Untitled
Abstract: No abstract text available
Text: UGE 1112 AY4 High Voltage Rectifiers VRRM V 8000 Standard VRRM = 8000 V IF AV M = 4.2 A Anode Power Designation Types UGE 1112 AY4 Si-E 3000 / 1300-2.5 Cathode Symbol Conditions Ratings Features Hermetically sealed Epoxy Use in oil Avalanche characteristics
|
Original
|
PDF
|
|
UGE1112AY4
Abstract: uge 1112 AY4
Text: UGE 1112 AY4 High Voltage Rectifiers VRRM V 8000 Standard VRRM = 8000 V IF AV M = 4.2 A Anode Power Designation Types UGE 1112 AY4 Si-E 3000 / 1300-2.5 Cathode Symbol Conditions IF(RMS) IF(AV)M air self cooling, Ratings Tamb = 45°C - without cooling plate
|
Original
|
PDF
|
|
7472 ci
Abstract: uge 1112 AY4
Text: UGE 1112 AY4 High Voltage Rectifiers Hochspannungsgleichrichter VRRM VV RMS VdT V V V 8000 3000 1300 Standard VRRM = 8000 V VdT = 1300 V IF(AV)M = 4.2 A Power Designation Anode Types UGE 1112 AY4 Si-E 3000 / 1300-2.5 Kathode Symbol Test Conditions IF(RMS)
|
Original
|
PDF
|
|
uge 1112 AY4
Abstract: C122G UGE1112AY4 1112 ay4
Text: UGE 1112 AY4 High Voltage Rectifiers VRRM V 8000 Standard VRRM = 8000 V IF AV M = 4.2 A Anode Power Designation Types UGE 1112 AY4 Si-E 3000 / 1300-2.5 Cathode Symbol IF(RMS) IF(AV)M Conditions air self cooling, Ratings Tamb = 45°C - without cooling plate
|
Original
|
PDF
|
|
Untitled
Abstract: No abstract text available
Text: UGE 1112 AY4 High Voltage Rectifiers VRRM VV RMS VdT V V V 8000 3000 1300 Standard VRRM = 8000 V VdT = 1300 V IF(AV)M = 4.2 A Anode Power Designation Types UGE 1112 AY4 Si-E 3000 / 1300-2.5 Cathode Symbol Test Conditions IF(RMS) IF(AV)M air self cooling,
|
Original
|
PDF
|
|
UGE3126AY4
Abstract: si-e9000
Text: UGE 3126 AY4 High Voltage Rectifiers Hochspannungsgleichrichter VRRM VV RMS VdT V V V 24000 9000 4000 Standard VRRM = 24000 V VdT = 4000 V IF(AV)M = 2.0 A Power Designation Anode Types UGE 1112 AY4 Si-E 9000 / 4000-0.7 Kathode Symbol Test Conditions IF(RMS)
|
Original
|
PDF
|
|
din 74 F4
Abstract: 3132 ad ugd 8124 UGD8124AG uge 1112 AY4 UGE3126AY4 C122G f422
Text: 1~ / 3~High Voltage Rectifiers Contents VRRM Circuit configuration VV RMS IF(AV)M Type UGB UGD IFSM 45°C 10 ms Page V V A A UGB 3132 AD UGB 6124 AG 4800 10500 2250 5000 1.3 1.0 60 50 F4 - 1 F4 - 1 UGD 6123 AG UGD 8124 AG 7200 10500 3300 5000 1.8 1.2 50 50
|
Original
|
PDF
|
|
uge 1112 AY4
Abstract: din 74 f6 Diode f6 3132 ad general electric rectifier cooling 150C60B f6 rectifiers
Text: 1~ / 3~High Voltage Rectifiers Contents VRRM Circuit configuration VV RMS IF(AV)M 45°C 10 ms Type UGB UGD IFSM Page V V A A UGB 3132 AD UGB 6124 AG 4800 10500 2250 5000 1.3 1.0 60 50 F6 - 1 F6 - 1 UGD 6123 AG UGD 8124 AG 7200 10500 3300 5000 1.8 1.2 50
|
Original
|
PDF
|
|
str f 6264
Abstract: BROWN BOVERI str 6264 uge 1112 AY4 rectificadores "sim welding" diagram Kopp MS 85 ABB CO-8 CI 6264 din 6900
Text: High Voltage rectifiers Hochspannungsgleichrichter Edition 97 Reg. Nr. 2743-02 Symbols and Definitions Kurzzeichen und Begriffe a Acceleration a Rüttelfestigkeit IF AV M IF(RMS) IFSM IR Maximum mean forward current Maximum RMS forward current Surge forward current
|
Original
|
PDF
|
|
Untitled
Abstract: No abstract text available
Text: UGE 0221 AY4 High Voltage Rectifiers Hochspannungsgleichrichter VRRM VV RMS VdT V V V 4800 1750 775 Standard VRRM = 4800 V VdT = 775 V IF(AV)M = 10.2 A Power Designation Anode Types UGE 0221 AY4 Si-E 1750 / 775-4 Kathode Symbol Test Conditions IF(RMS) IF(AV)M
|
Original
|
PDF
|
|
3126AY4
Abstract: No abstract text available
Text: Contents/Inhalt Page Seite Symbols and Definitions / Kurzzeichen und Begriffe Type Circuit configuration Schaltbild UGB UGD 2 VRRM VV RMS IF(AV)M Typ IFSM 45°C 10 ms V V A A UGB 3132 AD UGB 6124 AG 4800 10500 2250 5000 1.3 1.0 60 50 3 3 UGD 6123 AG UGD 8124 AG
|
Original
|
PDF
|
|
Dioden Tabelle
Abstract: UGE 7.5
Text: UGE 0421 AY4 High Voltage Rectifiers Hochspannungsgleichrichter VRRM VV RMS VdT V V V 3200 1125 500 Standard VRRM = 3200 V VdT = 500 V IF(AV)M = 22.9 A Power Designation Anode Types UGE 0421 AY4 Si-E 1125 / 500-6 Kathode Symbol Test Conditions IF(RMS) IF(AV)M
|
Original
|
PDF
|
|
7n60b
Abstract: 35N120u1 ixys dsei 45-12a DSDI 35-12A 20N80 80n06 80n60 VVY 40-16IO1 IXYS CS 2-12 IXFX 44N80
Text: Alphanumerical Index A AXC-051 AXC-053 AXC-101 AXC-102 AXL-001 AXL-051 AXV-102 C CS 142-12io8 CS 142-16io8 CS 19-08ho1 CS 19-08ho1S CS 19-12ho1 CS 19-12ho1S CS 20-12io1 CS 20-14io1 CS 20-16io1 CS 23-08io2 CS 23-12io2 CS 23-16io2 CS 300-12io3 CS 300-16io3 CS 300-18io3
|
Original
|
PDF
|
AXC-051
AXC-053
AXC-101
AXC-102
AXL-001
AXL-051
AXV-102
142-12io8
142-16io8
19-08ho1
7n60b
35N120u1
ixys dsei 45-12a
DSDI 35-12A
20N80
80n06
80n60
VVY 40-16IO1
IXYS CS 2-12
IXFX 44N80
|
ugd 8124
Abstract: No abstract text available
Text: 1~/ 3~ High Voltage Rectifier Modules Fig. C von Seite 17 UGE UGB HTZ v RRM Type V vRMS Vto ^dAV ^FSM # /• V 1.7 2.55 4.25 12 V V A 45 C 10 ms A UGE UGE UGE UGE 0421 0221 1112 3126 AY4 AY4 AY4 AY4 3200 4800 8000 24000 1125 1750 3000 9000 23/7.4 10/3.8 4.2/2.0
|
OCR Scan
|
PDF
|
|
|
52-16N01
Abstract: vuo 35-12n07 35-16N07 36-16N07 35-12N07 vuo 50-08N03 30-08N03 34-14N01 52-12N01 35-14N07
Text: 1 ~ / 3 ~ High Voltage Rectifier Modules vRMS ^dAV *FSM / V m£2 1.7 2.55 4.25 12 - 16 90 215 1800 - - - V V A 45°C 10 ms A UGE 0421 AY4 UGE0221 AY4 UGE 1112 AY4 UGE 3126 AY4 3200 4800 8000 24000 1125 1750 3000 9000 23/7.4 10/3.8 4.2/2.0 2.0/0.8 300
|
OCR Scan
|
PDF
|
UGE0221
UGB3132
UGB6124
UGD6123
UGD8124
52-16N01
vuo 35-12n07
35-16N07
36-16N07
35-12N07
vuo 50-08N03
30-08N03
34-14N01
52-12N01
35-14N07
|
Untitled
Abstract: No abstract text available
Text: CIIXYS UGE1112 AY4 High Voltage Rectifiers Hochspannungsgleichrichter V RRM V V RM S V dT V V V 8000 3000 1300 Standard Power Designation UGE 1112 AY4 Anode Si-E 3000 / 1300-2.5 Test Conditions 7 air self cooling, P RSM ^FSM T (VJ) , , = 150°C ;’ ’ (VJ)
|
OCR Scan
|
PDF
|
UGE1112
|
Untitled
Abstract: No abstract text available
Text: CIIXYS UGE3126 AY4 High Voltage Rectifiers Hochspannungsgleichrichter V RRM V V RM S V V VdT V 24000 9000 4000 Standard Power Designation Anode Types UGE 1112 AY4 Si-E 9000 / 4000-0.7 o Kathode Symbol Test Conditions ^F(RMS) ^F(AV)M air se lf cooling, oil cooling,
|
OCR Scan
|
PDF
|
UGE3126
|
ugd 8124
Abstract: 6123 F611 10MSA 3126AY4
Text: Contents VRHM Circuit configuratioi i VV RMS ^F(AV)M ^FSM Page Type ? ? UGB n »i 1 !'1 ü UGD r » 1 * V A ! 1 UGB 3132 AD UGB 6124 AG 4800 10500 2250 5000 1.3 1.0 60 50 F 4- 1 F4 - 1 1 1 1 UGD 6123 AG UGD 8124 AG 7200 10500 3300 5000 1.8 1.2 50 50 F4- 1
|
OCR Scan
|
PDF
|
|
Untitled
Abstract: No abstract text available
Text: 4bûb2Eb DDD1375 flTH « I X Y O 6 Rectifier Bridges, 1~ il ! — w i - -wN — -N - Rectifier Bridges, 1 ~ with DCB-Ceram ic Base V RRM Type K E 72 873 (M) ► New VBO 13-16N02 • VBO 13-14N 02 VBO 13-12N02 VBO 13-08N02 VBO 13-16A 02 • VBO 13-14A 02
|
OCR Scan
|
PDF
|
DDD1375
13-16N02
13-14N
13-12N02
13-08N02
3-16A
3-14A
20-16N02
20-12N02
20-08N02
|
thyristor MTT 25 N 14
Abstract: E72873 13-14N02 ls 7472 25-16N02 vuo 35-12n07 36-16io1 VHF15-16 50-04N03 mtt 95 a 12 n
Text: e I Rectifier Bridges, 1~ ki L-n — —N— Rectifier Bridges, 1 ~ with DCB-Ceram ic Base V *BMS 'd *v @ T c Type *F3U 45°C 10 ms A Vto rF ^VJM V »c K/W 85 220 0.85 m il 17 150 5.6 K/W 0.4 § E 72 873 (M) > New V VBO 13-16N02 • VBO 13-14N02 VBO 13-12N02
|
OCR Scan
|
PDF
|
13-16N02
13-14N02
13-12N02
13-08N02
13-16A02
13-14A02
13-12A02
20-16N02
20-14N02
20-12N02
thyristor MTT 25 N 14
E72873
ls 7472
25-16N02
vuo 35-12n07
36-16io1
VHF15-16
50-04N03
mtt 95 a 12 n
|
mm036
Abstract: ml075-12 MM036-12 mm036-16 mm075-12io1 mm062 DSI 12-06A MDD95-16N1B ME03 21N100
Text: 17 17 17 17 17 17 17 17 17 17 17 17 17 17 13 15 15 13 13 13 13 14 14 14 14 13 13 13 13 13 15 15 15 13 13 13 13 13 13 14 14 14 14 14 14 13 13 13 15 15 15 14 14 14 DSAI35-12A DSAI 35-16A DSAI 35-18A DSAI 75-12A DSAI 75-16A DSAI 75-18A DSEI 12-06A DSEI 12-1OA
|
OCR Scan
|
PDF
|
DSAI35-12A
5-16A
5-18A
5-12A
2-06A
12-1OA
2-12A
2x30-Q4C
mm036
ml075-12
MM036-12
mm036-16
mm075-12io1
mm062
DSI 12-06A
MDD95-16N1B
ME03
21N100
|
40n80
Abstract: 13NB0 60N60 dsei 20-12 33N120 VUO 35-12 N 0 7 DS117-12A DS117-12 26n60 4410PI
Text: Alphanumerical Index c CS CS CS CS CS CS CS CS CS CS CS CS CS CS 142-12 ¡08 142-16 io8 23-08 ¡02 23-12 ¡02 23-16 ¡02 300-12 io3 300-16 io3 35-08 ¡04 35-12 ¡04 35-14 ¡04 72-12 ¡08 72-16 ¡08 8-08 ¡02 8-12 ¡02 18 18 18 18 18 18 18 18 18 18 18 18 18
|
OCR Scan
|
PDF
|
5-10A
52-14N01
52-16N01
55-12N
55-14N07
55-18N
60-08N
60-16N
62-08N
62-12N
40n80
13NB0
60N60
dsei 20-12
33N120
VUO 35-12 N 0 7
DS117-12A
DS117-12
26n60
4410PI
|
8n80
Abstract: DS117-12A 36-18N 16go 20N60A 2QN60 62-16N07 DSA117-12 10N60A MCC95-12io1B
Text: Alphanumerical Index c CS 142-12 io8 CS 142-16 ¡08 CS 23-08 io2 CS 23-12 ¡02 CS 23-16 io2 3S 300-12 io3 2S 300-16 io3 CS 35-08 io4 CS 35-12 io4 CS 35-14 io4 CS 72-12 ¡08 CS 72-16 ¡08 CS 8-08 io2 CS 8-12 io2 CS 8-12 io2 CS1011 -18io1 CS1011-22io1 CS1011-25io1
|
OCR Scan
|
PDF
|
CS1011
-18io1
CS1011-22io1
CS1011-25io1
CS1250-12io1
CS1250-14io1
CS1250-16io1
CS20-12
CS20-14
CS20-16
8n80
DS117-12A
36-18N
16go
20N60A
2QN60
62-16N07
DSA117-12
10N60A
MCC95-12io1B
|
DSE 130 -06A
Abstract: vub 70-12 IXGH 30n120 vub 70-16 30N60B 80N10 12N60CD DSEI 30-16 AS DSEP 15-06A 13N50
Text: Alphanumerical Index A AXC-051 AXC-051-R AXC-102 AXV-002 48 48 48 49 C CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS CS 142-12 ¡08 142-16 ¡08 19-08 h oi 19-08 h o lS 19-12 h o i 19-12 h o lS 20*12 io1 20-14 ¡01 20-16 ¡01
|
OCR Scan
|
PDF
|
AXC-051
AXC-051-R
AXC-102
AXV-002
015-14to1
2x45-16io1
2x60-08io1
2x60-12io1
2x60-14io1
2x60-16io1
DSE 130 -06A
vub 70-12
IXGH 30n120
vub 70-16
30N60B
80N10
12N60CD
DSEI 30-16 AS
DSEP 15-06A
13N50
|