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| T3710N Datasheet, PDF (1/10 Pages) Infineon Technologies AG – Netz-Thyristor Phase Control Thyristor | |||
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Datenblatt / Data sheet
Netz-Thyristor
Phase Control Thyristor
T3710N
Elektrische Eigenschaften / Electrical properties
Höchstzulässige Werte / Maximum rated values
PereiondinscdhaetVeonrwärts- und Rückwärts-Spitzensperrspannung Tvj = -40°C... Tvj max
repetitive peak forward off-state and reverse voltages
Elektrische Eigenschaften
Vorwärts-Stossspitzensperrspannung
Tvj = -40°C... Tvj max
non-repetitive peak forward off-state voltage
VDRM,VRRM
VDSM
Rückwärts-Stossspitzensperrspannung
non-repetitive peak reverse voltage
Tvj = +25°C... Tvj max
VRSM
Durchlassstrom-Grenzeffektivwert
maximum RMS on-state current
Dauergrenzstrom
average on-state current
Dauergrenzstrom
average on-state current
DurchlaÃstrom-Effektivwert
RMS on-state current
Stossstrom-Grenzwert
surge current
Grenzlastintegral
I²t-value
Kritische Stromsteilheit
critical rate of rise of on-state current
Kritische Spannungssteilheit
critical rate of rise of off-state voltage
ITRMSM
TC = 85 °C
ITAVM
TC = 55 °C, θ = 180°sin, tP = 10 ms ITAVM
ITRMS
Tvj = 25 °C °C, tP = 10 ms
Tvj = Tvj max, tP = 10 ms
Tvj = 25 °C, tP = 10 ms
Tvj = Tvj max, tP = 10 ms
DIN IEC 60747-6
f = 50 Hz, iGM = 1A, diG/dt = 1 A/µs
Tvj = Tvj max, vD = 0,67 VDRM
5.Kennbuchstabe / 5th letter F
ITSM
I²t
(diT/dt)cr
(dvD/dt)cr
Charakteristische Werte / Characteristic values
Durchlassspannung
on-state voltage
Schleusenspannung
threshold voltage
Ersatzwiderstand
slope resistance
Durchlasskennlinie 1000 A ⤠iT ⤠18000 A
on-state characteristic
v T = A + B â
iT + C â
ln (iT + 1) + D â
iT
Zündstrom
gate trigger current
Zündspannung
gate trigger voltage
Nicht zündender Steuerstrom
gate non-trigger current
Nicht zündende Steuerspannung
gate non-trigger voltage
Haltestrom
holding current
Einraststrom
latching current
Vorwärts- und Rückwärts-Sperrstrom
forward off-state and reverse current
Zündverzug
gate controlled delay time
1) 600 V auf Anfrage / 600 V on request
Tvj = Tvj max , iT = 15 kA
Tvj = Tvj max , iT = 4 kA
Tvj = Tvj max
Tvj = Tvj max
Tvj = Tvj max
Tvj = 25 °C, vD = 12V
Tvj = 25 °C, vD = 12V
Tvj = Tvj max , vD = 12V
Tvj = Tvj max , vD = 0,5 VDRM
Tvj = Tvj max , vD = 0,5 VDRM
vT
V(TO)
rT
A=
B=
C=
D=
IGT
VGT
IGD
VGD
Tvj = 25°C, vD = 12V
IH
Tvj = 25°C, vD = 12V, RGK ⥠10 â¦
IL
iGM = 1 A, diG/dt = 1 A/µs, tg = 20 µs
Tvj = Tvj max
vD = VDRM, vR = VRRM
iD, iR
DIN IEC 60747-6
tgd
Tvj = 25 °C, iGM = 1 A, diG/dt = 1 A/µs
200 V
400 V
600 V 1)
200 V
400 V
600 V
250 V
450 V
650 V
7000 A
3710 A
5060 A
7950 A
70000 A
60000 A
24500 10³ A²s
18000 10³ A²s
200 A/µs
1000 V/µs
max.
max.
1,50 V
0,96 V
0,75 V
0,048 mâ¦
2,835E-01
4,576E-05
6,526E-02
-7,919E-04
max. 250 mA
max. 1,5 V
max.
max.
max.
10 mA
5 mA
0,2 V
max. 300 mA
max. 1200 mA
max. 200 mA
max.
4 µs
prepared by: H.Sandmann
approved by: M.Leifeld
date of publication: 2009-03-12
revision:
2.0
IFBIP D AEC / 2009-03-12, H.Sandmann A 12/09
Seite/page 1/10
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