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high frequency control isolated push pull

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push-pull converter 80V 15A

Abstract: LM5030 3G Base Station Efficiency Low Output Ripple Current High Input Ripple Current High Side (Isolated) Gate Drive Required , R - np Vin Vg ns D2 Q2 PUSH Q1 PULL Vout = Vin x D x Ns x 2 Np Q1 Q2 , Inductor Current I(L1) Vin = 48V Vout =3.3V Iout = 5A Push Primary Switch V DS(Q1) Pull , start-up regulator · CM control, internal slope comp. · Set frequency with single resistor ­ 100k ­ , is pulse-width modulated to regulate Vout N : N : 1 : 1 Vout PUSH OSCILLATOR PULL
National Semiconductor
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YJ326A

Abstract: but Isolated BSI Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is high for , Powered down with pull-downs activated '01' Isolated with pull-downs deactivated '10' Powered with pull , pull-downs activated '01' Isolated with pull-downs deactivated '10' Powered with pull downs activated '11' , pulldowns deactivated '01' Isolated state with pulldowns deactivated '10' Not allowed SIM Interface Control , Control Register) is 1, an interrupt is generated and appears on IRQ. Also, if BSI_DEB goes high and BSI
Texas Instruments
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YJ326A

Abstract: Ldo regulator IRQ. Also, if BSI_DEB goes high and BSI Detection Control (bit 4 of the Device Control Register) is 0 , value set to 4 SIM1 Active, SIM2 powered but Isolated BSI Detection Control set to 0 Battery Removal , set to 4 SIM1 Active in Clock Stop Mode SIM2 powered but Isolated BSI Detection Control set to 0 , : BSI debounce counter set to 4 SIM2 Active SIM1 powered but Isolated BSI Detection Control set to 0 , to 7 during debounce SIM1 Active SIM2 powered but Isolated BSI Detection Control set to 0 Battery
Texas Instruments
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YJ326A

Abstract: State [1:0] Pull down resistor active (1) (2) 6 Totem pole pull down '01' Isolated state , . If BSI_DEB goes high and Battery Removal Interrupt (bit 2 of the Device Control Register) is 1, an interrupt is generated and appears on IRQ. Also, if BSI_DEB goes high and BSI Detection Control (bit 4 of , Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is high for four cycles, BSI_DEB , counter set to 4 SIM2 Active SIM1 powered but Isolated BSI Detection Control set to 0 Battery Removal
Texas Instruments
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YJ326A

Abstract: DSA0080997 IRQ. Also, if BSI_DEB goes high and BSI Detection Control (bit 4 of the Device Control Register) is 0 , value set to 4 SIM1 Active, SIM2 powered but Isolated BSI Detection Control set to 0 Battery Removal , set to 4 SIM1 Active in Clock Stop Mode SIM2 powered but Isolated BSI Detection Control set to 0 , : BSI debounce counter set to 4 SIM2 Active SIM1 powered but Isolated BSI Detection Control set to 0 , to 7 during debounce SIM1 Active SIM2 powered but Isolated BSI Detection Control set to 0 Battery
Texas Instruments
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YJ326

Abstract: IRQ. Also, if BSI_DEB goes high and BSI Detection Control (bit 4 of the Device Control Register) is 0 , value set to 4 SIM1 Active, SIM2 powered but Isolated BSI Detection Control set to 0 Battery Removal , SIM2 powered but Isolated BSI Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is , debounce counter set to 4 SIM2 Active SIM1 powered but Isolated BSI Detection Control set to 0 Battery , written to 7 during debounce SIM1 Active SIM2 powered but Isolated BSI Detection Control set to 0 Battery
Texas Instruments
Original
Abstract: but Isolated BSI Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is high for , Isolated BSI Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is high for four , '01' Isolated with pull-downs deactivated '10' Powered with pull downs activated '11' Active with , '01' Isolated with pull-downs deactivated '10' Powered with pull downs activated '11' Active with , next CLK rising edge. If BSI_DEB goes high and Battery Removal Interrupt (bit 2 of the Device Control Texas Instruments
Original

YJ326

Abstract: IRQ. Also, if BSI_DEB goes high and BSI Detection Control (bit 4 of the Device Control Register) is 0 , value set to 4 SIM1 Active, SIM2 powered but Isolated BSI Detection Control set to 0 Battery Removal , SIM2 powered but Isolated BSI Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is , debounce counter set to 4 SIM2 Active SIM1 powered but Isolated BSI Detection Control set to 0 Battery , written to 7 during debounce SIM1 Active SIM2 powered but Isolated BSI Detection Control set to 0 Battery
Texas Instruments
Original

YJ326

Abstract: C101 activated '01' Isolated with pull-downs deactivated '10' Powered with pull downs activated '11' Active , activated '01' Isolated with pull-downs deactivated '10' Powered with pull downs activated '11' Active , rising edge. If BSI_DEB goes high and Battery Removal Interrupt (bit 2 of the Device Control Register , Notes: BSI debounce count value set to 4 SIM1 Active, SIM2 powered but Isolated BSI Detection Control , BSI Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is high for four cycles
Texas Instruments
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SIM1

Abstract: DSAH00689151.txt IRQ. Also, if BSI_DEB goes high and BSI Detection Control (bit 4 of the Device Control Register) is 0 , value set to 4 SIM1 Active, SIM2 powered but Isolated BSI Detection Control set to 0 Battery Removal , SIM2 powered but Isolated BSI Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is , debounce counter set to 4 SIM2 Active SIM1 powered but Isolated BSI Detection Control set to 0 Battery , written to 7 during debounce SIM1 Active SIM2 powered but Isolated BSI Detection Control set to 0 Battery
Texas Instruments
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TXS02326

Abstract: IRQ. Also, if BSI_DEB goes high and BSI Detection Control (bit 4 of the Device Control Register) is 0 , value set to 4 SIM1 Active, SIM2 powered but Isolated BSI Detection Control set to 0 Battery Removal , SIM2 powered but Isolated BSI Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is , debounce counter set to 4 SIM2 Active SIM1 powered but Isolated BSI Detection Control set to 0 Battery , written to 7 during debounce SIM1 Active SIM2 powered but Isolated BSI Detection Control set to 0 Battery
Texas Instruments
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circuit diagram electronic choke for tube light

Abstract: TUBE Light Choke connection diagram placed on high frequency electronic ballasts and their advantages over conventional 50/60Hz "magnetic" , machinery. If the lamp is operated at high frequency, however, its light output is continuous. This is , because: (a) At high frequency, the lamp can be run at a lower power for the same light output. (b) The , ballasts. Owing to the high frequency of operation, the magnetic components in an electronic ballast , power transistors in a push pull or half bridge configuration. This can either be a self oscillating
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current fed push pull topology

Abstract: "CHAPTER 1 Introduction to Power Semiconductors" background to fluorescent lamps and their control requirements, with emphasis placed on high frequency , Fig. 8. Current fed parallel resonant push pull ballast with isolated output. CIRCUIT Fig. 7. Voltage fed push pull ballast with isolated output. Since each successive half sine produces current , . 2.1.4 Isolated Power Semiconductors for High Frequency Power Supply Applications , Designers Guide to PowerMOS Devices for Motor Control . 3.1.5 A 300V, 40A High Frequency
Philips Semiconductors
Original

push pull converter

Abstract: GRM32RR71H105K dual-ended, high frequency, integrated PWM controller, optimized for isolated applications that require , Isolated VRM's Some of the key features are high frequency operation of 1 MHz that allows the use of , all of the control and drive circuity required for isolated or non isolated power supplies where an , internal oscillator frequency will be synchronized to the positive edge of the external control signal. In , connecting an external control signal to the SYNC pin, the internal oscillator frequency will be synchronized
Semtech
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pe-68386

Abstract: murata datecode PRELIMINARY Features The SC4808C is a dual-ended, high frequency, integrated PWM controller, optimized , features are high frequency operation of 1 MHz that allows the use of smaller components thus saving cost , the control and drive circuity required for isolated or non isolated power supplies where an external , frequency is required, the SYNC pin can accept the external clock. By connecting an external control , SC4808C Push Pull Converter Gain/Phase plot at Vin = 36V, Vout = 3.3V, Iout = 10A, Fosc = 650kHz 2005
Semtech
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MSOP-10 pe-68386 murata datecode 4k resistor 50w msop10 51 pe 68386 50Khz push pull switching MO-187

push pull converter

Abstract: how to calculate SM power Supply Transformer Current or Voltage operation and contains all the control circuitry required for isolated applications , 1.6V. By connecting an external control signal to the SYNC pin, the internal oscillator frequency , control signal to the SYNC pin, the internal oscillator frequency will be synchronized to the positive , 100 1000 10000 -225 100000 Freq (Hz) Typical SC4808 Push Pull Converter Gain/Phase , -225 100000 Freq (Hz) Typical SC4808 Push Pull Converter Gain/Phase plot at Vin = 48V, Vout =
Semtech
Original
SC4808A SC4808B push pull converter how to calculate SM power Supply Transformer OP-10 CD207 SC4808A/B P8208T CBR1U-D020S SC1301A

high frequency control isolated push pull

Abstract: SC4808C The SC4808C is a dual-ended, high frequency, integrated PWM controller, optimized for isolated , control and drive circuity required for isolated or non isolated power supplies where an external error , control signal to the SYNC pin, the internal oscillator frequency will be synchronized to the positive , 100 1000 10000 -225 100000 Freq (Hz) Typical SC4808C Push Pull Converter Gain/Phase , SC4808C Push Pull Converter Gain/Phase plot at Vin = 48V, Vout = 3.3V, Iout = 10A, Fosc = 650kHz 2006
Semtech
Original
high frequency control isolated push pull npn switching transistor Ic 5A MOCD207 SC431 SC4431 SC4808CMSTRT
Abstract: The SC4808C is a dual-ended, high frequency, integrated PWM controller, optimized for isolated , space. The device contains all of the control and drive circuity required for isolated or non isolated , external control signal to the SYNC pin, the internal oscillator frequency will be synchronized to the , connecting an external control signal to the SYNC pin, the internal oscillator frequency will be , Push Pull Converter Gain/Phase plot at Vin = 36V, Vout = 3.3V, Iout = 10A, Fosc = 650kHz  2007 Semtech
Original
Abstract: The SC4808C is a dual-ended, high frequency, integrated PWM controller, optimized for isolated , space. The device contains all of the control and drive circuity required for isolated or non isolated , external control signal to the SYNC pin, the internal oscillator frequency will be synchronized to the , an external control signal to the SYNC pin, the internal oscillator frequency will be synchronized to , Push Pull Converter Gain/Phase plot at Vin = 36V, Vout = 3.3V, Iout = 10A, Fosc = 650kHz  2007 Semtech
Original
Abstract: stable response for an isolated push pull converter. The power transformer (T1) and rectifier (RECT) in , achieve high output accuracy and frequency compensation, the ADuM347x employs a Type III amplifier with , channels of high speed data isolation with a transformer driver and secondary PWM controller that can be used to implement an isolated push-pull dc-to-dc converter. Integrating the elements of an isolated , control signal from the secondary controller across the isolation barrier from the secondary side to the Analog Devices
Original
M347X T09567-0-11/10
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