DMV1500SDFD ,DAMPER + MODULATION DIODE FOR VIDEOelectrical characteristics■ Outstanding performance of well proven DTV TO-220FPAB FD6as damper and ..
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DMV1500SDFD
DAMPER + MODULATION DIODE FOR VIDEO
1/8
Table 1: Main Product Characteristics
DMV1500SDDAMPER + MODULATION DIODE FOR VIDEO
October 2004 REV. 1
FEATURES AND BENEFITS Full kit in one package High breakdown voltage capability Very fast recovery diode Specified turn on switching characteristics Low static and peak forward voltage drop for
low dissipation Insulated version: Insulated voltage = 2000 VRMS Capacitance = 7 pF Planar technology allowing high quality and
best electrical characteristics Outstanding performance of well proven DTV
as damper and new faster Turbo 2 600V
technology as modulation
DESCRIPTIONHigh voltage semiconductor especially designed
for horizontal deflection stage in standard and high
resolution video display with E/W correction.
The insulated TO-220FPAB package includes
both the DAMPER diode and the MODULATION
diode, thanks to a dedicated design.
Assembled on automated line, it offers very low
dispersion values on insulating and thermal
performanes.
Table 2: Order Codes
DMV1500SD
Table 3: Absolute Ratings (limiting values, per diode)
Table 4: Thermal resistances
Table 5: Static Electrical CharacteristicsPulse test: * tp = 5 ms, δ < 2%
** tp = 380 µs, δ < 2%
To evaluate the maximum conduction losses of the DAMPER and MODULATION diodes use the following equations :
DAMPER: P = 1.2 x IF(AV) + 0.050 x IF2 (RMS)
MODULATION: P = 0.89 x I F(AV) + 0.055 x IF2 (RMS)
Table 6: Recovery Characteristics
DMV1500SD3/8
Table 7: Turn-On Switching Characteristics
Figure 1: Power dissipation versus peak
forward current (triangular waveform, δ=0.45)
(damper diode)
Figure 2: Power dissipation versus peak
forward current (triangular waveform, δ=0.45)
(modulation diode)
Figure 3: Average forward current versus
ambient temperature
Figure 4: Forward voltage drop versus forward
current (damper diode)
DMV1500SD
Figure 5: Forward voltage drop versus forward
current (modulation diode)
Figure 6: Relative variation of thermal
impedance junction to case versus pulse
duration
Figure 7: Reverse recovery charges versus
dIF/dt (damper diode)
Figure 8: Reverse recovery charges versus dIF/
dt (modulation diode)
Figure 9: Peak reverse recovery current versusF /dt (damper diode)
Figure 10: Peak reverse recovery current
versus dIF /dt (modulation diode)
DMV1500SD5/8
Figure 11: Transient peak forward voltage
versus dIF /dt (damper diode, typical values)
Figure 12: Transient peak forward voltage
versus dIF /dt (modulation diode, typical values)
Figure 13: Forward recovery time versus dIF/dt
(damper diode, typical values)
Figure 14: Forward recovery time versus dIF/dt
(modulation diode, typical values)
Figure 15: Relative variation of dynamic
parameters versus junction temperature
Figure 16: Junction capacitance versus
reverse voltage applied (typical values)140
DMV1500SD
Figure 17: TO-220FPAB FD6 Option Package Mechanical Data
Figure 18: TO-220FPAB FD6 PCB layout(typical, in millimeters)