The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LTC3775EMSE#TRPBF Linear Technology LTC3775 - High Frequency Synchronous Step-Down Voltage Mode DC/DC Controller; Package: MSOP; Pins: 16; Temperature Range: -40°C to 85°C
LTC3775IMSE#TRPBF Linear Technology LTC3775 - High Frequency Synchronous Step-Down Voltage Mode DC/DC Controller; Package: MSOP; Pins: 16; Temperature Range: -40°C to 85°C
LTC3775IMSE#PBF Linear Technology LTC3775 - High Frequency Synchronous Step-Down Voltage Mode DC/DC Controller; Package: MSOP; Pins: 16; Temperature Range: -40°C to 85°C
LTC3775EUD#PBF Linear Technology LTC3775 - High Frequency Synchronous Step-Down Voltage Mode DC/DC Controller; Package: QFN; Pins: 16; Temperature Range: -40°C to 85°C
LTC3775IUD#PBF Linear Technology LTC3775 - High Frequency Synchronous Step-Down Voltage Mode DC/DC Controller; Package: QFN; Pins: 16; Temperature Range: -40°C to 85°C
LTC3775EUD#TRPBF Linear Technology LTC3775 - High Frequency Synchronous Step-Down Voltage Mode DC/DC Controller; Package: QFN; Pins: 16; Temperature Range: -40°C to 85°C

high frequency control isolated push pull Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2003 - push-pull converter 80V 15A

Abstract: LM5030 3G Base Station Current-Fed Push-Pull Converter current fed push pull topology half bridge converter 80V output 15A LM5104 push-pull converter 80V output 14V to 48V hi amp dc dc converter step-up LM5041 isolation gate drive transformer
Text: 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


Original
PDF LM5030 LM5041 LM510X push-pull converter 80V 15A LM5030 3G Base Station Current-Fed Push-Pull Converter current fed push pull topology half bridge converter 80V output 15A LM5104 push-pull converter 80V output 14V to 48V hi amp dc dc converter step-up isolation gate drive transformer
2012 - YJ326A

Abstract: No abstract text available
Text: 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


Original
PDF TXS02326A SCES830A 50-mA 500-V A114-B) 000-V 24-Pin YJ326A
2012 - YJ326A

Abstract: Ldo regulator SIM2 YJ326
Text: 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


Original
PDF TXS02326A SCES830 50-mA 500-V A114-B) 000-V 24-Pin YJ326A Ldo regulator SIM2 YJ326
2012 - YJ326A

Abstract: No abstract text available
Text: 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


Original
PDF TXS02326A SCES830 50-mA 500-V A114-B) 000-V YJ326A
2012 - YJ326A

Abstract: DSA0080997 YJ326 SCES830 SIM2 equivalent SIM1
Text: 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


Original
PDF TXS02326A SCES830 50-mA 500-V A114-B) 000-V 24-Pin YJ326A DSA0080997 YJ326 SCES830 SIM2 equivalent SIM1
2010 - YJ326

Abstract: No abstract text available
Text: 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


Original
PDF TXS02326 SCES795C 50-mA 000-V A114-B) 24-Pin YJ326
2010 - YJ326

Abstract: C101 SIM2 TXS02326
Text: 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


Original
PDF TXS02326 SCES795C 50-mA 000-V A114-B) 24-Pin YJ326 C101 SIM2 TXS02326
2010 - SIM1

Abstract: DSAH00689151.txt
Text: 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


Original
PDF TXS02326 SCES795C 50-mA 000-V A114-B) 24-Pin SIM1 DSAH00689151.txt
2010 - Not Available

Abstract: No abstract text available
Text: 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


Original
PDF TXS02326 SCES795C 50-mA 000-V A114-B)
2010 - YJ326

Abstract: No abstract text available
Text: 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


Original
PDF TXS02326 SCES795C 50-mA 000-V A114-B) 24-Pin YJ326
2010 - TXS02326

Abstract: No abstract text available
Text: 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


Original
PDF TXS02326 SCES795C 50-mA 000-V A114-B) 24-Pin TXS02326
2010 - YJ326

Abstract: No abstract text available
Text: powered but Isolated BSI Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is high , Mapping (continued) SIM interface control register state bits 3:2 and 7:6 '01' Isolated state with , rising edge. If BSI_DEB goes high and Battery Removal Interrupt (bit 2 of the Device Control Register) is , Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is high for four cycles, BSI_DEB goes , debounce counter set to 4 SIM1 Active in Clock Stop Mode SIM2 powered but Isolated BSI Detection Control


Original
PDF TXS02326 SCES795A 50-mA 000-V A114-B) 24-Pin YJ326
2010 - YJ326

Abstract: No abstract text available
Text: powered but Isolated BSI Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is high , Mapping (continued) SIM interface control register state bits 3:2 and 7:6 '01' Isolated state with , rising edge. If BSI_DEB goes high and Battery Removal Interrupt (bit 2 of the Device Control Register) is , Detection Control set to 0 Battery Removal Interrupt set to 1 Once BSI is high for four cycles, BSI_DEB goes , debounce counter set to 4 SIM1 Active in Clock Stop Mode SIM2 powered but Isolated BSI Detection Control


Original
PDF TXS02326 SCES795A 50-mA 000-V A114-B) 24-Pin YJ326
1999 - circuit diagram electronic choke for tube light

Abstract: TUBE Light Choke connection diagram advantages of push pull inverter current fed push pull topology ELECTRONIC BALLAST 12v 12V neon ballast fluorescent dc choke circuit resonant self oscillation half bridge ballast such half bridge self oscillating transformer resonant self oscillation push pull
Text: 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


Original
PDF 50/60Hz circuit diagram electronic choke for tube light TUBE Light Choke connection diagram advantages of push pull inverter current fed push pull topology ELECTRONIC BALLAST 12v 12V neon ballast fluorescent dc choke circuit resonant self oscillation half bridge ballast such half bridge self oscillating transformer resonant self oscillation push pull
1994 - current fed push pull topology

Abstract: "CHAPTER 1 Introduction to Power Semiconductors" Power Semiconductor Applications Philips Semiconductors transistor Electronic ballast "INDUCTION LAMP" "Power Semiconductor Applications" Philips 40w ELECTRONIC choke BALLAST DIAGRAM 230v 40w fluorescent lamp inverter circuit circuit diagram electronic ballast for 40W tube l circuit diagram electronic choke for tube light CHAPTER 1 Introduction to Power Semiconductors
Text: 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


Original
PDF 50/60Hz current fed push pull topology "CHAPTER 1 Introduction to Power Semiconductors" Power Semiconductor Applications Philips Semiconductors transistor Electronic ballast "INDUCTION LAMP" "Power Semiconductor Applications" Philips 40w ELECTRONIC choke BALLAST DIAGRAM 230v 40w fluorescent lamp inverter circuit circuit diagram electronic ballast for 40W tube l circuit diagram electronic choke for tube light CHAPTER 1 Introduction to Power Semiconductors
2006 - push pull converter

Abstract: GRM32RR71H105K bottom MOCD207 application note high frequency transformer push pull R27 transistor
Text: 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


Original
PDF SC4808C SC4808C push pull converter GRM32RR71H105K bottom MOCD207 application note high frequency transformer push pull R27 transistor
2005 - pe-68386

Abstract: murata datecode pe 68386 4k resistor 50w msop10 51 marking 2U diode marking 2U 58 diode mocD207 OPTO SC431 MOCD207
Text: 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


Original
PDF SC4808C SC4808C MO-187, MSOP-10 pe-68386 murata datecode pe 68386 4k resistor 50w msop10 51 marking 2U diode marking 2U 58 diode mocD207 OPTO SC431 MOCD207
2002 - push pull converter

Abstract: how to calculate SM power Supply Transformer Resistor R1206 32C31 GHM DIODE MSOP-10 SC4808B SC4808A OP-10 CD207
Text: 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 =


Original
PDF SC4808A/B SC4808A/B SC4808 MSOP-10 push pull converter how to calculate SM power Supply Transformer Resistor R1206 32C31 GHM DIODE MSOP-10 SC4808B SC4808A OP-10 CD207
2006 - SC4808C

Abstract: MOCD207 MSOP-10 SC1301A SC431 SC4431 SC4808CMSTRT npn switching transistor Ic 5A high frequency control isolated push pull
Text: 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


Original
PDF SC4808C SC4808C MO-187, MSOP-10 MOCD207 MSOP-10 SC1301A SC431 SC4431 SC4808CMSTRT npn switching transistor Ic 5A high frequency control isolated push pull
2007 - Not Available

Abstract: No abstract text available
Text: 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


Original
PDF SC4808C SC4808C MO-187, MSOP-10
2007 - Not Available

Abstract: No abstract text available
Text: 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


Original
PDF SC4808C SC4808C
2010 - Not Available

Abstract: No abstract text available
Text: 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


Original
PDF ADuM347x T09567-0-11/10
2009 - 601 Opto isolator

Abstract: A 3140 v opto SC4808B-2MSTRT SC431 MSOP-10 MOCD207 MARKING D8 LS44 fzt853 A 3150 opto
Text: u u u u u u u u u The SC4808B-2 is a dual-ended, high frequency , integrated PWM , used. Some of the key features are high frequency operation of 1 MHz that allows the use of smaller , frequency will be synchronized to the positive edge of the external control signal. In a single controller , an external control signal to the SYNC pin, the internal oscillator frequency will be synchronized to , frequency . When the voltage on the RC pin is rising, one of the two outputs is high , but during fall time


Original
PDF SC4808B-2 SC4808B-2 601 Opto isolator A 3140 v opto SC4808B-2MSTRT SC431 MSOP-10 MOCD207 MARKING D8 LS44 fzt853 A 3150 opto
2009 - do213AC

Abstract: MOCD207 MSOP-10 SC431 SC4431 SC4808B-2 SC4808B-2MSTRT A 3120 opto coupler SOD523 land pattern
Text: u u u u u u u u u The SC4808B-2 is a dual-ended, high frequency , integrated PWM , used. Some of the key features are high frequency operation of 1 MHz that allows the use of smaller , frequency will be synchronized to the positive edge of the external control signal. In a single controller , an external control signal to the SYNC pin, the internal oscillator frequency will be synchronized to , frequency . When the voltage on the RC pin is rising, one of the two outputs is high , but during fall time


Original
PDF SC4808B-2 SC4808B-2 MO-187, MSOP-10 do213AC MOCD207 MSOP-10 SC431 SC4431 SC4808B-2MSTRT A 3120 opto coupler SOD523 land pattern
2005 - LM5041

Abstract: LM5041A LM5041AMTC LM5041AMTCX LM5041ASD LM5041ASDX LM5102 TSSOP-16
Text: applications. The LM5041A's four control outputs include: the buck stage controls (HD and LD) and the pushpull control outputs ( PUSH and PULL ). Push-pull outputs are driven at 50% nominal duty cycle at one half of , outputs include: the buck stage controls (HD and LD) and the pushpull control outputs ( PUSH and PULL ). , state or Under-Voltage off state, the buck stage control outputs will default to HD low and LD high , . www.national.com Push-Pull Outputs The push pull outputs operate continuously at a nominal 50% duty cycle. A


Original
PDF LM5041A LM5041A CSP-9-111S2) CSP-9-111S2. LM5041 LM5041AMTC LM5041AMTCX LM5041ASD LM5041ASDX LM5102 TSSOP-16
Supplyframe Tracking Pixel