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Part Manufacturer Description Datasheet BUY
PMP3162 Texas Instruments 36V-72V Input 12V/16A; 94% Efficient Active Clamp Forward visit Texas Instruments
PT5826N Texas Instruments 16A SWITCHING REGULATOR, 400kHz SWITCHING FREQ-MAX, MSMA18 visit Texas Instruments
PT5825C Texas Instruments 16A SWITCHING REGULATOR, 400kHz SWITCHING FREQ-MAX, SMA18, SMD-18 visit Texas Instruments
PT5822N Texas Instruments 16A SWITCHING REGULATOR, 400kHz SWITCHING FREQ-MAX, SMA18, VERTICAL MOUNT PACKAGE-18 visit Texas Instruments
PT5827A Texas Instruments 16A SWITCHING REGULATOR, 400kHz SWITCHING FREQ-MAX, SMA18, HORIZONTAL MOUNT PACKAGE-18 visit Texas Instruments
PT5823A Texas Instruments 16A SWITCHING REGULATOR, 400kHz SWITCHING FREQ-MAX, SMA18, HORIZONTAL MOUNT PACKAGE-18 visit Texas Instruments

rac 16a 400v

Catalog Datasheet MFG & Type PDF Document Tags

rac 16a 400v

Abstract: C1030 0V, VC E = 1200V VG E = 0V, VC E = 1200V, T j = 150°C 6500 V 3.0 lc = 16A See Fig. 13 2.5 le = 16A, T , ) Max. Units Conditions 140 lC = 20A 35 nC VCC = 400V 36 See Fig. 8 - T j = 25°C - ns le = 20A, VC C = , = 125°C lF = 16A Diode Peak Reverse Recovery Current Irr 10 A T j = 25°C See Fig. 15 T j = 125°C 15 , di(rac)M/dt - Diode Peak Rate of Fall of Recovery A/ps T j = 25°C See Fig. During tb - T j = 125
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rac 16a 400v

Abstract: SIRIO Engine and Multiplier Components: Pin=1205 W; Vin=230 VRMS; Vo=400V;d=3%; Co=1344uF; Rac=900K OHM;Rprog , ): Converter Engine and Multiplier Components: Pin=1205 W; Vin=230 VRMS; Vo=400V;d=3%; Co=1344uF; Rac , input current of up to and including 16A per phase. That requirement has evolved to what is now widely , =230V RMS; Vout=400V, Cactual=1344uF). Note that the average value of this current equals Pin_pfc/Vo as , domain Expansion and plot (where U0=400V, Rf=221K , R2=790K, R1=10K, CF=2200pF, Vref=5V): Voac := c
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rac 16a 400v

Abstract: mps 1430 Max Unit VCC=6V;VHV=400V VCC=10V;VHV=400V 1.6 12 700 1.85 15 2.1 18 mA μA V , CHARACTERISTICS Supply Current from HV vs. Temperature Leakage Current from HV vs. Temperature VCC=6V;VHV=400V , VCCON(V) VFB=2V, CL=1nF, VCC=12V 1.40 20 2.00 VBV(V) VCC=10V;VHV=400V 22 2.20 , low-pass filterâ'™s R×C constant should not exceed 1/3 of the leadingedge blanking period for SCP (LEB2 , capacitance, Vac(max) is the maximum AC-input RMS value. The first discharging period is 16×Ï"jitter, with
Monolithic Power Systems
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HFC0500

Abstract: S8050 equivalent .400V SOIC8-7A . 96 . 45 . °C/W Recommended Operation , Typ Max 2.8 Unit 3.9 Start-up Current Source (HV) IHV_400 VCC=VCCOFF-1V, VHV=400V , then decreases to 14V, VHV=400V 9 16 25 μA ILK_200 VCC increases to 18V then , Figure 15. The low-pass filterâ'™s R×C constant should not exceed 1/3 of the leading-edge blanking , AC-input RMS value. The first discharging period is 16×Tjitter, with subsequent period equal to 48Ã
Monolithic Power Systems
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rac 16a 400v

Abstract: BW250JAGU /2 415V 1.5/1 2.5/2 400V 1.5/1 2.5/2 380V 1.5/1 2.5/2 240V 2.5/2 5/3 230V 2.5/2 5/3 250V â' 2.5/2*1 400V 1.5/1 2.5/2 230V 2.5/2 , /2 7.5/4 10/5 65/17 415V 1.5/1 2.5/2 7.5/4 10/5 65/17 400V 1.5/1 , ' 2.5/2*1 5/3*1 5/3*1 40/20 400V 1.5/1 2.5/2 7.5/4 10/5 â'" 230V 2.5/2 , 7.5/4 440V 2.5/2 7.5/4 10/5 415V 2.5/2 7.5/4 10/5 400V 2.5/2 7.5/4
Fuji Electric
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EUD61M

Abstract: SDS Relais rh-c-12v ) (1) 1-2 3) 1 10) 10) Switching capacity 16A/250V AC Switching capacity 10A/250V AC , 1 NO contact potential free 16A/250V AC. Incandescent lamp load up to 2000 W. No standby loss , data page A12. Housing for operating instructions GBA12 page Z2. ES12DX-UC 1 NO 16A , ES12-200-UC 2 NO contacts potential free 16A/250V AC. Incandescent lamp load up to 2000 W. No standby , across both contacts 16A for 230 V. If this impulse switch is in a circuit, which is monitored by a FR12
Eltako
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EUD61M SDS Relais rh-c-12v rac 16a 400v S-44292 H-1105 S-24632 IS-125 S-11330 D-70736

3kw pfc using l4981 application note

Abstract: 220v generator power booster instantaneous line voltage: IIAC = VI Rac The relation between the input alternate current (IIAC) and , function (Gpw), for large variations can be written: XCO Gpw =IO Vea Figure 16a. The total load , regulated voltage VO = 400V c) Rated output power PO = 200W d) Full load output ripple VO = ± 8V e , the above value: Pcrossover 1.5 30ns 400V 100kHz 2.15A = 3.9W The capacitive losses at , R14 C5 R7 C8 + Vo=400V D1 R6 R1 R9 C9 R8 R12 Vi 7 4 1
STMicroelectronics
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L4981 3kw pfc using l4981 application note 220v generator power booster APPLICATION L4981 l4981 AN628 L4981A L4981 PFC AN628/1297 D95IN281B

220v generator power booster

Abstract: 3kw pfc using l4981 application note Rac The relation between the input alternate current (IIAC) and the output current (programming , function (Gpw), for large variations can be written: XCO Gpw =IO Vea Figure 16a. The total load , b) DC output regulated voltage VO = 400V c) Rated output power PO = 200W d) Full load output , (at turn-on), this means 1.5 times the above value: Pcrossover 1.5 30ns 400V 100kHz 2.15A = , 400V L4981A 15 D2 1N4150 2 560 1% 8 5 9 R3 2.7K 5% RS 17 12 11 6 1
STMicroelectronics
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thomson Ferrite Materials b50 2500 12v 200w amplifier thomson ferrites b50 amp mosfet schematic circuit 200w full controlled ac-dc converter RCD Snubber Mosfet boost AN628

220v generator power booster

Abstract: 3kw pfc using l4981 application note multiplier with a current (IIAC) proportional to the instantaneous line voltage: IIAC = VI Rac The , function (Gpw), for large variations can be written: XCO Gpw =IO Vea Figure 16a. The total load , b) DC output regulated voltage VO = 400V c) Rated output power PO = 200W d) Full load output , (at turn-on), this means 1.5 times the above value: Pcrossover 1.5 30ns 400V 100kHz 2.15A = , 400V L4981A 15 D2 1N4150 2 560 1% 8 5 9 R3 2.7K 5% RS 11 6 12 17 1
STMicroelectronics
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sawtooth generator using op-amp 5tta5060 Generator 12V 220V 50Hz thomson film capacitors transformer winding formula 220v Ac to 12v Dc 10000 amp transformer winding formula

220v generator power booster

Abstract: 3kw pfc using l4981 application note instantaneousline voltage: IIAC = VI Rac The relation between the input alternate current (IIAC) and the , function (Gpw), for large variations can be written: XCO Gpw =IO Vea Figure 16a. The total load , : a) UNIVERSAL AC input supply voltage VIrms = 88V to 264V b) DC output regulated voltage VO = 400V , : Pcrossover 1.5 30ns 400V 100kHz 2.15A = 3.9W The capacitive losses at turn-on to be added are: 1.5 1 , Board Circuit. T C12 R15 FUSE BRIDGE D4 D3 R14 C5 R7 C8 + Vo=400V
STMicroelectronics
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transformer winding formula 220v Ac to 110v Ac 220v Ac- 10.5v Dc transformer 60Hz 200W AMPLIFIER 220v AC to 110v AC transformer circuit diagram de Line Input AC to DC Conversion and Input Filter Capacitor Selection OREGA

3kw pfc using l4981 application note

Abstract: 220v generator power booster current (IIAC) proportional to the instantaneous linevoltage: IIAC = VI Rac The relation between the , considered is: P O(max)/VO : Gpw = PO XCO PO 1 % Gpw = VO Vea VO Vea s CO Figure 16a. The voltage , means 1.5 times the above value: Pcrossover 9 1.5 40ns 400V 100kHz 2.53A = 6W The capacitive , input supply voltage VIr ms = 88V to 264V b) DC output regulated voltage VO = 400V c) Rated output power , : 1.4mm for a total primary inductance of 0.7mH fsw = 100kHz VO = 400V; PO = 200W Ref. also OREGA P.N
STMicroelectronics
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full wave bridge rectifier 25A 50V ac-dc converter full wave type diagram regulator input 220V output 15V DC 3A RCD snubbe IEC555

TSS2J2A44S

Abstract: TSS16J41S · · · · · · · · · · · · · · · · · · · 1 C irc u it 10A 16A 8A 12A 16A 25A 16A 25A 1A 2A 1A , O J a > H o u · · · · 2A o a> N C 3A 8A 12A 16A 25A · · · · · · · · · · ·
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TSS2J2A44S TSS16J41S TSS1J41 tnr471 TSS25J47S TSS1G41 SS16J11

diode E1110

Abstract: lN4002 280 -350V 330 = 300 -360V 340 = 300 -380V 350 = 300 -400V 480 = 440 -580V 600 = 540 -720V A = 50 amp , C/Watt and R&ja= 85 C/Watt. Rac = 28XAAfattandRftM=90XAfVatt. Rejc = 26 C/Watt and Roja = 85 C/W att , w ill w ithstand the UL surges fo r the duration required fo r the UL circ u it 1.6A fuse to cle a r
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diode E1110 lN4002 LN4003 ANA 618 20010 TDB 0123 km b3170 512X8BIT

D1571

Abstract: AA0463 PUNJAB WIRELESS SYSTEMS PUN Q QUALIDYNE SYSTEMS-UNITECH LTD* QDY R RAYCHEM RAC RAYTHEON CO RAY RCA
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DSP56301 D1571 AA0463 series T212 data AA1074 st cpcap zy 406 AA0497 AA0498 AA0499 AA0500

380 volt 50 hz 50 amp triac

Abstract: P2600BA70 QUALIDYNE SYSTEMS-UNITECH LTD' QDY R RAYCHEM RAC RAYTHEON CO RAY RCA CORP. / HARRIS HRS RECTIFIER
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P3100EA70 P3100SA 380 volt 50 hz 50 amp triac P2600BA70 TRIAC FT 1017 triac 230v 50hz 5kw P0300EA70
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