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Cornell Dubilier Electronics, Inc. - Complete Capacitor Cross Reference

Catalog Datasheet MFG & Type PDF Document Tags

SHBB

Abstract: CAPACITOR TANTALUM 10uf 16v VISHAY MAKE determined by the effective cross sectional area of the current path. A large leaded capacitor will have high , recommended. Sanyo POSCAP, Tantalum or Niobium, Panasonic SP or Cornell Dubilier ESR, and multilayer ceramic , frequencies 350m NMOS switch 30nA shutdown current 1.25V, 2% internal voltage reference Internal soft-start , switch. A bootstrap capacitor is connected between the BOOST and SW pins. Signal and Power ground pin , supply voltage. Connect a bypass capacitor to this pin. Output switch. Connects to the inductor, catch
National Semiconductor
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sfeb ic regulator

Abstract: marking sfdb BOOST FUNCTION Capacitor CBOOST and diode D2 in Figure 3 are used to generate a voltage VBOOST. VBOOST - , determined by the effective cross sectional area of the current path. A large leaded capacitor will have high , recommended. Sanyo POSCAP, Tantalum or Niobium, Panasonic SP or Cornell Dubilier ESR, and multilayer ceramic , NMOS switch 30nA shutdown current 0.8V, 2% internal voltage reference Internal soft-start Current-Mode , bootstrap capacitor is connected between the BOOST and SW pins. Signal and Power ground pin. Place the
National Semiconductor
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METAL DETECTOR PROGRAM PIC16F84

Abstract: PSK reader Contact Programming Support RFID Coil Design FSK Reader Reference Design PSK Reader Reference Design ASK Reader Reference Design FSK Anti-Collision Reader Reference Design Using the microID Programmer , . 40 FSK READER REFERENCE DESIGN Read Range of RFID Devices , . 49 PSK READER REFERENCE DESIGN 1.0 Introduction , READER REFERENCE DESIGN 1.0 Introduction
Microchip Technology
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IRF740N

Abstract: PSK reader Contact Programming Support RFID Coil Design FSK Reader Reference Design PSK Reader Reference Design ASK Reader Reference Design FSK Anti-Collision Reader Reference Design Using the microID Programmer © 1998 , . 40 FSK READER REFERENCE DESIGN Read Range of RFID Devices , . 49 PSK READER REFERENCE DESIGN 1.0 Introduction , READER REFERENCE DESIGN 1.0 Introduction
Microchip Technology
Original

2n2222 to-92

Abstract: METAL DETECTOR PROGRAM PIC16F84 Contact Programming Support RFID Coil Design FSK Reader Reference Design PSK Reader Reference Design ASK Reader Reference Design FSK Anti-Collision Reader Reference Design Using the microID Programmer , . 40 FSK READER REFERENCE DESIGN Read Range of RFID Devices , . 49 PSK READER REFERENCE DESIGN 1.0 Introduction , READER REFERENCE DESIGN 1.0 Introduction
Microchip Technology
Original

24V Internal Switch Step-Down Converters SOT23-6

Abstract: MARKING SO SOT23-6 DC-DC STEP UP BOOST FUNCTION Capacitor CBOOST and diode D2 in Figure 3 are used to generate a voltage VBOOST. VBOOST - , . The ESL of an input capacitor is usually determined by the effective cross sectional area of the , SP or Cornell Dubilier ESR, and multilayer ceramic capacitors (MLCC) are all good choices for both , 3MHz switching frequency 300m NMOS switch 30nA shutdown current 0.8V, 2% internal voltage reference , switch. A bootstrap capacitor is connected between the BOOST and SW pins. Signal and Power ground pin
National Semiconductor
Original
Abstract: capacitor is usually determined by the effective cross sectional area of the current path. A large leaded , are strongly recommended. Sanyo POSCAP, Tantalum or Niobium, Panasonic SP or Cornell Dubilier ESR, and , 3MHz Switching Frequency 300m NMOS Switch 30nA Shutdown Current 0.8V, 2% Internal Voltage Reference , that drives the internal NMOS control switch. A bootstrap capacitor is connected between the BOOST and , or be greater than VIN + 0.3V. Input supply voltage. Connect a bypass capacitor to this pin. Output Texas Instruments
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Abstract: closest to 0.5. The ESL of an input capacitor is usually determined by the effective cross sectional area , Niobium, Panasonic SP or Cornell Dubilier ESR, and multilayer ceramic capacitors (MLCC) are all good , Reference Internal Soft-Start Current-Mode, PWM Operation Thermal Shutdown LM2734ZQ is AEC-Q100 Grade 1 , BOOST Boost voltage that drives the internal NMOS control switch. A bootstrap capacitor is connected , . 5 VIN Input supply voltage. Connect a bypass capacitor to this pin. 6 SW Output Texas Instruments
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LM2734Z SNVS334E LM2734Z/LM2734ZQ ISO/TS16949

lm2734 Cross Reference

Abstract: dc dc converter step up sot-6 FUNCTION Capacitor CBOOST and diode D2 in Figure 10 are used to generate a voltage VBOOST. VBOOST - VSW is , capacitor is usually determined by the effective cross sectional area of the current path. A large leaded , are strongly recommended. Sanyo POSCAP, Tantalum or Niobium, Panasonic SP or Cornell Dubilier ESR, and , 3MHz Switching Frequency 300m NMOS Switch 30nA Shutdown Current 0.8V, 2% Internal Voltage Reference , internal NMOS control switch. A bootstrap capacitor is connected between the BOOST and SW pins. Signal and
Texas Instruments
Original
lm2734 Cross Reference dc dc converter step up sot-6 SFTB SNVS334D
Abstract: Capacitor CBOOST and diode D2 in Figure 24 are used to generate a voltage VBOOST. VBOOST - VSW is the gate , capacitor is usually determined by the effective cross sectional area of the current path. A large leaded , capacitors are strongly recommended. Sanyo POSCAP, Tantalum or Niobium, Panasonic SP or Cornell Dubilier ESR , Frequencies 300mâ"¦ NMOS Switch 30nA Shutdown Current 0.8V, 2% Internal Voltage Reference Internal , voltage that drives the internal NMOS control switch. A bootstrap capacitor is connected between the Texas Instruments
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LM2734 SNVS288I LM2734Y LM2734X LM2734XQ/LM2734YQ
Abstract: by the effective cross sectional area of the current path. A large leaded capacitor will have high , recommended. Sanyo POSCAP, Tantalum or Niobium, Panasonic SP or Cornell Dubilier ESR, and multilayer ceramic , Frequencies 350mâ"¦ NMOS Switch 30nA Shutdown Current 1.25V, 2% Internal Voltage Reference Internal , . 5 VIN Input supply voltage. Connect a bypass capacitor to this pin. 6 SW Output switch. Connects to the inductor, catch diode, and bootstrap capacitor. Boost voltage that drives the Texas Instruments
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LM2736 SNVS316F LM2736Y LM2736X
Abstract: cross sectional area of the current path. A large leaded capacitor will have high ESL and a 0805 ceramic , , Tantalum or Niobium, Panasonic SP or Cornell Dubilier ESR, and multilayer ceramic capacitors (MLCC) are all , ) Switching Frequencies 350m NMOS Switch 30nA Shutdown Current 1.25V, 2% Internal Voltage Reference Internal , bootstrap capacitor is connected between the BOOST and SW pins. Signal and Power ground pin. Place the , voltage. Connect a bypass capacitor to this pin. Output switch. Connects to the inductor, catch diode, and Texas Instruments
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LMR12007 SNVS982 LMR12007Y LMR12007X

30VR

Abstract: NSC LM2734YMK Capacitor CBOOST and diode D2 in Figure 6 are used to generate a voltage VBOOST. VBOOST - VSW is the gate , capacitor is usually determined by the effective cross sectional area of the current path. A large leaded , strongly recommended. Sanyo POSCAP, Tantalum or Niobium, Panasonic SP or Cornell Dubilier ESR, and , switching frequencies 300m NMOS switch 30nA shutdown current 0.8V, 2% internal voltage reference Internal , control switch. A bootstrap capacitor is connected between the BOOST and SW pins. Signal and Power ground
Texas Instruments
Original
30VR NSC LM2734YMK SNVS288H
Abstract: cycle, D, is closest to 0.5. The ESL of an input capacitor is usually determined by the effective cross , , Panasonic SP or Cornell Dubilier ESR, and multilayer ceramic capacitors (MLCC) are all good choices for both , ) Switching Frequencies 300m NMOS Switch 30nA Shutdown Current 0.8V, 2% Internal Voltage Reference Internal , voltage that drives the internal NMOS control switch. A bootstrap capacitor is connected between the BOOST , to float or be greater than VIN + 0.3V. Input supply voltage. Connect a bypass capacitor to this pin Texas Instruments
Original
Abstract: closest to 0.5. The ESL of an input capacitor is usually determined by the effective cross sectional area , Niobium, Panasonic SP or Cornell Dubilier ESR, and multilayer ceramic capacitors (MLCC) are all good , 350mâ"¦ NMOS Switch 30nA Shutdown Current 1.25V, 2% Internal Voltage Reference Internal Soft-Start , or be greater than VIN + 0.3V. 5 VIN Input supply voltage. Connect a bypass capacitor to this pin. 6 SW Output switch. Connects to the inductor, catch diode, and bootstrap capacitor Texas Instruments
Original

SHBB

Abstract: by the effective cross sectional area of the current path. A large leaded capacitor will have high , recommended. Sanyo POSCAP, Tantalum or Niobium, Panasonic SP or Cornell Dubilier ESR, and multilayer ceramic , Frequencies 350mâ"¦ NMOS Switch 30nA Shutdown Current 1.25V, 2% Internal Voltage Reference Internal , . 5 VIN Input supply voltage. Connect a bypass capacitor to this pin. 6 SW Output switch. Connects to the inductor, catch diode, and bootstrap capacitor. Boost voltage that drives the
Texas Instruments
Original
SHBB
Abstract: closest to 0.5. The ESL of an input capacitor is usually determined by the effective cross sectional area , Niobium, Panasonic SP or Cornell Dubilier ESR, and multilayer ceramic capacitors (MLCC) are all good , 350mâ"¦ NMOS Switch 30nA Shutdown Current 1.25V, 2% Internal Voltage Reference Internal Soft-Start , or be greater than VIN + 0.3V. 5 VIN Input supply voltage. Connect a bypass capacitor to this pin. 6 SW Output switch. Connects to the inductor, catch diode, and bootstrap capacitor Texas Instruments
Original

SHBB

Abstract: 0.5. The ESL of an input capacitor is usually determined by the effective cross sectional area of the , SP or Cornell Dubilier ESR, and multilayer ceramic capacitors (MLCC) are all good choices for both , ) Switching Frequencies 350m NMOS Switch 30nA Shutdown Current 1.25V, 2% Internal Voltage Reference Internal , internal NMOS control switch. A bootstrap capacitor is connected between the BOOST and SW pins. Signal and , + 0.3V. Input supply voltage. Connect a bypass capacitor to this pin. Output switch. Connects to the
Texas Instruments
Original

LM2734YMKX / SFEB

Abstract: Capacitor CBOOST and diode D2 in Figure 24 are used to generate a voltage VBOOST. VBOOST - VSW is the gate , capacitor is usually determined by the effective cross sectional area of the current path. A large leaded , capacitors are strongly recommended. Sanyo POSCAP, Tantalum or Niobium, Panasonic SP or Cornell Dubilier ESR , Frequencies 300mâ"¦ NMOS Switch 30nA Shutdown Current 0.8V, 2% Internal Voltage Reference Internal , voltage that drives the internal NMOS control switch. A bootstrap capacitor is connected between the
Texas Instruments
Original
LM2734YMKX / SFEB
Abstract: closest to 0.5. The ESL of an input capacitor is usually determined by the effective cross sectional area , Niobium, Panasonic SP or Cornell Dubilier ESR, and multilayer ceramic capacitors (MLCC) are all good , 350mâ"¦ NMOS Switch 30nA Shutdown Current 1.25V, 2% Internal Voltage Reference Internal Soft-Start , or be greater than VIN + 0.3V. 5 VIN Input supply voltage. Connect a bypass capacitor to this pin. 6 SW Output switch. Connects to the inductor, catch diode, and bootstrap capacitor Texas Instruments
Original
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