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LT1949-1EMS8TR Linear Technology IC PWM DC/DC CONV 1A SWTCH 8MSOP
LT1619ES8#TRPBF Linear Technology LT1619 - Low Voltage Current Mode PWM Controller; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LT1619ES8#TR Linear Technology LT1619 - Low Voltage Current Mode PWM Controller; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LT1619ES8#PBF Linear Technology LT1619 - Low Voltage Current Mode PWM Controller; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LT1619EMS8 Linear Technology LT1619 - Low Voltage Current Mode PWM Controller; Package: MSOP; Pins: 8; Temperature Range: -40°C to 85°C
LT1619EMS8#TRPBF Linear Technology LT1619 - Low Voltage Current Mode PWM Controller; Package: MSOP; Pins: 8; Temperature Range: -40°C to 85°C

load dump pulse Datasheets Context Search

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2004 - JW8 F

Abstract: JW8 ON SOT23 marking 658 load dump pulse MARKING CODE 618 SOT23
Text: Initial = 85°C) Load Dump Pulse , Drain-to-Source (Note 12) RSOURCE = 0.5 W, T = 300 ms) (For Relay's Coils , different square pulse durations, see Figure 12. 12. Nonrepetitive load dump pulse per Figure 3. 13. Mounted , 2. Switching Waveforms tr Load Dump Pulse Not Suppressed: Vr = 13.5 V Nominal ±10% VS = 60 V , Eliminates Need for Free-Wheeling Diode Meets Load Dump and other Automotive Specs 3 1 2 MARKING DIAGRAMS , VS Figure 3. Load Dump Waveform Definition http://onsemi.com 1091 NUD3160 TYPICAL


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PDF NUD3160 OT-23 NUD3160 JW8 F JW8 ON SOT23 marking 658 load dump pulse MARKING CODE 618 SOT23
2005 - NUD3160DMT1G

Abstract: JW8 ON JW8 F NUD3160LT1G 318F NUD3160 NUD3160DMT1 NUD3160LT1
Text: Initial = 85°C) 20 W ELD1 Load Dump Pulse , Drain-to-Source (Note 3) RSOURCE = 0.5 W, T = 300 , . For different square pulse durations, see Figure 12. Nonrepetitive load dump pulse per Figure 3 , tr Load Dump Pulse Not Suppressed: Vr = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% T = 300 ms , Meets Load Dump and other Automotive Specs Pb-Free Packages are Available SC-74 CASE 318F STYLE 7 , NUD3160 Industrial Inductive Load Driver This MicroIntegrationt part provides a single component


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PDF NUD3160 NUD3160/D NUD3160DMT1G JW8 ON JW8 F NUD3160LT1G 318F NUD3160 NUD3160DMT1 NUD3160LT1
2004 - marking code iz sot 23

Abstract: No abstract text available
Text: Initial = 85°C) Load Dump Pulse , Drain-to-Source (Note 3) RSOURCE = 0.5 W, T = 300 ms) (For Relay's Coils , different square pulse durations, see Figure 12. Nonrepetitive load dump pulse per Figure 3. Mounted onto , tPLH VOH tf Figure 2. Switching Waveforms tr Load Dump Pulse Not Suppressed: Vr = 13.5 V , Eliminates Need for Free-Wheeling Diode Meets Load Dump and other Automotive Specs 3 1 2 SOT-23 CASE 318 , = Vr, Ir 10% Vr, Ir VS T Figure 3. Load Dump Waveform Definition http://onsemi.com 4


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PDF NUD3160 OT-23 NUD3160/D marking code iz sot 23
2004 - JW8 F

Abstract: eld2 318F NUD3160 NUD3160DMT1 NUD3160LT1
Text: Initial = 85°C) 20 W ELD1 Load Dump Pulse , Drain-to-Source (Note 3) RSOURCE = 0.5 W, T = 300 , . For different square pulse durations, see Figure 12. Nonrepetitive load dump pulse per Figure 3 , tr Load Dump Pulse Not Suppressed: Vr = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% T = 300 ms , Internal Zener Eliminates Need for Free-Wheeling Diode Meets Load Dump and other Automotive Specs , NUD3160 Industrial Inductive Load Driver This MicroIntegrationt part provides a single component


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PDF NUD3160 NUD3160/D JW8 F eld2 318F NUD3160 NUD3160DMT1 NUD3160LT1
2004 - marking code jw6

Abstract: marking jw6 SC74 marking 345 NUD3124LT1G JW6 NUD3124DMT1
Text: Initial = 85°C) Load Dump Suppressed Pulse , Drain-to-Source (Notes 7 and 8) (Suppressed Waveform: Vs = 45 , . Nonrepetitive load dump suppressed pulse per Figure 3. For relay's coils/inductive loads higher than 80 W, see , WIDTH (ms) 100 Figure 2. Maximum Non-repetitive Surge Power versus Pulse Width Load Dump Pulse , ±10% Load Dump Pulse Suppressed: NOTE: Max. Voltage DUT is exposed to is NOTE: approximately 45 V. VS = , for Free-Wheeling Diode Meets Load Dump and other Automotive Specs Pb-Free Package is Available 3 1 2


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PDF NUD3124 NUD3124LT1 NUD3124 marking code jw6 marking jw6 SC74 marking 345 NUD3124LT1G JW6 NUD3124DMT1
2008 - Zener S 118

Abstract: 3000 watt inverter power reference design circuit double coil latching relays vibrator relay pin out diagram Zener Diode SOT-23 marking B 3000 watt inverter 1000 watt inverter relay driver Double contact automotive relay
Text: Initial = 85°C) 20 W ELD1 Load Dump Pulse , Drain-to-Source (Note 3) RSOURCE = 0.5 W, T = 300 , pulse durations, see Figure 12. Nonrepetitive load dump pulse per Figure 3. Mounted onto minimum pad , Load Dump Pulse Not Suppressed: Vr = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% T = 300 ms Nominal ±10% tr = 1 - 10 ms ±10% 90% 10% of Peak; Reference = Vr, Ir 10% Vr, Ir Figure 3. Load Dump , ·Meets Load Dump and other Automotive Specs ·Pb-Free Packages are Available 2 JW8 MG G JW8 =


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PDF NUD3160 OT-23 NUD3160/D Zener S 118 3000 watt inverter power reference design circuit double coil latching relays vibrator relay pin out diagram Zener Diode SOT-23 marking B 3000 watt inverter 1000 watt inverter relay driver Double contact automotive relay
2009 - JW8 F

Abstract: NUD3160DM NUD3160DMT1 load dump pulse sot23 zener marking "e.a" SC74 NUD3160LT1 NUD3160 318F NUD3160LT1G
Text: , Drain-to-Source (Notes 1 and 2) (TJ Initial = 85°C) 20 W ELD1 Load Dump Pulse , Drain-to-Source (Note , different square pulse durations, see Figure 12. Nonrepetitive load dump pulse per Figure 3. Mounted onto , tr Load Dump Pulse Not Suppressed: Vr = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% T = 300 ms , Free-Wheeling Diode Meets Load Dump and other Automotive Specs Pb-Free Packages are Available SC-74 CASE , NUD3160 Industrial Inductive Load Driver This MicroIntegrationt part provides a single component


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PDF NUD3160 NUD3160/D JW8 F NUD3160DM NUD3160DMT1 load dump pulse sot23 zener marking "e.a" SC74 NUD3160LT1 NUD3160 318F NUD3160LT1G
2004 - SML-010

Abstract: No abstract text available
Text: product landing page. A summary of the report is shown in Table 1. Load Dump Ride Through The DC2062A showcases the ability of the LT4363 to ride through and suppress a 100V load dump pulse . While the DC2062A can ride through load dump events, several points should be kept in mind. First, the dissipation of several components rises to significant levels during a load dump event. Since this event lasts for , Summary Board Layout DC2062A is designed to withstand load dump . This high voltage is stood off by


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PDF DC2062A LT4363-1/LT4363-2 ISO-7637-2 50VDC LT4363 LT4363-1 DC2062A-A) LT4363-2 DC2062A-B) SML-010
2004 - marking code jw6

Abstract: No abstract text available
Text: Initial = 85°C) Load Dump Suppressed Pulse , Drain-to-Source (Notes 3 and 4) (Suppressed Waveform: Vs = 45 , . Nonrepetitive load dump suppressed pulse per Figure 3. For relay's coils/inductive loads higher than 80 W, see , . Maximum Non-repetitive Surge Power versus Pulse Width Load Dump Pulse Not Suppressed: VR = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% T = 300 ms Nominal ±10% TR = 1 - 10 ms ±10% Load Dump Pulse Suppressed , for Free-Wheeling Diode Meets Load Dump and other Automotive Specs 3 1 2 SOT-23 CASE 318 STYLE 21


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PDF NUD3124 OT-23 NUD3124/D marking code jw6
2013 - iso 7637 pulse 5

Abstract: ECU hybrid vehicles load dump test
Text: [V, 5 min] Power Dissipation [W] AUTOMOTIVE SERIES ­ LOAD DUMP TEST According to ISO DP7637 rev 2 Pulse 5 Automotive Load Dump Pulse (According to ISO 7637 Pulse 5) Energy (Joules) Voltage (V , 125ºC FEATURES · High Reliability · High Energy Absorption ( Load Dump ) · High Current Handling · , , 25°C [A] Transient Energy Rating [J, 10x1000S] Load Dump Energy (x10) [J] Peak Current Rating [A , exceed the Load Dump Energy value specified in the product table. Time (msec) 12V SYSTEMS


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PDF 10x1000S] 8x20S] DP7637 VGAS181216P400 100ms 200ms 400ms VGAS222016Y400 iso 7637 pulse 5 ECU hybrid vehicles load dump test
2004 - marking code jw6

Abstract: NUD3124DMT1 318F NUD3124 NUD3124LT1 NUD3124LT1G
Text: Initial = 85°C) 20 W ELD1 Load Dump Suppressed Pulse , Drain-to-Source (Notes 3 and 4 , different square pulse durations, see Figure 2. Nonrepetitive load dump suppressed pulse per Figure 3. For , versus Pulse Width Load Dump Pulse Not Suppressed: VR = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% T = 300 ms Nominal ±10% TR = 1 - 10 ms ±10% Load Dump Pulse Suppressed: NOTE: Max. Voltage DUT is , Lower Cost Internal Zener Eliminates Need for Free-Wheeling Diode Meets Load Dump and other Automotive


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PDF NUD3124 NUD3124/D marking code jw6 NUD3124DMT1 318F NUD3124 NUD3124LT1 NUD3124LT1G
2014 - Not Available

Abstract: No abstract text available
Text: with a one minute interval per pulse , as shown in Table 1. The old load dump test (ISO-7637-2, 2004 , clamping device in the load dump pulse , as shown in Figure 1. The device in Figure 2 is clamping at 101V , voltage of alternator output in load dump = 100V Target clamping voltage = 35V Pulse width = 200ms , Load dump protection: Old vs. new ISO standards | EDN 1 of 8 http://edn.com/design/automotive , Share 0 Like 0 For many years, the load dump surge condition test for automobiles was


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PDF motive/4428059/Load-dump-protection--Old- ISO-7637-2 ISO-16750-2. 200ms SM5S24A
Not Available

Abstract: No abstract text available
Text: 1kHz Jump Start [V, 5 min] Power Dissipation [W] AUTOMOTIVE SERIES – LOAD DUMP TEST According to ISO DP7637 rev 2 Pulse 5 Voltage (V) Energy (Joules) Automotive Load Dump Pulse , to 125ºC FEATURES APPLICATIONS • High Reliability • High Energy Absorption ( Load Dump , Cap VJump PDISS Transient Energy Rating [J, 10x1000μS] Load Dump Energy (x10) [J] Peak Current , Energy dissipated by the varistor must not exceed the Load Dump Energy value specified in the product


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PDF DP7637 VGAS181216P400 100ms 200ms 400ms VGAS222016Y400
2004 - marking jw6

Abstract: DIODE MARKING CODE G SOT23 sot23/NUD3124 marking code jw6
Text: Initial = 85°C) Load Dump Suppressed Pulse , Drain-to-Source (Notes 3 and 4) (Suppressed Waveform: Vs = 45 , . Nonrepetitive load dump suppressed pulse per Figure 3. For relay's coils/inductive loads higher than 80 W, see , Non-repetitive Surge Power versus Pulse Width Load Dump Pulse Not Suppressed: VR = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% T = 300 ms Nominal ±10% TR = 1 - 10 ms ±10% Load Dump Pulse Suppressed: NOTE: Max , for Free-Wheeling Diode Meets Load Dump and other Automotive Specs 3 1 2 SOT-23 CASE 318 STYLE 21


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PDF NUD3124 OT-23 NUD3124/D marking jw6 DIODE MARKING CODE G SOT23 sot23/NUD3124 marking code jw6
2011 - MARKING CODE 618 SOT23

Abstract: JW8 F Double make contact automotive relay
Text: , Drain-to-Source (Notes 1 and 2) (TJ Initial = 85°C) Load Dump Pulse , Drain-to-Source (Note 3) RSOURCE = 0.5 W, T = , . For different square pulse durations, see Figure 12. Nonrepetitive load dump pulse per Figure 3 , . Switching Waveforms tr Load Dump Pulse Not Suppressed: Vr = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% T , Meets Load Dump and other Automotive Specs These are Pb-Free Devices JW8 = Specific Device Code M = , Figure 3. Load Dump Waveform Definition http://onsemi.com 4 NUD3160 TYPICAL PERFORMANCE CURVES


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PDF NUD3160 OT-23 NUD3160/D MARKING CODE 618 SOT23 JW8 F Double make contact automotive relay
2012 - SZNUD3160DM*G

Abstract: SZNUD3160 SZNUD3160DMT1G JW8 F NUD3160DMT1G SZNUD SZNUD3160DM SZNUD3160LT1G sc741
Text: Power Dissipation, Drain-to-Source (Notes 1 and 2) (TJ Initial = 85°C) Load Dump Pulse , Drain-to-Source , . Nonrepetitive load dump pulse per Figure 3. Mounted onto minimum pad board. http://onsemi.com 3 NUD3160 , 50% 10% VOL tr tPLH VOH tf Figure 2. Switching Waveforms tr Load Dump Pulse Not Suppressed , Free-Wheeling Diode Meets Load Dump and other Automotive Specs SZ Prefix for Automotive and Other Applications , % of Peak; Reference = Vr, Ir 10% Vr, Ir T VS Figure 3. Load Dump Waveform Definition http


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PDF NUD3160, SZNUD3160 OT-23 NUD3160/D SZNUD3160DM*G SZNUD3160DMT1G JW8 F NUD3160DMT1G SZNUD SZNUD3160DM SZNUD3160LT1G sc741
2003 - Not Available

Abstract: No abstract text available
Text: Initial = 85°C) Load Dump Suppressed Pulse , Drain-to-Source (Notes 3 and 4) (Suppressed Waveform: Vs = 45 , . Nonrepetitive load dump suppressed pulse per Figure 3. For relay's coils/inductive loads higher than 80 W, see , Non-repetitive Surge Power versus Pulse Width Load Dump Pulse Not Suppressed: VR = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% T = 300 ms Nominal ±10% TR = 1 - 10 ms ±10% Load Dump Pulse Suppressed: NOTE: Max , Meets Load Dump and other Automotive Specs 1 2 JW6 D JW6 = Specific Device Code D = Date Code


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PDF NUD3124 OT-23 O-236) NUD3124/D
2014 - Not Available

Abstract: No abstract text available
Text: the battery is disconnected. The load dump pulse duration depends essentially on the time constant of , alternator with no centralized load dump suppression ( pulse 5a) are given in Figure 1 and Table A. The pulse shape and parameters for an alternator with centralized load dump suppression ( pulse 5b) are given in , 0.9Us 1Ω to 8Ω 0.9Us Us Us ∗ ( Pulse 5b) with centralized load dump suppression , , driving recorder and so on. Test Standard Information This test is a simulation of load dump transient


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PDF 7V/400ms 10times 74V/350ms 15KPA 20KPA 30KPA
2008 - MR2535L

Abstract: load dump pulse TH07
Text: DERATING FIG.11 - TYPICAL CLAMPING FACTOR FIG.12 - LOAD DUMP PULSE CURRENT Page 3 of 3 Rev. 04 , specified. Single phase, half wave, 60 Hz, resistive or inductive load . For capacitive load , derate current , Breakdown Voltage Maximum Average Rectified Forward Current ( Single Phase, Resistive Load , 60 Hz, Tc = , 25 °C ) Maximum Non-Repetitive Peak Surge Current Surge Supplied at Rated Load Conditions, Halfwave , ( VR = 20 V, Tc = 25 °C ) Typical Thermal Resistance Junction to Case (1) Note : (1) Pulse Test


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PDF TH97/10561QM MR2535L TH07/1033 TW00/17276EM UL94V-O MIL-STD-202, MR2535L load dump pulse TH07
2005 - switching led

Abstract: No abstract text available
Text: IDavg IDpk ELD Rev-Bat Dual-Volt ESD Load Dump Pulse , Drain-to-Source. (Note 3), (Note 4) (RSOURCE , 1.0 - - - mA V 2. Verified by design. 3. Non-repetitive load dump pulse per Figure 3. 4. Tested , Diagram tr Load Dump Pulse Not Suppressed: Vr = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% T = 300 ms , . Load Dump Waveform Definition http://onsemi.com 4 NUD4021, NUD4022 TYPICAL PERFORMANCE CURVES , , Drain-to-Source, (Vcc pin tied to Vbat) (A diode in series with Vcc is required to protect the LED Load ) Dual


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PDF NUD4021, NUD4022 NUD4021 NUD4021/D switching led
2006 - NUD4021

Abstract: NUD4021DR2G NUD4022 NUD4022NT4G NUD4023NT4G
Text: 1.5 4.0 A ELD Load Dump Pulse , Drain-to-Source. (Note 3), (Note 4) (RSOURCE=0.5 W, t=300 ms , design. 3. Non-repetitive load dump pulse per Figure 3. 4. Tested with a Load = One LED (Vf = 3.5 V, If , Block Diagram tr Load Dump Pulse Not Suppressed: Vr = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% , Figure 3. Load Dump Waveform Definition http://onsemi.com 4 VS T NUD4021, NUD4022, NUD4023 , , Drain-to-Source, (Vcc pin tied to Vbat) (A diode in series with Vcc is required to protect the LED Load ) -14


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PDF NUD4021, NUD4022, NUD4023 NUD4021 NUD4022/NUD4023 NUD4021/D NUD4021DR2G NUD4022 NUD4022NT4G NUD4023NT4G
2012 - Not Available

Abstract: No abstract text available
Text: Dissipation, Drain−to−Source (Notes 1 and 2) (TJ Initial = 85°C) 20 W ELD1 Load Dump Pulse , . For different square pulse durations, see Figure 12. Nonrepetitive load dump pulse per Figure 3 , . Switching Waveforms tr Load Dump Pulse Not Suppressed: Vr = 13.5 V Nominal ±10% VS = 60 V Nominal  , Cost Internal Zener Eliminates Need for Free−Wheeling Diode Meets Load Dump and other Automotive , , Ir Figure 3. Load Dump Waveform Definition http://onsemi.com 5 VS T NUD3160


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PDF NUD3160, SZNUD3160 NUD3160/D
2005 - LT3437

Abstract: 10MQ100N BAS21
Text: to 80V in a 100ms load dump pulse , then drops to 4V in a 150ms cold crank pulse . The 200kHz fixed , regulate an output voltage in the face of wide temperature and input voltage ranges-including load dump , . 100µH BAS21 LOAD DUMP 10MQ100N VIN 20V/DIV CSS VBIAS 27pF 24k SYNC GND 165k + , DN378 F01 50ms/DIV DN378 F02 Figure 2. Output Voltage Response to Load Dump and Cold Crank , battery drain in always-on systems by maintaining high efficiency over a broad load current range


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PDF DN378 50mV/DIV 200mA 100mA/DIV 200mA dn378f LT3437 10MQ100N BAS21
2005 - Specific Device Code MH

Abstract: No abstract text available
Text: Dual-Volt ESD Load Dump Pulse , Drain-to-Source. (Note 3), (Note 4) (RSOURCE=0.5 W, t=300 ms), (Vcc pin , design. 3. Non-repetitive load dump pulse per Figure 3. 4. Tested with a Load = One LED (Vf = 3.5 V, If = , Comparator - - + 50 mV Qtimer GND Figure 2. Simplified Block Diagram tr Load Dump Pulse Not , % 10% of Peak; Reference = Vr, Ir 10% Vr, Ir VS T Figure 3. Load Dump Waveform Definition , Vbat) (A diode in series with Vcc is required to protect the LED Load ) Dual Voltage Jump Start, 2


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PDF NUD4021, NUD4022, NUD4023 NUD4021 NUD4022/NUD4023 NUD4021/D Specific Device Code MH
2006 - Luxeon driver schematic

Abstract: FET marking code NUD4021 NUD4021DR2G NUD4022 NUD4022NT4G NUD4023NT4G 330 mH
Text: 1.5 4.0 A ELD Load Dump Pulse , Drain-to-Source. (Note 3), (Note 4) (RSOURCE=0.5 W, t=300 ms , design. 3. Non-repetitive load dump pulse per Figure 3. 4. Tested with a Load = One LED (Vf = 3.5 V, If , Block Diagram tr Load Dump Pulse Not Suppressed: Vr = 13.5 V Nominal ±10% VS = 60 V Nominal ±10% , Figure 3. Load Dump Waveform Definition http://onsemi.com 4 VS T NUD4021, NUD4022, NUD4023 , , Drain-to-Source, (Vcc pin tied to Vbat) (A diode in series with Vcc is required to protect the LED Load ) -14


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PDF NUD4021, NUD4022, NUD4023 NUD4021 NUD4022/NUD4023 NUD4021/D Luxeon driver schematic FET marking code NUD4021DR2G NUD4022 NUD4022NT4G NUD4023NT4G 330 mH
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