(UGDxxxxAG) High Voltage rectifiers Hochspannungs-gleichrichter

High Voltage rectifiers Hochspannungsgleichrichter Edition 97 www.DataSheet4U.com 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 Rüttelfestigkeit Maximaler Durchlaßstrom-Mittelwert Höchstzulässiger Effektiv-Durchlaßstrom Maximaler Stoßstrom Sperrstrom Anzugsdrehmoment Maximale Stoßsperrverlustleistung Ersatzwiderstand (nur zur Berechnung der Verlustleistung) Umgebungstemperatur oder Kühlmitteltemperatur Lagertemperatur Sperrschichttemperatur Typgleichspannung bei VV(RMS) arithm. Mittelwert Durchlaßspannung Höchstzul. periodische Spitzensperrspannung Typische Anschlußspannung (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-Brückenschaltung Dreiphasen-Brückenschaltung 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, Anschlußspannung 1 > 1 KV; 2 > 2 KV; 3 > 3 KV usw. A Buchstabe, A = Avalanche-Diode Y4 Gehäusebauform (siehe Maßbild) 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 ã 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 45°C 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 45°C ° 10 ms A 60 50 50 50 T(vj)m °C 150 150 150 150 Weight Dimensions Gewicht Maßbild 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 = 45°C - without cooling plate - with colling plate 7.4 10.9 A A forced air cooling: v = 3 m/s, Tamb = 35°C - without cooling plate - with cooling plate oil cooling, Tamb = 35°C - without cooling plate - with cooling plate tp = 10 µs 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) = 150°C; q non repetitive, 50 c/s (for 60 c/s add 10%) T(vj) = 45°C; tp = 10 ms T(vj) = 150°C; 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) = 150°C; IF = T(vj) = 55 A 25°C 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 mΩ m/s2 Nm T(vj) = 150°C T(vj) = 150°C f = 50Hz Data according to IEC 747-2 4 ã 1997 IXYS All rights reserved UGE 0421 AY4 100 A IF 80 a b 300 A IFSM 250 a T(vj) = 150°C 60 T(vj) = 25°C 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) = 25°C and T(vj) = 150°C 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) = 45°C b = Initial state T(vj) = 150°C 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) = 150°C 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 = 45°C - without cooling plate - with colling plate 3.8 5.4 A A forced air cooling: v = 3 m/s, Tamb = 35°C - without cooling plate - with cooling plate oil cooling, Tamb = 35°C - without cooling plate - with cooling plate tp = 10 µs 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) = 150°C; q non repetitive, 50 c/s (for 60 c/s add 10%) T(vj) = 45°C; tp = 10 ms T(vj) = 150°C; 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) = 150°C; IF = T(vj) = 30 A 25°C 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 mΩ m/s2 Nm T(vj) = 150°C T(vj) = 150°C f = 50Hz Data according to IEC 747-2 6 ã 1997 IXYS All rights reserved UGE 0221 AY4 200 40 A IF 30 b a A IFSM 150 a 20 T(vj) = 150°C T(vj) = 25°C 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) = 25°C and T(vj) = 150°C 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) = 45°C b = Initial state T(vj) = 150°C 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) = 150°C 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 = 45°C - without cooling