier circuits and discusses ... | General Semiconductor Original |
4 pages, |
GP02-40 VOLTAGE TRIPLER sine square multiplier calculating rectifier circuits GPO2-40 FULL WAVE RECTIFIER CIRCUITS TEXT |

Abstract: power-supply rectifier circuits the peak inverse voltage to be used in design is the peak a-c supply voltage , ï»¿2150D 2150D HIGH-VACUUM RECTIFIER EITEL-McCULLOUGH, INC SAN BRUNO, CALIFORNIA The Eimac 2-I50D 2-I50D is a high vacuum diode rectifier intended for use in rectifier units, voltage multipliers, or in , gas-filled rectifier tubes. The 2-I50D 2-I50D has a maximum d-c current rating of 250 milliamperes and a maximum , only when the rectifier is coupled to the load by a choke-input filter incorporating the "critical" ... | OCR Scan |
4 pages, |
XM-50 rs tube full wave rectifier diodes AMAA 4pin bridge rectifier 2150D 2-I50D TEXT |

Abstract: the industry's leading manufac turer of rectifier products, we will place special emphasis on selecting rectifier diodes for multiplier circuits. Ï c= = - 1 , circuits of figure 1, the maximum reverse voltage seen by each rectifier diode is 2Vm. So devices must be , multiple of the input voltage. This article explores the basic operation of multiplier circuits and , Figura 1C B asic m ultiplier circuits. H alf-w ave Voltage Tripler BASIC OPERATING PRINCIPLES Most ... | OCR Scan |
4 pages, |
Full-Wave Frequency Doubler use diode TEXT |

Abstract: signal. Although half-wave and full-wave multiplier circuits RECTIFIER DIODE SELECTION Several basic , Using Rectifiers In Voltage Multiplier Circuits By Joseph M. Beck Senior Applications Engineer Rs , only minimal regulation. A few familiar examples are CRT circuits, electrostatic copiers, and , basic operation of multiplier circuits and discusses guidelines for electronic component selection. Since General Instrument corporation is the industry's leading manufactur er of rectifier products, we ... | OCR Scan |
4 pages, |
RECTIFIER DIODES ON Semiconductor 532 TEXT |

Abstract: ? Use of a controlled-avalanche (CA) rectifier may solve problems associated with failures caused by transients in electronic equipment. A CA rectifier benefits nearly all tran sient-generating circuits. The CA rectifier offers a couple of advantages when the transient energy falls within its capability: 1) Almost , with Controlled-Avalanche Rectifiers. In HighTransient Circuits they also Protect Other Compo nents. Has a rectifier ever failed when you breadboarded a circuit because of transients not anticipated in ... | OCR Scan |
3 pages, |
microwave oven magnetron TEXT |

Abstract: power-supply rectifier circuits the peak inverse voltage to be used in design is the peak a-c supply voltage , ï»¿8020 (ÃOOR) HIGH-VACUUM RECTIFIER EITEL-McCULLOUGH, Inc SAN BRUNO, CALIFORNIA The Eimac 8020(100R} diode is a high-vacuum rectifier intended for use in rectifier units, voltage multipliers , of gas-filled rectifier tubes. The 8020 has a maximum d-c current rating of 100 milliamperes and a , . MA 1.5 MAX. AMPERE 1Averaged over one cycle for each tube. Applies only when the rectifier is ... | OCR Scan |
4 pages, |
rs tube diode bridge 4pin 8020 4pin bridge rectifier ec 8020 TEXT |

Abstract: multiplier circuits and discusses guidelines for electronic component selec tion. Since General Instru ment C o rp o ra tio n is the industry's leading manufac turer of rectifier products, we will place special emphasis on selecting rectifier diodes for multiplier circuits. 1- ¿ - C .: : Basic multiplier , the three circuits of figure 1, the maximum reverse voltage seen by each rectifier diode is 2Vm. So , circuits, regardless of their topology, consist chiefly of rectifiers and capacitors. Figure 1 shows three ... | OCR Scan |
4 pages, |
TEXT |

Abstract | Saved from | Date Saved | File Size | Type | Download |

and 2 show the simplest rectifier circuits. In these basic configurations the peak voltage winding. For most applications the output ripple pro- duced by these circuits is too high. However, for capacitor is added after the rectifier diodes the output voltage waveform is improved consider- ably. Figures 3 and 4 show two classic circuits com- monly used to obtain continuous voltages starting from an alternating voltage. The Figure 3 circuit uses a center-tapped transformer with two rectifier diodes while the
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/1707.htm |
STMicroelectronics | 20/10/2000 | 9.9 Kb | HTM | 1707.htm |

stabilization. Figures 1 and 2 show the simplest rectifier circuits. In these basic configurations the transformer's secondary winding. For most applications the output ripple pro- duced by these circuits is too satisfactory. If a filter capacitor is added after the rectifier diodes the output voltage waveform is improved consider- ably. Figures 3 and 4 show two classic circuits com- monly used to obtain continuous two rectifier diodes while the Figure 4 circuit uses a simple transformer and four rectifier diodes.
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/1707-v3.htm |
STMicroelectronics | 25/05/2000 | 9.64 Kb | HTM | 1707-v3.htm |

and degree of stabilization. Figures 1 and 2 show the simplest rectifier circuits. In these basic circuits is too high. However, for some applications - driving small motors or lamps, for example - they are satisfactory. If a filter capacitor is added after the rectifier diodes the output voltage waveform is improved consider- ably. Figures 3 and 4 show two classic circuits com- monly used to obtain transformer with two rectifier diodes while the Figure 4 circuit uses a simple transformer and four rectifier
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/1707-v1.htm |
STMicroelectronics | 02/04/1999 | 7.86 Kb | HTM | 1707-v1.htm |

and degree of stabilization. Figures 1 and 2 show the simplest rectifier circuits. In these basic circuits is too high. However, for some applications - driving small motors or lamps, for example - they are satisfactory. If a filter capacitor is added after the rectifier diodes the output voltage waveform is improved consider- ably. Figures 3 and 4 show two classic circuits com- monly used to obtain transformer with two rectifier diodes while the Figure 4 circuit uses a simple transformer and four rectifier
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/1707-v2.htm |
STMicroelectronics | 14/06/1999 | 7.82 Kb | HTM | 1707-v2.htm |

and also low cost power supplies for low end monitors, as 14" and 15". BASIC CIRCUITS AND OPERATION 2,1,4,15). Fig. 3 shows oscillator and sync circuits. The oscillator frequency is given by the power Mos-Fet; but high V R means also Vr, reverse voltage, for the secondary rectifier of the 200V rectifier di - ode. Fig 11 shows a method to reduce the required reverse voltage. Using this simple system ` 380 0.28 = 37 T R51 C53 C54 220 m F 100V 200V 80V GND D96IN393 D96IN393 D52 D53 Figure 11: Rectifier
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4929.htm |
STMicroelectronics | 20/10/2000 | 27.03 Kb | HTM | 4929.htm |

17" and 21" and also low cost power supplies for low end monitors, as 14" and 15". BASIC CIRCUITS (PINS 2,1,4,15). Fig. 3 shows oscillator and sync circuits. The oscillator frequency is given by the power Mos-Fet; but high V R means also Vr, reverse voltage, for the secondary rectifier of the 200V rectifier di - ode. Fig 11 shows a method to reduce the required reverse voltage. Using this simple system ` 380 0.28 = 37 T R51 C53 C54 220 m F 100V 200V 80V GND D96IN393 D96IN393 D52 D53 Figure 11: Rectifier
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4929-v2.htm |
STMicroelectronics | 14/06/1999 | 23.43 Kb | HTM | 4929-v2.htm |

17" and 21" and also low cost power supplies for low end monitors, as 14" and 15". BASIC CIRCUITS (PINS 2,1,4,15). Fig. 3 shows oscillator and sync circuits. The oscillator frequency is given by the power Mos-Fet; but high V R means also Vr, reverse voltage, for the secondary rectifier of the 200V rectifier di - ode. Fig 11 shows a method to reduce the required reverse voltage. Using this simple system ` 380 0.28 = 37 T R51 C53 C54 220 m F 100V 200V 80V GND D96IN393 D96IN393 D52 D53 Figure 11: Rectifier
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4929-v1.htm |
STMicroelectronics | 02/04/1999 | 23.46 Kb | HTM | 4929-v1.htm |

220 m F 100V 200V 80V GND D96IN393 D96IN393 D52 D53 Figure 11: Rectifier circuits for 200V and 80V 15". BASIC CIRCUITS AND OPERATION 1. CURRENT MODE CONTROL The L4990 L4990 is based on a current mode oscillator and sync circuits. The oscillator frequency is given by the following formula: f 9 1.44 Mos-Fet; but high V R means also Vr, reverse voltage, for the secondary rectifier of the 200V output. too high for a fast recovery rectifier di - ode. Fig 11 shows a method to reduce the required
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/4929-v3.htm |
STMicroelectronics | 25/05/2000 | 25.35 Kb | HTM | 4929-v3.htm |

(RECTIFIER) THYRISTOR (TRIAC, SCR, GCT, SGCT, GTO) IGBT IPM , SGCT, GTO Thyristor & Rectifier Devices: Diode, SCR, Triac, High Power Devices: HVIGBT, GCT (Thyristor), Diode (Rectifier) Thyristor & Rectifier Devices: Diode, SCR, Triac Note SCR (Thyristor), Diode (Rectifier) Thyristor & Rectifier Devices: Diode, SCR Characteristics, Switching and Short Circuit SOA, Gate/Base Drive and Trigger Circuits
/datasheets/files/powerex/appnotes.html |
Powerex | 07/07/2003 | 178.64 Kb | HTML | appnotes.html |

MSS Integrated Circuits-Memories MCM Linear Integrated Circuits MCC Linear Integrated Circuits MCCF Linear JFET OP Amp VN Linear Interface AM Linear Integrated Circuits CA Linear Integrated Circuits DA Linear Integrated Circuits MTS Linear Integrated Circuits N8T Linear Integrated Circuits
/datasheets/files/motorola/design-n/html/price_in.htm |
Motorola | 25/11/1996 | 17.7 Kb | HTM | price_in.htm |