500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Top Results

Part Manufacturer Description Datasheet BUY
DC1319B-A Linear Technology BOARD EVAL LED DRIVER LT3756 visit Linear Technology - Now Part of Analog Devices
DC1205A Linear Technology BOARD EVAL LED DRIVER LT3592 visit Linear Technology - Now Part of Analog Devices
DC1160A Linear Technology BOARD EVAL LED DRIVER LT3518 visit Linear Technology - Now Part of Analog Devices
DC1319A-B Linear Technology BOARD EVAL LED DRIVER LT3756-1 visit Linear Technology - Now Part of Analog Devices
LTC4358IDE#TRPBF Linear Technology LTC4358 - 5A Ideal Diode; Package: DFN; Pins: 14; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC4358IDE#PBF Linear Technology LTC4358 - 5A Ideal Diode; Package: DFN; Pins: 14; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy

diode 27h

Catalog Datasheet MFG & Type PDF Document Tags

R1225N182B

Abstract: R1225N power-transistor, an inductor, a diode and capacitors. With a PWM/VFM alternative circuit, when the load current , diagram, a parasitic diode is formed in each terminal, each of these diodes is not formed for load , rating at the maximum loading. Use an inductor with appropriate inductance. · Use a diode of a Schottky , ILmax in proportion to the on-time period (ton) of LX Tr. Step 2: When Lx Tr. turns off, Schottky diode , . Diode Use a diode with low VF (Schottky type is recommended.) and high switching speed. Reverse
Ricoh
Original

ricoh 15v dc controller

Abstract: R1210N ) OSCILLOSCOPE : 27H (Sumida Electric Co., Ltd. CD104) Diode (SD) CE : 0.01F(Ceramic Type) The , diode, a transistor and a capacitor. The R1210Nxx2x Series can detect drastic change of output voltage , inductor, a diode, a capacitor, and a transistor Standby Current , Voltage vs. Output Current R1210N302C R1210N302D L:27H L:27H 3.2 Output Voltage VOUT(V , ) 0 800 R1210N502C 200 400 600 Output Current IOUT (mA) 5.4 L:27H 5.4 VIN:3.0V
Ricoh
Original
R1210N ricoh 15v dc controller R1210N502D R1210N602C R1210N602D RB491D EA-064-100618 10F-1
Abstract: diode, a transistor and a capacitor. The R1210Nxx2x Series can detect drastic change of output voltage , diode, a capacitor, and a transistor Standby Current , OSCILLOSCOPE Test Circuit 5 Inductor (L) Diode (SD) Capacitor (CL) Transistor (Tr) Base Resistor (Rb) Base Capacitor (Cb) : 27H (Sumida Electric Co., Ltd. CD104) : RB491D (Rohm, Schottky Type) : 47F×2 (Tantalum Type , ) 7 R1210Nxx2x TYPICAL CHARACTERISTICS 1) Output Voltage vs. Output Current R1210N302C L:27H Ricoh
Original
EA-064-111123
Abstract: only three external components: an inductor, a diode and a capacitor. The RN5RKxx2A uses the same chip , . Only an inductor, a diode and a capacitor (RN5RKxx1A/xx1B) · Standby Current , Electronics, Schottky Type) CL : 47F (Tantalum Type) L SD CL1 CL2 Tr Rb Cb : 27H : RB111C : 47F : 47F , appropriate inductance. Use a diode of a Schottky type with high switching speed, and also pay attention to , are measured, the 5 resistor is used. Otherwise 1k is used. Components Inductor Diode Capacitor (L Ricoh
Original
EA-045-111124
Abstract: power-transistor, an inductor, a diode and capacitors. With a PWM/VFM alternative circuit, when the load current is , the following issues; · As shown in the block diagram, a parasitic diode is formed in each terminal , the maximum loading. Use an inductor with appropriate inductance. · Use a diode of a Schottky type , off, Schottky diode (SD) turns on in order that L maintains IL at ILmax, and current IL (=i2) flows , better than using an inductor with a large value of L and vice versa. 2. Diode Use a diode with low VF Ricoh
Original
R1225N EA-097-111123

2SD1628G

Abstract: CD105 with only three external components: an inductor, a diode and a capacitor. The RN5RKxx2A uses the , Components . Only an inductor, a diode and a capacitor (RN5RKxx1A/xx1B) · , CE CL1 CL2 Cb : 27H : RB111C : 47F : 47F : 2SD1628G : 300 : 0.01F (Sumida, CD105 , with appropriate inductance. Use a diode of a Schottky type with high switching speed, and also pay , VLXlim and ILX are measured, the 5 resistor is used. Otherwise 1k is used. Components Inductor Diode
Ricoh
Original
CD54 MA721 RN5RK301A RN5RK301B diode 27h EA-045-100705

CMS03

Abstract: MAX17062 ) TDK C3225X5RIE106K D1 3A, 30V Schottky diode (M-Flat) Toshiba CMS03 L1 2.7H ±20% power , 2.7H 80 LOAD REGULATION (%) 80 1.0 fOSC = 1.2MHz L = 2.7H 70 MAX17062 toc03 , /div OA 0A 2ms/div 100s/div L = 2.7H RCOMP = 47k CCOMP1 = 560pF PULSED LOAD-TRANSIENT , 1A/div INDUCTOR CURRENT 1A/div 0A 10s/div 0A 1s/div L = 2.7H RCOMP = 47k CCOMP1 = , Pin. LX is the drain of the internal MOSFET. Connect the inductor/rectifier diode junction to LX and
Maxim Integrated Products
Original
MAX17062ETB

87VOUT

Abstract: MAX17062 ) TDK C3225X5RIE106K D1 3A, 30V Schottky diode (M-Flat) Toshiba CMS03 L1 2.7H ±20% power , 2.7H 80 LOAD REGULATION (%) 80 1.0 fOSC = 1.2MHz L = 2.7H 70 MAX17062 toc03 , /div OA 0A 2ms/div 100s/div L = 2.7H RCOMP = 47k CCOMP1 = 560pF PULSED LOAD-TRANSIENT , 1A/div INDUCTOR CURRENT 1A/div 0A 10s/div 0A 1s/div L = 2.7H RCOMP = 47k CCOMP1 = , Pin. LX is the drain of the internal MOSFET. Connect the inductor/rectifier diode junction to LX and
Maxim Integrated Products
Original
T633-2 87VOUT MO229 T833-2 T833-3 T1033-1 T1033-2

BB910

Abstract: diode 27h INFORMATION SEE THE LATEST ISSUE OF HANDBOOK SC01 OR DATASHEET VHF VARIABLE CAPACITANCE DIODE The BB910 is a VHF variable capacitance diode in planar technology with a very high capacitance ratio intended for VHF-band B up to 460 MHz in all-band tuners. The diode is encapsulated in the whiskerless glass envelope , 28 V |R < 10 nA Diode capacitance at f = 1 MHz Vr = 0.5 V Cd > 38 pF VR = 28 V 2.3 to , -max (2> - -(31 \ _ rràâ'" + 1 « 1 1 1 K t â  1 1.27 "J. â'"2,6â'"1 ^1,27H
-
OCR Scan
diode BY 127 BB910 TO-92S Diode Capacitance 53TSM G074272

max17112

Abstract: MAX17112ETB 10s/div L = 2.7H RCOMP = 47k CCOMP1 = 560pF L = 2.7H RCOMP = 47k CCOMP1 = 560pF SWITCHING , L1 2.7H VOUT +15V/600mA D1 C7 10F 25V C2 4.7F 10V 8 LX U1 IN C3 1F , where VDIODE is the rectifier diode forward voltage and RON is the on-resistance of the internal MOSFET , High-Performance, Step-Up, DC-DC Converter C1 4.7F 10V L1 2.7H VOUT +15V/600mA , 2.7H ±20% power inductor TOKO FDV0630-2R7 (27m , 4.4A) Sumida CDRH5D18BHPNP-2R7M (65m , 3.9A
Maxim Integrated Products
Original
MAX17112ETB T1033 max17112 15 INDUCTOR 5V15V TOKO FDV0630-2R7 GRM32DR61E106K MAX17112

911 DIODE

Abstract: SEMiX 904GB126HD Inverse Diode 2> 2>56 2> 6 () * 31 * 4) )') '(11 ?911 911 @ A1 , B ')1 , Characteristics Symbol Conditions IGBT 7 2 1 F7 # # 5/@ 27H 7 @3 , B') 57 '.9 D 57 '.9 , SEMIKRON SEMiX 904GB126HD Characteristics Symbol Conditions Inverse Diode > >1 > 2> 911 ": 7 1 , RG Fig. 9 Typ. transient thermal impedance Fig. 10 Typ. CAL diode forward charact., incl. RCC'+EE' Fig. 11 Typ. CAL diode peak reverse recovery current Fig. 12 Typ. CAL diode recovery charge
SEMIKRON
Original
911 DIODE

592D228X6R3X220H

Abstract: LPO2506 CURRENT 200mA/DIV BURST CURRENT VIN = 3.3V VOUT = 4.5V COUT = 4.4mF L = 2.7H 20ms/DIV 3125 G18 VIN = 3.3V VOUT = 4.5V COUT = 0.47F L = 2.7H 1s/DIV 3125 G19 3125f 5 LTC3125 , INPUT CURRENT 200mA/DIV VIN = 3.3V VOUT = 4.5V COUT = 1F L = 2.7H 2s/DIV 3125 G20 85 80 , body diode conduction of the internal P-channel MOSFET rectifier. This allows for VOUT to go to zero , output disconnect, there cannot be an external Schottky diode connected between the SW pin and VOUT
Linear Technology
Original
592D228X6R3X220H LPO2506 LPS4012 MOS6020 MSS6122 GPRS modem QFN16 LTC3525-3/ LTC3525-3 LTC3525-5 SC-70 LTC3526/LTC3526L

592D228X6R3X220H

Abstract: LTC3537 BURST CURRENT VIN = 3.3V VOUT = 4.5V COUT = 4.4mF L = 2.7H 20ms/DIV 3125 G18 VIN = 3.3V VOUT = 4.5V COUT = 0.47F L = 2.7H 1s/DIV 3125 G19 3125fa 5 LTC3125 TYPICAL , INPUT CURRENT 200mA/DIV VIN = 3.3V VOUT = 4.5V COUT = 1F L = 2.7H 2s/DIV 3125 G20 85 80 , LTC3125 is designed to allow true output disconnect by eliminating body diode conduction of the internal , external Schottky diode connected between the SW pin and VOUT. The output disconnect feature also allows
Linear Technology
Original
LTC3537 DFN-6 SD card 32M CARD PCB FOOTPRINT LTC3127 long range locators diagram LTC3526B LTC3527/LTC3527-1 A/400 LTC3528/LTC3528B LTC3539/LTC3539-2
Abstract: R1210N Series 8V Input PWM Step-up DC/DC Converter The R1210N Series are low supply current, CMOS-based PWM step-up DC/DC converters. By simply using an inductor, a diode, and a capacitor as external components, a high-efficiency step-up DC/DC converter can be easily configured. The xx1 version with an , 1 VIN GND CE 1 L : 100H, SD : MA721, CL : 22F×2 L : 27H, SD : RB491D, Tr : 2SD1628G, CL , Efficiency (%) L:100H L:27H 1 2 3 1 2 3 4 5 CE VOUT NC GND LX or EXT 60 40 20 0 Ricoh
Original
R1210N301 R1210N302
Abstract: R1210N Series PWM Step-up DC/DC Converter The R1210N Series are low supply current, CMOS-based PWM step-up DC/DC converters. By simply using an inductor, a diode, and a capacitor as external components, a high-efficiency step-up DC/DC converter can be easily configured. The xx1 version with an , VIN 4 GND CE 1 VIN GND CE 1 L : 100H, SD : MA721, CL : 22F×2 L : 27H, SD : RB491D, Tr , :27H Efficiency (%) 1 2 3 60 40 20 0 Efficiency (%) 60 40 20 0 VIN=2.5V VIN Ricoh
Original
Abstract: R1224N Series 18.5V Input PWM/VFM Step-down DC/DC Controller with Ext. Tr. The R1224N Series are low supply current CMOS-based PWM/VFM step-down DC/DC controller with an external output transistor. By simply using a power transistor, an inductor, a diode, and a capacitor as external components, a , C2 C2 2 CE CONTROL CE CONTROL PMOS : HAT1044M, L : 27H, SD : RB063L-30, C1 : 10F, C2 : 0.1F, C3 : 47F, R1 : 10 PMOS : HAT1044M, L : 27H, SD : RB063L-30, C1 : 10F, C2 : 0.1F, C3 : 47F, C4 Ricoh
Original
Abstract: RN5RK Series VFM Step-up DC/DC Converter The RN5RK Series are low supply current, CMOS-based VFM step-up DC/DC converters. By simply using an inductor, a diode, and a capacitor as external components, a high-efficiency step-up DC/DC converter can be easily configured. RN5RK comes in two versions: xx1 version with an , CL GND CE 1 L=100H, SD=MA721, CL=47F L=27H, SD=RB111C, CL=47F×2, Tr=2SD1628G, Rb=300, Cb , 90 80 L=100H RN5RK302A Efficiency vs. Output Current 100 90 80 Efficiency (%) L=27H 1 2 Ricoh
Original
RN5RK301

step-down sot-23-5 input

Abstract: R1224N Series PWM/VFM Step-down DC/DC Controller with Ext. Tr. The R1224N Series are low supply current CMOS-based PWM/VFM step-down DC/DC controller with an external output transistor. By simply using a power transistor, an inductor, a diode, and a capacitor as external components, a high-efficiency , C2 2 CE CONTROL CE CONTROL PMOS : HAT1044M, L : 27H, SD : RB063L-30, C1 : 10F, C2 : 0.1F, C3 : 47F, R1 : 10 PMOS : HAT1044M, L : 27H, SD : RB063L-30, C1 : 10F, C2 : 0.1F, C3 : 47F, C4
Ricoh
Original
step-down sot-23-5 input

step-down sot-23-5 input

Abstract: R1224N Series 18.5V Input PWM/VFM Step-down DC/DC Controller with Ext. Tr. The R1224N Series are low supply current CMOS-based PWM/VFM step-down DC/DC controller with an external output transistor. By simply using a power transistor, an inductor, a diode, and a capacitor as external components, a , C2 C2 2 CE CONTROL CE CONTROL PMOS : HAT1044M, L : 27H, SD : RB063L-30, C1 : 10F, C2 : 0.1F, C3 : 47F, R1 : 10 PMOS : HAT1044M, L : 27H, SD : RB063L-30, C1 : 10F, C2 : 0.1F, C3 : 47F, C4
Ricoh
Original
Abstract: RN5RK Series 8V Input VFM Step-up DC/DC Converter The RN5RK Series are low supply current, CMOS-based VFM step-up DC/DC converters. By simply using an inductor, a diode, and a capacitor as external components, a high-efficiency step-up DC/DC converter can be easily configured. RN5RK comes in two versions , LOAD GND CE 1 VIN Cb 4 CL GND CE 1 L=100H, SD=MA721, CL=47F L=27H, SD=RB111C, CL , 80 Efficiency (%) L=27H 1 2 3 Efficiency (%) 70 60 50 40 30 20 10 0 0 20 VIN Ricoh
Original
Showing first 20 results.