Untitled
Abstract: No abstract text available
Text: DOHP15-16/18 advanced Diode Chip Sonic FRED Type Ag Al DOHP 15 IF [A] VRRM [V] Surface 1600 1800 10 Package Chip Size [mm] x [mm] 3.25 3.25 sawn on foil unsawn wafer in waffle pack Mechanical Parameters Features: Area total 10.6 mm 2 Wafer size Ø 125 mm Thickness
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DOHP15-16/18
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Untitled
Abstract: No abstract text available
Text: DOHP55-16/18 advanced Diode Chip Sonic FRED Type Ag Al DOHP 55 IF [A] VRRM [V] Surface 1600 1800 30 Package Chip Size [mm] x [mm] 8.65 4.95 sawn on foil unsawn wafer in waffle pack Mechanical Parameters Features: Area active 26.0 mm 2 Area total 42.8 mm 2
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DOHP55-16/18
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4512B
Abstract: DSA003712
Text: DH 45-12B Advanced Technical Information IFAVM = 45 A VRRM = 1200 V trr = 50 ns Fast Recovery Diode SONIC-FRDTM series VRSM VRRM V V 1200 1200 Type C A TO-247 AD C DH 45-12B A C A = Anode, C = Cathode Symbol Conditions Maximum Ratings IFRMS IFAVM IFRM TVJ = TVJM
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45-12B
O-247
45-12B
4512B
DSA003712
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Untitled
Abstract: No abstract text available
Text: DOHP25-16/18 advanced Diode Chip Sonic FRED Type Ag Al DOHP 25 IF [A] VRRM [V] Surface 1600 1800 20 Package Chip Size [mm] x [mm] 4.45 4.45 sawn on foil unsawn wafer in waffle pack Mechanical Parameters Features: Area active 9.06 mm 2 Area total 19.8 mm 2
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DOHP25-16/18
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2012b
Abstract: No abstract text available
Text: DH 20-12B Advanced Technical Information IFAVM = 20 A VRRM = 1200 V trr = 45 ns Fast Recovery Diode SONIC-FRDTM series VRSM VRRM V V 1200 1200 Type C A TO-247 AD C DH 20-12B A C A = Anode, C = Cathode Symbol Conditions Maximum Ratings IFRMS IFAVM IFRM TVJ = TVJM
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20-12B
O-247
20-12B
2012b
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4018A
Abstract: DH 40-18A induction melting DH 40-18A DATASHEET induction heating induction heating circuits
Text: DH 40-18A Advanced Technical Information IFAVM = 40 A VRRM = 1800 V trr = 100 ns Fast Recovery Diode SONIC-FRDTM series VRSM VRRM V V 1800 1800 Type C A TO-247 AD C DH 40-18A A C A = Anode, C = Cathode Symbol Conditions Maximum Ratings IFRMS IFAVM IFRM TVJ = TVJM
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0-18A
O-247
4018A
DH 40-18A
induction melting
DH 40-18A DATASHEET
induction heating
induction heating circuits
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RSF 800
Abstract: No abstract text available
Text: DH 70-12B Advanced Technical Information IFAVM = 70 A VRRM = 1200 V trr = 120 ns Fast Recovery Diode SONIC-FRDTM series VRSM VRRM V V 1200 1200 Type C A TO-247 AD C DH 70-12B A C A = Anode, C = Cathode Conditions Maximum Ratings IFRMS IFAVM IFRM TVJ = TVJM
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70-12B
O-247
70-12B
RSF 800
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Untitled
Abstract: No abstract text available
Text: DH 40-18A Advanced Technical Information IFAVM = 40 A VRRM = 1800 V = 100 ns trr Fast Recovery Diode SONIC-FRDTM series VRSM VRRM V V 1800 1800 Type C A TO-247 AD C DH 40-18A A C A = Anode, C = Cathode Symbol Conditions Maximum Ratings IFRMS IFAVM IFRM TVJ = TVJM
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0-18A
O-247
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sonic cleaner
Abstract: No abstract text available
Text: DH 60 Advanced Technical Information IFAVM = 64 A VRRM = 1400-1800 V trr = 150 ns Fast Recovery Diode SONIC series VRSM VRRM V V 1400 1600 1800 1400 1600 1800 Type C A TO-247 AD C DH 60-14A DH 60-16A DH 60-18A A A = Anode, C = Cathode Conditions Maximum Ratings
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O-247
0-14A
0-16A
0-18A
sonic cleaner
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600 Va ups
Abstract: No abstract text available
Text: DH 90 Advanced Technical Information IFAVM = 87 A VRRM = 600 V trr = 100 ns Fast Recovery Diode SONIC series VRSM VRRM V V 600 600 Type C A TO-247 AD C DH 90-06A A C A = Anode, C = Cathode Conditions Maximum Ratings IFRMS IFAVM IFRM TVJ = TVJM TC = 80°C; rectangular, d = 0.5
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O-247
0-06A
600 Va ups
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High Frequency Induction Heating
Abstract: 2018a induction heating induction melting
Text: DH 20-18A Advanced Technical Information IFAVM = 20 A VRRM = 1800 V Fast Recovery Diode SONIC-FRDTM series VRSM VRRM V V 1800 1800 Type C A TO-247 AD C DH 20-18A A C A = Anode, C = Cathode Symbol Conditions Maximum Ratings IFRMS IFAVM IFRM TVJ = TVJM TC = 80°C; rectangular, d = 0.5
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0-18A
O-247
High Frequency Induction Heating
2018a
induction heating
induction melting
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55-36N1F
Abstract: No abstract text available
Text: DHH 55-36N1F Advanced Technical Information VRRM = 3600 V IF AV M = 50 A trr = 350 ns Dual Fast Recovery Diode Sonic-FRDTM series in ISOPLUS i4-PACTM 5 3 1 1 3 5 Features Diode Symbol Conditions Maximum Ratings VRRM c VRRM IFAV IF(AV)M IFSM TC = 80°C; sine 180°
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55-36N1F
55-36N1F
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60-18A
Abstract: Dh60 F2004 6018A
Text: DH 60 IFAVM = 60 A VRRM = 1400-1800 V trr = 150 ns Fast Recovery Diode SONIC-FRDTM series VRSM VRRM V V 1400 1600 1800 1400 1600 1800 Type C A TO-247 AD C DH 60-14A DH 60-16A DH 60-18A A A = Anode, C = Cathode Conditions Maximum Ratings IFRMS IFAVM IFRM TVJ = TVJM
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O-247
0-14A
0-16A
0-18A
60-18A
Dh60
F2004
6018A
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4018A
Abstract: No abstract text available
Text: DH 40-18A Advanced Technical Information IFAVM = 40 A VRRM = 1400-1800 V trr = 100 ns Fast Recovery Diode SONIC-FRDTM series VRSM VRRM V V 1400 1600 1800 1400 1600 1800 Type C A TO-247 AD C DH 40-14A DH 40-16A DH 40-18A A A = Anode, C = Cathode Symbol Conditions
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0-18A
O-247
0-14A
0-16A
4018A
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A CLIPPER CIRCUIT APPLICATIONS
Abstract: SCHEMATIC 6000w Power Amplifier 6000w power amplifier circuit diagram limiter schematics 4301P audio limiter schematics passive subwoofer passive subwoofer circuit diagram THAT4301 subwoofer filter circuit passive
Text: T H AT Corporation APPLICATION NOTE 103 Signal Limiter for Power Amplifiers Abstract Power amplifiers, when driven out of their linear range of operation, sound particularly bad, and can produce damage to themselves or the transducers to which they are connected.
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Ultrasonic transmitter receiver
Abstract: Ultrasonic cleaner circuit diagram 873E-RDTT0750F4 ultrasonic receiver ultrasonic sensor circuit welder circuit diagram 889D-F4AC-5 ultrasonic transmitter and receiver sonic cleaner Ultrasonic Distance sensor
Text: 873E RightSound Opposed Mode Ultrasonic Sensors This publication provides updated sales and application information on existing products. The next printing of the Rockwell Automation/Allen-Bradley Sensor catalog will include these updates and obsolete this publication.
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873E-EDZZ0750A2
873E-EDZZ0750F4
873E-RDTT0750A2
873E-RDTT0750F4
873E-CG001A-US-P,
Ultrasonic transmitter receiver
Ultrasonic cleaner circuit diagram
873E-RDTT0750F4
ultrasonic receiver
ultrasonic sensor circuit
welder circuit diagram
889D-F4AC-5
ultrasonic transmitter and receiver
sonic cleaner
Ultrasonic Distance sensor
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6000w power amplifier circuit diagram
Abstract: A CLIPPER CIRCUIT APPLICATIONS SCHEMATIC 6000w Power Amplifier transistor subwoofer circuit diagram LF353 equivalent 4301P Limiter passive subwoofer circuit diagram d52m 2N3904
Text: Design Note 03 Formerly Application Note 103 Signal Limiter for Power Amplifiers Abstract Power amplifiers, when driven out of their linear range of operation, sound particularly bad, and can produce damage to themselves or the transducers to which they are connected.
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smd diode c539
Abstract: samsung sens r20 smd diode marking C535 toshiba dvd hdd schematic diagram RA57 1400l toshiba hdd schematic board st smd diode marking code C701 SMD RA57 logitech 3 button
Text: 5 Schematic Diagrams and PCB Silkscreen 5-1-5 Parts List SEC Code Location Description and Specification J504 J503 J502 PCMCIA SOCKET J514 J521 J506 J500 3701-001026 3701-001035 3701-001036 3709-001119 3710-000253 3711-003392 3711-003987 3722-000218 15P,2R,FEMALE,SMD-S,AUF
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S630/S670
BA60-00030A
BA68-40005L
BA70-00030A
BA72-00063A
BA73-00001A
BA92-00073A
0404agrams
smd diode c539
samsung sens r20
smd diode marking C535
toshiba dvd hdd schematic diagram
RA57
1400l
toshiba hdd schematic board
st smd diode marking code C701
SMD RA57
logitech 3 button
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Untitled
Abstract: No abstract text available
Text: ULTRASONIC DOPPLER FLOWMETERS Flow Reference Section Introduction The ultrasonic Doppler flowmeter incorporates a technology offering an increased range of applications. Because of its non-invasive nature, no pressure drop is created, and this type of flowmeter can be used
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FD-7000
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yamaha pas SERVICE MANUAL
Abstract: yamaha promix 01 service manual yamaha seRVICE MANUAL promix 01 promix 01 Multi-Effects Audio Processor faders amplifiers for acoustic guitar analog sound effect guitar processor BEST BASS TREBLE for home theater parametric EQ
Text: Getting Started Guide Manuel de l’utilisateur Kurzanleitung Guía de introducción 1 2 3 4 5 6 7 8 10 9 11 12 13 14 15 16 L R L ST IN R 2TR IN PAD 20dB 20dB 20dB 20dB 20dB 20dB 20dB 20dB 20dB 20dB 20dB 20dB 20dB 20dB 20dB 20dB –16 –60 –16 –60 –16 –60
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VS73120
yamaha pas SERVICE MANUAL
yamaha promix 01 service manual
yamaha seRVICE MANUAL promix 01
promix 01
Multi-Effects Audio Processor
faders
amplifiers for acoustic guitar
analog sound effect guitar processor
BEST BASS TREBLE for home theater
parametric EQ
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ptc t170
Abstract: MAS 560 ag oven PTC Thermistor sonic cleaner catalyst 9 STYCAST catalyst 11 T130 T140 termistor water 311837
Text: QTI NO . SHOP PACKET WORKSHEET 01 DATE 6/ 19/06 TIME 8.16.48 OPER ORDER ITEM NUMBER NUMBER DESCRIPTION WH UM QUANTITY 1 M138430 0864 D V 20,000 OHM 5% QTMC CUSTOMER WAREHOUSE JOB NUMBER STOCK LOC F108E ORDER EA ENGINEERING START/DUE DATE LAST TRANS DATE
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M138430
F108E
-G12511J-T
QTG12
QTG12-51IJ-T
ptc t170
MAS 560 ag
oven PTC Thermistor
sonic cleaner
catalyst 9
STYCAST catalyst 11
T130
T140
termistor water
311837
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PDF
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gl ultrasonic sensor
Abstract: s5 100 b101 gl 40 ultrasonic sensor ptc 05m
Text: Sensors Sensors o Part Numbering structure of the "Global Part Numbers" that will be adopted from June 2001 and the meaning of each code are described herein. The If you have any questions about details, inquire at your usual Murata sales office or distributor.
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BT22
Abstract: No abstract text available
Text: RECOMMENDATIONS FOR MOUNTING AND BNDING GaAs MMIC CHIPS Die or Chip Mounting It is important that GaAs chips are mounted correctly to avoid significant increase in thermal impedance and to avoid consequent damage during wiring bonding. This is particularly important for large area chips such as MMIC’s
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Ablestick36-2
BT22
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SIT Static Induction Transistor
Abstract: 2SK180 thf-51 tokin sit transistor 2SK182E PLL for induction heating sit transistor 2SK183VE 2SK183 2SK182
Text: Another Tokin exclusive. Static Induction Ibansisiors SIT Static Induction Transistor w as in v e n te d by Professor Jun-ichi N ishizawa of Tohoku U niversity in 1950. After several s u b s e q u e n t technological d e v e lo p m e n ts a n d im p ro v e m e n ts, it w a s first utilized in 1979 as a n industrial p o w e r SIT.
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2-26A
L-03E
SIT Static Induction Transistor
2SK180
thf-51
tokin sit transistor
2SK182E
PLL for induction heating
sit transistor
2SK183VE
2SK183
2SK182
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