DISCRETE SEMICONDUCTORS
book, halfpage
M3D122
BYD71 series
Ultra fast low-loss
controlled avalanche rectifiers
Product specification |
1996 May 24 |
Supersedes data of February 1992
File under Discrete Semiconductors, SC01
Philips Semiconductors |
Product specification |
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Ultra fast low-loss
BYD71 series
controlled avalanche rectifiers
FEATURES
·Glass passivated
·High maximum operating temperature
·Low leakage current
·Excellent stability
·Guaranteed avalanche energy absorption capability
·Available in ammo-pack.
DESCRIPTION |
hermetically sealed and fatigue free |
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Cavity free cylindrical SOD91 glass |
as coefficients of expansion of all |
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used parts are matched. |
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package through Implotecä(1) |
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technology. This package is |
(1) Implotec is a trademark of Philips. |
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k |
a |
MAM196
Fig.1 Simplified outline (SOD91) and symbol.
LIMITING VALUES
In accordance with the Absolute Maximum Rating System (IEC 134).
SYMBOL |
PARAMETER |
CONDITIONS |
MIN. |
MAX. |
UNIT |
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VRRM |
repetitive peak reverse voltage |
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BYD71A |
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- |
50 |
V |
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BYD71B |
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- |
100 |
V |
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BYD71C |
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- |
150 |
V |
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BYD71D |
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- |
200 |
V |
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BYD71E |
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- |
250 |
V |
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BYD71F |
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- |
300 |
V |
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BYD71G |
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- |
400 |
V |
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VR |
continuous reverse voltage |
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BYD71A |
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- |
50 |
V |
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BYD71B |
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- |
100 |
V |
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BYD71C |
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- |
150 |
V |
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BYD71D |
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- |
200 |
V |
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BYD71E |
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- |
250 |
V |
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BYD71F |
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- |
300 |
V |
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BYD71G |
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- |
400 |
V |
IF(AV) |
average forward current |
Ttp = 55 °C; lead length = 10 mm; |
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BYD71A to D |
see Figs 2 and 3; |
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0.56 |
A |
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BYD71E to G |
averaged over any 20 ms period; |
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0.54 |
A |
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see also Figs 10 and 11 |
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IF(AV) |
average forward current |
Tamb = 60 °C; PCB mounting (see |
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BYD71A to D |
Fig.16); see Figs 4 and 5; |
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0.43 |
A |
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BYD71E to G |
averaged over any 20 ms period; |
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0.41 |
A |
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see also Figs 10 and 11 |
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IFRM |
repetitive peak forward current |
Ttp = 55 °C; see Figs 6 and 7 |
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BYD71A to D |
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- |
4.7 |
A |
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BYD71E to G |
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- |
5.0 |
A |
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1996 May 24 |
2 |
Philips Semiconductors |
Product specification |
|
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Ultra fast low-loss
BYD71 series
controlled avalanche rectifiers
SYMBOL |
PARAMETER |
CONDITIONS |
MIN. |
MAX. |
UNIT |
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IFRM |
repetitive peak forward current |
Tamb = 60 °C; see Figs 8 and 9 |
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BYD71A to D |
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− |
3.7 |
A |
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BYD71E to G |
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− |
3.9 |
A |
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IFSM |
non-repetitive peak forward current |
t = 10 ms half sine wave; |
− |
7 |
A |
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Tj = Tj max prior to surge; |
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VR = VRRMmax |
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PRSM |
non-repetitive peak reverse power |
t = 20 μs half sine wave; Tj = Tj max |
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dissipation |
prior to surge |
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BYD71A to D |
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− |
250 |
W |
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BYD71E to G |
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− |
150 |
W |
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Tstg |
storage temperature |
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−65 |
+175 |
°C |
Tj |
junction temperature |
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−65 |
+175 |
°C |
ELECTRICAL CHARACTERISTICS
Tj = 25 °C unless otherwise specified.
SYMBOL |
PARAMETER |
CONDITIONS |
MIN. |
TYP. |
MAX. |
UNIT |
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VF |
forward voltage |
IF = 0.5 A; Tj = Tj max; |
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BYD71A to D |
see Figs 12 and 13 |
− |
− |
0.84 |
V |
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BYD71E to G |
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− |
− |
0.90 |
V |
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VF |
forward voltage |
IF = 0.5 A; |
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BYD71A to D |
see Figs 12 and 13 |
− |
− |
1.05 |
V |
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BYD71E to G |
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− |
− |
1.11 |
V |
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V(BR)R |
reverse avalanche breakdown |
IR = 0.1 mA |
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voltage |
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BYD71A |
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55 |
− |
− |
V |
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BYD71B |
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110 |
− |
− |
V |
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BYD71C |
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165 |
− |
− |
V |
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BYD71D |
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220 |
− |
− |
V |
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BYD71E |
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275 |
− |
− |
V |
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BYD71F |
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330 |
− |
− |
V |
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BYD71G |
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440 |
− |
− |
V |
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IR |
reverse current |
VR = VRRMmax; |
− |
− |
1 |
μA |
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see Fig 14 |
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VR = VRRMmax; |
− |
− |
75 |
μA |
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Tj = 165 °C; see Fig 14 |
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trr |
reverse recovery time |
when switched from |
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BYD71A to D |
IF = 0.5 A to IR = 1 A; |
− |
− |
25 |
ns |
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BYD71E to G |
measured at IR = 0.25 A |
− |
− |
50 |
ns |
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see Fig 18 |
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Cd |
diode capacitance |
f = 1 MHz; VR = 0 V; |
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BYD71A to D |
see Fig.15 |
− |
25 |
− |
pF |
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BYD71E to G |
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− |
20 |
− |
pF |
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1996 May 24 |
3 |
Philips Semiconductors |
Product specification |
|
|
Ultra fast low-loss
BYD71 series
controlled avalanche rectifiers
SYMBOL |
PARAMETER |
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CONDITIONS |
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MIN. |
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TYP. |
MAX. |
UNIT |
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dIR |
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maximum slope of reverse recovery |
when switched from |
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-------- |
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current |
IF = 1 A to VR ³ 30 V |
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dt |
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and dIF/dt = -1 A/ms; |
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- |
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- |
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A/ms |
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BYD71A to D |
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4 |
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see Fig.17 |
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BYD71E to G |
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- |
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5 |
A/ms |
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THERMAL CHARACTERISTICS |
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SYMBOL |
PARAMETER |
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CONDITIONS |
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VALUE |
UNIT |
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Rth j-tp |
thermal resistance from junction to tie-point |
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lead length = 10 mm |
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180 |
K/W |
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Rth j-a |
thermal resistance from junction to ambient |
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note 1 |
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250 |
K/W |
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Note
1.Device mounted on an epoxy-glass printed-circuit board, 1.5 mm thick; thickness of Cu-layer ³40 mm, see Fig.16. For more information please refer to the ‘General Part of Handbook SC01’.
1996 May 24 |
4 |
Philips Semiconductors |
Product specification |
|
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Ultra fast low-loss
BYD71 series
controlled avalanche rectifiers
GRAPHICAL DATA |
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0.8 |
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MCD565 |
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handbook, halfpage |
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IF(AV) |
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(A) |
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0.6 |
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lead length 10 mm |
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0.4 |
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0.2 |
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0 |
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0 |
100 |
200 |
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Ttp (oC) |
BYD71A to D
a = 1.42; VR = VRRMmax; δ = 0.5. Switched mode application.
Fig.2 Maximum permissible average forward current as a function of tie-point temperature (including losses due to reverse leakage).
0.8 |
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MCD564 |
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handbook, halfpage |
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IF(AV) |
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(A) |
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0.6 |
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lead length 10 mm |
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0.4 |
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0.2 |
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0 |
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0 |
100 |
200 |
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Ttp (oC) |
BYD71E to G
a = 1.42; VR = VRRMmax; δ = 0.5. Switched mode application.
Fig.3 Maximum permissible average forward current as a function of tie-point temperature (including losses due to reverse leakage).
MGC526
0.6 handbook, halfpage
IF(AV)
(A)
0.4
0.2
0
0 |
100 |
200 |
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Tamb (oC) |
BYD71A to D
a = 1.42; VR = VRRMmax; δ = 0.5. Device mounted as shown in Fig.16.
Switched mode application.
Fig.4 Maximum permissible average forward current as a function of ambient temperature (including losses due to reverse leakage).
MGC527
0.6 handbook, halfpage
IF(AV)
(A)
0.4
0.2
0
0 |
100 |
200 |
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Tamb (oC) |
BYD71E to G
a = 1.42; VR = VRRMmax; δ = 0.5. Device mounted as shown in Fig.16.
Switched mode application.
Fig.5 Maximum permissible average forward current as a function of ambient temperature (including losses due to reverse leakage).
1996 May 24 |
5 |
Philips Semiconductors |
Product specification |
|
|
Ultra fast low-loss
BYD71 series
controlled avalanche rectifiers
MCD563
5.0 |
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handbook, full pagewidth |
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I FRM |
δ = |
(A) |
0.05 |
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0.1 |
2.5 |
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0.2 |
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0.5 |
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1 |
0 |
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10 -1 |
10 0 |
10 1 |
10 2 |
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10 4 |
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10 -2 |
10 |
3 |
(ms ) |
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t p |
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BYD71A to D
Ttp = 55 °C; Rth j-tp = 180 K/W.
VRRMmax during 1 − δ; curves include derating for Tj max at VRRM = 200 V.
Fig.6 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor.
MCD562
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5.0 |
handbook, full pagewidth |
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δ = |
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0.05 |
FRM |
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(A) |
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0.1 |
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2.5 |
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0.2 |
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0.5 |
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1 |
0 |
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10-1 |
10 0 |
10 1 |
10 2 |
10 3 |
10 4 |
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10-2 |
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t p |
(ms) |
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BYD71E to G
Ttp = 55 °C; Rth j-tp = 180 K/W.
VRRMmax during 1 − δ; curves include derating for Tj max at VRRM = 400 V.
Fig.7 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor.
1996 May 24 6
Philips Semiconductors |
Product specification |
|
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Ultra fast low-loss
BYD71 series
controlled avalanche rectifiers
MCD561
4 |
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handbook, full pagewidth |
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I FRM |
δ = |
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(A) |
0.05 |
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3 |
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0.1 |
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2 |
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0.2 |
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1 |
0.5 |
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1 |
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0 |
10-1 |
10 0 |
10 1 |
10 2 |
10 3 |
10 4 |
10-2 |
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tp |
(ms) |
BYD71A to D
Tamb = 60 °C; Rth j-a = 250 K/W.
VRRMmax during 1 − δ; curves include derating for Tj max at VRRM = 200 V.
Fig.8 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor.
MCD560
4 |
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handbook, full pagewidth |
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I FRM |
δ = |
(A) |
0.05 |
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3 |
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0.1 |
2 |
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0.2 |
1 |
0.5 |
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1 |
0 |
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-2 |
10-1 |
10 0 |
10 1 |
10 2 |
10 3 |
10 4 |
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10 |
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t p |
(ms ) |
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BYD71E to G
Tamb = 60 °C; Rth j-a = 250 K/W.
VRRMmax during 1 − δ; curves include derating for Tj max at VRRM = 400 V.
Fig.9 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor.
1996 May 24 7
Philips Semiconductors |
Product specification |
|
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Ultra fast low-loss
BYD71 series
controlled avalanche rectifiers
0.50 |
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MCD567 |
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handbook, halfpage |
a = 3 |
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2.5 |
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P |
2 |
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(W) |
a = 1.57 |
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1.42 |
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0.25 |
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0
0 |
0.25 |
0.50 |
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I F(AV) (A) |
BYD71A to D
a = IF(RMS)/IF(AV); VR = VRRMmax; δ = 0.5.
Switched mode application.
Fig.10 Maximum steady state power dissipation (forward plus leakage current losses, excluding switching losses) as a function of average forward current.
MCD568
5 handbook, halfpage
IF
(A)
4
3
2
1
0
0 |
1 |
2 |
3 |
4 |
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VF (V) |
BYD71A to D
Dotted line: Tj = 175 °C.
Solid line: Tj = 25 °C.
Fig.12 Forward current as a function of forward voltage; maximum values.
MCD566
0.50 |
a = 3 |
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handbook, halfpage |
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2.5 |
a = 1.57 |
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P |
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2 |
1.42 |
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(W) |
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0.25 |
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0
0 |
0.25 |
0.50 |
I F(AV) (A)
BYD71E to G
a = IF(RMS)/IF(AV); VR = VRRMmax; δ = 0.5.
Switched mode application.
Fig.11 Maximum steady state power dissipation (forward plus leakage current losses, excluding switching losses) as a function of average forward current.
5 |
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MCD569 |
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handbook, halfpage |
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IF |
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(A) |
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4 |
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3 |
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2 |
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1 |
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0 |
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0 |
1 |
2 |
VF |
(V) |
3 |
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BYD71E to G
Dotted line: Tj = 175 °C.
Solid line: Tj = 25 °C.
Fig.13 Forward current as a function of forward voltage; maximum values.
1996 May 24 |
8 |
Philips Semiconductors |
Product specification |
|
|
Ultra fast low-loss
BYD71 series
controlled avalanche rectifiers
10 |
3 |
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MCD582 |
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handbook, halfpage |
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IR |
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(μA) |
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10 2 |
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10
1
0 |
100 |
200 |
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T |
(oC) |
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j |
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VR = VRRMmax.
Fig.14 Reverse current as a function of junction temperature; maximum values.
10 |
2 |
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MCD559 |
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handbook, halfpage |
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Cd |
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(pF) |
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10 |
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A, B, C, D |
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E, F, G |
1 |
10 |
10 2 |
10 3 |
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1 |
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VR (V) |
f = 1 MHz; Tj = 25 °C.
Fig.15 Diode capacitance as a function of reverse voltage; typical values.
50 |
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handbook, halfpage |
dbook,I |
halfpage |
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25 |
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F |
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dI F |
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dt |
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7 |
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trr |
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50 |
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10% |
t |
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dI R |
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dt |
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100% |
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2 |
IR |
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MGC499 |
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3 |
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MGA200 |
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Dimensions in mm.
Fig.16 Device mounted on a printed-circuit board. |
Fig.17 Reverse recovery definitions. |
1996 May 24 |
9 |
Philips Semiconductors |
Product specification |
|
|
Ultra fast low-loss
BYD71 series
controlled avalanche rectifiers
handbook, full pagewidth |
DUT |
IF |
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(A) |
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+ |
0.5 |
t rr |
10 Ω |
25 V |
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1 Ω |
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50 Ω |
0 |
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0.25 |
t |
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0.5 |
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IR |
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(A) |
MAM057 |
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1 |
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Input impedance oscilloscope: 1 MΩ, 22 pF; tr ≤ 7 ns.
Source impedance: 50 Ω; tr ≤ 15 ns.
Fig.18 Test circuit and reverse recovery time waveform and definition.
1996 May 24 |
10 |