TISP61089D Просмотр технического описания (PDF) - Power Innovations
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TISP61089D
Power Innovations
TISP61089D Datasheet PDF : 17 Pages
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TISP61089
DUAL FORWARD-CONDUCTING P-GATE THYRISTORS
PROGRAMMABLE OVERVOLTAGE PROTECTORS
NOVEMBER 1995 - REVISED FEBRUARY 1998
Second level tests have a low source resistance and the current levels are dependent on the TISP61089
series resistor value. The two stepped lines at the top of Figure 8 are for the 25 Ω and 40 Ω series resistor
cases. If the full current-time durations occur the equipment will fail the wiring simulator test. The MDQ 1-6/
10A fusing characteristic is also shown in Figure 8. The TISP61089 series overcurrent protection must
operate before the MDQ 1-6/10A fuses, so this represents another boundary condition in the selection of the
overcurrent protector.
MAXIMUM RMS CURRENT
vs
TIME
AI6XAK
30
20
Second Level Tests - 25 Ω
10
7
Second Level Tests - 40 Ω
5
3
2
MDQ 1-6/10A Fuse
1
0.7
0.5
0.3
0.2
First Level Tests - 25 & 40 Ω
0.1
0.01
0.1
1
10
Time - s
100
1000
Figure 8. ‘1089 MAXIMUM TEST CURRENT LEVEL
Figure 9 summarises these boundary conditions. The highest current levels that can flow are influenced by
the TISP61089 series resistance. After one second the maximum current-time boundary becomes set by the
MDQ 1-6/10A fusing characteristic. Fusible overcurrent protectors cannot operate at first level current levels.
Figure 9 shows two other curves. The lower one is the TISP61089 rated current. The overcurrent protector
should not allow current-time durations greater than this otherwise the TISP61089 may fail. If second level
failure is acceptable then the overcurrent protector must operate before the TISP61089 package limit is
reached.
The TISP61089 a.c. ratings are worse case values when the device is mounted on the minimal sized PCB
used for measuring thermal resistance. Typical PCBs would give a 25% increase in the rated currents for
periods above 0.1 s.
PRODUCT INFORMATION
13
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