DEIC420 IXYS RF, DEIC420 Datasheet
DEIC420
Specifications of DEIC420
Related parts for DEIC420
DEIC420 Summary of contents
Page 1
... DEI's patented techniques to minimize stray lead inductances for optimum switching performance. For applications that do not require the power dissipation of the DEIC420, the driver is also available pin SOIC package. See the IXDD415SI data sheet for additional information. The DEIC420 is a surface-mount device, and incorporates patented RF layout techniques to minimize stray lead inductances for optimum switching performance ...
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... CASE - 150 o C Storage Temperature Soldering Lead Temperature 300 o C (10 seconds maximum) Electrical Characteristics Unless otherwise noted All voltage measurements with respect to DGND. DEIC420 configured as described in Test Conditions. Symbol Parameter V High input voltage IH V Low input voltage IL V Input voltage range IN ...
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... The guaranteed specifications apply only for the test conditions listed. Exposure to absolute maximum rated conditions for extended periods may affect device reliability. CAUTION: These devices are sensitive to electrostatic discharge; follow proper ESD procedures when handling and assembling this component. Figure 2 - DEIC420 Package Photo And Outline Figure 3a - Characteristics Test Diagram V IN DESCRIPTION Positive power-supply voltage input ...
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... Fig =4nF V =15V ONDLY OFFDLY Input Voltage (V) Fig Fig Fig DEIC420 Fall Time vs. Load Capacitance V = 15V 12V Load Capacitance (pF) Supply Current vs. Load Capacitance Vcc=15V 10 40 MHz 30 MHz 20 MHz 1 10 MHz 5 MHz 1 MHz 0 Load Capacitance (pF) Propagation Delay Times vs. Junction Temperature C = 4nF 15V ...
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... Unless otherwise noted, all waveforms are taken driving a 1nF load, 1MHz repetition frequency, V Figure 11 3ns Rise Time Figure 13 <8ns Minimum Pulse Width t ONDLY t OFFDLY 16 18 Typical Output Waveforms Figure 12 Figure 14 5 DEIC420 =15V, Case Temperature = 3ns Fall Time 1MHz CW Repetition Frequency ...
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... Figure 15 13.56MHz CW Repetition Frequency Figure 17 - High Frequency Gate Drive Circuit Figure 16 50MHz Burst Repetition Frequency 6 DEIC420 ...
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... Vcc Bypassing In order for the circuit to turn the MOSFET on properly, the DEIC420 must be able to draw up to 20A of current from the Vcc power supply in 2-6ns (depending upon the input capacitance of the MOSFET being driven). This means that there must be very low impedance between the driver and the power supply ...