Sanken Electric Co FMQ-G5GS Datasheet
Damper Diodes (For Display)
Parameter
V
Type No.
RM
(V)
FMP-G2FS
FMQ-G2FLS
1500
FMQ-G2FS
FMQ-G5FMS
FMQ-G5GS
FMP-G5HS
RG 2A2
RC 3B2
1700
1800
1300
1600
FMP-G2FS
I
F(AV)—PF(AV)
20
Tj=150ºC
(W)
t
16
T
F(AV)
12
8
4
Forward Power Loss P
001234
Average Forward Current I
Characteristics
=
t/ T 1/3, Sinewave
Absolute Maximum Ratings
I
FSM
I
F (AV)
(A)
(A)
50Hz
Half-cycle Sinewave
Single Shot
5.0
10.0
50
8.0
0.5
=
t/ T 1/6
D.C.
1.0
=
t/ T 1/2
F(AV)
5
(A)
20
(A)
F
Forward Current I
0.001
Tj
(°C)
Tstg
(°C)
V
(V)
max
2.0
1.8
–40 to +150
2.8
2.4
2.7
5
–40 to +150
VF—IF Characteristics (Typical)
20
10
1
0.1
0.01
0 0.5 1.0 1.5 2.0
Forward Voltage VF (V)
3.5
3.6
=
T a 125ºC
100ºC
60ºC
25ºC
F
10.0
(A)
I
F
5.0
8.02.0
0.5
1.0
Electrical Characteristics (Ta
I
(µA)
V
R =
max
R
V
RM
Ta = 100°C max
I
R
(H)
(µA)
V
V
R =
500
50
100
25
100
500
150°C)
(Tj
=
500
250
500
Tc—I
5
(A)
4
F(AV)
Average Forward Current I
=
t/ T 1/2
3
t/ T=1/ 3, Sinewave
2
1
70090 150
Case Temperature Tc (°C)
RM
F(AV)
t/ T 1/6
t
0.7
1.2
0.5
1.0
0.1
0.07
Derating
=
rr
➀
(µs)
/
I
I
F
RP
(mA)
500/500
100/100
500/500
130110
D.C.
25°C)
=
0.3
0.4
0.2
0.4
0.05
0.035
t
rr
➁
/
I
F
(mA)
I
RP
Rth (j- )
(°C/W) (g)
(µs)
4.0 2.1
500/1000
2.0 6.5
100/200
500/1000
12.0 0.6
10.0 1.0
I
Rating
FMS
50
(A)
FSM
40
30
20
10
Peak Forward Surge Current I
0
1 5
Overcurrent Cycles
Mass
Others
Fig.
A
B
C
D
(A)
FSM
I
20ms
Remarks
For
Compensation
50 10
FMQ-G2FLS
I
F(AV)—PF(AV)
30
Tj=150ºC
(W)
t
25
T
F(AV)
20
15
10
5
Forward Power Loss P
0
0
Average Forward Current I
Characteristics
t/T=1/6
Sinewave
FMQ-G2FS
I
F(AV)—PF(AV)
40
Tj=150ºC
(W)
t
T
30
F(AV)
t/T=1/3,
20
10
Forward Power Loss P
0
02 684
Average Forward Current I
External Dimensions
(Unit: mm) (Full-mold)
Flammability:
UL94V-0 or Equivalent
Characteristics
Sinewave
DC
t/ T=1/6
Fig.
t/T=1/3
t/T=1/2
F(AV)
t/T=1/2
F(AV)
A
10.0
2.2
5.08
D.C.
Tc—I
10
(A)
8
F(AV)
t/T=1/6
6
4
2
Average Forward Current I
0
102468
(A)
10
(A)
Fig. Fig. Fig.
1.35
0.85
23.0
16.2
B
9.5
3.3
4.2
3.3
2.8
4.0
8.4
16.9
0.8
3.9
2.6
(13.5)
0.45
5.5
1.6
15.6
±0.2
0
Tc—I
10
(A)
8
F(AV)
t/T=1/6
t/T=1/3, Sinewave
6
4
2
Average Forward Current I
0
0 40 80 120
±0.2
5.5
3.3
±1.75
1.75
+0.2
1.05
–0.1
5.455.45
Derating
F(AV)
Sinewave
Case Temperature Tc (°C)
F(AV)
t/ T=1/2
Case Temperature Tc (°C)
±0.2
3.45
3.0
0.8
+0.2
0.65
–0.1
3.35
Derating
t/T=1/3
C
±0.7
62.5
t/T=1/2
D.C.
±0.2
7.2
DC
15025 50 75 100 125
160
0.98
Cathode Mark
4.0
I
Rating
FMS
50
(A)
FSM
40
30
20
10
Peak Forward Surge Current I
0
1 5 50 10
Overcurrent Cycles
I
Rating
FMS
50
(A)
FSM
40
30
20
10
Peak Forward Surge Current I
0
1 5 50 10
Overcurrent Cycles
D
±0.05
±0.7
±0.2
±0.2
62.5
9.1
(A)
FSM
I
20ms
(A)
FSM
I
20ms
±0.05
1.2
Cathode Mark
5.2
±0.2
74
FMQ-G5FMS
I
F(AV)—PF(AV)
25
Tj=150ºC
(W)
t
20
T
F(AV)
t/ T=1/3, Sinewave
15
10
5
Forward Power Loss P
002468
Average Forward Current I
Characteristics
t/ T 1/6
I
50
10
10
(A)Forward Current I
F
1
=
0.1
Forward Current I
0.01
0.001
0 0.5 1.0 1.5 2.0 3.02.5
T a 125ºC
100ºC
60ºC
25ºC
Forward Voltage VF (V)
=
=
t/ T 1/2
D.C.
(A)
F(AV)
Tc—I
10
(A)
8
F(AV)
6
t/ T=1/3, Sinewave
4
2
Average Forward Current I
80090 100 150
Derating
F(AV)
=
t/ T 1/6
Case Temperature Tc (°C)
t/ T 1/2
130 140110 120
=
D.C.
50
(A)Peak Forward Surge Current I
FSM
40
30
20
10
Peak Forward Surge Current I
RatingVF—IF Characteristics (Typical)
FMS
0
1 5 50 10
Overcurrent Cycles
(A)
FSM
I
20ms
FMQ-G5GS
I
F(AV)—PF(AV)
40
Tj=150ºC
(W)
t
T
30
F(AV)
t/ T=1/3, Sinewave
20
10
Forward Power Loss P
002468
Average Forward Current I
Characteristics
=
t/ T 1/6
D.C.
FMP-G5HS
I
F(AV)—PF(AV)
20
Tj=150ºC
(W)
t
16
T
F(AV)
t/ T=1/ 3, Sinewave
12
=
t/ T 1/6
8
4
Forward Power Loss P
0
0
Average Forward Current I
Characteristics
D.C.
246
RG 2A2
Ta—I
0.5
(A)
0.4
F(AV)
0.3
0.2
0.1
Average Forward Current I
0
0255040 75 100 125 150
Derating
F(AV)
Ambient Temperature Ta (°C) Overcurrent Cycles
RC 3B2
T —I
1.0
(A)
0.8
F(AV)
t/T=1/6
0.6
t/T=1/3
0.4
0.2
Average Forward Current I
0
90 100 130120110 140 150
Characteristics
F(AV)
,
Half-cycle Sinewave
Lead Temperature T (°C)
=
t/ T 1/2
F(AV)
=
t/ T 1/2
F(AV)
t/T=1/2
10
(A)
8
(A)
DC
50
10
(A)Forward Current I
F
1
=
T a 125ºC
0.1
0.01
0.001
0 0.5 1.0 1.5 2.0 2.5 3.53.0
50
10
(A)
F
1
0.1
0.01
0.001
0 1.0 2.0 3.0
100ºC
60ºC
25ºC
Forward Voltage VF (V) Case Temperature Tc (°C)
=
T a 125ºC
100ºC
60ºC
25ºC
Forward Voltage VF (V) Case Temperature Tc (°C)
VF—IF Characteristics (Typical)
3
1
(A)
F
0.1
0.01
Forward Current I
0.001
VF—IF Characteristics (Typical)
10
1
(A)
F
0.1
Forward Current I
0.01
0.001
0123456789
Tc—I
10
(A)
8
F(AV)
t/ T 1/2
6
t/ T=1/3, Sinewave
4
2
Average Forward Current I
40060 80 160140
Tc—I
8
(A)
F(AV)
6
=
t/ T 1/6
4
t/ T=1/3, Sinewave
2
Average Forward Current I
0
90
=
T a 150ºC
100ºC
60ºC
25ºC
0.6 1.0 1.4 1.8 0.2 2.2 2.6 3.0
Forward Voltage VF (V)
Ta=150ºC
100ºC
60ºC
25ºC
Forward Voltage VF (V)
F(AV)
=
t/ T 1/6
F(AV)
Derating
=
Derating
120100
t/ T 1/2
130 140120110100
D.C.
=
D.C.
150
I
FMS
50
(A)Peak Forward Surge Current I
FSM
40
30
20
10
0
1 5 50 10
I
FMS
50
(A)
FSM
40
30
20
10
0
1 5 50 10
I
Rating
FMS
5
(A)
FSM
4
3
2
1
Peak Forward Surge Current I
0
1 5 50 10
I
Rating
FMS
20
(A)
FSM
16
12
8
4
Peak Forward Surge Current I
0
1 5 50 10
Overcurrent Cycles
RatingVF—IF Characteristics (Typical)
(A)
FSM
I
Overcurrent Cycles
RatingVF—IF Characteristics (Typical)
(A)
FSM
I
Overcurrent Cycles
(A)
FSM
I
20ms
(A)
FSM
I
20ms
20ms
20ms
75
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