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LT1949-1EMS8TR Linear Technology IC PWM DC/DC CONV 1A SWTCH 8MSOP
LTC1426CS8#TR Linear Technology LTC1426 - Micropower Dual 6-Bit PWM DAC; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LTC1426CS8#TRPBF Linear Technology LTC1426 - Micropower Dual 6-Bit PWM DAC; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LTC1426IS8#PBF Linear Technology LTC1426 - Micropower Dual 6-Bit PWM DAC; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LTC1426IS8 Linear Technology LTC1426 - Micropower Dual 6-Bit PWM DAC; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LTC1426IS8#TR Linear Technology LTC1426 - Micropower Dual 6-Bit PWM DAC; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C

PWM converter DC-DC 24v 5v DIP-8 Datasheets Context Search

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KA7500B equivalent

Abstract: POWER INVERTER ON KA7500B KA3525A equivalent ka3842b equivalent PWM converter DC-DC 24v 5v DIP-8 automatic off 12V battery charging by power scr ka3525a inverter circuit KA339 equivalent pulse generator cum timer application ka3525a
Text: output voltage 5V , 8V.8V.9V, 10V, 11V, 12V, 15V, 18V and 24V fixed output voltage 5V , 8V . 8V, 9V, 10V, 11V, 12V, 15V, 18V, and 24V fixed output voltage 5V , 6V, 8V, 10V, 12V, 15V, 18V, 20V, and 24V fixed output voltage 5V , 6V, 8V, 10V, 12V, 15V, 18V, 20V, 24V fixed output voltage 5V , 8V, 8V, 9V, 10V, 12V , pplication - 5V , -6V, -8V, -12V, -15V, -18V, and - 24V fixed output voltage - 5V , -8V, -8V, -12V, -15V, -18V, and - 24V fixed output voltage - 5V , -®V, -8V, -12V, -15V, -18V, and - 24V fixed output voitage - 5V , -12V


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PDF KA78TXX KA340TXX 500mA) 100mA) KA78MXX/I O-220 500mA KA7524 KA7521 KA7500B equivalent POWER INVERTER ON KA7500B KA3525A equivalent ka3842b equivalent PWM converter DC-DC 24v 5v DIP-8 automatic off 12V battery charging by power scr ka3525a inverter circuit KA339 equivalent pulse generator cum timer application ka3525a
2000 - KA7500B application note

Abstract: DC MOTOR DRIVE WITH LM324 simple automatic fan control using LM311 KA34063A application note TDC1007J1C3 KA3525A application note KA3525 mendocino motor 24v dc motor speed control lm324 KA317T
Text: Voltage Mode PWM Controller Voltage Mode PWM Controller Description DC-DC Converter Controller Package SOP- 8 , , 0.1A, 2% 12V, 0.1A, 2% 15V, 0.1A, 2% 18V, 0.1A, 2% 24V , 0.1A, 2% Regulator, 5V , 0.5A, 4% 5V , 0.5A, 4 , , 0.5A, 4% 18V, 0.5A, 4% 20V, 0.5A, 4% 24V , 0.5A, 4% Package SOP- 8 TO-92 TO-92 SOP- 8 TO-92 TO-92 TO , , 1.0A, 4% 24V , 1.0A, 2% 5V , 3.0A, 4% 12V, 3.0A, 4% 15V, 3.0A, 4% 24V , 3.0A, 4% Package TO-220 TO , Regulator, - 5V , 0.1A, 2% -8V, 0.1A, 2% -12V, 0.1A, 2% -15V, 0.1A, 2% -18V, 0.1A, 2% - 24V , 0.1A, 2% Regulator


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PDF 24-lead 28-lead 121-lead 69-lead 128-lead 100-lead KA7500B application note DC MOTOR DRIVE WITH LM324 simple automatic fan control using LM311 KA34063A application note TDC1007J1C3 KA3525A application note KA3525 mendocino motor 24v dc motor speed control lm324 KA317T
diagram LG LCD TV circuits

Abstract: schematic LG TV lcd backlight inverter schematic LG lcd backlight inverter schematic diagram inverter 12v to 24v 30a lg lcd tv POWER SUPPLY SCHEMATIC lg led tv internal parts block diagram diagram power supply LG 32 in LCD TV circuits KIA78033F regulator KIA78 ic philips lcd tv inverter schematic
Text: VOUT/IO=3.3, 5V ,Adj , 1A~3A Package= FLP- 8 /. D2PAK-5 Inverter VOLTAGE REGULATOR DC/DC Converter , Package= TSOP-6/FLP- 8 Audio AMP Audio IN Micom S-Video Vz=2.0V~ 24V Vz=2.0V~ 24V , Package KIA2596FP/ KIA2576FP 1.2~37V, 1A, 3A DC-DC CONVERTER (FLP- 8 ) (D2PAK-5) Schottky , ) 24V 20V 18V 15V 12V 10V 9V 8V 6V 5V 3.7V 3.5V 3.3V 3.0V 2.5V , TO REG IC INPUT TO DC-DC CONVERTER 24V C28 CAP NP D1 D1 D2 D2 KTC3875S P-CH


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PDF OD-523 OD-323 OD323-2-1 SC-76) OD-123FL OT-723 OT-23 OT-89 diagram LG LCD TV circuits schematic LG TV lcd backlight inverter schematic LG lcd backlight inverter schematic diagram inverter 12v to 24v 30a lg lcd tv POWER SUPPLY SCHEMATIC lg led tv internal parts block diagram diagram power supply LG 32 in LCD TV circuits KIA78033F regulator KIA78 ic philips lcd tv inverter schematic
BA6869

Abstract: KA3525A lb1838 KA7500B application note ba5938 KA7500B LM4136 ka7632 ba6296 SMPS KA3525A
Text: [KA78L05AD] Regulator, 5V , 0.1A, 2% SOP- 8 MC78L05ACP [LM78L05ACZ] [KA78L05AZ] 5V , 0.1A, 2% TO , T T T T T&R, M T T T T T T 5V , 3.0A, 4% 12V, 3.0A, 4% 15V, 3.0A, 4% 24V , 3.0A, 4 , DC-DC Converter Controller MC34063AP [KA34063A] Code1 Suffix SOP- 8 Description T, T&R , SOP-14 DIP- 8 [KA3845B] UC3842AD [KA3882CD] UC3842AN Current Mode PWM Controller SOP , ", X T SOP- 8 Current Mode PWM Controller " ", X T DIP- 8 [KA3883C] UC3846N


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PDF O-263 BA6869 KA3525A lb1838 KA7500B application note ba5938 KA7500B LM4136 ka7632 ba6296 SMPS KA3525A
2008 - 220v AC voltage stabilizer schematic diagram

Abstract: smps circuit diagram 450w DATASHEET OF IC 741C ATX smps troubleshooting atx power supply 450W schematic PWM 220v ac stabilizer aPPLICATION NOTES ON KA3525A atx power supply 450W ka3842a application note SG6105
Text: , SO-14 DIP- 8 , SO-14 DIP-16 DIP-16 SO- 8 DIP-16, SO-16 DIP- 8 DIP- 8 Primary-side Only CV/CC PWM , . Features & Benefits (FAN2106) VIN · 6A, 24V input synchronous Buck regulator FAN2106 CHF + 5V , OUT 4 6 8 10 12 14 16 18 20 VDD (V) Forward Converter with Hybrid , . . 6 . · pwm controllers , ). 7-8 · fps­Half-bridge resonant converter


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1998 - pwm schematic inverter uc3844

Abstract: UC3843 Boost converter flyback uc3842 tl431 flyback uc3843 tl431 18V UC3843 application note buck schematic UC3843 buck converter application note uc3844 schematic diagram 24v dc dc uc3843 boost PWM converter DC-DC 24v 5v DIP-8 uc3843 dc to dc converter schematic
Text: , Low-Side SOT-143 MSOP- 8 SO- 8 + 5V 4.7µF Vcc On Off Gate Drive MIC5018 Control , VDD 7 35V 8 5V Reference RT/CT Oscillator VREF UVLO OUT 4 6 FB , system components and the LCD display are not the same, a buck converter (+ 5V to +3.3V) or a boost converter (+3.3V to + 5V ) is used. Micrel has two products which are ideal for these applications. Buck , SEPIC converter shown regulates a 5V output over a four-cell input voltage range. 6 TEL


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PDF MIC2177/78/79 MIC2177/78 MIC2179 200kHz 300kHz. MIC2177 MIC2178 450C-199 pwm schematic inverter uc3844 UC3843 Boost converter flyback uc3842 tl431 flyback uc3843 tl431 18V UC3843 application note buck schematic UC3843 buck converter application note uc3844 schematic diagram 24v dc dc uc3843 boost PWM converter DC-DC 24v 5v DIP-8 uc3843 dc to dc converter schematic
1998 - flyback uc3843 tl431 18V

Abstract: pwm schematic inverter uc3844 uc3845 sepic UC3842 design with TL431 UC3843 sepic step up converter flyback uc3842 tl431 555 timer for boost converter uc3845 buck converter schematic UC3843 sepic converter uc3843 dc dc step down converter
Text: -143 SOT-143 MSOP- 8 MSOP- 8 MSOP- 8 SOT-143 MSOP- 8 SO- 8 + 5V 4.7µF Vcc Gate Drive Load , 35V 5V Reference UVLO VREF 8 RT/CT 4 Oscillator OUT 6 FB 2 2R 2.5V R S R Q , 1 6 8 L1b 7 3 C4 0.22µF R3 3.32k R1 VOUT = 1.24V 1 + R2 SEPIC Converter Topology , system components and the LCD display are not the same, a buck converter (+ 5V to +3.3V) or a boost converter (+3.3V to + 5V ) is used. Micrel has two products which are ideal for these applications. Buck


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PDF MIC2177/78/79 MIC2177/78 MIC2179 200kHz MIC2177, MIC2178 450C-199 flyback uc3843 tl431 18V pwm schematic inverter uc3844 uc3845 sepic UC3842 design with TL431 UC3843 sepic step up converter flyback uc3842 tl431 555 timer for boost converter uc3845 buck converter schematic UC3843 sepic converter uc3843 dc dc step down converter
1997 - uc3843 12v to 24v

Abstract: uc3842 half bridge forward converter UC3843 uc3845 half bridge uc3842 200w mc34063 5v 4A uc3843 12v to 40v stepdown uc3842 uc3842 full bridge uc3844 100w
Text: GS1T5-5 1W - in: 5V out: 5V DC-DC converter GS1T70-D540 1W ISDN DC-DC converter GS-R405S 4A, 5V Fixed output plus reset output GS2T5-5 2W - in: 5V out: 5V DC-DC converter GS-R400V 4A, Out voltage adjustable from 5 to 40V GS2T5-12 2W - in: 5V out: 12V DC-DC converter GS-R400/2 Family 5V /2A, 12V/3A, 15V/3A, 24V /2A small size GS2T5-9 2W - in: 5V out: 9V DC-DC converter GS-R1005 5V /10A switching voltage regulator GS2T12-9 2W - in: 12V out: 9V DC-DC


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PDF STP11NB40v STP10NA40/FI STW16NA40 STW15NB50v STU14NA50v STW20N350v STH15NA50FI STP9NB50/FIv STP8NA50/FI STP6NB50v uc3843 12v to 24v uc3842 half bridge forward converter UC3843 uc3845 half bridge uc3842 200w mc34063 5v 4A uc3843 12v to 40v stepdown uc3842 uc3842 full bridge uc3844 100w
LA5617

Abstract: LV51116LF LA5772 LA5664 5A 28v regulator LV51111 LA5744MP voltage regulator 12v 2a LA5779N LDO regulator 51A
Text: 9V/ 60mA 12V/ 200mA 3 5V / 1000mA 5V / 100mA 3 8V/ 10V/* 100mA 7 8 5V / 5V / 100mA 300mA 12 13 OP2-C/ OP3-C/ 10mA 10mA 2 3 8V/ 10V/* 200mA 7 8 5V / 5V / 100mA 300mA 12 13 , Car battery DC/DC converter control IC, output voltage propor22 tional to PWM input signal, for , Applications TN8D41A/51A, TN5D41A/51A/61A 5V /5A (TN5D41A), 12V/5A (TN5D51A), 24V /5A (TN5D61A , 9.14 8 11 3.2 20 unit: mm RCC power supply controller 6.5 0.25 DC-DC converter


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PDF VCT16 EP91G LA5617 LV51116LF LA5772 LA5664 5A 28v regulator LV51111 LA5744MP voltage regulator 12v 2a LA5779N LDO regulator 51A
2004 - MAX643

Abstract: MAX630/MAX4193 MAX8212 equivalent max630 inverter /S69 2LF
Text: Converter A common power-supply requirement involves conversion of a 2.4V or 3V battery voltage to a 5V , 8 SO 8 CERDIP 8 PDIP 8 SO 8 CERDIP 8 CERDIP Applications + 5V to +15V DC-DC Converters , Figure 1. + 5V to +15V Converter and Block Diagram Low-Battery Detector The low-battery detector , MAX630 LX 3 330µF 25V 2 CX GND 1 Figure 3. + 5V to ±15V Converter (see Table 1). The , from no load to 20mA. Typical Applications + 5V to +15V DC-DC Converter Figure 1 shows a simple


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PDF MAX630 MAX4193 375mA MAX643 MAX630/MAX4193 MAX8212 equivalent inverter /S69 2LF
2014 - Not Available

Abstract: No abstract text available
Text: Converter with 22µA No-Load Supply Current Typical Operating Characteristics (VIN = 24V , VGND = 0V , CIRCUIT, PFM MODE VOUT = 5V 1 10 0 10 1 VIN = 24V VIN = 36V 40 VIN = 48V 30 , 0 FIGURE 6 APPLICATION CIRCUIT, PWM MODE VOUT = 5V LOAD CURRENT (mA) OUTPUT VOLTAGE vs , NO-LOAD PWM MODE 5V /div VRESET 1ms/div OVERLOAD PROTECTION toc31 1V/div 5V /div 1V/div , goes high-impedance 2ms after FB voltage rises above 95% of its set value. 8 MODE PFM/ PWM


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PDF MAX17551 MAX17551 100kHz
2014 - Not Available

Abstract: No abstract text available
Text: are referenced to GND, unless otherwise noted.) 5V OUTPUT, PWM MODE, FIGURE 4A CIRCUIT, EFFICIENCY , LOAD CURRENT (mA) LOAD CURRENT (mA) LOAD CURRENT (mA) 5V OUTPUT, PWM MODE, FIGURE 4ACIRCUIT , , FIGURE 4B CIRCUIT TOC15 5V /div 2ms/div SOFT-START WITH 2.5V PREBIAS, 5V OUTPUT, PWM MODE , CIRCUIT TOC18 STEADY-STATE SWITCHING WAVEFORMS, 5V OUTPUT, PWM MODE, NO LOAD, FIGURE 4A CIRCUIT , TOC21 MODE = VCC 10V/div VLX ILX 200mA/div 1μs/div 5V OUTPUT, PWM MODE, FIGURE 4A


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PDF MAX17544 MAX17544 100kHz
2014 - Not Available

Abstract: No abstract text available
Text: are referenced to GND, unless otherwise noted.) 5V OUTPUT, PWM MODE, FIGURE 4a CIRCUIT, EFFICIENCY , ) 30 VIN = 36V VIN = 24V EFFICIENCY (%) 40 70 EFFICIENCY (%) 80 5V OUTPUT, PFM , CURRENT (mA) LOAD CURRENT (mA) 5V OUTPUT, PWM MODE, FIGURE 4aCIRCUIT, FIGURE 3 CIRCUIT, 3.3V OUTPUT, PWM MODE, FIGURE 4b CIRCUIT, 5V OUTPUT, PFM MODE, FIGURE 4aCIRCUIT, FIGURE 3 CIRCUIT , MODE, 5mA LOAD CURRENT, FIGURE 4b CIRCUIT 5V OUTPUT, PWM MODE SOFT-START WITH 2.5V PREBIAS


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PDF MAX17543 MAX17543 100kHz
2014 - Not Available

Abstract: No abstract text available
Text: 24V 70 1000 5.07 VIN = 36V 80 100 5V OUTPUT, PWM MODE, FIGURE 3 CIRCUIT, LOAD , .) 5V OUTPUT, PWM MODE, FIGURE 3 CIRCUIT, EFFICIENCY vs. LOAD CURRENT toc01 100 100 90 VIN , noted.) 5V OUTPUT, PFM MODE, FIGURE 3 CIRCUIT, LOAD AND LINE REGULATION toc09 3.3V OUTPUT, PWM , 2.5V PREBIAS, 5V OUTPUT, PWM MODE, FIGURE 3 CIRCUIT SOFT-START/SHUTDOWN FROM EN/UVLO, 3.3V OUTPUT , WAVEFORMS, 5V OUTPUT, PWM MODE, NO LOAD, FIGURE 3 CIRCUIT toc19 MODE = SGND VOUT (AC) 20mV/div


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PDF MAX17504
2012 - Not Available

Abstract: No abstract text available
Text: 24V 70 1000 5.07 VIN = 36V 80 100 5V OUTPUT, PWM MODE, FIGURE 3 CIRCUIT, LOAD , .) 5V OUTPUT, PWM MODE, FIGURE 3 CIRCUIT, EFFICIENCY vs. LOAD CURRENT toc01 100 100 90 VIN , noted.) 5V OUTPUT, PFM MODE, FIGURE 3 CIRCUIT, LOAD AND LINE REGULATION toc09 3.3V OUTPUT, PWM , 2.5V PREBIAS, 5V OUTPUT, PWM MODE, FIGURE 3 CIRCUIT SOFT-START/SHUTDOWN FROM EN/UVLO, 3.3V OUTPUT , WAVEFORMS, 5V OUTPUT, PWM MODE, NO LOAD, FIGURE 3 CIRCUIT toc19 MODE = SGND VOUT (AC) 20mV/div


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PDF MAX17504
2004 - MAX8212 equivalent

Abstract: IC 4069 pin allen bradley 10k pot toroid iron powder core reference table Magnetics nytronics wee wee 150 max630
Text: Converter A common power-supply requirement involves conversion of a 2.4V or 3V battery voltage to a 5V , 8 SO 8 CERDIP 8 PDIP 8 SO 8 CERDIP 8 CERDIP Applications + 5V to +15V DC-DC Converters , Figure 1. + 5V to +15V Converter and Block Diagram Low-Battery Detector The low-battery detector , MAX630 LX 3 330µF 25V 2 CX GND 1 Figure 3. + 5V to ±15V Converter (see Table 1). The , from no load to 20mA. Typical Applications + 5V to +15V DC-DC Converter Figure 1 shows a simple


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PDF MAX630 MAX4193 375mA MAX630EPA MAX630CSA MAX630CSA-T MAX630CSA MAX630CSA+ MAX8212 equivalent IC 4069 pin allen bradley 10k pot toroid iron powder core reference table Magnetics nytronics wee wee 150
2014 - Not Available

Abstract: No abstract text available
Text: VOUT = 5V LOAD CURRENT (mA) VIN = 12V VIN = 6V VIN = 24V 40 VIN = 60V 10 FIGURE , FIGURE 6 APPLICATION CIRCUIT, PFM MODE VOUT = 5V 20 60 OUTPUT VOLTAGE (V) VIN = 24V VIN , SWITCHING WAVEFORMS ( PWM OR PFM MODE) toc25 FIGURE 6 APPLICATION CIRCUIT VOUT = 5V , LOAD = 100mA 20mV , NO LOAD SWITCHING WAVEFORMS ( PWM MODE) toc26 VOUT (AC) FIGURE 6 APPLICATION CIRCUIT VOUT = 5V , Converter with 22µA No-Load Supply Current Typical Operating Characteristics (continued) (VIN = 24V


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PDF MAX17552 100mA,
2014 - Not Available

Abstract: No abstract text available
Text: VOUT = 5V LOAD CURRENT (mA) VIN = 12V VIN = 6V VIN = 24V 40 VIN = 60V 10 FIGURE , FIGURE 6 APPLICATION CIRCUIT, PFM MODE VOUT = 5V 20 60 OUTPUT VOLTAGE (V) VIN = 24V VIN , SWITCHING WAVEFORMS ( PWM OR PFM MODE) toc25 FIGURE 6 APPLICATION CIRCUIT VOUT = 5V , LOAD = 100mA 20mV , NO LOAD SWITCHING WAVEFORMS ( PWM MODE) toc26 VOUT (AC) FIGURE 6 APPLICATION CIRCUIT VOUT = 5V , Converter with 22µA No-Load Supply Current Typical Operating Characteristics (continued) (VIN = 24V


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PDF MAX17552 100mA,
2014 - Not Available

Abstract: No abstract text available
Text: VOUT = 5V LOAD CURRENT (mA) VIN = 12V VIN = 6V VIN = 24V 40 VIN = 60V 10 FIGURE , FIGURE 6 APPLICATION CIRCUIT, PFM MODE VOUT = 5V 20 60 OUTPUT VOLTAGE (V) VIN = 24V VIN , SWITCHING WAVEFORMS ( PWM OR PFM MODE) toc25 FIGURE 6 APPLICATION CIRCUIT VOUT = 5V , LOAD = 100mA 20mV , NO LOAD SWITCHING WAVEFORMS ( PWM MODE) toc26 VOUT (AC) FIGURE 6 APPLICATION CIRCUIT VOUT = 5V , Converter with 22µA No-Load Supply Current Typical Operating Characteristics (continued) (VIN = 24V


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PDF MAX17552 100mA,
2014 - Not Available

Abstract: No abstract text available
Text: are referenced to GND, unless otherwise noted.) 5V OUTPUT, PWM MODE, FIGURE 4A CIRCUIT , AND LINE REGULATION 1000 1700 100 30 5V OUTPUT, PWM MODE, FIGURE 4A CIRCUIT, 5V OUTPUT , VRESET VOUT VRESET 1ms/div 1ms/div SOFT-START WITH 2.5V PREBIAS, 5V OUTPUT, PWM MODE , , FIGURE 4A CIRCUIT STEADY-STATE SWITCHING WAVEFORMS 5V OUTPUT, PWM MODE, NO LOAD, FIGURE 4A CIRCUIT , 1μs/div 10μs/div 5V OUTPUT, PWM MODE, FIGURE 4A CIRCUIT (LOAD CURRENT STEPPED FROM 0.85A TO


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PDF MAX17545 MAX17545 100kHz
2014 - Not Available

Abstract: No abstract text available
Text: EFFICIENCY (%) 100 MAX17503 toc01 100 5V OUTPUT, PWM MODE, FIGURE 4a CIRCUIT EFFICIENCY vs. LOAD , LOAD CURRENT (mA) 5V OUTPUT, PWM MODE, FIGURE 4a CIRCUIT LOAD AND LINE REGULATION 3.3V OUTPUT, PWM MODE, FIGURE 4b CIRCUIT LOAD AND LINE REGULATION 5V OUTPUT, PFM MODE, FIGURE 4a CIRCUIT LOAD , CURRENT, FIGURE 4b CIRCUIT 5V OUTPUT, PWM MODE SOFT-START WITH 2.5V PREBIAS, FIGURE 4a CIRCUIT , .) 5V OUTPUT, 2.5A LOAD CURRENT STEADY-STATE SWITCHING WAVEFORMS, FIGURE 4a CIRCUIT 5V OUTPUT, PWM


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PDF MAX17503 V-60V, MAX17503 -40NC 125NC
2015 - Not Available

Abstract: No abstract text available
Text: EFFICIENCY (%) 100 MAX17503 toc01 100 5V OUTPUT, PWM MODE, FIGURE 4a CIRCUIT EFFICIENCY vs. LOAD , LOAD CURRENT (mA) 5V OUTPUT, PWM MODE, FIGURE 4a CIRCUIT LOAD AND LINE REGULATION 3.3V OUTPUT, PWM MODE, FIGURE 4b CIRCUIT LOAD AND LINE REGULATION 5V OUTPUT, PFM MODE, FIGURE 4a CIRCUIT LOAD , CURRENT, FIGURE 4b CIRCUIT 5V OUTPUT, PWM MODE SOFT-START WITH 2.5V PREBIAS, FIGURE 4a CIRCUIT , .) 5V OUTPUT, 2.5A LOAD CURRENT STEADY-STATE SWITCHING WAVEFORMS, FIGURE 4a CIRCUIT 5V OUTPUT, PWM


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PDF MAX17503 V-60V, MAX17503 -40NC 125NC
ASCOM

Abstract: ASCOM rectifier 48V powercube Cosel FDS7068SN3 alcatel dc to dc converter 500W buck converter shindengen regulator shunt Artesyn Technologies, Inc optocoupler 5v to 24V
Text: decrease in converter packaging to twelfth-brick due to the number of eighth-brick and even , . Datel's proposed major changes regarding isolated and converter will offer 1.3in x 0.9in measnon-isolated converter technology. urements for both through-hole and Even though non-isolated dc-dc , voltthan conventional isolated converters, ages from 0.9V to 5V . the most dynamic changes have been seen , (www.astecpower.com) introduced its "sixteenth-brick" isolated converter for spacerestricted datacom and wireless


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PDF VRMS-91-1236 300kHz ASCOM ASCOM rectifier 48V powercube Cosel FDS7068SN3 alcatel dc to dc converter 500W buck converter shindengen regulator shunt Artesyn Technologies, Inc optocoupler 5v to 24V
2013 - Not Available

Abstract: No abstract text available
Text: Converter With Internal Compensation Electrical Characteristics (continued) (VIN = VEN/UVLO = 24V , RRT , toc03 100 EFFICIENCY (%) VIN = 36V VIN = 24V 90 EFFICIENCY (%) 80 3.3V OUTPUT, PWM , MAX17503 toc01 100 5V OUTPUT, PWM MODE, FIGURE 3 CIRCUIT EFFICIENCY vs. LOAD CURRENT 60 2500 , /div 2ms/div 5V OUTPUT, PWM MODE SOFT-START WITH 2.5V PREBIAS, FIGURE 3 CIRCUIT SOFT-START , STEADY-STATE SWITCHING WAVEFORMS, FIGURE 3 CIRCUIT 5V OUTPUT, PWM MODE, NO LOAD STEADY-STATE SWITCHING


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PDF MAX17503 V-60V, MAX17503 -40NC 125NC
2013 - Not Available

Abstract: No abstract text available
Text: Converter With Internal Compensation Electrical Characteristics (continued) (VIN = VEN/UVLO = 24V , RRT , toc03 100 EFFICIENCY (%) VIN = 36V VIN = 24V 90 EFFICIENCY (%) 80 3.3V OUTPUT, PWM , MAX17503 toc01 100 5V OUTPUT, PWM MODE, FIGURE 3 CIRCUIT EFFICIENCY vs. LOAD CURRENT 60 2500 , /div 2ms/div 5V OUTPUT, PWM MODE SOFT-START WITH 2.5V PREBIAS, FIGURE 3 CIRCUIT SOFT-START , STEADY-STATE SWITCHING WAVEFORMS, FIGURE 3 CIRCUIT 5V OUTPUT, PWM MODE, NO LOAD STEADY-STATE SWITCHING


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PDF MAX17503 V-60V, MAX17503 -40NC 125NC
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