Datasheet DEIC420 (IXYS) - 2

HerstellerIXYS
Beschreibung20 Ampere Low-Side Ultrafast RF MOSFET Driver
Seiten / Seite7 / 2 — DEIC420. Absolute Maximum Ratings. Parameter. Value. Electrical …
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DokumentenspracheEnglisch

DEIC420. Absolute Maximum Ratings. Parameter. Value. Electrical Characteristics. Symbol Parameter. Test. Conditions. Min. Typ. Max Units

DEIC420 Absolute Maximum Ratings Parameter Value Electrical Characteristics Symbol Parameter Test Conditions Min Typ Max Units

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DEIC420 Absolute Maximum Ratings Parameter Value Parameter Value
Supply Voltage 30V Maximum Junction Temperature 150oC All Other Pins -0.3V to VCC + 0.3V Operating Temperature Range -40oC to 85oC Power Dissipation Thermal Impedance (Junction To Case) TAMBIENT ≤25 oC 2W θJC 0.13oC/W TCASE ≤25 oC 100W Storage Temperature -65oC to 150oC Soldering Lead Temperature 300oC (10 seconds maximum)
Electrical Characteristics
Unless otherwise noted, T = 25 oC, 8V ≤ V ≤ 30V . A CC All voltage measurements with respect to DGND. DEIC420 configured as described in Test Conditions.
Symbol Parameter Test Conditions Min Typ Max Units
VIH High input voltage 3.5 V VIL Low input voltage 0.8 V VIN Input voltage range -5 VCC + 0.3 V IIN Input current 0V ≤ VIN ≤ VCC -10 10 µA VOH High output voltage VCC - .025 V VOL Low output voltage 0.025 V ROH Output resistance IOUT = 10mA, VCC = 15V 0.4 0.6 Ω @ Output high ROL Output resistance IOUT = 10mA, VCC = 15V 0.4 0.6 Ω @ Output Low IPEAK Peak output current VCC = 15V 20 A IDC Continuous output 4 A current fMAX Maximum frequency CL=4nF Vcc=15V 45 MHz tR Rise time (1) CL=1nF Vcc=15V VOH=2V to 12V 3 ns CL=4nF Vcc=15V VOH=2V to 12V 4 ns tF Fall time (1) CL=1nF Vcc=15V VOH=12V to 2V 3 ns CL=4nF Vcc=15V VOH=12V to 2V 3.5 ns tONDLY On-time propagation CL=4nF Vcc=15V 32 38 ns delay (1) tOFFDLY Off-time propagation CL=4nF Vcc=15V 29 35 ns delay (1) PWmin Minimum pulse width FWHM CL=1nF Vcc=15V 8 ns +3V to +3V CL=1nF Vcc=15V 9 ns VCC Power supply voltage 8 15 30 V ICC Power supply current VIN = 3.5V 1 3 mA VIN = 0V 0 10 µA VIN = + VCC 10 µA (1) Refer to Figures 3a and 3b Specifications Subject To Change Without Notice 2