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HGT1S12N60C3DS Datasheet(PDF) 7 Page - Fairchild Semiconductor

Part # HGT1S12N60C3DS
Description  24A, 600V, UFS Series N-Channel IGBT with Anti-Parallel Hyperfast Diodes
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Manufacturer  FAIRCHILD [Fairchild Semiconductor]
Direct Link  http://www.fairchildsemi.com
Logo FAIRCHILD - Fairchild Semiconductor

HGT1S12N60C3DS Datasheet(HTML) 7 Page - Fairchild Semiconductor

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©2001 Fairchild Semiconductor Corporation
HGTP12N60C3D, HGT1S12N60C3DS Rev. B
Handling Precautions for IGBTs
Insulated Gate Bipolar Transistors are susceptible to
gate-insulation damage by the electrostatic discharge of
energy through the devices. When handling these devices,
care should be exercised to assure that the static charge
built in the handler’s body capacitance is not discharged
through the device. With proper handling and application
procedures, however, IGBTs are currently being extensively
used in production by numerous equipment manufacturers in
military, industrial and consumer applications, with virtually
no damage problems due to electrostatic discharge. IGBTs
can be handled safely if the following basic precautions are
taken:
1. Prior to assembly into a circuit, all leads should be kept
shorted together either by the use of metal shorting
springs or by the insertion into conductive material such
as “ECCOSORBD
 LD26” or equivalent.
2. When devices are removed by hand from their carriers,
the hand being used should be grounded by any suitable
means, for example, with a metallic wristband.
3. Tips of soldering irons should be grounded.
4. Devices should never be inserted into or removed from
circuits with power on.
5. Gate Voltage Rating - Never exceed the gate-voltage
rating of VGEM. Exceeding the rated VGE can result in
permanent damage to the oxide layer in the gate region.
6. Gate Termination - The gates of these devices are
essentially capacitors. Circuits that leave the gate
open-circuited or floating should be avoided. These
conditions can result in turn-on of the device due to voltage
buildup on the input capacitor due to leakage currents or
pickup.
7. Gate Protection - These devices do not have an internal
monolithic Zener Diode from gate to emitter. If gate
protection is required, an external Zener is
recommended.
Operating Frequency Information
Operating frequency information for a typical device (Figure 13)
is presented as a guide for estimating device performance
for a specific application. Other typical frequency vs collector
current (ICE) plots are possible using the information shown
for a typical unit in Figures 4, 7, 8, 11 and 12. The operating
frequency plot (Figure 13) of a typical device shows fMAX1 or
fMAX2 whichever is smaller at each point. The information is
based on measurements of a typical device and is bounded
by the maximum rated junction temperature.
fMAX1 is defined by fMAX1 = 0.05/(tD(OFF)I + tD(ON)I).
Deadtime (the denominator) has been arbitrarily held to 10%
of the on-state time for a 50% duty factor. Other definitions
are possible. tD(OFF)I and tD(ON)I are defined in Figure 21.
Device turn-off delay can establish an additional frequency
limiting condition for an application other than TJM. tD(OFF)I
is important when controlling output ripple under a lightly
loaded condition.
fMAX2 is defined by fMAX2 = (PD - PC)/(EOFF + EON). The
allowable dissipation (PD) is defined by PD =(TJM -TC)/RθJC.
The sum of device switching and conduction losses must not
exceed PD. A 50% duty factor was used (Figure 13) and the
conduction losses (PC) are approximated by
PC =(VCE xICE)/2.
EON and EOFF are defined in the switching waveforms
shown in Figure 21. EON is the integral of the instantaneous
power loss (ICE x VCE) during turn-on and EOFF is the
integral of the instantaneous power loss during turn-off. All
tail losses are included in the calculation for EOFF; i.e., the
collector current equals zero (ICE = 0).
HGTP12N60C3D, HGT1S12N60C3DS


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