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Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
UC3854NG4 Texas Instruments High Power Factor Preregulator 16-PDIP 0 to 70
UC3854ANG4 Texas Instruments Enhanced High Power Factor Preregulator 16-PDIP 0 to 70
UC3854Q Texas Instruments High Power Factor Preregulator 20-PLCC 0 to 70
UC3854BDW Texas Instruments Enhanced High Power Factor Preregulator 16-SOIC 0 to 70
UC3854AL Texas Instruments 1.5A POWER FACTOR CONTROLLER, 200kHz SWITCHING FREQ-MAX, CQCC20
UC3854QG3 Texas Instruments 1.5A POWER FACTOR CONTROLLER, 118kHz SWITCHING FREQ-MAX, PQCC20, GREEN, PLASTIC, LCC-20

2kw uc3854 Datasheets Context Search

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uc3854 3kw pfc

Abstract: UNITRODE Claudio de Sa e Silva PFC 3kw Power Factor Correction with the UC3854 2kw pfc sc265 triac 2kw uc3854 UC3854 for PFC 3.5kw 3kw uc3854 3.5kw pfc
Text: modified Unitrode UC3854 IC controller board to a fan cooled heat exchanger, on which were mounted all , measurements show that when the circuit is operated at 2kW without the emitter follower, drain overlap , boost converter piloted by a UC3854 , the risk that ringing between the MOSFET gate impedance and IC , ", HPFC 1993. 3. Claudio de Sa e Silva, "Power Factor Correction with the UC3854 ", Application Note , . 5. UC1854/UC2854/ UC3854 IC Data Sheet, Unitrode ICC, February 1990 6. D. Grafham, "Cutting-Edge


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PDF APT9901 B-1330 UC3854" NH03054. D-90471 UC1854/UC2854/UC3854 pp171-177, D90471N uc3854 3kw pfc UNITRODE Claudio de Sa e Silva PFC 3kw Power Factor Correction with the UC3854 2kw pfc sc265 triac 2kw uc3854 UC3854 for PFC 3.5kw 3kw uc3854 3.5kw pfc
3.5kw pfc

Abstract: UC3854 for PFC 3.5kw 2kw uc3854 smps with uc2854 5010B2VR Power Factor Correction with the UC3854 UNITRODE Claudio de Sa e Silva PFC 1.5kw uc3854 Application 3kw smps pfc
Text: PFC converter of Figure 3 was created by marrying a modified Unitrode UC3854 IC controller board3,4,5 , is operated at 2kW without the emitter follower, drain overlap increases from 50ns to 150ns and , layout of the power circuit. In a boost converter piloted by a UC3854 , the risk that ringing between the , ", HPFC 1993. 3. Claudio de Sa e Silva, "Power Factor Correction with the UC3854 ", Application Note , . 5. UC1854/UC2854/ UC3854 IC Data Sheet, Unitrode ICC, February 1990 6. D. Grafham, "Cutting-Edge


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PDF F-24300 NH03054. D-90471 UC1854/UC2854/UC3854 pp171-177, D-90471N 3.5kw pfc UC3854 for PFC 3.5kw 2kw uc3854 smps with uc2854 5010B2VR Power Factor Correction with the UC3854 UNITRODE Claudio de Sa e Silva PFC 1.5kw uc3854 Application 3kw smps pfc
uc3854 3kw pfc

Abstract: uc3854 Application Note Power Factor Correction With the UC3854 2kw pfc uc3854 3kw PFC 3kw APT9901 UNITRODE Claudio de Sa e Silva 3.5kw pfc 3kw uc3854
Text: assembly illustrated in Figure 3 was created by marrying a suitably modified Unitrode UC3854 IC , the circuit is operated at 2kW without the emitter follower, drain a) without emitter-follower , APT9901 In a boost converter piloted by a UC3854 , the risk that ringing between the MOSFET gate , Correction with the UC3854 ", Application Note, Unitrode Integrated Circuits Corp., Merrimack NH 03054 4. D , , D-90471 Nürnberg. Sept/Oct & Nov/Dec 1992. 5. UC1854/UC2854/ UC3854 IC Data Sheet, Unitrode ICC


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PDF APT9901 B-1330 uc3854 3kw pfc uc3854 Application Note Power Factor Correction With the UC3854 2kw pfc uc3854 3kw PFC 3kw APT9901 UNITRODE Claudio de Sa e Silva 3.5kw pfc 3kw uc3854
mosfet 5kw high power rf

Abstract: 13.56Mhz class e power amplifier 13.56MHZ 3KW GENERATOR 2kw mosfet SCHEMATIC 5kw power supply 30A circuit diagram of 13.56MHz RF Generator 12v to 220v step up transformer 13.56Mhz rf amplifier module DRF1300 Class E power amplifier, 13.56MHz
Text: Application Note 13.56 MHz, Class D Push-Pull, 2KW RF Generator with Microsemi DRF1300 Power , ://www.microsemi.com Microsemi PPG 13.56MHz 2KW RF Generator with DRF1300 Power MOSFET Hybrid Application , ://www.microsemi.com Microsemi PPG 13.56MHz 2KW RF Generator with DRF1300 Power MOSFET Hybrid 1 , results for a 2KW 13.56MHz RF generator using a CLASS D Push-Pull amplifier. To optimize efficiency and , wanted power, drain waveform and efficiency. c. Selecting parts capable of handling RF output of 2KW


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PDF DRF1300 DRF1300/CLASS-D 56MHz mosfet 5kw high power rf 13.56Mhz class e power amplifier 13.56MHZ 3KW GENERATOR 2kw mosfet SCHEMATIC 5kw power supply 30A circuit diagram of 13.56MHz RF Generator 12v to 220v step up transformer 13.56Mhz rf amplifier module Class E power amplifier, 13.56MHz
SCHEMATIC 10kw POWER SUPPLY

Abstract: ic TL074 SCHEMATIC 10kw POWER SCHEMATIC 10kw POWER SUPPLY SCHEMATIC TL074 SCHEMATIC 10kw Power Amplifier SCHEMATIC 10kw amplifier schematic 10Kw 10kw POWER SUPPLY schematic tl074 circuit
Text: Mode Voltage Vicm +-11 -12~+15 V Vopp Output Voltage Swing(R L=10kW) 12 V 10 Ta=25 C, RL= 2kW , 13.5 12 Ta=25 C, RL=10kW 10 Tmin<=Ta<= Tmax, RL= 2kW 12 Tmin<=Ta<= Tmax, RL=10kW Avd Large Signal Voltage Gain(R L= 2kW , Vo=+25 200 V/mV 10V) Ta=25 C 15 Tmin<=Ta<= Tmax GBP 2 3 MHz Gain , Short-circuit Current Ios 10 40 60 Ta=25 C 10 60 Tmin<=Ta<= Tmax SR 8 13 Slew Rate(Vi=10V, RL= 2kW , CL=100pF, V/ms Ta=25 C, unity gain) 0.1 tr ms Rise Time(Vi=20mV, RL= 2kW , CL=100pF, Ta=25 C


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PDF TL074 TL074 OP-14 DIP-14 SCHEMATIC 10kw POWER SUPPLY ic TL074 SCHEMATIC 10kw POWER SCHEMATIC 10kw POWER SUPPLY SCHEMATIC SCHEMATIC 10kw Power Amplifier SCHEMATIC 10kw amplifier schematic 10Kw 10kw POWER SUPPLY schematic tl074 circuit
2009 - SST12CP11-QVCE

Abstract: SST85LD1004T-60-RI-LCTE SST12CP11 SST85LD1002U-60-RI-LBTE SST25VF032B-80-4I-S2AF SST12LP08-QX6E tsmc embflash SST85LD1001T-60-RI-LBTE SST25VF064C-80-4I-S3AE SST25VF064C-80-4I-Q2AE
Text: x8, 4KB Sector 70 2.7-3.6 48B TFBGA SST39LF200A-55-4C-B3KE 128K x16, 2KW Sector 55 3.0-3.6 48B TFBGA SST39LF200A-55-4C-EKE 128K x16, 2KW Sector 55 3.0-3.6 48L TSOP SST39VF200A-70-4C-B3KE 128K x16, 2KW Sector 70 2.7-3.6 48B TFBGA SST39VF200A-70-4C-EKE 128K x16, 2KW Sector 70 2.7-3.6 48L TSOP SST39VF200A-70-4I-EKE 128K x16, 2KW Sector 70 2.7-3.6 48L TSOP SST39VF200A-70-4C-M1QE 128K x16, 2KW Sector


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PDF SST27SF512-70-3C-NHE SST29EE512-70-4C-EHE SST29EE512-70-4C-NHE SST29EE512-70-4I-NHE SST39VF512-70-4C-NHE SST39VF512-70-4C-WHE SST12CP11-QVCE SST85LD1004T-60-RI-LCTE SST12CP11 SST85LD1002U-60-RI-LBTE SST25VF032B-80-4I-S2AF SST12LP08-QX6E tsmc embflash SST85LD1001T-60-RI-LBTE SST25VF064C-80-4I-S3AE SST25VF064C-80-4I-Q2AE
TL072 PIN DIAGRAM

Abstract: tl072 equivalent tl072 cl 50W linear power amplifier S-100W Contek Microelectronics TL072C TL072BC TL072AC tl072
Text: Voltage Vicm +-11 -12~+15 V Vopp Output Voltage Swing(R L=10kW) 12 V 10 Ta=25 C, RL= 2kW , 13.5 12 Ta=25 C, RL=10kW 10 Tmin<=Ta<= Tmax, RL= 2kW 12 Tmin<=Ta<= Tmax, RL=10kW Avd Large Signal , Ios 10 40 60 Ta=25 C 10 60 Tmin<=Ta<= Tmax SR 8 16 Slew Rate(Vi=10V, RL= 2kW , CL=100pF, V/ms Ta=25 C, unity gain) 0.1 tr ms Rise Time(Vi=20mV, RL= 2kW , CL=100pF, Ta=25 C, unity gain) Kov 10 % Overshoot Factor(Vi=20mV, RL= 2kW , CL=100pF, Ta=25 C, unity gain) Total Harmonic


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PDF TL072 ContekTL072 TL072 PIN DIAGRAM tl072 equivalent tl072 cl 50W linear power amplifier S-100W Contek Microelectronics TL072C TL072BC TL072AC tl072
2008 - WR75 waveguide switch

Abstract: WR90 waveguide switch WRD-750 70510
Text: 5kw 2kw 2kw 2kw 2kw 2kw 130w 120w 40w 40w 30w 25w 40w Operating Power 25deg C (Failsafe) 12vdc @


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PDF WR112 WRD750 28vdc 12vdc SRW75-H-TL 12vdc, WR75 waveguide switch WR90 waveguide switch WRD-750 70510
2004 - WR75 transition

Abstract: WR90 waveguide switch
Text: 5kw 2kw 2kw 2kw 2kw 2kw 130w 120w 40w 40w 30w 25w 40w Operating Power 25deg C (Failsafe) 12vdc @


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PDF WR112 WRD750 28vdc 12vdc SRW75-H-TL 12vdc, WR75 transition WR90 waveguide switch
2011 - OPA1642

Abstract: OPA1602 300w audio amp schematic 100w audio amplifier schematic O1602A 600W Audio Amplifier
Text: 0.0001 0.00001 G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW -120 RL = 600W VOUT = 3VRMS BW = 80kHz 10 RL = 2kW Total Harmonic Distortion + Noise (%) Total Harmonic Distortion + Noise (%) G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W 0.01 -140 100 1k , 2kW VOUT = 3VRMS BW > 500kHz Total Harmonic Distortion + Noise (%) Total Harmonic Distortion , RL = 2kW -140 0.00001 1 10 20 Intermodulation Distortion (%) 0.001 -60 G = +1


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PDF OPA1602 OPA1604 SBOS474A OPA1602, OPA1602 OPA1604 600mV OPA1642 300w audio amp schematic 100w audio amplifier schematic O1602A 600W Audio Amplifier
2011 - Not Available

Abstract: No abstract text available
Text: + Noise (%) G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW THD+N RATIO vs FREQUENCY Total Harmonic Distortion + Noise (%) -100 0.01 , = 600W -120 0.0001 -120 0.00001 VOUT = 3VRMS BW = 80kHz 10 100 RL = 2kW -140 1k , Figure 7. THD+N RATIO vs FREQUENCY 0.01 -80 G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W 0.001 RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW -100 0.01 Total Harmonic Distortion +


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PDF OPA1602 OPA1604 SBOS474A OPA1602, 35MHz 120dB OPA1604
2011 - Not Available

Abstract: No abstract text available
Text: + Noise (%) G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW THD+N RATIO vs FREQUENCY Total Harmonic Distortion + Noise (%) -100 0.01 , = 600W -120 0.0001 -120 0.00001 VOUT = 3VRMS BW = 80kHz 10 100 RL = 2kW -140 1k , Figure 7. THD+N RATIO vs FREQUENCY 0.01 -80 G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W 0.001 RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW -100 0.01 Total Harmonic Distortion +


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PDF OPA1602 OPA1604 SBOS474A OPA1602, 35MHz 120dB OPA1604
2006 - FHP3130IS5X

Abstract: Rail-to-Rail Amplifiers tsop65p490x110 2kw sot23 SOIC-14 KM4200 KM4100 FHP3430 FHP3230 FHP3130
Text: Maximum Ratings TA = 25°C, Vs = 3V, RL = 2kW to Vs/2, G = 2, Rf = Rg =1kW; unless otherwise noted , 0V to Vs - 1.5 95 dB RL = 2kW to Vs/2, G = -1 0.05 to 2.95 V 0.1 to 2.9 V , Electrical Characteristics at +3V TA = 25°C, Vs = 5V, RL = 2kW to Vs/2, G = 2, Rf = Rg =1kW; unless , mA Output Characteristics RL = 2kW to Vs/2 VOUT Output Voltage Swing RL = 150W to Vs/2 , Characteristics at +5V TA = 25°C, Vs = ±5V, RL = 2kW to GND, G = 2, Rf = Rg =1kW; unless otherwise noted


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PDF FHP3130, FHP3230, FHP3430 FHP3130 FHP3230 100mA 10MHz SC74A. OT-D-2005 FHP3130IS5X Rail-to-Rail Amplifiers tsop65p490x110 2kw sot23 SOIC-14 KM4200 KM4100 FHP3430 FHP3230 FHP3130
2011 - Not Available

Abstract: No abstract text available
Text: Harmonic Distortion + Noise (%) G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW THD+N RATIO vs FREQUENCY Total Harmonic Distortion + Noise (% , 0.0001 RL = 600W -120 0.0001 -120 0.00001 VOUT = 3VRMS BW = 80kHz 10 100 RL = 2kW , -140 Figure 7. THD+N RATIO vs FREQUENCY 0.01 -80 G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W 0.001 RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW -100 0.01 Total Harmonic


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PDF OPA1602 OPA1604 SBOS474B OPA1602, 35MHz 120dB OPA1604
2011 - Not Available

Abstract: No abstract text available
Text: Power Modules Intelligent Power Module (IPM) with optional PFC New flowIPM family with integrated driver circuit and shunt resistors. flowIPM 1B housing 72 x 36 x 16 mm General Features: • Output power at 230V input: up to 2kW • 1~ Rectifier, 3~ Inverter • Optional PFC circuit , : 600V/4A 1B06INA010SA 2kW - Inverter 600V/10A 1B06IPA004MF 1kW 50 – 100kHz , : 600V/4A PFC: 600V/350mΩ + SiC Diode 1B06IPA010MF 2kW 50 – 100 kHz Inverter 600V/10A


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PDF Dec-11 1B06INA004SA 00V/4A 1B06INA010SA 00V/10A 1B06IPA004MF 100kHz 00V/350mâ 1B06IPA004MC
2009 - class d audio amplifier 2kW

Abstract: marking ti "high power rf" 2kW 300w audio amp schematic
Text: Distortion + Noise (%) G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW VOUT = 3VRMS BW = 80kHz RL -80 Total Harmonic Distortion + , Harmonic Distortion + Noise (%) 0.01 G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W G = -1, RL = 2kW G = +11, RL = 600W G = +11, RL = 2kW Total Harmonic Distortion + Noise (%) +15V , 0.001 -100 0.0001 0.00001 G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W G = -1, RL =


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PDF OPA1611 OPA1612 SBOS450B OPA1611, 40MHz 130dB OPA1611 class d audio amplifier 2kW marking ti "high power rf" 2kW 300w audio amp schematic
2000 - TS1854ID

Abstract: 2kw sot23 TS1851-TS1852-TS1854
Text: RL = 2kW V OH High Level Output Voltage RL = 10kW RL = 2kW V OL Low Level Output Voltage RL = 10kW RL = 2kW Io Output Source Current VID = 100mV, V O = VDD Output Sink Current VID = -100mV, V O = VCC , RL = 2kW V OH High Level Output Voltage RL = 10kW RL = 2kW V OL Low Level Output Voltage RL = 10kW RL = 2kW Io Output Source Current VID = 100mV, V O = VDD Output Sink Current VID = -100mV, V O = VCC , Voltage Gain RL = 10kW RL = 2kW V OH High Level Output Voltage RL = 10kW RL = 2kW V OL Low Level Output


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PDF TS1851 TS1852 TS1854 TS1851ILT OT23-5 480kHz) 500pF) TS1854ID 2kw sot23 TS1851-TS1852-TS1854
2000 - class d audio amplifier 2kW

Abstract: TS1871-TS1872-TS1874 65ma
Text: Gain RL = 2kW RL = 600W V OH High Level Output Voltage RL = 2kW RL = 600W V OL Low Level Output Voltage RL = 2kW RL = 600W Io Output Source Current VID = 100mV, V O = VDD Output Sink Current VID = -100mV , Rejection Ratio Large Signal Voltage Gain RL = 2kW RL = 600W V OH High Level Output Voltage RL = 2kW RL = 600W V OL Low Level Output Voltage RL = 2kW RL = 600W Io Output Source Current VID = 100mV, V O = VDD , Supply Voltage Rejection Ratio Large Signal Voltage Gain RL = 2kW RL = 600W V OH High Level Output


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PDF TS1871 TS1872 TS1874 TS1871ILT 500pF) OT23-5 TS187x 200mV class d audio amplifier 2kW TS1871-TS1872-TS1874 65ma
1997 - ic 3524 internal block diagram

Abstract: CS3524AN16 CS-3524AN CS3524AN pwm oscillator ic 3524 delta+2700W+rectifier+module CS-3524A CS3524A CS-3524AN16 CS-3524ADW16
Text: OUTPUT at VOA or VOB 15 10 VIN = 20V RL = 2kW TA = 25ûC 5 0 4 5 4 3 2 1 0 , ) 6 5 4 3 2 1 0 Overdrive 5% 10% 20% 50% 20 VIN = 20V RL = 2kW TA = 25ûC 15 10 , 200 250 OUTPUT COLLECTOR CURRENT (mA) Open Loop Test Circuit V CC 2kW 1W IS VIN 2kW 1W VOUTA VOUTB EA Gnd SHUTDOWN ISENSE- COMP EAÐ EA+ CT RT VREF ISENSE+ CS-3524A SYNC EB 100kW 100kW SHUTDOWN 2kW 0.1 RT CT 2kW 10kW 10kW


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PDF CS-3524A 200mA CS-3524A 600mV CS-3524 SG3524) CS-3524 CS-3524AN16 ic 3524 internal block diagram CS3524AN16 CS-3524AN CS3524AN pwm oscillator ic 3524 delta+2700W+rectifier+module CS3524A CS-3524AN16 CS-3524ADW16
2011 - Not Available

Abstract: No abstract text available
Text: Harmonic Distortion + Noise (%) G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW THD+N RATIO vs FREQUENCY Total Harmonic Distortion + Noise (% , 0.0001 RL = 600W -120 0.0001 -120 0.00001 VOUT = 3VRMS BW = 80kHz 10 100 RL = 2kW , -140 Figure 7. THD+N RATIO vs FREQUENCY 0.01 -80 G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W 0.001 RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW -100 0.01 Total Harmonic


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PDF OPA1602 OPA1604 SBOS474B OPA1602, 35MHz 120dB OPA1604
2000 - 600w audio

Abstract: 600w power amplifier TS1871 TS1871IDT TS1871ILT TS1872 TS1874
Text: 2kW RL = 600W Io nA 77 70 RL = 2kW RL = 600W V OH nA dB RL = 2kW RL = 600W , V OL 70 85 80 74 92 95 RL = 2kW RL = 600W Avd 80 RL = 2kW RL = 600W , 2kW RL = 600W Io ICC GBP SR fm en THD Note : 1. 4/10 dB Output Source Current VID , 90 83 77 92 85 RL = 2kW RL = 600W Avd 85 RL = 2kW RL = 600W SVR 65 , Gain V High Level Output Voltage mV Low Level Output Voltage 88 115 RL = 2kW RL =


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PDF TS1871 TS1872 TS1874 OT23-5 TS1871ILT TS187x 200mV 100mV 600w audio 600w power amplifier TS1871 TS1871IDT TS1871ILT TS1872 TS1874
12v to 220v step up transformer

Abstract: 220V ferrite core transformer mosfet 5kw high power rf circuit diagram of 13.56MHz RF Generator SCHEMATIC 5kw power supply 30A DRF1300 13.56MHZ 3KW GENERATOR 2kw mosfet step down transformer 220V to 12V 232 Matching Transformer line matching
Text: Application Note 1812 August 2010 13.56 MHz, Class D Push-Pull, 2KW RF Generator with , measurement results for a 2KW 13.56MHz RF generator using a CLASS D Push-Pull amplifier. To optimize , wanted power, drain waveform and efficiency. c. Selecting parts capable of handling RF output of 2KW , Generator. Freq 13.56Mhz Output Power Voltage Current 2KW 250V 9.2A Table 1. Key Specification , ferrite cores that can handle the high currents and voltages associated with a 2KW RF Generator. Refer to


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PDF DRF1300 DRF1300/CLASS-D 12v to 220v step up transformer 220V ferrite core transformer mosfet 5kw high power rf circuit diagram of 13.56MHz RF Generator SCHEMATIC 5kw power supply 30A 13.56MHZ 3KW GENERATOR 2kw mosfet step down transformer 220V to 12V 232 Matching Transformer line matching
2011 - 600w channel audio amp

Abstract: O1602A class d audio amplifier 2kW OPA1604 DIM30 O-1602 OPA1602 600W Audio Amplifier
Text: Harmonic Distortion + Noise (%) G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW THD+N RATIO vs FREQUENCY Total Harmonic Distortion + Noise (% , 0.0001 RL = 600W -120 0.0001 -120 0.00001 VOUT = 3VRMS BW = 80kHz 10 100 RL = 2kW , -140 Figure 7. THD+N RATIO vs FREQUENCY 0.01 -80 G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W 0.001 RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW -100 0.01 Total Harmonic


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PDF OPA1602 OPA1604 SBOS474B OPA1602, 35MHz 120dB OPA1604 600w channel audio amp O1602A class d audio amplifier 2kW DIM30 O-1602 600W Audio Amplifier
2011 - 100w audio amplifier schematic

Abstract: No abstract text available
Text: Harmonic Distortion + Noise (%) G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW THD+N RATIO vs FREQUENCY Total Harmonic Distortion + Noise (% , 0.0001 RL = 600W -120 0.0001 -120 0.00001 VOUT = 3VRMS BW = 80kHz 10 100 RL = 2kW , -140 Figure 7. THD+N RATIO vs FREQUENCY 0.01 -80 G = +1, RL = 600W G = +1, RL = 2kW G = -1, RL = 600W 0.001 RL = 600W G = -1, RL = 2kW G = +10, RL = 600W G = +10, RL = 2kW -100 0.01 Total Harmonic


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PDF OPA1602 OPA1604 SBOS474B OPA1602, 35MHz 120dB OPA1604 100w audio amplifier schematic
1995 - O1644A

Abstract: RF diodes OPA1641 OPA1642 SBOS484 O1642A V123
Text: 2kW G = +1 RL = 600W G = -1 RL = 600W 0.0001 -120 G = +1 RL = 2kW 0.00001 Total , RL = 2kW -140 100k 0.00001 100 1k 10k Total Harmonic Distortion + Noise (%) Total Harmonic Distortion + Noise (%) G = -1 RL = 2kW -80 +15V RSOURCE OPA1641 RSOURCE = 600W -15V , AMPLITUDE INTERMODULATION DISTORTION vs OUTPUT AMPLITUDE -100 0.0001 -120 G = -1, RL = 2kW G = +1, RL = 2kW 0.00001 0.1 -140 1 10 Output Amplitude (VRMS) 20 -80 G = +1


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PDF OPA1641 OPA1642 OPA1644 SBOS484 OPA1641 OPA1642 O1644A RF diodes SBOS484 O1642A V123
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