5SGA30J4505 - ABB Semiconductors

ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.

VDRM =

4500

ITGQM =

3000

ITSM =

25×103

VT0 =

1.9

rT =

0.53

mΩ

VDclink =

2200

Asymmetric Gate turn-off

Thyristor

5SGA 30J4505

Doc. No. 5SYA1204-04 Sept. 05

• Patented free-floating silicon technology

• Low on-state and switching losses

• Annular gate electrode

• Industry standard housing

• Cosmic radiation withstand rating

Blocking

Maximum rated values 1)

Parameter Symbol Conditions min typ max Unit

Repetitive peak off-state

voltage VDRM VGR ≥ 2 V 4500 V

Repetitive peak reverse

voltage VRRM 17 V

Permanent DC voltage for

100 FIT failure rate VDC-link Ambient cosmic radiation at sea level

in open air. 2200 V

Characteristic values

Parameter Symbol Conditions min typ max Unit

Repetitive peak off-state

current IDRM VD = VDRM, VGR ≥ 2 V 60 mA

Repetitive peak reverse

current IRRM VR = VRRM, RGK = ∞ Ω 20 mA

Mechanical data

Maximum rated values 1)

Parameter Symbol

Conditions min typ max Unit

Mounting force Fm 36 40 44 kN

Characteristic values

Parameter Symbol

Conditions min typ max Unit

Pole-piece diameter Dp ± 0.1 mm 75 mm

Housing thickness H 25.6 26.0 mm

Weight m 1.3 kg

Surface creepage distance D

s Anode to Gate 33 mm

Air strike distance Da Anode to Gate 15 mm

Note 1 Maximum rated values indicate limits beyond which damage to the device may occur

5SGA 30J4505

ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.

Doc. No. 5SYA1204-04 Sept. 05 page 2 of 10

GTO Data

On-state

Maximum rated values 1)

Parameter Symbol

Conditions min typ max Unit

Max. average on-state

current IT(AV)M Half sine wave, TC = 85 °C 1000 A

Max. RMS on-state current I

T(RMS) 1570 A

Max. peak non-repetitive

surge current ITSM 25×103 A

Limiting load integral I2t

tp = ms, Tvj = 125°C, sine wave

After Surge: VD = VR = 0 V 3.1×106 A2s

Max. peak non-repetitive

surge current ITSM 45×103 A

Limiting load integral I2t

tp = ms, Tvj = 125°C, sine wave

After Surge: VD = VR = 0 V 1.01×106 A2s

Characteristic values

Parameter Symbol

Conditions min typ max Unit

On-state voltage VT IT = 3000 A, Tvj = 125°C 3.5 V

Threshold voltage V(T0) 1.9 V

Slope resistance rT Tvj = 125°C

IT = 500...4000 A 0.53 mΩ

Holding current IH Tvj = 25°C 50 A

Turn-on switching

Maximum rated values 1)

Parameter Symbol

Conditions min typ max Unit

Critical rate of rise of on-

state current diT/dtcr f = 200 Hz 400 A/µs

Critical rate of rise of on-

state current diT/dtcr

Tvj = 125°C,

IT = 3000 A, IGM = 30 A,

diG/dt = 20 A/µs f = 1 Hz 800 A/µs

Min. on-time ton VD = 0.5 VDRM, Tvj = 125 °C

IT = 3000 A, di/dt = 200 A/µs,

IGM = 30 A, diG/dt = 20 A/µs,

CS = 6 µF, RS = 5 Ω

100 µs

Characteristic values

Parameter Symbol

Conditions min typ max Unit

Turn-on delay time td 3 µs

Rise time tr 6 µs

Turn-on energy per pulse Eon

VD = 0.5 VDRM, Tvj = 125 °C

IT = 3000 A, di/dt = 200 A/µs,

IGM = 30 A, diG/dt = 20 A/µs,

CS = 6 µF, RS = 5 Ω 3 J

Turn-off switching

Maximum rated values 1)

Parameter Symbol

Conditions min typ max Unit

Max. controllable turn-off

current ITGQM VDM ≤ VDRM, diGQ/dt = 40 A/µs,

CS = 6 µF, LS ≤ 0.3 µH 3000 A

Min. off-time toff VD = 0.5 VDRM, Tvj = 125 °C

VDM ≤ VDRM, diGQ/dt = 40 A/µs,

ITGQ = ITGQM,

RS = 5 Ω, CS = 6 µF, LS = 0.3 µH

100 µs

Characteristic values

Parameter Symbol

Conditions min typ max Unit

Storage time tS 25 µs

Fall time tf 3 µs

Turn-on energy per pulse Eoff 11 J

Peak turn-off gate current IGQM

VD = 0.5 VDRM, Tvj = 125 °C

VDM ≤ VDRM, diGQ/dt = 40 A/µs,

ITGQ = ITGQM,

RS = 5 Ω, CS = 6 µF, LS = 0.3 µH 900 A

5SGA 30J4505

ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.

Doc. No. 5SYA1204-04 Sept. 05 page 3 of 10

Gate

Maximum rated values 1)

Parameter Symbol

Conditions min typ max Unit

Repetitive peak reverse

voltage VGRM 17 V

Repetitive peak reverse

current IGRM VGR = VGRM 20 mA

Characteristic values

Parameter Symbol

Conditions min typ max Unit

Gate trigger voltage VGT 1 V

Gate trigger current IGT Tvj = 25°C,

VD = 24 V, RA = 0.1 Ω 3 A

Thermal

Maximum rated values 1)

Parameter Symbol Conditions min typ max Unit

Junction operating temperature Tvj 0 125 °C

Storage temperature range Tstg 0 125 °C

Characteristic values

Parameter Symbol Conditions min typ max Unit

Rth(j-c) Double side cooled 12 K/kW

Rth(j-c)A Anode side cooled 22 K/kW

Thermal resistance junction to case

Rth(j-c)C Cathode side cooled 27 K/kW

Rth(c-h) Single side cooled 6 K/kW

Thermal resistance case to heatsink

(Double side cooled) Rth(c-h) Double side cooled 3 K/kW

Analytical function for transient thermal

impedance:

)e-(1R = (t)Z n

t/-

ic)-th(j i

∑

i 1 2 3 4

Ri(K/kW)

5.400 4.500 1.700 0.400

τi(s) 1.2000 0.1700 0.0100 0.0010

Fig. 1 Transient thermal impedance, junction to case

5SGA 30J4505

ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.

Doc. No. 5SYA1204-04 Sept. 05 page 4 of 10

Fig. 2 On-state characteristics Fig. 3 Average on-state power dissipation vs.

average on-state current

Fig. 4 Surge current and fusing integral vs. pulse

width

5SGA 30J4505

ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.

Doc. No. 5SYA1204-04 Sept. 05 page 5 of 10

Fig. 5 Forward blocking voltage vs. gate-cathode

resistance Fig. 6 Static dv/dt capability; forward blocking

voltage vs. neg. gate voltage or gate cathode

resistance

Fig. 7 Forward gate current vs. forward gate voltage Fig. 8 Gate trigger current vs. junction temperature

5SGA 30J4505

ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.

Doc. No. 5SYA1204-04 Sept. 05 page 6 of 10

Fig. 9 Turn-on energy per pulse vs. on-state current

and turn-on voltage Fig. 10 Turn-on energy per pulse vs. on-state current

and current rise rate

Common Test conditions:

diG/dt = 20 A/µs

CS = 6 µF

RS = 5 Ω

Tj = 125 °C

Definition of Turn-on energy:

)0.1 I 0, (t G

GMT

Don IdtIVE ⋅==⋅= ∫µ

Definition of Turn-off energy:

)0.9 I 0, t ( T

TGQT

Doff IdtIVE ⋅==⋅= ∫µ

Fig. 11 Turn-on energy per pulse vs. on-state current

and turn-on voltage

5SGA 30J4505

ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.

Doc. No. 5SYA1204-04 Sept. 05 page 7 of 10

Fig. 12 Turn-off energy per pulse vs. turn-off current

and peak turn-off voltage, extracted gate

charge vs. turn-off current

Fig. 13 Turn-off energy per pulse vs. turn-off current

and snubber capacitance

Fig. 14 Required snubber capacitor vs. max

allowable turn-off current Fig. 15 Turn-off energy per pulse, storage time and

peak turn-off gate current vs. junction

temperature

010 20 30 40 50 600

200

400

600

800

1000

IGQM [A]

IGQM

ITGQ = 3000 A

Tj = 125 °C

diGQ/dt [A/µs]

ts [µs]

0500 1000 1500 2000 2500 3000

200

400

600

800

1000

IGQM [A]

IGQM

diGQ/dt =40 A/µs

Tj = 125 °C

ITGQ [A]

ts [µs]

Fig. 16 Storage time and peak turn-off gate current

vs. neg. gate current rise rate Fig. 17 Storage time and peak turn-off gate current

vs. turn-off current

5SGA 30J4505

ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.

Doc. No. 5SYA1204-04 Sept. 05 page 8 of 10

Fig. 18 General current and voltage waveforms with GTO-specific symbols

5SGA 30J4505

ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.

Doc. No. 5SYA1204-04 Sept. 05 page 9 of 10

Fig. 19 Outline drawing; all dimensions are in millimeters and represent nominal values unless stated otherwise

5SGA 30J4505

ABB Switzerland Ltd, Semiconductors reserves the right to change specifications without notice.

ABB Switzerland Ltd Doc. No. 5SYA1204-04 Sept. 05

Semiconductors

Fabrikstrasse 3

CH-5600 Lenzburg, Switzerland

Telephone +41 (0)58 586 1419

Fax +41 (0)58 586 1306

Email abbsem@ch.abb.com

Internet www.abb.com/semiconductors

Reverse avalanche capability

In operation with an antiparallel freewheeling diode, the GTO reverse voltage VR may exceed the rate value VRRM

due to stray inductance and diode turn-on voltage spike at high di/dt. The GTO is then driven into reverse

avalanche. This condition is not dangerous for the GTO provided avalanche time and current are below 10 µs

and 1000 A respectively. However, gate voltage must remain negative during this time. Recommendation : VGR =

10… 15 V.