BYV26E [TAYCHIPST]
Fast soft-recovery controlled avalanche rectifiers; 快速软恢复控制雪崩整流器型号: | BYV26E |
厂家: | SHENZHEN TAYCHIPST ELECTRONIC CO., LTD |
描述: | Fast soft-recovery controlled avalanche rectifiers |
文件: | 总7页 (文件大小:3614K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
BYV26 series
Fast soft-recovery
200V-1400V 0.65A-1.05
controlled avalanche rectifiers
FEATURES
• Glass passivated
• High maximum operating
• Low leakage current
temperature
• Excellent stability
3.81
max
• Guaranteed avalanche energy
• Available in ammo-pack.
absorption capability
8
SOD57
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
LIMITING VALUES
SYMBOL
PARAMETER
CONDITIONS
MIN.
MAX.
UNIT
repetitive peak reverse voltage
BYV26A
−
−
−
−
−
−
−
200
V
V
V
V
V
V
V
BYV26B
400
600
BYV26C
VRRM
V
=
R
BYV26D
800
BYV26E
1000
1200
1400
BYV26F
BYV26G
average forward current
BYV26A to E
T = 85 °C; lead length = 10 mm;
tp
IF(AV)
IF(AV)
IFRM
see Figs 2 and 3;
−
−
1.00
1.05
A
A
averaged over any 20 ms period;
see also Figs 10 and 11
BYV26F and G
average forward current
BYV26A to E
amb = 60 °C; PCB mounting (see
T
Fig.19); see Figs 4 and 5;
averaged over any 20 ms period;
see also Figs 10 and 11
−
−
0.65
0.68
A
A
BYV26F and G
repetitive peak forward current
BYV26A to E
−
−
10.0
9.6
A
A
tp = 85 °C; see Figs 6 and 7
T
BYV26F and G
SYMBOL
PARAMETER
CONDITIONS
MIN.
MAX.
UNIT
IFRM
repetitive peak forward current
BYV26A to E
Tamb = 60 °C; see Figs 8 and 9
−
−
−
6.0
6.4
30
A
A
A
BYV26F and G
IFSM
non-repetitive peak forward current t = 10 ms half sine wave; Tj = Tj max
prior to surge; VR = VRRMmax
ERSM
non-repetitive peak reverse
avalanche energy
IR = 400 mA; Tj = Tj max prior to
surge; inductive load switched off
−
10 mJ
Tstg
Tj
storage temperature
junction temperature
−65
−65
+175 °C
+175 °C
see Figs 12 and 13
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1 of 7
BYV26 series
Fast soft-recovery
200V-1400V 0.65A-1.05
controlled avalanche rectifiers
ELECTRICAL CHARACTERISTICS
Tj = 25 °C unless otherwise specified.
SYMBOL
PARAMETER
forward voltage
CONDITIONS
IF = 1 A; Tj = Tj max
MIN.
TYP.
MAX.
UNIT
VF
;
see Figs 14 and 15
BYV26A to E
BYV26F and G
forward voltage
BYV26A to E
−
−
−
−
1.3
1.3
V
V
VF
IF = 1 A;
see Figs 14 and 15
−
−
−
−
2.50
2.15
V
V
BYV26F and G
V(BR)R
reverse avalanche breakdown
voltage
IR = 0.1 mA
BYV26A
BYV26B
300
500
700
900
1100
1300
1500
−
−
−
−
−
−
−
−
−
−
−
−
V
V
V
V
V
V
V
BYV26C
−
BYV26D
−
BYV26E
−
BYV26F
−
BYV26G
−
IR
reverse current
VR = VRRMmax; see Fig.16
5
µA
µA
VR = VRRMmax
;
−
150
Tj = 165 °C; see Fig.16
trr
reverse recovery time
BYV26A to C
when switched from
IF = 0.5 A to IR = 1 A;
measured at IR = 0.25 A;
see Fig.20
−
−
−
−
−
−
30
75
ns
ns
ns
BYV26D and E
BYV26F and G
diode capacitance
BYV26A to C
150
Cd
f = 1 MHz; VR = 0 V;
see Figs 17 and 18
−
−
−
45
40
35
−
−
−
pF
pF
pF
BYV26D and E
BYV26F and G
SYMBOL
PARAMETER
CONDITIONS
MIN.
TYP.
MAX.
UNIT
when switched from
IF = 1 A to VR ≥ 30 V and
dIF/dt = −1 A/µs;
maximum slope of reverse recovery
current
dIR
--------
dt
BYV26A to C
BYV26D and E
BYV26F and G
−
−
−
−
−
−
7
6
5
A/µs
A/µs
A/µs
see Fig.21
THERMAL CHARACTERISTICS
SYMBOL
PARAMETER
CONDITIONS
VALUE
UNIT
Rth j-tp
Rth j-a
thermal resistance from junction to tie-point
thermal resistance from junction to ambient
lead length = 10 mm
note 1
46
K/W
K/W
100
Note
1. Device mounted on an epoxy-glass printed-circuit board, 1.5 mm thick; thickness of Cu-layer ≥40 µm, see Fig.19.
For more information please refer to the “General Part of associated Handbook”.
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Web Site: www.taychipst.com
2 of 7
BYV26 series
Fast soft-recovery
200V-1400V 0.65A-1.05
controlled avalanche rectifiers
RATINGS AND CHARACTERISTIC CURVES
BYV26 series
1
2
handbook, halfpage
handbook, halfpage
20 15 10 lead length (mm)
I
I
F(AV)
F(AV)
(A)
(A)
lead length 10 mm
0.5
1
0
0
0
o
o
100
200
0
100
200
T
( C)
T
( C)
tp
tp
Fig.1 Maximum average forward current as a
function of tie-point temperature (including
losses due to reverse leakage).
Fig.2 Maximum average forward current as a
function of tie-point temperature (including
losses due to reverse leakage).
1
1
handbook, halfpage
handbook, halfpage
I
I
F(AV)
(A)
F(AV)
(A)
0.5
0.5
0
0
o
o
0
100
200
0
100
200
T
( C)
amb
losses due to reverse leakage).
losses due to reverse leakage).
Fig.3 Maximum average forward current as a
function of ambient temperature (including
Fig.4 Maximum average forward current as a
function of ambient temperature (including
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3 of 7
BYV26 series
Fast soft-recovery
200V-1400V 0.65A-1.05
controlled avalanche rectifiers
12
FRM
(A)
I
10
= 0.05
δ
8
6
0.1
4
2
0.2
0.5
1
0
10
2
1
2
3
4
10
1
10
10
10
10
t
(ms)
p
BYV26A to E.
Ttp = 85°C; Rth j-tp = 46 K/W.
VRRMmax during 1 − δ; curves include derating for Tj max at VRRM = 1000 V.
Fig.5 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor.
10
I
FRM
(A)
= 0.05
δ
8
0.1
6
0.2
4
2
0.5
1
0
10
2
1
2
3
4
10
1
10
10
10
10
t
(ms)
p
BYV26F and G.
Ttp = 85°C; Rth j-tp = 46 K/W.
VRRMmax during 1 − δ; curves include derating for Tj max at VRRM = 1400 V.
Fig.6 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor.
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4 of 7
BYV26 series
Fast soft-recovery
200V-1400V 0.65A-1.05
controlled avalanche rectifiers
6
I
FRM
(A)
δ = 0.05
5
4
3
0.1
0.2
2
1
0.5
1
0
10
2
1
2
3
4
10
1
10
10
10
10
t
(ms)
p
BYV26A to E
amb = 60 °C; Rth j-a = 100 K/W.
VRRMmax during 1 − δ; curves include derating for Tj max at VRRM = 1000 V.
T
Fig.7 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor.
8
I
FRM
(A)
6
= 0.05
δ
0.1
4
2
0.2
0.5
1
0
10
2
1
2
3
4
10
1
10
10
10
10
t
(ms)
p
BYV26F and G
Tamb = 60 °C; Rth j-a = 100 K/W.
VRRMmax during 1 − δ; curves include derating for Tj max at VRRM = 1400 V.
Fig.8 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor.
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Web Site: www.taychipst.com
5 of 7
BYV26 series
Fast soft-recovery
200V-1400V 0.65A-1.05
controlled avalanche rectifiers
3
3
P
P
(W)
(W)
a = 3 2.5
2
1.57
1.42
a = 3 2.5
2
2
2
1.57
1.42
1
0
1
0
0
0.5
1
0
0.5
1
I
(A)
I
(A)
F(AV)
F(AV)
BYV26A to E
a = IF(RMS)/IF(AV); VR = VRRMmax; δ = 0.5.
BYV26F and G
a = IF(RMS)/IF(AV); VR = VRRMmax; δ = 0.5.
Fig.9 Maximum steady state power dissipation
(forward plus leakage current losses,
excluding switching losses) as a function of
average forward current.
Fig.10 Maximum steady state power dissipation
(forward plus leakage current losses,
excluding switching losses) as a function of
average forward current.
200
200
handbook, halfpage
handbook, halfpage
T
j
T
j
o
o
( C)
( C)
100
100
A
B
C
D
E
F
G
0
0
0
400
800
1200
0
1000
2000
V
(V)
V
(V)
R
R
BYV26A to E
BYV26F and G
Solid line = VR.
Solid line = VR.
Dotted line = VRRM; δ = 0.5.
Dotted line = VRRM; δ = 0.5.
Fig.11 Maximum permissible junction temperature
as a function of reverse voltage.
Fig.12 Maximum permissible junction temperature
as a function of reverse voltage.
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Web Site: www.taychipst.com
6 of 7
BYV26 series
Fast soft-recovery
200V-1400V 0.65A-1.05
controlled avalanche rectifiers
8
8
handbook, halfpage
handbook, halfpage
I
I
F
F
(A)
(A)
6
6
4
2
4
2
0
0
0
0
2
4
6
8
2
4
6
V
(V)
V (V)
F
F
BYV26A to E
BYV26F and G
Dotted line: Tj = 175 °C.
Solid line: Tj = 25 °C.
Dotted line: Tj = 175 °C.
Solid line: Tj = 25 °C.
Fig.13 Forward current as a function of forward
voltage; maximum values.
Fig.14 Forward current as a function of forward
voltage; maximum values.
3
10
2
10
handbook, halfpage
handbook, halfpage
I
R
(µA)
C
d
(pF)
2
10
BYV26A,B,C
BYV26D,E
10
10
1
1
3
2
1
10
10
10
V
(V)
0
100
200
T (°C)
R
j
BYV26A to E
f = 1 MHz; Tj = 25 °C.
VR = VRRMmax
.
Fig.15 Reverse current as a function of junction
temperature; maximum values.
Fig.16 Diode capacitance as a function of reverse
voltage, typical values.
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Web Site: www.taychipst.com
7 of 7
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