C716FP Silicon Power Corporation, C716FP Datasheet
C716FP
Manufacturer Part Number
C716FP
Description
53mm / 6kv Thyristor 53mm / 6kv Thyristor 53mm / 6kv Thyristor 53mm / 6kv Thyristor 53mm / 6kv Thyristor
Manufacturer
Silicon Power Corporation
Datasheet
1.C716FP.pdf
(2 pages)
10000
1000
100
0
175 GREAT VALLEY PKWY.
On-state current , It (amperes)
Type C716 thyristor is suitable for phase control applications such as HVDC valves, static
Type C716 thyristor is suitable for phase control applications such as HVDC valves, static
Type C716 thyristor is suitable for phase control applications such as HVDC valves, static
Type C716 thyristor is suitable for phase control applications such as HVDC valves, static
Type C716 thyristor is suitable for phase control applications such as HVDC valves, static
VAR compensators and synchronous motor drives.
VAR compensators and synchronous motor drives.
VAR compensators and synchronous motor drives.
VAR compensators and synchronous motor drives.
VAR compensators and synchronous motor drives.
The silicon junction is manufactured by the proven multi-diffusion process and is supplied in
The silicon junction is manufactured by the proven multi-diffusion process and is supplied in
The silicon junction is manufactured by the proven multi-diffusion process and is supplied in
The silicon junction is manufactured by the proven multi-diffusion process and is supplied in
The silicon junction is manufactured by the proven multi-diffusion process and is supplied in
an industry standard disc-type package, ready to mount to forced or naturally cooled heat
an industry standard disc-type package, ready to mount to forced or naturally cooled heat
an industry standard disc-type package, ready to mount to forced or naturally cooled heat
an industry standard disc-type package, ready to mount to forced or naturally cooled heat
an industry standard disc-type package, ready to mount to forced or naturally cooled heat
dissipators using commercially available mechanical clamping hardware.
dissipators using commercially available mechanical clamping hardware.
dissipators using commercially available mechanical clamping hardware.
dissipators using commercially available mechanical clamping hardware.
dissipators using commercially available mechanical clamping hardware.
D
1
ON-STATE CHARACTERISTIC
ON-STATE CHARACTERISTIC
ON-STATE CHARACTERISTIC
ON-STATE CHARACTERISTIC
ON-STATE CHARACTERISTIC
MECHANICAL OUTLINE
MECHANICAL OUTLINE
MECHANICAL OUTLINE
MECHANICAL OUTLINE
MECHANICAL OUTLINE
2
On-state Voltage , Vt (volts)
On-state Voltage , Vt (volts)
A A A A A
C L
B B B B B =1.90 in (48.3 mm)
D=1.07 in (27.2 mm)
D=1.07 in (27.2 mm)
D=1.07 in (27.2 mm)
D=1.07 in (27.2 mm)
D=1.07 in (27.2 mm)
3
=1.90 in (48.3 mm)
=1.90 in (48.3 mm)
=1.90 in (48.3 mm)
=1.90 in (48.3 mm)
= 2.96 in (75.2 mm)
= 2.96 in (75.2 mm)
= 2.96 in (75.2 mm)
= 2.96 in (75.2 mm)
= 2.96 in (75.2 mm)
A Ø
C L
4
B Ø
B Ø
5
J
Process Maximum
Tcase = 115 C
pulsed current
6
MALVERN , PA 19355 USA
2 0° ±5 °
7
8
9
10
53mm / 6kV THYRISTOR
53mm / 6kV THYRISTOR
53mm / 6kV THYRISTOR
53mm / 6kV THYRISTOR
53mm / 6kV THYRISTOR
PRINCIPAL RATINGS AND CHARACTERISTICS
PRINCIPAL RATINGS AND CHARACTERISTICS
PRINCIPAL RATINGS AND CHARACTERISTICS
PRINCIPAL RATINGS AND CHARACTERISTICS
PRINCIPAL RATINGS AND CHARACTERISTICS
C r i t i c a l r a t e o f r i s e
C r i t i c a l r a t e o f r i s e
Turn-on delay
Turn-on delay
Repetitive peak off-
Repetitive peak off-
Repetitive peak off-
Repetitive peak off-
Repetitive peak off-
state & reverse volts
state & reverse volts
state & reverse volts
state & reverse volts
state & reverse volts
Repetitive working
Repetitive working
Repetitive working
Repetitive working
Repetitive working
c r e s t v o l t a g e
c r e s t v o l t a g e
c r e s t v o l t a g e
c r e s t v o l t a g e
c r e s t v o l t a g e
off-state & reverse
off-state & reverse
off-state & reverse
off-state & reverse
off-state & reverse
leakage current
leakage current
leakage current
leakage current
leakage current
Average on-state
Average on-state
Average on-state
Average on-state
Average on-state
current
current
current
current
current
Peak half-cycle
Peak half-cycle
Peak half-cycle
Peak half-cycle
Peak half-cycle
non-rep surge current
non-rep surge current
non-rep surge current
non-rep surge current
non-rep surge current
On-state voltage
On-state voltage
On-state voltage
On-state voltage
On-state voltage
C r i t i c a l r a t e o f r i s e
C r i t i c a l r a t e o f r i s e
C r i t i c a l r a t e o f r i s e
C r i t i c a l r a t e o f r i s e
C r i t i c a l r a t e o f r i s e
of on-state current
of on-state current
of on-state current
of on-state current
of on-state current
C r i t i c a l r a t e o f r i s e
C r i t i c a l r a t e o f r i s e
C r i t i c a l r a t e o f r i s e
o f o f f - s t a t e v o l t a g e
o f o f f - s t a t e v o l t a g e
o f o f f - s t a t e v o l t a g e
o f o f f - s t a t e v o l t a g e
o f o f f - s t a t e v o l t a g e
Recovery current
Recovery current
Recovery current
Recovery current
Recovery current
Turn-on delay
Turn-on delay
Turn-on delay
Turn-off time
Turn-off time
Turn-off time
Turn-off time
Turn-off time
Thermal resistance
Thermal resistance
Thermal resistance
Thermal resistance
Thermal resistance
Externally applied
Externally applied
Externally applied
Externally applied
Externally applied
clamping force
clamping force
clamping force
clamping force
clamping force
M O D E L
C716FP
C716ET
C716EN
C716ES
C716EM
C716EE
REPETITIVE PEAK REVERSE
AND OFF-STATE BLOCKING
C716
C716
C716
C716
C716
m i n i m u m s n a p f a c t o r S = 0 . 3
m i n i m u m s n a p f a c t o r S = 0 . 3
m i n i m u m s n a p f a c t o r S = 0 . 3
a l l o w a b l e s n u b b e r d i s c h a r g e
a l l o w a b l e s n u b b e r d i s c h a r g e
a l l o w a b l e s n u b b e r d i s c h a r g e
a l l o w a b l e s n u b b e r d i s c h a r g e
a l l o w a b l e s n u b b e r d i s c h a r g e
m i n i m u m s n a p f a c t o r S = 0 . 3
m i n i m u m s n a p f a c t o r S = 0 . 3
T
VOLTAGE
J
= 0 t o 1 1 5
( v o l t s )
V
6000
5900
5800
5700
5600
5500
V V V V V
V V V V V
V V V V V
V V V V V
I I I I I
I I I I I
I I I I I
I I I I I
V V V V V
d i / d t
d i / d t
d i / d t
d i / d t
d i / d t
V V V V V
d v / d t
d v / d t
d v / d t
d v / d t
d v / d t
I I I I I
t t t t t
T T T T T
R R R R R
F F F F F
d d d d d
D W M
D W M
D W M
D W M
D W M
R W M
R W M
R W M
R W M
R W M
T(AV)
T(AV)
T(AV)
T(AV)
T(AV)
T S M
T S M
T S M
T S M
T S M
R M
R M
R M
R M
R M
D R M
r e p
r e p
D R M
D R M
R R M
R R M
D W M
D W M
R W M
R W M
T M
T M
r e p
r e p
r e p
d d d d d
o f f
o f f
o f f
o f f
o f f
thJC
thJC
D R M
D R M
D R M
R R M
R R M
R R M
D W M
D W M
D W M
R W M
R W M
R W M
T M
T M
T M
thJC
thJC
thJC
=.67V
=.67V
=.67V
=.67V
=.67V
T T T T T
t o 1 1 5
t o 1 1 5
t o 1 1 5
t o 1 1 5
t o 1 1 5
T T T T T
t o 1 1 5
t o 1 1 5
t o 1 1 5
t o 1 1 5
t o 1 1 5
T T T T T
t o 1 1 5
t o 1 1 5
t o 1 1 5
t o 1 1 5
t o 1 1 5
T T T T T
70 70 70 70 70
60 Hz
60 Hz
60 Hz
60 Hz
60 Hz
50 Hz
50 Hz
50 Hz
50 Hz
50 Hz
I I I I I
t t t t t
T T T T T
T T T T T
60 Hz
60 Hz
60 Hz
60 Hz
60 Hz
T T T T T
V V V V V
T T T T T
Vd=.5V
Vd=.5V
Vd=.5V
Vd=.5V
Vd=.5V
5A/us,-100V
5A/us,-100V
5A/us,-100V
5A/us,-100V
5A/us,-100V
20V/us to 2000V
20V/us to 2000V
20V/us to 2000V
20V/us to 2000V
20V/us to 2000V
D R M
D R M
D R M
D R M
D R M
P P P P P
T T T T T
J J J J J
J J J J J
J J J J J
case
case
case
case
case
=8ms
=8ms
=8ms
=8ms
=8ms
J J J J J
J J J J J
J J J J J
DCRIT
DCRIT
DCRIT
J J J J J
=500A
=500A
=500A
=500A
=500A
DCRIT
DCRIT
=0 =0
=0
=0 =0
=0
=0 =0
=0
=115
=115
=115
=115
=115
=115
=115
=115
=0
=0
=0
=0
=0
=0
o o o o o
=115
=115
=115
=115
=115
=115
=115
=115
=115
=115
=115
=115
o
C C C C C
2 A / u s
2 A / u s
5 A / u s
5 A / u s
2 A / u s
2 A / u s
2 A / u s
5 A / u s
5 A / u s
5 A / u s
C
= = = = =
o o o o o
o o o o o
o o o o o
=60%V
=60%V
=60%V
=60%V
=60%V
C C C C C
C C C C C
C C C C C
o o o o o
o o o o o
o o o o o
o o o o o
C C C C C
C C C C C
C C C C C
C C C C C
D R M
D R M
D R M
D R M
D R M
( v o l t s )
V
6000
5900
5800
5700
5600
5500
R R M
D R M
D R M
D R M
D R M
D R M
P G : 6 . 0 6 4 1 / 3 / 9 2
u p t o
u p t o
u p t o
u p t o
u p t o
6000
6000
6000
6000
6000
0.8V
0.8V
0.8V
0.8V
0.8V
0.8V
0.8V
0.8V
0.8V
0.8V
75 75 75 75 75
75
75 75
75 75
550
550
550
550
550
2 . 0 0
2 . 0 0
2 . 0 0
2 . 0 0
2 . 0 0
50 50
50 50
50
50
50 50
50 50
1500
1500
1500
1500
1500
60 60 60 60 60
100
100
100
100
100
5 5 5 5 5
600
600
600
600
600
. 0 2 5
. 0 2 5
. 0 2 5
. 0 2 5
. 0 2 5
5500
5500
5500
5500
5500
2 4 . 5
2 4 . 5
2 4 . 5
2 4 . 5
2 4 . 5
6 6 6 6 6
5 . 5
5 . 5
5 . 5
5 . 5
5 . 5
D R M
D R M
R R M
R R M
D R M
D R M
D R M
R R M
R R M
R R M
V V V V V
m a
m a
m a
kA
kA
kA
V V V V V
A/us
A/us
A/us
A A A A A
V/us
V/us
V/us
A A A A A
u s u s u s u s u s
u s u s u s u s u s
c/w
c/w
c/w
l b s .
l b s .
l b s .
kN
kN
kN
m a
m a
kA
kA
A/us
A/us
V/us
V/us
c/w
c/w
l b s .
l b s .
kN
kN
A A A A A
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C716FP Summary of contents
Page 1
... Externally applied Externally applied Externally applied Externally applied Externally applied clamping force clamping force clamping force clamping force clamping force C716FP C716ET C716EN C716ES C716EM C716EE C716 C716 C716 C716 C716 ...
Page 2
FULL CYCLE AVERAGE POWER LOSS versus PEAK CURRENT at 50/60 Hz (plasma spreading and conduction loss) Average Power, Pavg (Watts) 3000 2750 2500 120 deg.sq. wave overlap angle = 20 degree 2250 2000 1750 1500 1250 1000 750 500 250 ...