ETC DGT305RE

DGT305RE
DGT305RE
Reverse Blocking Gate Turn-off Thyristor
DS5519-2.0 February 2002
FEATURES
KEY PARAMETERS
ITCM
700A
VDRM
1800V
High Reliability In Service
IT(AV)
240A
■
High Voltage Capability
dVD/dt
500V/µs
■
Fault Protection Without Fuses
diT/dt
500A/µs
■
High Surge Current Capability
■
Turn-off Capability Allows Reduction In Equipment
Size And Weight. Low Noise Emission Reduces
Acoustic Cladding Necessary For Environmental
Requirements
■
Double Side Cooling
■
Reverse Blocking Capability
■
APPLICATIONS
■
Variable speed A.C. motor drive inverters (VSD-AC)
■
Uninterruptable Power Supplies
■
High Voltage Converters
■
Choppers
■
Welding
■
Induction Heating
■
DC/DC Converters
Outline type code: E
(See Package Details for further information)
Fig. 1 Package outline
VOLTAGE RATINGS
Type Number
DGT305SE18
Repetitive Peak Off-state Voltage Repetitive Peak Reverse Voltage
VDRM
VRRM
V
V
1800
1800
Conditions
Tvj = 125oC, IDM = 50mA,
IRRM = 50mA, VRG = 2V
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DGT305RE
CURRENT RATINGS
Symbol
Parameter
Conditions
Max.
Units
700
A
ITCM
Repetitive peak controllable on-state current VD = 67%VDRM, Tj = 125oC, diGQ/dt =15A/µs, Cs = 1.5µF
IT(AV)
Mean on-state current
THS = 80oC. Double side cooled. Half sine 50Hz.
240
A
IT(RMS)
RMS on-state current
THS = 80oC. Double side cooled. Half sine 50Hz.
373
A
SURGE RATINGS
Symbol
ITSM
I2t
diT/dt
dVD/dt
VDP
Parameter
Conditions
Max.
Units
Surge (non-repetitive) on-state current
10ms half sine. Tj = 125oC
4.0
kA
I2t for fusing
10ms half sine. Tj =125oC
80000
A2s
Critical rate of rise of on-state current
VD = 67% VDRM, IT = 700A, Tj = 125oC, IFG > 20A,
Rise time < 1.0µs
500
A/µs
Rate of rise of off-state voltage
To 80% VDRM; RGK ≤ 1.5Ω, Tj = 125oC
500
V/µs
400
V
Peak forward transient voltage during current VD = 67% VDRM, IT = 700A, Tj = 125oC,
fall time
diGQ/dt =15A/µs, Cs = 1.5µF
GATE RATINGS
Symbol
Parameter
Conditions
Min.
Max.
Units
-
16
V
VRGM
Peak reverse gate voltage
IFGM
Peak forward gate current
-
50
A
Average forward gate power
-
10
W
Peak reverse gate power
-
6
kW
PFG(AV)
PRGM
This value maybe exceeded during turn-off
diGQ/dt
Rate of rise of reverse gate current
10
50
A/µs
tON(min)
Minimum permissable on time
20
-
µs
tOFF(min)
Minimum permissable off time
40
-
µs
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DGT305RE
THERMAL RATINGS
Min.
Max.
Units
Double side cooled
-
0.075
o
C/W
Anode side cooled
-
0.12
o
C/W
Cathode side cooled
-
0.20
o
C/W
-
0.018
o
C/W
-
125
o
Operating junction/storage temperature range
–40
125
o
Clamping force
5.0
6.0
kN
Min.
Max.
Units
Symbol
Rth(j-hs)
Parameter
DC thermal resistance - junction to heatsink
surface
Rth(c-hs)
Contact thermal resistance
Tvj
Virtual junction temperature
TOP/Tstg
-
Conditions
Clamping force 5.5kN
With mounting compound
per contact
C
C
CHARACTERISTICS
Tj = 125oC unless stated otherwise
Symbol
Conditions
Parameter
VTM
On-state voltage
At 600A peak, IG(ON) = 2A d.c.
-
2.5
V
IDM
Peak off-state current
At = VDRM, VRG = 2V
-
50
mA
IRRM
Peak reverse current
At VRRM
-
50
mA
VGT
Gate trigger voltage
VD = 24V, IT = 100A, Tj = 25oC
-
0.75
V
IGT
Gate trigger current
VD = 24V, IT = 100A, Tj = 25oC
-
1.2
A
IRGM
Reverse gate cathode current
VRGM = 16V, No gate/cathode resistor
-
50
mA
EON
Turn-on energy
VD = 1200V, IT = 600A,
-
160
mJ
td
Delay time
IFG = 20A, rise time < 1.0µs
-
1.1
µs
tr
Rise time
RL = (Residual inductance 2.75µH)
-
2.5
µs
-
550
mJ
EOFF
Turn-off energy
tgs
Storage time
IT =600A, VD = 1200V,
-
30
µs
tgf
Fall time
Snubber Cap Cs = 1.5µF,
-
12
µs
tgq
Gate controlled turn-off time
diGQ/dt = 15A/µs
-
13.5
µs
QGQ
Turn-off gate charge
RL = (Residual inductance 2.75µH)
-
900
µC
QGQT
Total turn-off gate charge
-
1800
µC
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DGT305RE
CURVES
Fig.2 Gate characteristics
Fig.3 Maximum (limit) on-state characteristics
Fig.4 Dependence of ITCM on CS
Fig.5 Maximum (limit) transient thermal resistance
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DGT305RE
Fig.6 Surge (non-repetitive) on-state current vs time
Fig.7 Steady state rectangulerwave conduction loss - double side cooled
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DGT305RE
Fig.8 Steady state sinusoidal wave conduction loss - double side cooled
Fig.9 Turn-on energy vs on-state current
Fig.10 Turn-on energy vs peak forward gate current
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DGT305RE
Fig.11 Turn-on energy vs on-state current
Fig.13 Turn-on energy vs rate of rise of on-state current
Fig.12 Turn-on energy vs peak forward gate current
Fig.14 Delay time and rise time vs on-state current
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DGT305RE
Fig.15 Delay time and rise time vs peak forward gate current
Fig.16 Turn-off energy vs on-state current
Fig.17 Turn-off energy vs rate of rise of reverse gate current
Fig.18 Turn-off energy vs on-state current
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DGT305RE
Fig.19 Turn-off energy vs rate of rise of reverse gate current
Fig.20 Turn-off energy vs on-state current with CS as parameter
Fig.21 Storage time vs on-state current
Fig.22 Storage time vs rate of rise of reverse gate current
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DGT305RE
Fig.23 Fall time vs on-state current
Fig.24 Fall time vs rate of rise of reverse gate current
Fig.25 Peak reverse gate current vs on-state current
Fig.26 Peak reverse gate current vs rate of rise of reverse
gate current
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DGT305RE
Fig.27 Turn-off gate charge vs on-state current
Fig.28 Turn-off gate charge vs rat of rise of reverse gate
current
Fig.29 Dependence of critical dVD/dt on gate-cathode
resistance and gate-cathode reverse voltage
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Anode voltage and current
DGT305RE
0.9VD
0.9IT
dVD/dt
VD
VD
IT
0.1VD
td
VDM
ITAIL
VDP
tgs
tr
tgf
tgt
Gate voltage and current
dIFG/dt
0.1IFG
tgq
IFG
VFG
IG(ON)
0.1IGQ
tw1
VRG
QGQ
0.5IGQM
IGQM
V(RG)BR
Recommended gate conditions:
ITCM = 600A
IFG = 20A
IG(ON) = 2A d.c.
tw1(min) = 4.5µs
IGQM = 130A
diGQ/dt = 15A/µs
QGQ = 900µC
VRG(min) = 2V
VRG(max) = 16V
These are recommended Dynex Semiconductor conditions. Other conditions are permitted
according to users gate drive specifications.
Fig.30 General switching waveforms
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DGT305RE
PACKAGE DETAILS
For further package information, please contact Customer Services. All dimensions in mm, unless stated otherwise.
DO NOT SCALE.
30˚
15˚
2 holes Ø3.6 ± 0.1 x 2.0 ± 0.1 deep
(One in each electrode)
Cathode tab
Cathode
Ø42max
Ø25nom.
Gate
15
14
Ø25nom.
Anode
Nominal weight: 82g
Clamping force: 6kN ±10%
Package outine type code: E
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POWER ASSEMBLY CAPABILITY
The Power Assembly group was set up to provide a support service for those customers requiring more than the basic
semiconductor, and has developed a flexible range of heatsink and clamping systems in line with advances in device voltages
and current capability of our semiconductors.
We offer an extensive range of air and liquid cooled assemblies covering the full range of circuit designs in general use today.
The Assembly group offers high quality engineering support dedicated to designing new units to satisfy the growing needs of
our customers.
Using the latest CAD methods our team of design and applications engineers aim to provide the Power Assembly Complete
Solution (PACs).
HEATSINKS
The Power Assembly group has its own proprietary range of extruded aluminium heatsinks which have been designed to
optimise the performance of Dynex semiconductors. Data with respect to air natural, forced air and liquid cooling (with flow
rates) is available on request.
For further information on device clamps, heatsinks and assemblies, please contact your nearest sales representative or
Customer Services.
http://www.dynexsemi.com
e-mail: [email protected]
HEADQUARTERS OPERATIONS
DYNEX SEMICONDUCTOR LTD
Doddington Road, Lincoln.
Lincolnshire. LN6 3LF. United Kingdom.
Tel: +44-(0)1522-500500
Fax: +44-(0)1522-500550
CUSTOMER SERVICE
Tel: +44 (0)1522 502753 / 502901. Fax: +44 (0)1522 500020
SALES OFFICES
Benelux, Italy & Switzerland: Tel: +33 (0)1 64 66 42 17. Fax: +33 (0)1 64 66 42 19.
France: Tel: +33 (0)2 47 55 75 52. Fax: +33 (0)2 47 55 75 59.
Germany, Northern Europe, Spain & Rest Of World: Tel: +44 (0)1522 502753 / 502901.
Fax: +44 (0)1522 500020
North America: Tel: (949) 733-3005. Fax: (949) 733-2986.
These offices are supported by Representatives and Distributors in many countries world-wide.
© Dynex Semiconductor 2002 TECHNICAL DOCUMENTATION – NOT FOR RESALE. PRODUCED IN
UNITED KINGDOM
Datasheet Annotations:
Dynex Semiconductor annotate datasheets in the top right hard corner of the front page, to indicate product status. The annotations are as follows:Target Information: This is the most tentative form of information and represents a very preliminary specification. No actual design work on the product has been started.
Preliminary Information: The product is in design and development. The datasheet represents the product as it is understood but details may change.
Advance Information: The product design is complete and final characterisation for volume production is well in hand.
No Annotation: The product parameters are fixed and the product is available to datasheet specification.
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