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66kHz

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Abstract: 1600mA 0A 50mV ± 2% ± 1% ± 4% 66KHz Typ. 6V 1500mA 0A 1% ± 2% ± 1% ± 3% 66KHz Typ. 7.5V 1200mA 0A 1% ± 2% ± 1% ± 3% 66KHz Typ. 20% (60 , % ± 1% ± 2% 66KHz Typ. 74% Typ. TRG10R120 12V 850mA 0A 1% ± 2% ± 1% ± 2% 66KHz Typ. 74% Typ. TRG10R136 13.6V 750mA 0A 1% ± 2% ± 1% ± 2% 66KHz Typ. 74% Typ. TRG10R150 15V 700mA 0A 1% ± 2% ± 1% ± 2% 66KHz Typ -
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20AWG TRG10R 242VDC 20LFM TRG10R180 TRG10R240 TRG10R075
Abstract: will be 50kHz and the higher strike frequency will be 66kHz. The values for R1 and R2 first need to be calculated with the following equations: R1 = 1.6E6/50kHz = 32k (R1xR2)/(R1+R2) = 1.6E6/66kHz; substituting , maximum generated strike voltage is about 1100VRMS. If the strike frequency is increased to 66kHz, the , about 1100VRMS. Figure 2. At 66kHz, the generated strike voltage is about 1600VRMS. Implementing a , 66kHz frequency after 600ms, but returns to the nominal lamp run frequency of 50kHz after 610ms Maxim Integrated Products
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DS3881 DS3882 AN3941 APP3941 CCFL Controllers CCFL APPLICATION NOTES DS3881/DS3882 6E6/50 6E6/66
Abstract: Protection Short Circuit Protection 12, 24 or 48VDC See table See table 135W 10mV pk-pk at 66kHz -
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EN60601-1 EN55022B EN50081-1 EN50081 250VAC 260-340VAC EN60065 EN60950 N16171
Abstract: than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it is necessary to avoid , Tdel from Tsel. Tsel Tdel Ton Toff SWIRE (PWM Freq > 6.6kHz) PWM Enable Tsel Tdel Shutdown Toff SWIRE (PWM Freq < 6.6kHz) PWM Enable Shutdown Fig3. SWIRE Timing Diagram in PWM mode No.A2203 ON Semiconductor
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ENA2203 LV52206XA LV52206 71013NK 20130624-S00001 A2203-1/12
Abstract: Fig.4). If the PWM frequency is used faster than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it is necessary to avoid entering the digital mode condition, such as SWIRE keeps , Freq > 6.6kHz) PWM Enable Tsel Tdel Shutdown Toff SWIRE (PWM Freq < 6.6kHz) PWM Enable Shutdown ON Semiconductor
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swire VLS3012T-220M49 VLF302512M-100M marking code tw1 marking code onsemi ONSEMI Device Code 019 ENA2184 LV52204MT LV52204 52213NK 20130426-S00002 A2184-1/13
Abstract: than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it is necessary to , enabled after Tdel from Tsel. Ton Tsel Tdel Toff Shutdown SWIRE (PWM Freq > 6.6kHz) PWM Enable Tsel Tdel Toff Shutdown SWIRE (PWM Freq < 6.6kHz) PWM Enable Fig3. SWIRE Timing ON Semiconductor
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ENA2184B 51914NK/O1613NK 20130917-S00002/52213NK A2184-1/16 A2184-16/16
Abstract: frequency is used faster than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it , > 6.6kHz) PWM Enable Tsel Tdel Toff Shutdown SWIRE (PWM Freq < 6.6kHz) PWM Enable Fig3 ON Semiconductor
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A2203-12/12
Abstract: NC Shield 1 10 PRI SEC 4 3 6 FDBK 2 ELECTRICAL SPECIFICATIONS @ 25° unless otherwise noted: C D.C. RESISTANCE (@20°C): 1-4 , 2.15 Ohms max. 2-3 , 0.050 Ohms max. 6-10 , 0.14 Ohms max. DIELECTRIC RATING: 3000VAC, 1 minute tested by applying 3750VAC for 1 second between pins 4-10(1+3). INDUCTANCE: 1.55 mH ±10%, 66kHz, 100mVAC, 0mADC, 1-4, Ls. LEAKAGE INDUCTANCE: 50.0uH max., 100kHz, 100mVAC, 1-4(2+3,6+10), Ls. 25.0uH typ., 100kHz, 100mVAC, 1-4(2+3,6+10), Ls WE-Midcom
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WE-MIDCOM WE-MIDCOM transformer Midcom
Abstract: 2 PRI 120-375V 66kHz 3 4 Cancel NC 1 8 SEC 8V - 300mA 7 AUX 5 ELECTRICAL SPECIFICATIONS @ 25° unless otherwise noted: C D.C. RESISTANCE (@20°C): 1-5 , 0.035 Ohms ±20%. 2-3 , 2.15 Ohms ±10%. 7-8 , 0.028 Ohms ±20%. DIELECTRIC RATING: 4000VAC, 1 minute tested by applying 5000VAC for 1 second between pins 1-8. 4000VAC, 1 minute tested by applying 5000VAC for 1 second between pins 2-8. 500VAC, 1 minute tested by applying 625VAC for 1 second between pins 1-2 WE-Midcom
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IEC61558-2-17 IEC61558 450uH 400VDC
Abstract: required keeping in low state for Tw1 (See Fig.4). If the PWM frequency is used faster than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it is necessary to avoid entering the , . Tsel Tdel Ton Toff SWIRE (PWM Freq > 6.6kHz) PWM Enable Tsel Tdel Shutdown Toff SWIRE (PWM Freq < 6.6kHz) PWM Enable Shutdown Fig3. SWIRE Timing Diagram in PWM mode Digital Mode To enter ON Semiconductor
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ENA2184A O0913NK A2184-13/13
Abstract: required keeping in low state for Tw1 (See Fig.4). If the PWM frequency is used faster than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it is necessary to avoid entering the , Tsel. Tsel Tdel Ton Toff Shutdown SWIRE (PWM Freq > 6.6kHz) PWM Enable Tsel Tdel Toff Shutdown SWIRE (PWM Freq < 6.6kHz) PWM Enable Fig3. SWIRE Timing Diagram in PWM mode ON Semiconductor
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Abstract: 66kHz Power Integrations TOP249Y Infineon TDA16837 185 - 265Vrms 160w 100kHz -
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ETD44 KA2S0965 TEA1566 TOP249Y 12 pin flyback transformer PHILIPS philips flyback transformer 14 pin flyback transformer philips TOP248Y IEC950 IEC335 UL94-V0
Abstract: PWM frequency is used faster than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it is necessary to avoid entering the digital mode condition, such as SWIRE keeps high for , (PWM Freq > 6.6kHz) PWM Enable Tsel Tdel Toff Shutdown SWIRE (PWM Freq < 6.6kHz) PWM ON Semiconductor
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O1613NK
Abstract: frequency is used faster than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it , Tsel. PWM is enabled after Tdel from Tsel. Tsel Ton Toff SWIRE (PWM Freq > 6.6kHz) PWM Enable Shutdown Tdel Tsel Tdel Toff SWIRE (PWM Freq < 6.6kHz) PWM Enable Shutdown Fig3. SWIRE Timing ON Semiconductor
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ENA2176 LV52204MU O0213NK 20130225-S00003 A2176-1/12
Abstract: .4). If the PWM frequency is used faster than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it is necessary to avoid entering the digital mode condition, such as SWIRE keeps , Shutdown SWIRE (PWM Freq > 6.6kHz) PWM Enable Tsel Tdel Toff Shutdown SWIRE (PWM Freq < 6.6kHz) PWM Enable Fig3. SWIRE Timing Diagram in PWM mode No.A2176-5/16 LV52204MU Digital Mode ON Semiconductor
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ENA2176A 51914NK/O0213NK A2176-1/16 A2176-16/16
Abstract: comma tail 14 or 16-segment drivers Up to 66kHz data rate Direct digit drive and 20mA at 50V Micrel Semiconductor
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MIC10937 MIC10937J-40 MIC10937PE-50 MIC10937P-50 16 SEGMENT DISPLAY alphanumeric display pin diagram of 16 segment LED alphanumeric segment decoder alphanumeric 14 segment display 16 pin alphanumeric display 16 pin 16 SEGMENT DISPLAY alphanumeric MIC10937/10957
Abstract: CUSTOMER TERMINAL RoHS LEAD(Pb) â'"FREE Sn96%, Ag4% Yes Yes PART MUST INSERT FULLY TO SURFACE A IN RECOMMENDED GRID 0.025 SQ.(9) DOT LOCATES TERM. #1 TERM. NO.'s FOR REF. ONLY LOT CODE & DATE CODE PRI 120â'"375V 66kHz (D- ©- 0.056(9) [1.42] .669 [17.00] SEC 8V, 300mA .138(4) [3.50] r .197(3) [5.00] - RECOMMENDED P.C. PATTERN. COMPONENT SIDE more than you expect IVidcam WURTH ELEKTRONIK ELECTRICAL SPECIFICATIONS ® 25°C unless otherwise noted: PARAMETER TEST -
OCR Scan
IEC6155B 4500VAC PKG-0058
Abstract: Tw1 (See Fig.4). If the PWM frequency is used faster than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it is necessary to avoid entering the digital mode condition, such as , Freq > 6.6kHz) PWM Enable Shutdown Tdel Tsel Tdel Toff SWIRE (PWM Freq < 6.6kHz) PWM Enable ON Semiconductor
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VLF504015MT A2176-11/11
Abstract: point and comma tail drivers · 16 digit drivers · Up to 66kHz data rate · Direct digit drive of 20mA Micrel Semiconductor
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MIC10951 MIC10951PE-50 MIC10951P-50 block diagram of 7 segment single digit 7 Segment Display diagram numeric display 16 pin 2 digit segment led display 16 pin 16 pin 7 segment display DISPLAY LED 7 SEGMENTS MIC10951PE-40/ MIC10951P-40/
Abstract: than 6.6kHz, the dimming mode is set to PWM mode only. But slower than 6.6kHz, it is necessary to , enabled after Tdel from Tsel. Tsel Tdel Ton Toff Shutdown SWIRE (PWM Freq > 6.6kHz) PWM Enable Tsel Tdel Toff Shutdown SWIRE (PWM Freq < 6.6kHz) PWM Enable Fig3. SWIRE Timing ON Semiconductor
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Abstract: maximum generated strike voltage is about 1100VRMS. If the strike frequency is increased to 66kHz, the , about 1100VRMS. Figure 2. At 66kHz, the generated strike voltage is about 1600VRMS. Implementing a , will be 50kHz and the higher strike frequency will be 66kHz. The values for R1 and R2 first need to be calculated with the following equations: R1 = 1.6E6/50kHz = 32k (R1xR2)/(R1+R2) = 1.6E6/66kHz; substituting , 66kHz frequency after 600ms, but returns to the nominal lamp run frequency of 50kHz after 610ms Power Integrations
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TOp-264 TOP266 top265 TOP267 TOP269 top271 PI-5578-090309 DIPTM-12 D-80336
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