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Part : DT1608C-223 Supplier : Coilcraft Manufacturer : Bristol Electronics Stock : 1,850 Best Price : - Price Each : -
Part : DT1608C-223C Supplier : Coilcraft Manufacturer : Bristol Electronics Stock : 5,898 Best Price : - Price Each : -
Part : DT1608C-223MLC Supplier : Coilcraft Manufacturer : Bristol Electronics Stock : 1,410 Best Price : - Price Each : -
Part : DT1608C-223 Supplier : Coilcraft Manufacturer : Coilcraft Direct Stock : 21,327 Best Price : - Price Each : $1.19
Part : DT1608C-223ML Supplier : Coilcraft Manufacturer : Coilcraft Direct Stock : 21,327 Best Price : - Price Each : $1.19
Part : DT1608C-223MLB Supplier : Coilcraft Manufacturer : Coilcraft Direct Stock : 21,327 Best Price : - Price Each : $1.19
Part : DT1608C-223MLC Supplier : Coilcraft Manufacturer : Coilcraft Direct Stock : 21,327 Best Price : - Price Each : $1.19
Part : DT1608C-223 Supplier : Coilcraft Manufacturer : Chip One Exchange Stock : 2,100 Best Price : - Price Each : -
Part : DT1608C-223 Supplier : Coilcraft Manufacturer : New Advantage Stock : 1,375 Best Price : - Price Each : -
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DT1608C-223 Datasheet

Part Manufacturer Description PDF Type
DT1608C-223 N/A SMT Power Inductors - DT1608 Series Original
DT1608C-223MLB Coilcraft Power inductor, shielded, 20% tol, SMT, RoHS Original
DT1608C-223MLC Coilcraft Power inductor, shielded, 20% tol, SMT, RoHS Original

DT1608C-223

Catalog Datasheet MFG & Type PDF Document Tags

SPICE

Abstract: models -682 DT1608C-682 DT1608C-103 DT1608C-103 DT1608C-103 DT1608C-153 DT1608C-153 DT1608C-153 DT1608C-223 DT1608C-223 DT1608C-223 DT1608C-223 DT1608C-333 DT1608C-333 DT1608C-333 DT1608C-473 DT1608C
Coilcraft
Original
SPICE models DT1608C-472 4050 spice DT1608C-222 DT1608C-332 57E-07 55E-08 28E-06 67E-09 01E-09 45E-07

LM3500

Abstract: C2012X7R1C105K L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 20065779 20065757 3 LED , vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 20065780 , -220MR34, Efficiency = 100*(PIN/(4VLED*ILED) 4 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) 20065759 20065781 3 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 2 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100
National Semiconductor
Original
LM3500 C2012X7R1C105K LM3500TL-16 LM3500TLX-16 VLP4612T-220MR34 15V zener diode small package 2 pins smd

DT1608

Abstract: DT1608C-103 -153 DT1608C-153 DT1608C-153 DT1608C-223 DT1608C-223 DT1608C-223 DT1608C-223 DT1608C-333 DT1608C
-
Original
DT1608 69E-09 97E-07 78E-06 83E-09 00E-09

SMD 2x

Abstract: step up DC DC converter out 9V DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 20065779 20065757 3 LED Efficiency vs LED , L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 20065780 20065758 5 , ) 4 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) 20065759 20065781 3 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 2 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED
National Semiconductor
Original
SMD 2x step up DC DC converter out 9V 15V zener diode small package 212-27 REGULATOR SMD 12V step up LED CSP-9-111C2 CSP-9-111S2

LM3500-21

Abstract: EMK212 DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 2 LED Efficiency vs LED Current L = TDK VLP4612T , DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 3 LED Efficiency vs LED Current L = TDK VLP4612T , DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) 4 LED Efficiency vs LED Current L = TDK VLP4612T , Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 3 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 20065769 20065770 4 LED
National Semiconductor
Original
LM3500-21 EMK212 SNVS231F LM3500-16

BC847BD

Abstract: C1608X5R1E105MT . Efficiency is defined by 100 * (Pout / Pin) at 25°C VIN = 4.2 V with L= Coilcraft DT1608C-223 IOUT = 30 mA , DT1608C-223. 10. VIN = 3.6 V, Ripple = 0.2 V P-P, IOUT = 15 mA. http://onsemi.com 4 NCP5010 , DT1608C-223 90 Figure 4. Efficiency vs. Current @ 3 LEDS (10.5 V) L = TDK VLF4012AT-220 90 80 , (mA) Figure 5. Efficiency vs. Current @ 4 LEDS (14 V) L = Coilcraft DT1608C-223 90 Figure 6 , . Current @ 5 LEDS (17.5 V) L = Coilcraft DT1608C-223 Figure 8. Efficiency vs. Current @ 5 LEDS (17.5 V
ON Semiconductor
Original
BC847BD C1608X5R1E105MT TDK TRACE CODE INFORMATION 499AJ NCP5010/D

marking code B1 inductor

Abstract: led flip-chip with L= Coilcraft DT1608C-223 IOUT = 30 mA, Load = 5 LEDs (VF = 3.5 V per LED) bypassed by 1 mF X5R 9 , ), COUT = 1 mF X5R, L= Coilcraft DT1608C-223. 11. VIN = 3.6 V, Ripple = 0.2 V P-P, IOUT = 15 mA. http , ) L = Coilcraft DT1608C-223 90 Figure 4. Efficiency vs. Current @ 3 LEDS (10.5 V) L = TDK , 20 30 40 50 60 70 IOUT (mA) Figure 5. Efficiency vs. Current @ 4 LEDS (14 V) L = Coilcraft DT1608C-223 , ) Figure 7. Efficiency vs. Current @ 5 LEDS (17.5 V) L = Coilcraft DT1608C-223 Figure 8. Efficiency vs
ON Semiconductor
Original
marking code B1 inductor led flip-chip VLF4012AT220MR51

LM3500-21

Abstract: LM3500 L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 20065779 20065757 3 LED , vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 20065780 , vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) 20065759 20065781 3 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 2 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 20065769
National Semiconductor
Original
LM3500TL-21 LM3500TLX-21 322XX 12v na 19.5v

SMD s18

Abstract: 2 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 2 , ) 20065757 20065779 3 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN , Characteristics 4 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED , ) 20065759 20065781 2 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 3 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED
National Semiconductor
Original
SMD s18

A115

Abstract: JESD22 . Efficiency is defined by 100 * (Pout / Pin) at 25°C VIN = 4.2 V with L= Coilcraft DT1608C-223 IOUT = 30 mA , DT1608C-223. 11. VIN = 3.6 V, Ripple = 0.2 V P-P, IOUT = 15 mA. http://onsemi.com 4 mA V V , LEDS (10.5 V) L = Coilcraft DT1608C-223 60 70 80 VIN = 2.7 V 70 EFFICIENCY (%) 90 , 70 IOUT (mA) Figure 5. Efficiency vs. Current @ 4 LEDS (14 V) L = Coilcraft DT1608C-223 , . Efficiency vs. Current @ 5 LEDS (17.5 V) L = Coilcraft DT1608C-223 Figure 8. Efficiency vs. Current @ 5
ON Semiconductor
Original
A115 JESD22 JESD78 VLF4012AT 0603 footprint IPC A108B

2VLE

Abstract: 200-500Hz LM3500 2 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED , ) 20065779 20065757 3 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN , *ILED) 20065780 20065758 4 LED Efficiency vs LED Current L = Coilcraft DT1608C-223 , Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 3 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 20065769 20065770 4 LED
National Semiconductor
Original
2VLE 200-500Hz AN-1112 LM350

SMD 2x

Abstract: LED power INDUCTOR Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 2 LED Efficiency vs Load Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 20065357 20065358 5 www.national.com , ) 4 LED Efficiency vs Load Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) Output Power vs VIN L = Coilcraft DT1608C-223) 20065359 20065386 Output Power vs Temperature L = Coilcraft DT1608C-223) FB Pin Current vs Temperature 20065387 20065360 SHDN Pin
National Semiconductor
Original
LM3501 LED power INDUCTOR white led driver Zener Diode B1 2 DO1608C LM3501TL-16

C1608X5R0J475MT

Abstract: GRM185R61A105KE36 . Efficiency is defined by 100 * (Pout / Pin) at 25°C VIN = 4.2 V with L= Coilcraft DT1608C-223 IOUT = 30 mA , DT1608C-223. 10. VIN = 3.6 V, Ripple = 0.2 V P-P, IOUT = 15 mA. http://onsemi.com 4 mA V V , LEDS (10.5 V) L = Coilcraft DT1608C-223 60 70 80 VIN = 2.7 V 70 EFFICIENCY (%) 90 , 70 IOUT (mA) Figure 5. Efficiency vs. Current @ 4 LEDS (14 V) L = Coilcraft DT1608C-223 , . Efficiency vs. Current @ 5 LEDS (17.5 V) L = Coilcraft DT1608C-223 Figure 8. Efficiency vs. Current @ 5
ON Semiconductor
Original
C1608X5R0J475MT GRM185R61A105KE36 led flip-chip heatsink A114

led flip-chip

Abstract: TDK TRACE CODE INFORMATION = Coilcraft DT1608C-223 IOUT = 30 mA, Load = 5 LEDs (VF = 3.5 V per LED) bypassed by 1 mF X5R 8. Guaranteed , ), COUT = 1 mF X5R, L= Coilcraft DT1608C-223. 10. VIN = 3.6 V, Ripple = 0.2 V P-P, IOUT = 15 mA. http , ) Figure 3. Efficiency vs. Current @ 3 LEDS (10.5 V) L = Coilcraft DT1608C-223 60 70 80 VIN = , V) L = Coilcraft DT1608C-223 Figure 6. Efficiency vs. Current @ 4 LEDS (14 V) L = TDK VLF4012AT , IOUT (mA) IOUT (mA) Figure 7. Efficiency vs. Current @ 5 LEDS (17.5 V) L = Coilcraft DT1608C-223
ON Semiconductor
Original
marking code b3 DC-DC Step-Up Converter for White LED

lcd vlf

Abstract: POWER INDUCTORS VLP5610 Current vs. VIN 20065356 20065355 3 LED Efficiency vs. Load Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 2 LED Efficiency vs. Load Current L = Coilcraft DT1608C-223 , Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) Output Power vs. VIN (LM3501-16, L = Coilcraft DT1608C-223) 20065359 www.national.com 20065386 6 LM3501 Typical Performance Characteristics (Continued) Output Power vs. Temperature (LM3501-16, L = Coilcraft DT1608C-223) FB Pin
National Semiconductor
Original
lcd vlf POWER INDUCTORS VLP5610 LM3501TL-21 LM3501TLX-16 LM3501TLX-21 LM3501-21
Abstract: 2 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED , ) 3 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED , Typical Performance Characteristics (continued) 4 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) 2 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 3 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN Texas Instruments
Original
ISO/TS16949

VJ1206S105KXJ

Abstract: DO1608C Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 2 LED Efficiency vs Load Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 20065357 20065358 5 www.national.com , ) 4 LED Efficiency vs Load Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) Output Power vs VIN L = Coilcraft DT1608C-223) 20065359 20065386 Output Power vs Temperature L = Coilcraft DT1608C-223) FB Pin Current vs Temperature 20065387 20065360 SHDN Pin
National Semiconductor
Original
VJ1206S105KXJ VLP4612 VLP5610
Abstract: 20065355 20065356 2 LED Efficiency vs. Load Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 3 LED Efficiency vs. Load Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 20065357 20065358 4 LED Efficiency vs. Load Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) Output Power vs. VIN (LM3501-16, L = Coilcraft DT1608C-223 , Power vs. Temperature (LM3501-16, L = Coilcraft DT1608C-223) (Continued) FB Pin Current vs National Semiconductor
Original
SNVS230B

3 volt led brightness adjust circuit

Abstract: regulator sot23-8 otherwise specified: VIN = 3.0V, VEN = 3.0V, L = 22µH (Coilcraft DT1608C-223), D = MBR0520L (Vishay), CIN = , otherwise specified: VIN = 3.0V, VEN = 3.0V, L = 22µH (Coilcraft DT1608C-223), D = MBR0520L (Vishay), CIN = , specified: VIN = 3.0V, VEN = 3.0V, L = 22µH (Coilcraft DT1608C-223), D = MBR0520L (Vishay), CIN = 1.0µF , Unless otherwise specified: VIN = 3.0V, VEN = 3.0V, L = 22µH (Coilcraft DT1608C-223), D = MBR0520L , 20099240 Curves for VOUT = 12V. RFB1 = 126k, RFB2 = 10k, L = 22µH (Coilcraft DT1608C-223), D = MBR0520L
National Semiconductor
Original
LM2707 3 volt led brightness adjust circuit regulator sot23-8 86 sot23-8 Inductive White Led Driver schematic diagram converter input 12v to 19v
Abstract: vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 2 LED Efficiency , . Figure 5. 3 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED , Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) Figure 8. Figure 9. 2 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 3 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) Figure 10. Figure Texas Instruments
Original

lm3500

Abstract: DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 2 LED Efficiency vs LED Current L = TDK VLP4612T , Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) 3 LED Efficiency vs LED Current L = TDK , Characteristics (continued) 4 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) Figure 8. Figure 9. 2 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) 3 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency =
Texas Instruments
Original
SNVS231G
Abstract: VIN Figure 2. 2 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN , *(PIN/(2VLED*ILED) Figure 4. 3 LED Efficiency vs LED Current L = Coilcraft DT1608C-223, Efficiency = , vs LED Current L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(4VLED*ILED) 4 LED Efficiency vs LED , L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(2VLED*ILED) Figure 9. 3 LED Efficiency vs VIN L = Coilcraft DT1608C-223, Efficiency = 100*(PIN/(3VLED*ILED) Figure 10. 4 LED Efficiency vs VIN Texas Instruments
Original
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