SKKT57B16EG6 - Semikron, Inc. - Datasheet.Directory

SKKT 57B16 E G6

SEMIPACK® 1

SKKT

Thyristor Modules

SKKT 57B16 E G6

Features

• Heat transfer through aluminium oxide

ceramic isolated metal baseplate

• Hard soldered joints for high reliability

• UL recognized, file no. E63532

Typical Applications

• DC motor control (e. g. for machine

tools)

• AC motor soft starters

• Temperature control (e. g. for ovens,

chemical processes)

• Professional light dimming (studios,

theaters)

Absolute Maximum Ratings

Symbol Conditions Values Unit

Chip

IT(AV) sinus 180° Tc=85°C 55 A

Tc= 100 °C 41 A

ITSM 10 ms Tj=25°C 1500 A

Tj= 130 °C 1200 A

i2t10 ms Tj=25°C 11250 kA2s

i2tTj= 130 °C 7200 kA2s

VRSM 1700 V

VRRM 1600 V

VDRM 1600 V

(di/dt)cr Tj= 130 °C 140 A/µs

(dv/dt)cr Tj= 130 °C 1000 V/µs

Tj-40 ... 130 °C

Module

Tstg -40 ... 125 °C

Visol a.c.; 50 Hz; r.m.s. 1min 3000 V

1s 3600 V

Characteristics

Symbol Conditions min. typ. max. Unit

Chip

VTTj=25°C, I

T= 180 A 1.5 1.75 V

VT(TO) Tj= 130 °C 0.85 1 V

rTTj= 130 °C 4.00 4.80 mΩ

IDD;IRD Tj= 130 °C, VDD = VDRM; VRD = VRRM 20 mA

tgd Tj=25°C, I

G=1A, di

G/dt = 1 A/µs 1µs

tgr VD = 0.67 * VDRM 2µs

tqTj= 130 °C 170 µs

IHTj=25°C 150 250 mA

ILTj=25°C, R

G=33Ω300 600 mA

VGT Tj=25°C, d.c. 2.5 V

IGT Tj=25°C, d.c. 100 mA

VGD Tj= 130 °C, d.c. 0.25 V

IGD Tj= 130 °C, d.c. 4mA

Rth(j-c) cont. per chip 0.470 K/W

per module 0.235 K/W

Rth(j-c) sin. 180° per chip 0.490 K/W

per module 0.245 K/W

Rth(j-c) rec. 120° per chip 0.510 K/W

per module 0.255 K/W

Module

Rth(c-s) chip 0.22 K/W

module 0.11 K/W

Msto heatsink M5 4.25 5.75 Nm

Mtto terminals M5 2.55 3.45 Nm

a5 * 9,81 m/s2

w75g

SKKT 57B16 E G6

Fig. 1L: Max. power dissipation per chip vs. on-state

current

Fig. 1R: Max. power dissipation per chip vs. ambient

temperature

Fig. 2L: Max. power dissipation of one module vs. rms

current

Fig. 2R: Max. power dissipation of one module vs. case

temperature

Fig. 3L: Max. power dissipation of two modules vs. direct

current

Fig. 3R: Max. power dissipation of two modules vs. case

temperature

SKKT 57B16 E G6

Fig. 4L: Max. power dissipation of three modules vs.

direct current

Fig. 4R: Max. power dissipation of three modules vs.

case temperature

Fig. 5: Recovered charge vs. current decrease Fig. 6: Transient thermal impedance vs. time

Fig. 7: On-state characteristics Fig. 8: Surge overload current vs. time

SKKT 57B16 E G6

This technical information specifies semiconductor devices but promises no characteristics. No warranty or guarantee expressed or implied

is made regarding delivery, performance or suitability.

Fig. 9: Gate trigger characteristics

SKKT...B

SEMIPACK 1