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LOADDETECTPWRSUPPLY-REF Texas Instruments Load Detecting Power Supply visit Texas Instruments
ISL78225ANEZ-T Intersil Corporation 4-Phase Interleaved Boost PWM Controller with Light Load Efficiency Enhancement; TQFP44; Temp Range: -40° to 125°C visit Intersil Buy
ISL78220ANEZ-T Intersil Corporation 6-Phase Interleaved Boost PWM Controller with Light Load Efficiency Enhancement; TQFP44; Temp Range: -40° to 125°C visit Intersil Buy
ISL78225ANEZ Intersil Corporation 4-Phase Interleaved Boost PWM Controller with Light Load Efficiency Enhancement; TQFP44; Temp Range: -40° to 125°C visit Intersil Buy
ISL6334ACRZ-T Intersil Corporation VR11.1, 4-Phase PWM Controller with Enhanced Light Load Efficiency and Load Current Monitoring; QFN40; Temp Range: See Datasheet visit Intersil Buy
ISL6334IRZ Intersil Corporation VR11.1, 4-Phase PWM Controller with DE, Enhanced Light Load Efficiency, Load Current Monitoring; QFN40; Temp Range: See Datasheet visit Intersil Buy

load dump pulse

Catalog Datasheet MFG & Type PDF Document Tags

JW8 F

Abstract: JW8 ON 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
ON Semiconductor
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JW8 F JW8 ON SOT23 marking 658 MARKING CODE 618 SOT23 load dump pulse SC-74 NUD3160LT1 NUD3160DMT1 BRD8011/D 1E-04 1E-05

NUD3160DMT1G

Abstract: JW8 F 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
ON Semiconductor
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NUD3160LT1G NUD3160DMT1G 318F NUD3160/D

marking code iz sot 23

Abstract: 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
ON Semiconductor
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marking code iz sot 23

JW8 F

Abstract: 318F 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
ON Semiconductor
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eld2

Zener S 118

Abstract: 3000 watt inverter power reference design circuit 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 =
ON Semiconductor
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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

JW8 F

Abstract: NUD3160DM , 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
ON Semiconductor
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NUD3160DM sot23 zener marking "e.a" SC74

marking code jw6

Abstract: marking jw6 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
ON Semiconductor
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marking code jw6 marking jw6 NUD3124LT1G JW6 SC74 marking 345 NUD3124DMT1 NUD3124 3000/T NUD3124LT1
Abstract: 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 Linear Technology
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LT4363-1/LT4363-2 ISO-7637-2 50VDC LT4363-1 DC2062A-A LT4363-2
Abstract: .11 - TYPICAL CLAMPING FACTOR FIG.12 - LOAD DUMP PULSE CURRENT Page 3 of 3 Rev. 04 : February , Rectified Forward Current ( Single Phase, Resistive Load, 60 Hz, Tc = 125 °C ) Maximum Repetitive Peak , Peak Surge Current Surge Supplied at Rated Load Conditions, Halfwave, Single Phase Maximum , Coefficient Operating Junction and Storage Temperature Range Note : (1) Pulse Test : Pulse Width ≤ 300ΠEIC Semiconductor
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MR2535L UL94V-O MIL-STD-202

iso 7637 pulse 5

Abstract: load dump test [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
AVX
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iso 7637 pulse 5 load dump test ECU hybrid vehicles VGAS222016Y400 VGAS121034S770 VGAS181234U770 VGAS222034Y770 VGAS121065P131 1000S
Abstract: 1kHz Jump Start [V, 5 min] Power Dissipation [W] AUTOMOTIVE SERIES â'" LOAD DUMP TEST According to ISO DP7637 rev 2 Pulse 5 Voltage (V) Energy (Joules) Automotive Load Dump Pulse , to 125ºC FEATURES APPLICATIONS â'¢ High Reliability â'¢ 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 AVX
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VGAS181216P400

MR2535L

Abstract: load dump pulse 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
EIC Semiconductor
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TH07 TH97/10561QM TH07/1033 TW00/17276EM

MR2540L

Abstract: 24 volt surge suppressor .10 - REVERSE POWER DERATING FIG.11 - TYPICAL CLAMPING FACTOR FIG.12 - LOAD DUMP PULSE CURRENT , Voltage Maximum Average Rectified Forward Current ( Single Phase, Resistive Load, 60 Hz, Tc = 150 °C , ) Maximum Non-Repetitive Peak Surge Current Surge Supplied at Rated Load Conditions, Halfwave, Single Phase , Note : (1) Pulse Test : Pulse Width 300µs, Duty Cycle 2%. Page 1 of 3 Rev. 04 : April 1, 2008
EIC Semiconductor
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MR2540L 24 volt surge suppressor MR2540

marking jw6

Abstract: DIODE MARKING CODE G SOT23 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
ON Semiconductor
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DIODE MARKING CODE G SOT23 sot23/NUD3124 NUD3124/D

marking code jw6

Abstract: 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
ON Semiconductor
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MARKING CODE 618 SOT23

Abstract: JW8 F , 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
ON Semiconductor
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Double make contact automotive relay

SZNUD3160DM*G

Abstract: SZNUD3160 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
ON Semiconductor
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SZNUD3160 SZNUD3160LT1G SZNUD3160DMT1G SZNUD3160DM*G SZNUD3160DM SZNUD AEC-Q101

marking code jw6

Abstract: NUD3124DMT1 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
ON Semiconductor
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NUD3124LT1G

Specific Device Code MH

Abstract: 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
ON Semiconductor
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Specific Device Code MH NUD4021 NUD4022 NUD4023 NUD4022/NUD4023 175AA NUD4021/D
Abstract: 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 ON Semiconductor
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