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High Voltage rectifiers Hochspannungsgleichrichter
Edition 97
Reg. Nr. 2743-02
Symbols and Definitions
a IF(AV)M IF(RMS) IFSM IR Md PRSM rT Acceleration Maximum mean forward current Maximum RMS forward current Surge forward current Repetitive peak reverse current Mounting torque Maximum surge reverse power dissipation Forward slope resistance (for power loss calculations only) Ambient temperature or temperature of the cooling medium Storage temperature Viritual junction temperature DC voltage at VV(RMS) arithmetic mean Forward voltage Maximum repetitive peak reverse voltage Supply voltage, RMS value Threshold voltage (for power loss calculations only)
Kurzzeichen und Begriffe
a IF(AV)M IF(RMS) IFSM IR Md PRSM rT Ruttelfestigkeit Maximaler Durchlastrom-Mittelwert Hochstzulassiger Effektiv-Durchlastrom Maximaler Stostrom Sperrstrom Anzugsdrehmoment Maximale Stosperrverlustleistung Ersatzwiderstand (nur zur Berechnung der Verlustleistung) Umgebungstemperatur oder Kuhlmitteltemperatur Lagertemperatur Sperrschichttemperatur Typgleichspannung bei VV(RMS) arithm. Mittelwert Durchlaspannung Hochstzul. periodische Spitzensperrspannung Typische Anschluspannung (Effektivwert) Schleusenspannung (nur zur Berechnung der Verlustleistung)
Tamb Tstg T(vj) VdT VF VRRM VV(RMS) VTO
Tamb Tstg T(vj) VdT VF VRRM VV(RMS) VTO
Nomenclature for High Voltage Rectifiers
Example: UGE 0421 AY4 U G E B D 0 1 2 4 High Voltage rectifier, U-Series Uncontrolled rectifier One way circuit One phase bridge circuit Three phase bridge circuit Code, number of power semiconductors 1- 4 5- 6 7-12 Code, max. average forward current in A 1 < 3 A; 2 < 12 A; 3 < 16 A; 4 < 33 A etc. Code, type of built in power Beispiel: UGE 0421 AY4 Hochspannungs-Gleichrichter, Baureihe U Ungesteuerter Gleichrichter Einwegschaltung Einphasen-Bruckenschaltung Dreiphasen-Bruckenschaltung Kennziffer, Anzahl der Leistungshalbleiter 0 1- 4 1 5- 6 2 7-12 4 Kennziffer, Dauergrenzstrom in A 1 < 3 A; 2 < 12 A; 3 < 16 A; 4 < 33 A usw. 2 Kennziffer, Art der eingebauten Dioden 1 Kennziffer, Anschluspannung 1 > 1 KV; 2 > 2 KV; 3 > 3 KV usw. A Buchstabe, A = Avalanche-Diode Y4 Gehausebauform (siehe Mabild) Y4 = runder Becher, A-N = Kunststoffbecher U G E B D
2 semiconductors 1 Code, max. RMS voltage 1 > 1 KV; 2 > 2 KV; 3 > 3 KV etc. A Letter, A = avalanche diode Y4 Version (see dimension drawing) Y4 = round housing, A-N = plastic housing
2
a 1997 IXYS All rights reserved
Contents/Inhalt
Symbols and Definitions / Kurzzeichen und Begriffe Circuit configuration Schaltbild Type Typ V UGB UGB 3132 AD UGB 6124 AG 4800 10500 V 2250 5000 A 1.3 1.0 VRRM VV(RMS) IF(AV)M IFSM
45C 10 ms
Page Seite 2
A 60 50 3 3
UGD
UGD 6123 AG UGD 8124 AG
7200 10500
3300 5000
1.8 1.2
50 50
3 3
UGE UGE UGE UGE Technical data, application notes Mounting instructions
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 2.0/0.8
300 180 120 70
4-5 6-7 8-9 10 - 11 12 - 13 15 - 15 16
/ Technische Daten, Applikationshinweise / Montagehinweise
IXYS International Sales Representatives
1~ / 3~ High Voltage Rectifier Modules Hochspannungs-Gleichrichter-Module
Typ VRRM VV(RMS) IF(AV)M IFSM 45C 10 ms A 60 50 50 50 T(vj)m C 150 150 150 150 Weight Dimensions Gewicht Mabild 1
UGB 3132 AD UGB 6124 AG UGD 6123 AG UGD 8124 AG
V 4800 10500 7200 10500
V 2250 5000 3300 5000
A 1.3 1.0 1.8 1.2
150 300 300 300
1 1 2 2
2
Typ
a
b
c 57 112 112 112
d 58.5 58.5 58.5 58.5
e
f
g
h 15 25 18 18
i
k
UGB 3132 AD 80 70 UGB 6124 AG 135 125 UGB 6123 AG 135 125 UGB 8124 AG 135 125
260 6 15 260 11 32.5 260 8 30 260 8 30
15 32.5 18 30 18 30
IXYS reserve the right to change limits, test conditions and dimensions.
3
UGE 0421 AY4
High Voltage Rectifiers Hochspannungsgleichrichter VRRM = 3200 V VdT = 500 V IF(AV)M = 22.9 A
VRRM V 3200
VV(RMS) V 1125
VdT V 500
Standard Types UGE 0421 AY4
Power Designation Si-E 1125 / 500-6
Anode
Kathode
Symbol IF(RMS) IF(AV)M
Test Conditions
Ratings 40 A Features Hermetically sealed Epoxy Use in oil Avalanche characteristics
q q q
air self cooling,
Tamb = 45C - without cooling plate - with colling plate 7.4 10.9 A A
forced air cooling: v = 3 m/s, Tamb = 35C - without cooling plate - with cooling plate oil cooling, Tamb = 35C - without cooling plate - with cooling plate tp = 10 s
14.2 18.8
A A
19.7 22.9 7
A A kW
Applications X-Ray equipment Electrostatic dust precipitators Electronic beam welding Lasers Cable test equipment
q q q q q
q
PRSM IFSM
T(vj) = 150C;
q
non repetitive, 50 c/s (for 60 c/s add 10%) T(vj) = 45C; tp = 10 ms T(vj) = 150C; tp = 10 ms
q
300 250 -40...+150 -40...+150 150 115
A A C C C g
q
Advantages Simple mounting Improved temperature and power cycling Reduced protection circuits Series and parallel operation
Tamb Tstg T(vj) Weight Symbol IR VF VTO rT a Md Test Conditions T(vj) = 150C; IF = T(vj) = 55 A 25C VR = VRRM
Dimensions in mm (1 mm = 0.0394")
Characteristic Values 2 2.72 1.7 16 5 x 9,81 8 mA V V m m/s2 Nm
T(vj) = 150C T(vj) = 150C f = 50Hz
Data according to IEC 747-2
4
a 1997 IXYS All rights reserved
UGE 0421 AY4
100 A IF 80
a b
300 A IFSM 250
a
T(vj) = 150C
60
T(vj) = 25C
200
b
150 40 100 20 50
0 0.4
1.2
2.0
2.8 V VF
3.6
0 10-3
10-2
10-1
100 s t
101
Fig. 1: Forward characteristics Instantaneous forward current IF as a function of instantaneous forward voltage drop VF for junction temperature T(vj) = 25C and T(vj) = 150C a = Mean value characteristic b = Limit value characteristic
Fig. 2: Characteristics of maximum permissible current The curves show the non repetitive peak one cycle surge forward current IFSM as a function of time t and serve for rating protective devices. a = Initial state T(vj) = 45C b = Initial state T(vj) = 150C
104 W PRSM IF(AV)
30 A
IFAV 180
20
6 5
103
4 3
10
2
1
102 10-6
0 10-5 10-4 10-3 s t 10-2 0 20 40 60 80 100 120 140 C TA
Fig. 3: Power loss Non repetitive peak reverse power loss PRSM as a function of time t, T(vj) = 150C
Fig. 4: Load diagramm Mean forward current IF(AV) of one module for a sine half wave for various cooling modes as a function of the cooling medium temperature Tamb for a resistive load (horizontal mounting). Cooling modes 1 = air self cooling 2 = air self cooling 3 = forced air cooling 4 = forced air cooling 5 = oil cooling 6 = oil cooling
without with without with without with
cooling plate cooling plate cooling plate cooling plate cooling plate cooling plate
IXYS reserve the right to change limits, test conditions and dimensions.
5
UGE 0221 AY4
High Voltage Rectifiers Hochspannungsgleichrichter VRRM = 4800 V VdT = 775 V IF(AV)M = 10.2 A
VRRM V 4800
VV(RMS) V 1750
VdT V 775
Standard Types UGE 0221 AY4
Power Designation Si-E 1750 / 775-4
Anode
Kathode
Symbol IF(RMS) IF(AV)M
Test Conditions
Ratings 16 A Features Hermetically sealed Epoxy Use in oil Avalanche characteristics
q q q
air self cooling,
Tamb = 45C - without cooling plate - with colling plate 3.8 5.4 A A
forced air cooling: v = 3 m/s, Tamb = 35C - without cooling plate - with cooling plate oil cooling, Tamb = 35C - without cooling plate - with cooling plate tp = 10 s
7.0 10.2
A A
10.2 10.2 3.4
A A kW
Applications X-Ray equipment Electrostatic dust precipitators Electronic beam welding Lasers Cable test equipment
q q q q q
q
PRSM IFSM
T(vj) = 150C;
q
non repetitive, 50 c/s (for 60 c/s add 10%) T(vj) = 45C; tp = 10 ms T(vj) = 150C; tp = 10 ms
q
180 140 -40...+150 -40...+150 150 120
A A C C C g
q
Advantages Simple mounting Improved temperature and power cycling Reduced protection circuits Series and parallel operation
Tamb Tstg T(vj) Weight Symbol IR VF VTO rT a Md Test Conditions T(vj) = 150C; IF = T(vj) = 30 A 25C VR = VRRM
Dimensions in mm (1 mm = 0.0394")
Characteristic Values 2 4.8 2.55 90 5 x 9,81 8 mA V V m m/s2 Nm
T(vj) = 150C T(vj) = 150C f = 50Hz
Data according to IEC 747-2
6
a 1997 IXYS All rights reserved
UGE 0221 AY4
200 40 A IF 30
b a
A IFSM 150
a
20
T(vj) = 150C T(vj) = 25C
100
b
10
50
0 0,6 1,2 1,8 2,4 3,0 3,6 4,2 4,8 5,4 V VF
Fig. 1: Forward characteristics Instantaneous forward current IF as a function of instantaneous forward voltage drop VF for junction temperature T(vj) = 25C and T(vj) = 150C a = Mean value characteristic b = Limit value characteristic
0 10-3
10-2
10-1
100 s t
101
Fig. 2: Characteristics of maximum permissible current The curves show the non repetitive peak one cycle surge forward current IFSM as a function of time t and serve for rating protective devices. a = Initial state T(vj) = 45C b = Initial state T(vj) = 150C
104 W PRSM IF(AV)
A 10
6
IFAV
5
180
8
4
6 10
3
3 2
4
1
2
102 10-6
0 10-5 10-4 10-3 s t 10-2 0 30 60 90 120 TA 150 C
Fig. 3: Power loss Non repetitive peak reverse power loss PRSM as a function of time t, T(vj) = 150C
Fig. 4: Load diagramm Mean forward current IF(AV) of one module for a sine half wave for various cooling modes as a function of the cooling medium temperature Tamb for a resistive load (horizontal mounting). Cooling modes 1 = air self cooling 2 = air self cooling 3 = forced air cooling 4 = forced air cooling 5 = oil cooling 6 = oil cooling
without with without with without with
cooling plate cooling plate cooling plate cooling plate cooling plate cooling plate
IXYS reserve the right to change limits, test conditions and dimensions.
7
UGE 1112 AY4
High Voltage Rectifiers Hochspannungsgleichrichter VRRM = 8000 V VdT = 1300 V IF(AV)M = 4.2 A
VRRM V 8000
VV(RMS) V 3000
VdT V 1300
Standard Types UGE 1112 AY4
Power Designation Si-E 3000 / 1300-2.5
Anode
Kathode
Symbol IF(RMS) IF(AV)M
Test Conditions
Ratings 7 A Features Hermetically sealed Epoxy Use in oil Avalanche characteristics
q q q
air self cooling,
Tamb = 45C - without cooling plate - with colling plate 2.0 2.5 A A
forced air cooling: v = 3 m/s, Tamb = 35C - without cooling plate - with cooling plate oil cooling, Tamb = 35C - without cooling plate - with cooling plate tp = 10 s
3.2 4.1
A A
4.2 4.2 2.5
A A kW
Applications X-Ray equipment Electrostatic dust precipitators Electronic beam welding Lasers Cable test equipment
q q q q q
q
PRSM IFSM
T(vj) = 150C;
q
non repetitive, 50 c/s (for 60 c/s add 10%) T(vj) = 45C; tp = 10 ms T(vj) = 150C; tp = 10 ms
q
120 100 -40...+150 -40...+150 150 122
A A C C C g
q
Advantages Simple mounting Improved temperature and power cycling Reduced protection circuits Series and parallel operation
Tamb Tstg T(vj) Weight Symbol IR VF VTO rT a Md Test Conditions T(vj) = 150C; IF = T(vj) = 7A 25C VR = VRRM
Dimensions in mm (1 mm = 0.0394")
Characteristic Values 1 6.25 4.25 0.215 5 x 9,81 8 mA V V m m/s2 Nm
T(vj) = 150C T(vj) = 150C f = 50Hz
Data according to IEC 747-2
8
a 1997 IXYS All rights reserved
UGE 1112 AY4
10 A IF 8
a b
A 120 IFSM 100
T(vj) = 150C
6
T(vj) = 25C
80
60 4 40 2
a b
20
0 3,0 3,5 4,0 4,5 5,0 5,5 6,0 6,5 V VF
Fig. 1: Forward characteristics Instantaneous forward current IF as a function of instantaneous forward voltage drop VF for junction temperature T(vj) = 25C and T(vj) = 150C a = Mean value characteristic b = Limit value characteristic
0 10-3
10-2
10-1
100 s t
101
Fig. 2: Characteristics of maximum permissible current The curves show the non repetitive peak one cycle surge forward current IFSM as a function of time t and serve for rating protective devices. a = Initial state T(vj) = 45C b = Initial state T(vj) = 150C
104 W PRSM 103
5 A IF(AV) 4
IFAV 180 4
5+6
3
3 2
2
1
102
1
101 10-6
0
10-5
10-4
10-3 s t
10-2
0
30
60
90 TA
120
150C
Fig. 3: Power loss Non repetitive peak reverse power loss PRSM as a function of time t, T(vj) = 150C
Fig. 4: Load diagramm Mean forward current IF(AV) of one module for a sine half wave for various cooling modes as a function of the cooling medium temperature Tamb for a resistive load (horizontal mounting). Cooling modes 1 = air self cooling 2 = air self cooling 3 = forced air cooling 4 = forced air cooling 5 = oil cooling 6 = oil cooling
without with without with without with
cooling plate cooling plate cooling plate cooling plate cooling plate cooling plate
IXYS reserve the right to change limits, test conditions and dimensions.
9
UGE 3126 AY4
High Voltage Rectifiers Hochspannungsgleichrichter VRRM = 24000 V VdT = 4000 V IF(AV)M = 2.0 A
VRRM V 24000
VV(RMS) V 9000
VdT V 4000
Standard Types UGE 1112 AY4
Power Designation Si-E 9000 / 4000-0.7
Anode
Kathode
Symbol IF(RMS) IF(AV)M
Test Conditions
Ratings 5 A Features Hermetically sealed Epoxy Use in oil Avalanche characteristics
q q q
air self cooling,
Tamb = 45C - without cooling plate - with colling plate 0.8 1.0 A A
forced air cooling: v = 3 m/s, Tamb = 35C - without cooling plate - with cooling plate oil cooling, Tamb = 35C - without cooling plate - with cooling plate tp = 10 s
1.4 1.7
A A
2.0 2.0 1.6
A A kW
Applications X-Ray equipment Electrostatic dust precipitators Electronic beam welding Lasers Cable test equipment
q q q q q
q
PRSM IFSM
T(vj) = 150C;
q
non repetitive, 50 c/s (for 60 c/s add 10%) T(vj) = 45C; tp = 10 ms T(vj) = 150C; tp = 10 ms
q
70 60 -40...+150 -40...+150 150 127
A A C C C g
q
Advantages Simple mounting Improved temperature and power cycling Reduced protection circuits Series and parallel operation
Tamb Tstg T(vj) Weight Symbol IR VF VTO rT a Md Test Conditions T(vj) = 150C; IF = T(vj) = 3A 25C VR = VRRM
Dimensions in mm (1 mm = 0.0394")
Characteristic Values 1 18 12 1.8 5 x 9,81 8 mA V V m m/s2 Nm
T(vj) = 150C T(vj) = 150C f = 50Hz
Data according to IEC 747-2
10
a 1997 IXYS All rights reserved
UGE 3126 AY4
A 10 9 IF 8 7 6 5 4 3 2 1 0 0 2 4 6 8 10 12 14 16 18 20 22 24 V VF
Fig. 1: Forward characteristics Instantaneous forward current IF as a function of instantaneous forward voltage drop VF for junction temperature T(vj) = 25C and T(vj) = 150C a = Mean value characteristic b = Limit value characteristic T(vj) = 150C T(vj) = 25C a b
100 A 90 IFSM 80 70 60 50 40 30 20 10 0 10-3 10-2 10-1 100 s t 101
b a
Fig. 2: Characteristics of maximum permissible current The curves show the non repetitive peak one cycle surge forward current IFSM as a function of time t and serve for rating protective devices. a = Initial state T(vj) = 45C b = Initial state T(vj) = 150C
104 W PRSM 3 10
IF(AV)
3 A
IFAV 180
2
6
10
2
5 4 3
101
1
2 1
100
10-1 10-6
0
10-5
10-4
10-3 s t
10-2
0
30
60
90 TA
120
150C
Fig. 3: Power loss Non repetitive peak reverse power loss PRSM as a function of time t, T(vj) = 150C
Fig. 4: Load diagramm Mean forward current IF(AV) of one module for a sine half wave for various cooling modes as a function of the cooling medium temperature Tamb for a resistive load (horizontal mounting). Cooling modes 1 = air self cooling 2 = air self cooling 3 = forced air cooling 4 = forced air cooling 5 = oil cooling 6 = oil cooling
without with without with without with
cooling plate cooling plate cooling plate cooling plate cooling plate cooling plate
IXYS reserve the right to change limits, test conditions and dimensions.
11
1. General remarks The high-voltage retifier modules of the UGE series function as single-leg half-wave rectifiers (abbreviation = E). They are used for high-voltage DC supply, e.g. in - high frequency generators - X-ray equipment - dust precipitators. The construction of the module plastic case with screw connection simplifies mechanical arrangement of the desired rectifier circuit. The user's individual input voltage and current requirements can be satisfied by selection of the appropriate modules, by mounting with or without a cooling plate or by series connection of modules.
1. Allgemeines Die Hochspannungsgleichrichter-Module der Serie UGE sind in ihrer elektrischen Funktion Einweggleichrichter in Einzweigschaltung (Kurzbezeichnung = E). Sie werden zur Hochspannungs-Gleichstromversorgung eingesetzt, z.B. in - Hochfrequenz-Generatoren - Rontgenanlagen - elektrostatischen Staubfilteranlagen. Die Modulkonstruktion - Kunststoffgehause mit Schraubverbindung - ermoglicht einen einfachen mechanischen Aufbau der gewunschten Gleichrichterschaltung. Anwendungsspezifische Anschluspannungen und Strome konnen durch Auswahl der geeigneten Bausteine, Montage ohne und mit Kuhlblech bei verschiedenen Kuhlarten oder durch Serienschaltung verwirklicht werden.
2.
Design
2.
Aufbau
2.1 Electrical High-voltage rectifier modules consist of an internally integrated series connection of avalanche diodes. Electric terminals of the module screw connection: Anode (A) = Threaded hole Cathode (K) = Threaded bolt
2.1 Elektrisch Hochspannungsgleichrichter-Module bestehen aus einer integrierten Reihenschaltung von Avalanche-Dioden. Elektrische Anschlusse der Modul-Schraubverbindung: Anode (A) = Gewindebohrung Kathode (K) = Gewindebolzen.
2.2 Mechanical (for dimensions see dimension diagram) The avalanche diodes are embedded in an epoxy resin pot with axial metal terminals. The materials used guarantee good insulation and resistance to corrosion.
2.2 Mechanisch (Abmessungen siehe Mabild) In einem Epoxydharzbecher mit axial angeordneten Metallanschlussen sind die Avalanche-Dioden in Gieharz eingebettet. Die verwendeten Materialien garantieren eine gute Isolationsfahigkeit und Korrosionsbestandigkeit.
3. Technical data The operating reliability of high-voltage rectifier modules is mainly influenced by the safety margin between the specified limit values and the operating data. Table on page 3 gives rated voltage values - recommended voltages with a frequency of 40 to 60 Hz and a maximum voltage variation of 10% - for the single leg circuit configuration. When other rectifier circuits are arranged with these modules VdT becomes: - bridge circuit, B VdT = 0,9 x VV(RMS) - three phase bridge circuit, DB VdT = 1,35 = VV(RMS)
3. Technische Daten Die Betriebszuverlassigkeit von HochspannungsgleichrichterModulen wird wesentlich durch den Sicherheitsabstand zwischen den angegebenen Grenzwerten und den Einsatzdaten beeinflut. Fur die spannungsmaige Beanspruchung in Einzweigschaltung sind in der Tabelle Seite 3 Nennwerte - das sind empfohlene Betriebsdaten, die fur sinusformige Versorgungsspannung von 40 bis 60 Hz und maximal 10% Spannungsschwankung gelten - angegeben. Bei Aufbau von anderen Gleichrichterschaltungen mit diesen Modulen ergibt sich VdT entsprechen: - Bruckenschaltung, B VdT = 0,9 x VV(RMS) - Drehstrom-Bruckenschaltung, DB VdT = 1,35 = VV(RMS)
12
a 1997 IXYS All rights reserved
4. Current reduction for series connections When several modules are connected in series (screwed to one another), the allowed mean forward current I FAV should be reduced as a function of the number of modules and cooling mode used. Cooling modes 1 = Convection cooling 2 = Convection cooling 3 = Forced air cooling 4 = Forced air cooling 5= Oil cooling 6 = Oil cooling
4. Stromreduktion bei Reihenschaltung Bei Serienschaltung (Aneinanderschrauben) mehrerer Module ist der zulassige Dauergrenzstrom IFAV in Abhangigkeit von der Anzahl der Module und Kuhlart zu reduzieren.
without with without with without with
cooling plate cooling plate cooling plate cooling plate cooling plate cooling plate
Definition der Kuhlarten 1 = Luftselbstkuhlung ohne Kuhlblech 2 = Luftselbstkuhlung mit Kuhlblech 3 = Verstarkte Luftkuhlung ohne Kuhlblech 4 = Verstarkte Luftkuhlung mit Kuhlblech 5 = Olkuhlung ohne Kuhlblech 6 = Olkuhlung mit Kuhlblech
Cooling mode Kuhlart
Number of modules Anzahl Module 2 3 4 Sn 5 6 >7
1 2 3 4 5 6
0,75 0,85 0,85 0,95 0,92 0,96
0,65 0,8 0,8 0,92 0,88 0,94
0,6 0,78 0,78 0,9 0,86
0,55 0,75 0,77 0,88
0,5
no further reduction keine weitere Reduktion
Table 2: Current reduction factor Sn Tabelle 2: Stromreduzierungsfaktor Sn
The current reduction factors apply for air self cooling and horizontal mounting (with respect to module axis). Die Stromreduzierungsfaktoren gelten bei Luftselbstkuhlung nur fur waagrechte Einbaulage (bezogen auf Modulachse).
50
7
50
100
3 mm thick aluminium plate, chamfer all edges. Aluminium-Blech, 3 mm dick, alle Kanten brechen. 8.4 5.4
120
IXYS reserve the right to change limits, test conditions and dimensions.
7
13
5. Mounting instructions 5.1 Mounting of modules without cooling plate (Fig. 7):
5. Montagehinweise 5.1 Darstellung der Montage: Montage ohne Kuhlblech (Bild 7)
M
Fig. 7: Mounting of modules Bild 7: Montage der Module Torque M = 800 Ncm Drehmoment M = 800 Ncm
Spring washer B 8 DIN 137 A 2 g Federscheibe B 8 DIN 137 A 2 g Washer A 8,5 DIN 125 - ST-A4G Scheibe A 8,5 DIN 125 - ST-A4G
not included in scope of delivery gehort nicht zum Lieferumfang
Apply thermal grease DC 340 here when mounting with cooling plates Bei Montage mit Kuhlblechen hier Warmeleitpaste DC 340 auftragen
5.2 Mounting of modules with cooling plate: as shown in Fig. 7, however, the cooling plate ist mounted with thermal grease instead of with washer A 8.5 DIN 125. To satisfy VDE specification 0110, voltage limits are prescribed - depending on the creepage distance of the pot shape (61 mm for mounting without cooling plate, 42 mm for mounting with cooling plate). In case of air cooling care should be taken that the proper class of insulation is chosen for the respective supply voltage (see table 3).
5.2 Montage: Module mit Kuhlblech wie in Bild 7 skizziert, jedoch anstelle der Scheibe A 8,5 DIN 125 wird das Kuhlblech mit Warmeleitpaste eingesetzt. Zur Einhaltung der VDE-Vorschrift 0110 sind - bedingt durch den Kriechweg der Bechergeometrie (61 mm bei Montage ohne Kuhlblech, 42 mm bei Montage mit Kuhlblech) - Spannungsgrenzen vorgeschrieben. Zu beachten ist bei Betrieb in Luft, da sich die zulassige Anschluspannung nach der vorgesehenen Isolationsgruppe richtet (siehe Tabelle 3).
Insulation class Isolationsgruppe Construction Aufbauart
A without with Cooling plate ohne mit Kuhlblech
B without with Cooling plate ohne mit Kuhlblech
C without with Cooling plate ohne mit Kuhlblech
Table 3 Tabelle 3
Allowed supply voltage based creepage distance Zulassige Anschluspannung aufgrund des Kriechwegs
[V] 9000
[V] 7600
[V] 6900
[V] 4900
[V] 5000
[V] 3400
5.3 Distance to adjacent parts The distance to adjacent g metal parts should be at least 25 mm. This also applies to mounting with cooling plates (see Fig. 8). A protective circuit in accordance with Table 4 should be provided in order to prevent unpermissible capacitive earth currents from flowing through the first diode. This can be done by arranging the modules in groups for voltages of Vp ~ 30 kV each (see Fig. 9).
5.3 Abstande zur Umgebung Der Abstand zu umgebenden geerdeten Metall-Teilen sollte minimal 25 mm betragen. Dies gilt auch bei Aufbau mit Kuhlblechen (siehe Bild 8). Zur Vermeidung von unzulassigen kapazitiven Erdstromen uber die erste Diode ist eine Schutzbeschaltung nach Tabelle 4 vorzusehen. Es sind dabei jeweils Modulgruppen fur Teilspannungen von Vp ~ 30 kV zu bilden (siehe Bild 9).
a 1997 IXYS All rights reserved
14
UGE .... C1 ~ 30 kV
UGE ....
C1 ~ 30 kV
C1 ~ 30 kV Fig. 8: Minimum distance for mounting Bild 8: Mindestabstande bei Montage
Fig. 9: Circuit for protection of modules against capacitive earth currents Bild 9: Schutzbeschaltung der Module gegen kapazitive Erdstrome
CI (nF) UGE 0421 AY4 UGE 0221 AY4 UGE 1112 AY4 UGE 3126 AY4 5.6 2.2 0.87 0.15
Table 4: Protective circuit capacitances for avoidance of too high capacitive ground currents from 30 kV RMS Tabelle 4: Schutzbeschaltungskapazitaten zur Vermeidung zu groer kapazitiver Erdstrome ab 30 kVRMS
IXYS reserve the right to change limits, test conditions and dimensions.
15
IXYS Semiconductor GmbH Edisonstr. 15, D-68623 Lampertheim Telefon: +49-6206-503-0, Fax: +49-6206-503627 e-mail: custserv@ixys.de
Publication D 97008 DE Printed in Germany (09.97 * 2 * DP)
IXYS Corporation 3540 Bassett Street, Santa Clara CA 95054 Phone: (408) 982-0700, Fax: 408-496-0670 http://www.ixys.com e-mail: sales@ixys.com
Technical advice and further information
Germany (Reps)
North Hubert Schroeter KG Saseler Bogen 1 22393 Hamburg Phone: 040/6 00 006-0 Fax: 040/6 00 006-30 West Erhard Mannheim KG Industrievertretungen Heidestrae 4 42579 Heiligenhaus Phone: 02056/9 83 60 Fax: 02056/5 74 37 Southwest Wolfgang Trautmann Reutlinger Str. 4 78054 VS-Schwenningen Phone: 07720/12 03 Fax: 07720/3 34 42
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Asia, Australia, Africa
Australia Braemac PTY. Ltd. 1/59-61 Burrows Road Alexandria NSW 2015 Phone: (02) 9550 6600 Fax: (02) 9550 6370 China KARIN Electronic Supplies Room 1095, Pana Tower 36 Hai Dian Road Hai Dian District, Beijing Phone: 8610-6262 9049 Fax: 8610-6264 8830 China KARIN Electronic Supplies Room 305, A Section, Yin Hai Bldg., 250 Cao Xi Rd. Shanghai Phone: 8621-6482 3543 Fax: 8632-6482 3542 China KARIN Electronic Supplies Room 1503, Oriental Plaza 39 Janshe Rd, Shenzhen Phone: 86755-220 9219 Fax: 86755-228 4992 China Sunguard Electronics Ltd. Room 112, No. 12B Zhong Guan Chun Road Hai Dian District, Beijing Phone: 10-264-5210, 10-264-5212 + 10-254-2870 Fax: 10-254-2870 China Sunguard Electronics Ltd. Room 805, 8/F., Sufa Building, Block 306 ZhenHua Road, Shenzhen Phone: 0755-3230 748 (658) 0755-3237 349 Fax: 0755-3237 394 Hongkong KARIN Electronic Supplies Co. Ltd., Div. 8 KARIN Building, 5F 166 Wai Yip St., Kwun Tong Kowloon, Hong Kong Phone: 852-2763 3100 Fax: 852-2343 6479 Hongkong Revel Electronics Co. Ltd. Unit 11, 12/Floor, Ricky Centre 36 Chong Yip Street, Kwun Tong Kowloon, Hong Kong Phone: 23 89-88 91 Fax: 23 89-24 48 Hongkong Sunguard Electronics Ltd. 907-10 Yat Chau, International Plaza 118 Connaught Road West Hong Kong Phone: (852) 2811 8230 Fax: (852) 2960 1239, 2960 1216 India Chadda Power Semiconductors 501, Savera Apts. Versova Road, Andheri (West) Bombay-400 061 Phone: 022-6 26 06 78 Fax: 022-6 31 63 84 Israel Gallium Electronics Ltd. 11 Hasadna St. P.O.B. 2552 IL 43650 RA'ANANA Phone: 972 9 74 82 182 Fax: 972 9 74 84 046 Japan Unidux Inc. 5-1-21 Kyonan-cho, Musashino-shi, Tokyo 180 Phone: 0422-32-4500 Fax: 0422-31-2050 Japan Systems Marketing, Inc. Fukui Bldg. 2-2-12 Sotokanda, Chiyoda-Ku Tokyo 101 Phone: 03-32 54 27 51 Fax: 03-32 54 32 88 Japan Trancy INC New Heights Aoyama 203 1-1-10 Shibuya, Shibuya-Ku Tokyo 150 Phone: +81-3-3486-7211 Fax: +81-3-3486-7214 Korea Asea Brown Boveri Ltd. Oksan Bldg. 5-9 Fl. 157, Samsung-Dong, Kangnam-Ku, Seoul 135-090 Phone: 2-52 83 062 Fax: 2-52 83 091 Korea Kisung International Co. Ltd. A-7-121, 604-1 Kuro-Dong, Kuro-Ku, Seoul Phone: 02-679 7348 Fax: 02-675 1404 Korea Daan Electronic Co., Ltd. Daan Bldg, 4F 22-1 Singye-Dong, Yongsan-Ku, Seoul Phone: 02-822-718-8033 Fax: 02-822-718 1160+1161 Singapore Practical Electronics Pte. Ltd. 1 Rochor Canal Rd # 02-57, Sim Lim Square Singapore 0718 Phone: 3-38 73 88 Fax: 3-38 16 88 South Africa ABB Industry (Pty) Ltd. Drives P.O. Box 11494, Randhart 1457 Phone: 011-8 64 53 40 Fax: 011-9 08 20 61 South Africa Avnet Kopp (Pty) Ltd P. O. Box 3853, Rivonia, 2128 South Africa. Phone: +27 11 444 2333 Fax: +27 11 444 7778 Taiwan Industrade Co., Ltd. 6F, No. 64, Section 2 Chung Cheng Road Shihlin, Taipei, Taiwan 111 Phone: 886-2-836 90 11 Fax: 886-2-835 30 37 Sept. 97
Europe
Austria ABB Serienprodukte Ges.m.b.H. Abt. SERTQ Wienerbergstrae 11 B P.O. Box 184 1101 Wien Phone: 01-60 10 9-6153 Fax: 01-60 10 9-8600 Denmark C-88 AS Kokkedal Industripark 101 2980 Kokkedal Phone: +45-70 10 48 88 Fax: +45-70 10 48 89 Finland Energel Oy Atomitie 1 00370 Helsinki Phone: 0-586 2066 Fax: 0-586 2046 France Eurocomposant S.A. 144 Avenue Joseph Kessel 78960 Voisins le Bretonneux Phone: 1-30 64 95 15 Fax: 1-30 43 68 27 Greece Markides Michelis & Co 8, Markris Str., Aegaleo 122 41 Athens Phone: 1-5 98 01 45 Fax: 1-5 90 98 33 Great Britain IXYS Semiconductor GmbH Providence House Forest Road, Binfield Bracknell, Berkshire RG 12 5HP Phone: 01344-48 28 20 Fax: 01344-48 28 10 Great Britain GD Rectifiers Ltd. Victoria Gardens Burgess Hill West Sussex RH159NB Phone: 01444-24 34 52 Fax: 01444-87-07-22 Great Britain Larontrol Ltd. Unit K4 Brookside Avenue Rustington Trading Estate Littlehampton West Sussex BN16 3LF Phone: 01903-77 11 60 Fax: 01903-77 20 73 Great Britain Future Electronics Poyle Road, Colnbrook Berkshire SL3 OEZ Phone: 01753-68 70 00 Fax: 01753-68 91 00 Italy ABB DACOM SpA Viale Edison, 50 20099 Sesto San Giovanni (MI) Phone: 02-26 232.125 Fax: 02-26 232.144 Netherlands ABB Componenten B.V. Lylantse Baan 9 2908 LG Capelle a/d IJssel Phone: 010-2 58 22 50 Fax: 010-4 58 65 59 Norway Henaco A/S Trondheimsveien 436 Po. box 126, Kalbakken 0902 Oslo 9 Phone: 2-216 21 10 Fax: 2-225 77 80 Sweden Pelcon Electronics AB Girovagen 13 Box 6023 17562 Jarfalla Phone: 8-7 95 98 70 Fax: 8-7 60 76 85 Switzerland ABB Normelec AG Badenerstr. 790 8048 Zurich-Altstetten Phone: 1-4 35 66 66 Fax: 1-4 35 66 06 Spain ABI Semiconductores Dalia 387 Ch 6 28109 El Soto (Alcobendas) Phone: 91-6 50 76 51 Fax: 91-6 50 03 49 Spain AQL electronica, s.a. General Palanca, 26 28045 Madrid Phone: 91-4 67 75 12 Fax: 91-5 30 29 34 Spain Rectificadores Guasch S.A. Componentes y Electronica de Potencia Alaba, 60-62 08005 Barcelona Phone: 93-3 09 88 91 Fax: 93-3 00 18 41 Turkey Ozdisan Elektronik Pazarlama San. VE TIC. A.S. Bereketzade Mahallesl Galata Kulesi Sokak No: 34/3 Karakoy/Istanbul Phone: 212-243 40 34, 251 29 41 Fax: 212-244 59 43
Germany (Distris)
Kluxen GmbH Nordkanal 52 20097 Hamburg 1 Phone: 040/23 70 15 29 Fax: 040/23 03 85 Dietrich Schuricht GmbH & Co. KG Richtweg 32 28195 Bremen Phone: 0421/36 54 54 Fax: 0421/36 54 291 BETRONIK Handelsgesellschaft fur elektronische Bauelemente mbH Grunewaldstr. 39a 12165 Berlin Phone: 030/79 09 97 - 0 Fax: 030/79 09 97 51 Ingenieurburo Rainer Konig Giesendorfer Str. 11 a 12207 Berlin Phone: 030/76 89 09 16 Fax: 030/76 89 09 30 MSC Vertriebs GmbH Industriestrae 16 76297 Stutensee Phone: 07249/910-0 Fax: 07249/79 93 Future Electronics Deutschland GmbH Munchner Strae 18 85774 Unterfohring Phone: 089/95 72 70 Fax: 089/95 72 71 29 Sparepart-Service ABB Industrietechnik AG Geschaftsbereich Service Edisonstr. 15 68623 Lampertheim Phone: 06206/503 272 Fax: 06206/503 620 IXYS Semiconductor GmbH Edisonstr. 15 68623 Lampertheim Phone: 06206/503 394 Fax: 06206/503 627

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