UGB6124AG_技术文档

High Voltage rectifiers

Hochspannungs-

gleichrichter

Edition 97

Reg. Nr. 2743-02

Symbols and Definitions

Kurzzeichen und Begriffe

a

Acceleration

a

Rüttelfestigkeit

I_F(AV)M

I_F(RMS)

I_FSM

Maximum mean forward current

Maximum RMS forward current

Surge forward current

I_F(AV)M

I_F(RMS)

I_FSM

Maximaler Durchlaßstrom-Mittelwert

Höchstzulässiger Effektiv-Durchlaßstrom

Maximaler Stoßstrom

I_R

Repetitive peak reverse current

I_R

Sperrstrom

M_d

P_RSM

r_T

Mounting torque

M_d

P_RSM

r_T

Anzugsdrehmoment

Maximum surge reverse power dissipation

Maximale Stoßsperrverlustleistung

Forward slope resistance

Ersatzwiderstand

(for power loss calculations only)

(nur zur Berechnung der Verlustleistung)

T_amb

Ambient temperature or temperature of the

cooling medium

Storage temperature

T_amb

Umgebungstemperatur oder

Kühlmitteltemperatur

Lagertemperatur

T_stg

T_(vj)

T_stg

T_(vj)

Viritual junction temperature

Sperrschichttemperatur

V_dT

V_F

DC voltage at V_V(RMS)arithmetic mean

Forward voltage

V_dT

V_F

Typgleichspannung bei V_V(RMS)arithm. Mittelwert

Durchlaßspannung

V_RRM

V_V(RMS)

V_TO

Maximum repetitive peak reverse voltage

Supply voltage, RMS value

Threshold voltage

V_RRM

V_V(RMS)

V_TO

Höchstzul. periodische Spitzensperrspannung

Typische Anschlußspannung (Effektivwert)

Schleusenspannung

(for power loss calculations only)

(nur zur Berechnung der Verlustleistung)

Nomenclature for High Voltage Rectifiers

Example: UGE 0421 AY4

Beispiel: UGE 0421 AY4

U

High Voltage rectifier, U-Series

U Hochspannungs-Gleichrichter, Baureihe U

G

Uncontrolled rectifier

G

Ungesteuerter Gleichrichter

E

One way circuit

E

Einwegschaltung

B

D

One phase bridge circuit

Three phase bridge circuit

B

D

Einphasen-Brückenschaltung

Dreiphasen-Brückenschaltung

Code, number of power semiconductors

Kennziffer, Anzahl der Leistungshalbleiter

0

1

2

1- 4

5- 6

7-12

0

1

2

1- 4

5- 6

7-12

4

Code, max. average forward current in A

1 < 3 A; 2 < 12 A; 3 < 16 A; 4 < 33 A etc.

4

Kennziffer, Dauergrenzstrom in A

1 < 3 A; 2 < 12 A; 3 < 16 A; 4 < 33 A usw.

2

Code, type of built in power

2

Kennziffer, Art der eingebauten Dioden

semiconductors

1

Kennziffer, Anschlußspannung

1 > 1 KV; 2 > 2 KV; 3 > 3 KV usw.

Buchstabe, A = Avalanche-Diode

Y4 Gehäusebauform (siehe Maßbild)

Y4 = runder Becher, A-N = Kunststoff-

1

Code, max. RMS voltage

1 > 1 KV; 2 > 2 KV; 3 > 3 KV etc.

Letter, A = avalanche diode

A

Y4 Version (see dimension drawing)

Y4 = round housing, A-N = plastic housing

becher

2

Contents/Inhalt

Page

Seite

Symbols and Definitions / Kurzzeichen und Begriffe

2

Type

Typ

V_RRM

V_V(RMS)

I_F(AV)M

I_FSM

Circuit configuration

Schaltbild

45°C

10 ms

A

V

A

UGB

UGD

UGB 3132 AD

UGB 6124 AG

4800

10500

2250

5000

1.3

1.0

60

50

3

UGD 6123 AG

UGD 8124 AG

7200

10500

3300

5000

1.8

1.2

50

3

UGE 0421 AY4

UGE 0221 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

180

120

70

4 - 5

6 - 7

8 - 9

10 - 11

Technical data, application notes

Mounting instructions

/ Technische Daten, Applikationshinweise

/ Montagehinweise

12 - 13

15 - 15

16

IXYS International Sales Representatives

1~ / 3~ High Voltage Rectifier Modules

Hochspannungs-Gleichrichter-Module

1

Typ

V_RRMV_V(RMS)

I_F(AV)M

I_FSM

45°C

10 ms

A

T_(vj)m

Weight Dimensions

Gewicht

Maßbild

V

A

°C

UGB 3132 AD

UGB 6124 AG

4800

10500 5000

2250

1.3

1.0

60

50

150

300

1

UGD 6123 AG

UGD 8124 AG

7200 3300

10500 5000

1.8

1.2

50

150

300

2

Typ

a

b

c

d

e

f

g

h

i

k

UGB 3132 AD

80

70

57 58.5 260

6

15

15 15

UGB 6124 AG 135 125 112 58.5 260 11 32.5 25 32.5

UGB 6123 AG 135 125 112 58.5 260

UGB 8124 AG 135 125 112 58.5 260

8

30

18 18

30

IXYSreservetherighttochangelimits, testconditionsanddimensions.

3

UGE 0421 AY4

High Voltage Rectifiers

V_RRM= 3200 V

V_dT= 500 V

I_F(AV)M= 22.9 A

Hochspannungsgleichrichter

V_RRM

V

V_V(RMS)

V

V_dT

V

Standard

Types

Power Designation

Si-E 1125 / 500-6

Anode

3200

1125

500

UGE 0421 AY4

Kathode

Symbol

Test Conditions

Ratings

I_F(RMS)

I_F(AV)M

40

A

air self cooling,

T_amb= 45°C

Features

●

Hermetically sealed Epoxy

Use in oil

- without cooling plate

- with colling plate

7.4

10.9

A

●

Avalanche characteristics

forced air cooling:

v = 3 m/s,

Applications

T_amb= 35°C

- without cooling plate

- with cooling plate

●

X-Ray equipment

Electrostatic dust precipitators

Electronic beam welding

Lasers

14.2

18.8

A

●

oil cooling,

T_amb= 35°C

- without cooling plate

- with cooling plate

●

Cable test equipment

19.7

22.9

A

Advantages

●

Simple mounting

Improved temperature and power

P_RSM

I_FSM

T_(vj)= 150°C;

t_p= 10 µs

7

kW

●

cycling

Reduced protection circuits

Series and parallel operation

non repetitive, 50 c/s (for 60 c/s add 10%)

●

T_(vj)= 45°C;

t_p= 10 ms

300

250

A

●

T_(vj)= 150°C;

t_p= 10 ms

T_amb

T_stg

T_(vj)

-40...+150

150

°C

Dimensions in mm (1 mm = 0.0394")

Weight

115

g

Symbol

Test Conditions

Characteristic Values

I_R

T_(vj)= 150°C;

V_R= V_RRM

≤ 2

mA

V

V_F

I_F

=

55 A

25°C

2.72

T_(vj)

V_TO

r_T

T_(vj)= 150°C

1.7

16

V

mΩ

a

f

=

50Hz

5 x 9,81

8

m/s²

Nm

M_d

Data according to IEC 747-2

4

UGE 0421 AY4

100

A

a

b

300

A

a

I_FSM

80

60

40

20

0

I_F

250

200

150

100

50

T(vj) = 150°C

T(vj) = 25°C

b

0

10^-3

10^-2

10^-1

10⁰

s

10¹

0.4

1.2

2.0

2.8

3.6

V

t

V_F

Fig. 1:Forward characteristics

Fig.2:Characteristics of maximum permissible current

The curves show the non repetitive peak one cycle surge forward

current I_FSMas a function of time t and serve for rating protective

devices.

Instantaneous forward current I_Fas a function of instantaneous forward

voltage dropV_Ffor junction temperatureT_(vj)= 25°C and T_(vj)= 150°C

a = Mean value characteristic

b = Limit value characteristic

a = Initial state

b = Initial state

T_(vj)= 45°C

T_(vj)= 150°C

10⁴

W

30

A

P_RSM

I_F(AV)

I_FAV

180°

6

5

20

10³

4

3

2

10

1

10²

0

10^-6

10^-5

10^-4

10^-3

t

10^-2

0

20 40 60 80 100 120 140

T_A

s

°C

Fig. 3:Power loss

Fig.4:Load diagramm

Non repetitive peak reverse power loss P_RSMas a function of time t,

T_(vj)= 150°C

Mean forward current I_F(AV)of one module for a sine half wave for various

cooling modes as a function of the cooling medium temperatureT_ambfor 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

without cooling plate

with cooling plate

without cooling plate

with cooling plate

without cooling plate

with cooling plate

6 = oil cooling

IXYSreservetherighttochangelimits, testconditionsanddimensions.

5

UGE 0221 AY4

High Voltage Rectifiers

V_RRM= 4800 V

V_dT= 775 V

I_F(AV)M= 10.2 A

Hochspannungsgleichrichter

V_RRM

V

V_V(RMS)

V

V_dT

V

Standard

Types

Power Designation

Si-E 1750 / 775-4

Anode

4800

1750

775

UGE 0221 AY4

Kathode

Symbol

Test Conditions

Ratings

I_F(RMS)

I_F(AV)M

16

A

air self cooling,

T_amb= 45°C

Features

●

Hermetically sealed Epoxy

Use in oil

- without cooling plate

- with colling plate

3.8

5.4

A

●

Avalanche characteristics

forced air cooling:

v = 3 m/s,

Applications

T_amb= 35°C

- without cooling plate

- with cooling plate

●

X-Ray equipment

Electrostatic dust precipitators

Electronic beam welding

Lasers

7.0

10.2

A

●

oil cooling,

T_amb= 35°C

- without cooling plate

- with cooling plate

●

Cable test equipment

10.2

A

Advantages

●

Simple mounting

Improved temperature and power

P_RSM

I_FSM

T_(vj)= 150°C;

t_p= 10 µs

3.4

kW

●

cycling

Reduced protection circuits

Series and parallel operation

non repetitive, 50 c/s (for 60 c/s add 10%)

●

T_(vj)= 45°C;

t_p= 10 ms

180

140

A

●

T_(vj)= 150°C;

t_p= 10 ms

T_amb

T_stg

T_(vj)

-40...+150

150

°C

Dimensions in mm (1 mm = 0.0394")

Weight

120

g

Symbol

Test Conditions

Characteristic Values

I_R

T_(vj)= 150°C;

V_R= V_RRM

≤ 2

mA

V

V_F

I_F

=

30 A

25°C

4.8

T_(vj)

V_TO

r_T

T_(vj)= 150°C

2.55

90

V

mΩ

a

f

=

50Hz

5 x 9,81

8

m/s²

Nm

M_d

Data according to IEC 747-2

6

UGE 0221 AY4

200

A

40

A

I_FSM

I_F

150

100

50

b

30

20

10

0

a

T(vj) = 150°C

T(vj) = 25°C

b

0

10^-3

10^-2

10^-1

10⁰

10¹

s

0,6 1,2 1,8 2,4 3,0 3,6 4,2 4,8 5,4V

t

V_F

Fig. 1:Forward characteristics

Fig.2:Characteristics of maximum permissible current

The curves show the non repetitive peak one cycle surge forward

current I_FSMas a function of time t and serve for rating protective

devices.

Instantaneous forward current I_Fas a function of instantaneous forward

voltage dropV_Ffor junction temperatureT_(vj)= 25°C and T_(vj)= 150°C

a = Mean value characteristic

b = Limit value characteristic

a = Initial state

b = Initial state

T_(vj)= 45°C

T_(vj)= 150°C

10⁴

W

A

10

6

I_FAV

5

4

180°

P_RSM

I_F(AV)

8

6

4

2

10³

3

2

1

10²

0

10^-6

10^-5

10^-4

10^-3

10^-2

30

60

90

120

T_A

150 °C

s

t

Fig. 3:Power loss

Fig.4:Load diagramm

Non repetitive peak reverse power loss P_RSMas a function of time t,

T_(vj)= 150°C

Mean forward current I_F(AV)of one module for a sine half wave for various

cooling modes as a function of the cooling medium temperatureT_ambfor 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

without cooling plate

with cooling plate

without cooling plate

with cooling plate

without cooling plate

with cooling plate

6 = oil cooling

IXYSreservetherighttochangelimits, testconditionsanddimensions.

7

UGE 1112 AY4

High Voltage Rectifiers

V_RRM= 8000 V

V_dT= 1300 V

I_F(AV)M= 4.2 A

Hochspannungsgleichrichter

V_RRM

V

V_V(RMS)

V

V_dT

V

Standard

Types

Power Designation

Si-E 3000 / 1300-2.5

Anode

8000

3000

1300

UGE 1112 AY4

Kathode

Symbol

Test Conditions

Ratings

I_F(RMS)

I_F(AV)M

7

A

air self cooling,

T_amb= 45°C

Features

●

Hermetically sealed Epoxy

Use in oil

- without cooling plate

- with colling plate

2.0

2.5

A

●

Avalanche characteristics

forced air cooling:

v = 3 m/s,

Applications

T_amb= 35°C

- without cooling plate

- with cooling plate

●

X-Ray equipment

Electrostatic dust precipitators

Electronic beam welding

Lasers

3.2

4.1

A

●

oil cooling,

T_amb= 35°C

- without cooling plate

- with cooling plate

●

Cable test equipment

4.2

A

Advantages

●

Simple mounting

Improved temperature and power

P_RSM

I_FSM

T_(vj)= 150°C;

t_p= 10 µs

2.5

kW

●

cycling

Reduced protection circuits

Series and parallel operation

non repetitive, 50 c/s (for 60 c/s add 10%)

●

T_(vj)= 45°C;

t_p= 10 ms

120

100

A

●

T_(vj)= 150°C;

t_p= 10 ms

T_amb

T_stg

T_(vj)

-40...+150

150

°C

Dimensions in mm (1 mm = 0.0394")

Weight

122

g

Symbol

Test Conditions

Characteristic Values

I_R

T_(vj)= 150°C;

V_R= V_RRM

≤ 1

mA

V

V_F

I_F

=

7 A

6.25

T_(vj)

25°C

V_TO

r_T

T_(vj)= 150°C

4.25

0.215

V

mΩ

a

f

=

50Hz

5 x 9,81

8

m/s²

Nm

M_d

Data according to IEC 747-2

8

UGE 1112 AY4

10

A

120

a

I_FSM

b

8

6

4

2

0

I_F

100

80

60

40

20

0

T(vj) = 150°C

T(vj) = 25°C

a

b

10^-3

10^-2

10^-1

10⁰

10¹

s

3,0 3,5 4,0 4,5 5,0 5,5 6,0 6,5

V_F

V

t

Fig. 1:Forward characteristics

Fig.2:Characteristics of maximum permissible current

The curves show the non repetitive peak one cycle surge forward

current I_FSMas a function of time t and serve for rating protective

devices.

Instantaneous forward current I_Fas a function of instantaneous forward

voltage dropV_Ffor junction temperatureT_(vj)= 25°C and T_(vj)= 150°C

a = Mean value characteristic

b = Limit value characteristic

a = Initial state

b = Initial state

T_(vj)= 45°C

T_(vj)= 150°C

10⁴

W

5

A

P_RSM

I_FAV

4

3

2

1

0

I_F(AV)

5+6

4

180°

10³

3

2

1

10²

10¹

10^-6

0

30

60

90

120

150°C

10^-5

10^-4

10^-3

t

10^-2

s

T_A

Fig. 3:Power loss

Fig.4:Load diagramm

Non repetitive peak reverse power loss P_RSMas a function of time t,

T_(vj)= 150°C

Mean forward current I_F(AV)of one module for a sine half wave for various

cooling modes as a function of the cooling medium temperatureT_ambfor 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

without cooling plate

with cooling plate

without cooling plate

with cooling plate

without cooling plate

with cooling plate

6 = oil cooling

IXYSreservetherighttochangelimits, testconditionsanddimensions.

9

UGE 3126 AY4

High Voltage Rectifiers

V_RRM= 24000 V

V_dT= 4000 V

I_F(AV)M= 2.0 A

Hochspannungsgleichrichter

V_RRM

V

V_V(RMS)

V

V_dT

V

Standard

Types

Power Designation

Si-E 9000 / 4000-0.7

Anode

24000 9000

4000

UGE 1112 AY4

Kathode

Symbol

Test Conditions

Ratings

I_F(RMS)

I_F(AV)M

5

A

air self cooling,

T_amb= 45°C

Features

●

Hermetically sealed Epoxy

Use in oil

- without cooling plate

- with colling plate

0.8

1.0

A

●

Avalanche characteristics

forced air cooling:

v = 3 m/s,

Applications

T_amb= 35°C

- without cooling plate

- with cooling plate

●

X-Ray equipment

Electrostatic dust precipitators

Electronic beam welding

Lasers

1.4

1.7

A

●

oil cooling,

T_amb= 35°C

- without cooling plate

- with cooling plate

●

Cable test equipment

2.0

A

Advantages

●

Simple mounting

Improved temperature and power

P_RSM

I_FSM

T_(vj)= 150°C;

t_p= 10 µs

1.6

kW

●

cycling

Reduced protection circuits

Series and parallel operation

non repetitive, 50 c/s (for 60 c/s add 10%)

●

T_(vj)= 45°C;

t_p= 10 ms

70

60

A

●

T_(vj)= 150°C;

t_p= 10 ms

T_amb

T_stg

T_(vj)

-40...+150

150

°C

Dimensions in mm (1 mm = 0.0394")

Weight

127

g

Symbol

I_R

Test Conditions

Characteristic Values

T_(vj)= 150°C;

V_R= V_RRM

≤ 1

mA

V

V_F

I_F

T_(vj)

=

3 A

25°C

18

V_TO

r_T

T_(vj)= 150°C

12

1.8

V

mΩ

a

f

=

50Hz

5 x 9,81

8

m/s²

Nm

M_d

Data according to IEC 747-2

10

UGE 3126 AY4

A

10

100

A

a

b

90

80

70

60

50

40

30

20

10

0

9

8

7

6

5

4

3

2

1

0

I_FSM

I_F

T(vj) = 150°C

T(vj) = 25°C

a

b

10^-3

10^-2

10^-1

10⁰

t

10¹

s

0

2

4

6

8 10 12 14 16 18 20 22 24

V

V_F

Fig. 1:Forward characteristics

Fig.2:Characteristics of maximum permissible current

The curves show the non repetitive peak one cycle surge forward

current I_FSMas a function of time t and serve for rating protective

devices.

Instantaneous forward current I_Fas a function of instantaneous forward

voltage dropV_Ffor junction temperatureT_(vj)= 25°C and T_(vj)= 150°C

a = Mean value characteristic

b = Limit value characteristic

a = Initial state

b = Initial state

T_(vj)= 45°C

T_(vj)= 150°C

10⁴

W

3

A

P

^RSM10³

I_F(AV)

I_FAV

180°

2

6

10²

10¹

10⁰

10^-1

5

4

3

2

1

0

30

60

90

120

150°C

10^-6

10^-5

10^-4

10^-3

10^-2

s

T_A

t

Fig. 3:Power loss

Fig.4:Load diagramm

Non repetitive peak reverse power loss P_RSMas a function of time t,

T_(vj)= 150°C

Mean forward current I_F(AV)of one module for a sine half wave for various

cooling modes as a function of the cooling medium temperatureT_ambfor 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

without cooling plate

with cooling plate

without cooling plate

with cooling plate

without cooling plate

with cooling plate

6 = oil cooling

IXYSreservetherighttochangelimits, testconditionsanddimensions.

11

1. General remarks

1. Allgemeines

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

Die Hochspannungsgleichrichter-Module der Serie UGE sind

in ihrer elektrischen Funktion Einweggleichrichter in Einzweig-

schaltung (Kurzbezeichnung = E). Sie werden zur Hoch-

spannungs-Gleichstromversorgung eingesetzt, z.B. in

– Hochfrequenz-Generatoren

– X-ray equipment

– dust precipitators.

– Röntgenanlagen

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.

– elektrostatischen Staubfilteranlagen.

Die Modulkonstruktion - Kunststoffgehäuse mit Schraub-

verbindung - ermöglicht einen einfachen mechanischen Auf-

bau der gewünschten Gleichrichterschaltung.

Anwendungsspezifische Anschlußspannungen und Ströme

können durch Auswahl der geeigneten Bausteine, Montage

ohne und mit Kühlblech bei verschiedenen Kühlarten oder durch

Serienschaltung verwirklicht werden.

2. Design

2. Aufbau

2.1 Electrical

2.1 Elektrisch

High-voltage rectifier modules consist of an internally integrated

series connection of avalanche diodes.

Electric terminals of the module screw connection:

Hochspannungsgleichrichter-Module bestehen aus einer in-

tegrierten Reihenschaltung von Avalanche-Dioden.

Elektrische Anschlüsse der Modul-Schraubverbindung:

Anode (A)

= Threaded hole

Anode (A)

= Gewindebohrung

Cathode (K) = Threaded bolt

Kathode (K) = Gewindebolzen.

2.2 Mechanical

2.2 Mechanisch

(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.

(Abmessungen siehe Maßbild)

In einem Epoxydharzbecher mit axial angeordneten Metallan-

schlüssen sind die Avalanche-Dioden in Gießharz eingebettet.

Die verwendeten Materialien garantieren eine gute Isolations-

fähigkeit und Korrosionsbeständigkeit.

3. Technical data

3. Technische Daten

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.

Die Betriebszuverlässigkeit von Hochspannungsgleichrichter-

Modulen wird wesentlich durch den Sicherheitsabstand zwi-

schen den angegebenen Grenzwerten und den Einsatzdaten

beeinflußt. Für die spannungsmäßige Beanspruchung in Ein-

zweigschaltung sind in der Tabelle Seite 3 Nennwerte - das

sind empfohlene Betriebsdaten, die für sinusförmige Ver-

sorgungsspannung von 40 bis 60 Hz und maximal 10%

Spannungsschwankung gelten - angegeben.

When other rectifier circuits are arranged with these modules

V_dTbecomes:

Bei Aufbau von anderen Gleichrichterschaltungen mit diesen

Modulen ergibt sich V_dTentsprechen:

– bridge circuit, B

V_dT= 0,9 x V_V(RMS)

– three phase bridge circuit, DB

V_dT= 1,35 = V_V(RMS)

– Brückenschaltung, B

V_dT= 0,9 x V_V(RMS)

– Drehstrom-Brückenschaltung, DB

V_dT= 1,35 = V_V(RMS)

12

4. Current reduction for series connections

When several modules are connected in series (screwed to

one another), the allowed mean forward current I_FAVshould be

reduced as a function of the number of modules and cooling

mode used.

4. Stromreduktion bei Reihenschaltung

Bei Serienschaltung (Aneinanderschrauben) mehrerer Modu-

le ist der zulässige Dauergrenzstrom IFAV in Abhängigkeit von

der Anzahl der Module und Kühlart zu reduzieren.

Cooling modes

Definition der Kühlarten

1 = Convection cooling

2 = Convection cooling

3 = Forced air cooling

4 = Forced air cooling

5= Oil cooling

without cooling plate

with cooling plate

without cooling plate

with cooling plate

without cooling plate

with cooling plate

1 = Luftselbstkühlung

2 = Luftselbstkühlung

3 = Verstärkte Luftkühlung ohne Kühlblech

4 = Verstärkte Luftkühlung mit Kühlblech

5 = Ölkühlung

6 = Ölkühlung

ohne Kühlblech

mit Kühlblech

ohne Kühlblech

mit Kühlblech

6 = Oil cooling

Cooling mode

Kühlart

Number of modules

Anzahl Module

2

3

4

5

6

>7

S_n

1

2

3

4

5

6

0,75

0,85

0,95

0,92

0,96

0,65

0,8

0,6

0,55

0,75

0,77

0,88

0,5

0,78

0,9

0,8

no further

reduction

0,92

0,88

0,94

keine weitere

Reduktion

0,86

Table 2: Current reduction factor S_n

Tabelle 2: Stromreduzierungsfaktor S_n

The current reduction factors apply for air self cooling and horizontal mounting (with

respect to module axis).

Die Stromreduzierungsfaktoren gelten bei Luftselbstkühlung nur für waagrechte Ein-

baulage (bezogen auf Modulachse).

50

7

3 mm thick aluminium plate, chamfer all edges.

Aluminium-Blech, 3 mm dick, alle Kanten brechen.

8.4

5.4

120

IXYSreservetherighttochangelimits, testconditionsanddimensions.

13

5. Mounting instructions

5.1 Mounting of modules

without cooling plate (Fig. 7):

5. Montagehinweise

5.1 Darstellung der Montage:

Montage ohne Kühlblech (Bild 7)

Fig. 7: Mounting of modules

Bild 7: Montage der Module

M

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

not included in scope of delivery

gehört nicht zum Lieferumfang

Washer A 8,5 DIN 125 – ST-A4G

Scheibe A 8,5 DIN 125 – ST-A4G

Apply thermal grease DC 340 here when mounting with cooling plates

Bei Montage mit Kühlblechen hierWärmeleitpaste DC 340 auftragen

5.2 Mounting of modules

5.2 Montage:

Module mit Kühlblech

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.

wie in Bild 7 skizziert, jedoch anstelle der Scheibe A 8,5 DIN

125 wird das Kühlblech mit Wärmeleitpaste eingesetzt.

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).

Zur Einhaltung der VDE-Vorschrift 0110 sind - bedingt durch

den Kriechweg der Bechergeometrie (61 mm bei Montage ohne

Kühlblech, 42 mm bei Montage mit Kühlblech) - Spannungs-

grenzen vorgeschrieben. Zu beachten ist bei Betrieb in Luft,

daß sich die zulässige Anschlußspannung nach der vorgese-

henen Isolationsgruppe richtet (siehe Tabelle 3).

Insulation class

Table 3

Isolationsgruppe

Construction

Aufbauart

A

B

C

Tabelle 3

without

Cooling plate

ohne mit

Kühlblech

with

without

Cooling plate

ohne mit

Kühlblech

with

without

with

Cooling plate

ohne

mit

Kühlblech

Allowed supply voltage

based creepage distance

Zulässige Anschlußspannung

aufgrund des Kriechwegs

[V]

9000

[V]

7600

[V]

6900

[V]

4900

[V]

5000

[V]

3400

5.3 Distance to adjacent parts

5.3 Abstände zur Umgebung

The distance to adjacent g metal parts should be at least 25

mm.This also applies to mounting with cooling plates (see Fig.

8).

Der Abstand zu umgebenden geerdeten Metall-Teilen sollte

minimal 25 mm betragen. Dies gilt auch bei Aufbau mit Kühl-

blechen (siehe Bild 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

Zur Vermeidung von unzulässigen kapazitiven Erdströmen über

die erste Diode ist eine Schutzbeschaltung nach Tabelle 4 vor-

zusehen. Es sind dabei jeweils Modulgruppen für Teilspannun-

gen von Vp ~ 30 kV zu bilden (siehe Bild 9).

each (see Fig. 9).

14

UGE ....

C₁

~ 30 kV

UGE ....

C₁

Fig. 8: Minimum distance for mounting

Bild 8: Mindestabstände bei Montage

Fig. 9: Circuit for protection of modules against capacitive earth currents

Bild 9: Schutzbeschaltung der Module gegen kapazitive Erdströme

C_I(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: Schutzbeschaltungskapazitäten zurVermeidung zu großer kapazitiver Erdströme ab 30 kV_RMS

IXYSreservetherighttochangelimits, testconditionsanddimensions.

15

IXYS Semiconductor GmbH

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e-mail: custserv@ixys.de

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http://www.ixys.com

e-mail: sales@ixys.com

Publication D 97008 DE

Printed in Germany (09.97 • 2 • DP)

Technical advice and further information

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Phone: 02-679 7348

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Phone: 886-2-836 90 11

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IXYS Semiconductor GmbH

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68623 Lampertheim

Phone: 06206/503 394

022-6 31 63 84

Fax:

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Fax:

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Fax:

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Sept. 97


型号：	UGB6124AG
厂家：	IXYS CORPORATION
描述：	High Voltage rectifiers Hochspannungs-gleichrichter 高电压整流器Hochspannungs ， gleichrichter
文件：	总16页 (文件大小：248K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

UGB6124AG [IXYS]

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