9-0-9 STEP DOWN TRANSFORMER PDF Search Results

Crouse-Hinds Pilot Light DEV30

Abstract: ESWP126 DEV42 dl46 DS443-SA DS442 crouse DEV43 DEV30 DL91 EDS371
Contextual Info: 2: 5: SYS19: BASE2 PDFINFO 50: 95: 98: JOB: CRTEST06-3388-0 Name: 4C-388 4C 100: DATE: JAN 19 2006 Time: 6:18:50 PM Operator: JB FlexStation TM Control Station Components COLOR: CMYK TCP: 15001 Typedriver Name: TS name csm no.: 100 Class I, Div. 1 & 2, Groups B Div. 2 only * C, D

CMD-8LN 6313-T036

Abstract: equivalent circuit autotransformer of step down transformer output 6v step down transformer 30v ES1D DIODE DIODE ES1D 6v step down transformers Anode Vacuum Fluorescent Bar Graph 6313-T036 AN1109
Contextual Info: Maxim > App Notes > AUTOMOTIVE POWER-SUPPLY CIRCUITS Keywords: Small, High-Voltage Boost Converters Jun 14, 2002 APPLICATION NOTE 1109 Small, High-Voltage Boost Converters The biasing of avalanche photodiodes APDs , piezoelectric transducers (PZTs), vacuum fluorescent displays

DS3881

Abstract: inverter 12v to 220 ac mosfet based
Contextual Info: Rev 0; 3/06 Single-Channel Automotive CCFL Controller Features The DS3881 is a single-channel cold-cathode fluorescent lamp CCFL controller for automotive applications that provides up to 300:1 dimming. It is ideal for driving CCFLs used to backlight liquid crystal displays (LCDs)

inverter 12v to 220 ac mosfet based

Contextual Info: Rev 0; 3/06 Single-Channel Automotive CCFL Controller Features The DS3881 is a single-channel cold-cathode fluorescent lamp CCFL controller for automotive applications that provides up to 300:1 dimming. It is ideal for driving CCFLs used to backlight liquid crystal displays (LCDs)

Contextual Info: Rev 1; 8/07 Dual-Channel Automotive CCFL Controller Features The DS3882 is a dual-channel cold-cathode fluorescent lamp CCFL controller for automotive applications that provides up to 300:1 dimming. It is ideal for driving CCFLs used to backlight liquid crystal displays (LCDs)

422MHz

Contextual Info: 19-2339; Rev 1; 3/02 KIT ATION EVALU E L B A AVAIL Upstream CATV Amplifier ♦ Single 3.3V Supply Operation ♦ Accurate Gain Control, ±1dB over 53dB Range ♦ Gain Programmable in 0.5dB Steps ♦ -55dBc Harmonic Distortion at 65MHz ♦ Low Burst On/Off Transient

Contextual Info: 19-2351; Rev 0; 4/02 KIT ATION EVALU E L B A AVAIL Upstream CATV Amplifier Features ♦ Single 5V Supply Operation ♦ Accurate Gain Control, ±1dB over 56dB Range ♦ Gain Programmable in 0.5dB Steps ♦ -55dBc Harmonic Distortion at 65MHz ♦ Low Burst On/Off Transient

smd fuse marking code H2

Abstract: D496 D505 V048F015T100 e4h4 9-0-9 step down transformer GB3000
Contextual Info: Not recommended for New Designs V048F015T100 V048F015M100 VTM VTMTM Transformer • 48 V to 1.5 V V•I ChipTM Converter • 125°C operation TJ • 100.0 A (150.0 A for 1 ms) • 1 µs transient response • High density – 339 A/in3 • 3.5 million hours MTBF

Contextual Info: V048F080T030 V048F080M030 VTM VTMTM Transformer • 48 V to 8 V V•I ChipTM Converter • 125°C operation TJ • 30 A (45.0 A for 1 ms) • 1 µs transient response • High density – 813 W/in3 • 3.5 million hours MTBF • Small footprint – 210 W/in2

Contextual Info: V048F160T015 V048F160M015 VTM VTMTM Transformer • 48 V to 16 V V•I ChipTM Converter • 125°C operation TJ • 15 A (22.5 A for 1 ms) • 1 µs transient response • High density – 813 W/in3 • 3.5 million hours MTBF • Small footprint – 210 W/in2

smd marking m4

Abstract: smd diode marking sG VTM 48 D496 D505 V048F160M015 V048F160T015
Contextual Info: V048F160T015 V048F160M015 VTM VTMTM Transformer • 48 V to 16 V V•I ChipTM Converter • 125°C operation TJ • 15 A (22.5 A for 1 ms) • 1 µs transient response • High density – 813 W/in3 • 3.5 million hours MTBF • Small footprint – 210 W/in2

smd marking m4

Abstract: smd fuse marking 20 VTM 48 D496 D505
Contextual Info: V048F080T030 V048F080M030 VTM VTMTM Transformer • 48 V to 8 V V•I ChipTM Converter • 125°C operation TJ • 30 A (45.0 A for 1 ms) • 1 µs transient response • High density – 813 W/in3 • 3.5 million hours MTBF • Small footprint – 210 W/in2

Contextual Info: V048F096T025 V048F096M025 VTM VTMTM Transformer • 48 V to 9.6 V V•I ChipTM Converter • 125°C operation TJ • 25 A (37.5 A for 1 ms) • 1 µs transient response • High density – 813 W/in3 • 3.5 million hours MTBF • Small footprint – 210 W/in2

V048F080T030

Abstract: D496 D505
Contextual Info: V048F080T030 V048F080M030 VTM VTMTM Transformer • 48 V to 8 V V•I ChipTM Converter • 125°C operation TJ • 30 A (45.0 A for 1 ms) • 1 µs transient response • High density – 813 W/in3 • 3.5 million hours MTBF • Small footprint – 210 W/in2

Contextual Info: V048F015T100 V048F015M100 VTM VTMTM Transformer • 48 V to 1.5 V V•I ChipTM Converter • 125°C operation TJ • 100.0 A (150.0 A for 1 ms) • 1 µs transient response • High density – 339 A/in3 • 3.5 million hours MTBF • Small footprint – 80 A/in2

Contextual Info: V048F020T080 V048F020M080 VTM VTMTM Transformer • 48 V to 2 V V•I ChipTM Converter • 125°C operation TJ • 80.0 A (120.0 A for 1 ms) • 1 µs transient response • High density – 271 A/in3 • 3.5 million hours MTBF • Small footprint – 70 A/in2

Contextual Info: AND9205/D Designing a NCL30085-Controlled LED Driver Description This paper proposes the key steps to rapidly design a NCL30085-driven flyback converter to power an LED string. The process is illustrated by a practical 10-W, universal mains application:

Contextual Info: V048F060T040 V048F060M040 VTM VTMTM Transformer • 48 V to 6 V V•I ChipTM Converter • 125°C operation TJ • 40 A (60.0 A for 1 ms) • 1 µs transient response • High density – 813 W/in3 • 3.5 million hours MTBF • Small footprint – 210 W/in2

VTM 48

Abstract: D496 D505 V048F040M050 V048F040T050
Contextual Info: V048F040T050 V048F040M050 VTM VTMTM Transformer • 48 V to 4 V V•I ChipTM Converter • 125°C operation TJ • 50 A (75.0 A for 1 ms) • 1 µs transient response • High density – 169 A/in3 • 3.5 million hours MTBF • Small footprint – 40 A/in2

smd marking m4

Abstract: VTM 48 D496 D505 V048F096M025 V048F096T025
Contextual Info: V048F096T025 V048F096M025 VTM VTMTM Transformer • 48 V to 9.6 V V•I ChipTM Converter • 125°C operation TJ • 25 A (37.5 A for 1 ms) • 1 µs transient response • High density – 813 W/in3 • 3.5 million hours MTBF • Small footprint – 210 W/in2

mS25a

Abstract: ic sc 6200 D496 D505 V048F120M025 V048F120T025 chip transformer
Contextual Info: V048F120T025 V048F120M025 VTM VTMTM Transformer • 48 V to 12 V V•I ChipTM Converter • 125°C operation TJ • 25 A (37.5 A for 1 ms) • 1 µs transient response • High density – 1017 W/in3 • 3.5 million hours MTBF • Small footprint – 260 W/in2

ADC16DV160

Abstract: AN-2081
Contextual Info: LMH6517EVAL-R1 Evaluation Board National Semiconductor Application Note 2081 Loren Siebert October 5, 2010 LMH6517EVAL-R1 Evaluation Board 30130311 FIGURE 1. LMH6517EVAL-R1 Evaluation Board General Description The LMH6517EVAL-R1 evaluation board is designed to aid

Contextual Info: V048F030T070 V048F030M070 VTM VTMTM Transformer • 48 V to 3 V V•I ChipTM Converter • 125°C operation TJ • 70 A (105.0 A for 1 ms) • 1 µs transient response • High density – 237 A/in3 • 3.5 million hours MTBF • Small footprint – 60 A/in2

Contextual Info: V048F040T050 V048F040M050 VTM VTMTM Transformer • 48 V to 4 V V•I ChipTM Converter • 125°C operation TJ • 50 A (75.0 A for 1 ms) • 1 µs transient response • High density – 169 A/in3 • 3.5 million hours MTBF • Small footprint – 40 A/in2