IXDD404 IXYS Corporation, IXDD404 Datasheet

IXDD404

Manufacturer Part Number

IXDD404

Description

4 Amp Dual Low-Side Ultrafast MOSFET Driver

Manufacturer

IXYS Corporation

Datasheet

1.IXDD404.pdf (10 pages)

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Company:

Meier Automation Equipment Co., Limited

Part Number:

IXDD404PI

Manufacturer:

IXYS/艾赛斯

Quantity:

20 000

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Bonase Electronics (HK) Co., Limited

Part Number:

IXDD404SIA

Manufacturer:

IXYS

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Company:

Bonase Electronics (HK) Co., Limited

Part Number:

IXDD404SIA-16

Manufacturer:

IXYS

Quantity:

7 688

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Figure 1 - Functional Diagram

Features

• Built using the advantages and compatibility

• Latch-Up Protected

• High Peak Output Current: 4A Peak

• Wide Operating Range: 4.5V to 25V

• Ability to Disable Output under Faults

• High Capacitive Load

• Matched Rise And Fall Times

• Low Propagation Delay Time

• Low Output Impedance

• Low Supply Current

• Two identical drivers in single chip

Applications

• Driving MOSFETs and IGBTs

• Limiting di/dt under Short Circuit

• Motor Controls

• Line Drivers

• Pulse Generators

• Local Power ON/OFF Switch

• Switch Mode Power Supplies (SMPS)

• DC to DC Converters

• Pulse Transformer Driver

• Class D Switching Amplifiers

Drive Capability: 1800pF in <15ns

of CMOS and IXYS HDMOS

GND

ENA

ENB

INB

IXDD404PI / 404SI / 404SIA / 404SI-16

4 Amp Dual Low-Side Ultrafast MOSFET Driver

processes

200k

General Description

The IXDD404 is comprised of two 4 Amp CMOS high speed

MOSFET drivers. Each output can source and sink 4 A of

peak current while producing voltage rise and fall times of less

than 15ns to drive the latest IXYS MOSFETS & IGBT's. The

input of the driver is compatible with TTL or CMOS and is fully

immune to latch up over the entire operating range. Designed

with small internal delays, cross conduction/current shoot-

through is virtually eliminated in the IXDD404. Improved speed

and drive capabilities are further enhanced by very low,

matched rise and fall times.

Additionally, each driver in the IXDD404 incorporates a unique

ability to disable the output under fault conditions. When a

logical low is forced into the Enable input of a driver, both of it's

final output stage MOSFETs (NMOS and PMOS) are turned

off. As a result, the respective output of the IXDD404 enters a

tristate mode and achieves a Soft Turn-Off of the MOSFET/

IGBT when a short circuit is detected. This helps prevent

damage that could occur to the MOSFET/IGBT if it were to be

switched off abruptly due to a dv/dt over-voltage transient.

The IXDD404 is available in the standard 8 pin P-DIP (PI),

SOP-8 (SI -with metal tab), SOP-8 (SIA -without metal tab) and

SOP-16 (SI-16) packages.

First Release

OUTA

OUTB

Vcc

Related parts for IXDD404

IXDD404 Summary of contents

Page 1

... Enable input of a driver, both of it's final output stage MOSFETs (NMOS and PMOS) are turned off result, the respective output of the IXDD404 enters a tristate mode and achieves a Soft Turn-Off of the MOSFET/ IGBT when a short circuit is detected. This helps prevent damage that could occur to the MOSFET/IGBT if it were to be switched off abruptly due to a dv/dt over-voltage transient ...

Page 2

... C to 150 o C Lead Temperature (10 sec) 300 o C Electrical Characteristics Unless otherwise noted 4.5V ≤ All voltage measurements with respect to GND. IXDD404 configured as described in Test Conditions. All specifications are for one channel. Symbol Parameter V High input voltage IH V Low input voltage IL ...

Page 3

... 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 - Characteristics Test Diagram IXDD404PI/404SI/404SIA/404SI- ...

Page 4

... Temperature (°C) Fall Time vs. Load Capacitance Fig. 7 100 Load Capacitance (pF) PRELIMINARY DATA SHEET IXDD404PI/404SI/404SIA/404SI-16 Fig Fig 100 120 Fig. 8 3.2 8V 3.0 2 ...

Page 5

... 0.1k 1.0k Load Capacitance (pF) Supply Current vs. Load Capacitance Fig. 13 Vcc=8V 100 0.1k 1.0k Load Capacitance (pF) IXDD404PI/404SI/404SIA/404SI-16 500 KHz 100 kHz 50 kHz 10 kHz 10. 500 KHz 100 kHz 50 kHz 10 kHz 10.0k 500 KHz 100 kHz 50 kHz 10 kHz 10.0k 5 PRELIMINARY DATA SHEET Supply Current vs ...

Page 6

... Temperature ( C) ° Fig Channel Output Current Vs. Temperature V =18V, C =1000pF -40 - Temperature ( C) IXDD404PI/404SI/404SIA/404SI-16 Fig ONDLY t OFFDLY 16 18 Fig. 18 0.26 0.24 t ONDLY 0.22 t 0.20 OFFDLY 0.18 0.16 0.14 80 100 120 Fig 100 6 PRELIMINARY DATA SHEET Propagation Delay vs. Input Voltage ...

Page 7

... Vs. Supply Voltage 3.0 2.0 1.0 0 Supply Voltage (V) V vs. N Channel Output Current Fig Vcc IXDD404PI/404SI/404SIA/404SI- Figure 26 - Typical Application Short Circuit di/dt Limit PRELIMINARY DATA SHEET High State Output Resistance Fig. 22 vs. Supply Voltage ...

Page 8

... One Shot circuit between the IXDD408 Input signal and the SRFF restart input. The One Shot will create a pulse on the rise of the IXDD404 input, and this pulse will reset the SRFF outputs to normal operation. When a short circuit occurs, the voltage drop across the low- value, current-sensing resistor, (Rs=0 ...

Page 9

... IXDD404 to an absolute minimum. GROUNDING In order for the design to turn the load off properly, the IXDD404 must be able to drain this 2.5A of current into an adequate grounding system. There are three paths for returning current that need to be considered: Path #1 is between the IXDD404 and it’ ...

Page 10

... PRELIMINARY DATA SHEET IXDD404PI/404SI/404SIA/404SI-16 Ordering Information ...

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