Details, datasheet, quote on part number: IXIDM1401_1505_O
PartIXIDM1401_1505_O
Category
TitleISOLATED GATE DRIVER
Description

IXYS Corporation (IXYS) features a 10 A / 4000 V, dual-channel, isolated gate-driver, the IXIDM1401_1505_O. Built using the IX6610 and IX6611 gate-driver chipset, it allows a 3.3 V microcontroller (MCU) through a 4 kV isolation barrier to control IGBTs and MOSFETs in the half-bridge configuration. The PWM signals can be as short as 500 ns and there is no lower limit on the switching frequency. It is capable of driving high-power IGBT and MOSFET modules rated up to 1700 V.



CompanyIXYS Corporation
DatasheetDownload IXIDM1401_1505_O datasheet
  

 

Features, Applications

IXIDM1401_1505_O two isolated gate drivers with 10A gate current, 15V positive and 5V negative
IXIDM1401_1515_O two isolated gate drivers with 10A gate current, 15V positive and -15V negative

The IXIDM1401_O driver module combines supreme compactness with the highest performance and reliability. It comprises a dual-channel driver core that targets medium power dual-channel IGBTs for to 4kV and applications such as inverters, drives & automation, UPS, renewable energy, transportation, and medical. Its parallel capability allows for an easy, high power system design. It supports switching to 250kHz, short-circuit protection, advanced active clamping, and supply-voltage monitoring. The IXIDM1401_O driver core is equipped with the IX6610/6611 chipset of application-specific integrated circuits that covers the main range of functions required to design intelligent gate drivers. IXIDM1401_O is available a 50x50x25mm package.

2017 IXYS Corp. Characteristics subject to change without notice

Part Number Options..................................................................................................................................................................... 1 Abstract.......................................................................................................................................................................................... 1 Features.......................................................................................................................................................................................... 3 Applications................................................................................................................................................................................... 3 Description..................................................................................................................................................................................... 3 Typical Application Circuits.......................................................................................................................................................... 4 Absolute Maximum Ratings.......................................................................................................................................................... 6 Electrical Operating Characteristics............................................................................................................................................... 7 Pin Configuration........................................................................................................................................................................... 9 Pin Assignment.............................................................................................................................................................................. 9 Block Diagram............................................................................................................................................................................. 10 Basic Operation............................................................................................................................................................................ 10 Interface................................................................................................................................................................................... 11 Power Block............................................................................................................................................................................. 12 Gate Driver............................................................................................................................................................................... 13 Active Clamping Protection..................................................................................................................................................... 13 Over-Current Protection........................................................................................................................................................... 13 Secondary Side Under-/Over-voltage Protection..................................................................................................................... 14 Layout and Use Considerations................................................................................................................................................... 14 Typical Performance Characteristics........................................................................................................................................... 15 Ordering Information................................................................................................................................................................... 17 Package Drawing and Dimensions............................................................................................................................................... 17 Marking........................................................................................................................................................................................ 18

Features

Two isolated gate drivers for half bridge switching modules Internal power supply for isolated drivers with to 2W output power per channel Non-overlap operation of high side and low side drivers TTL logic level microcontroller interface Single 15V power supply operation +15V/-5V isolated gate driver output voltage to drive IGBTs with to 10A pulse current Minimum input pulse width 500ns Input to output gate driver signal propagation delay 100ns Gate drive pulse width distortion 20ns Under- and over-voltage lockout protection 50mA 3.3V load capability output to drive an external MCU FAULT signals Informing MCU about overvoltage, under-voltage, and over-current conditions at isolated gate drivers Latched FAULT signals from gate drivers to let MCU read fault information asynchronously Operating ambient temperature: 400C+1050C Driver and internal power supply overtemperature protection with 1500C threshold and 250C hysteresis Environmentally friendly: EU RoHS compliant, Pb-free

Description

A High Voltage Isolated Module (IXIDM1401_O) is developed and optimized for electronic motor control applications such as air conditioners, washing machines, refrigerators, and high power buck converters or inverters. is a compact, high performance device in a single isolated package with a very simple design. Based on the IX6610/11 chip set, this device enables a 3.3V microcontroller unit (MCU) to operate halfbridge-connected IGBTs through a 4kV isolation barrier providing PWM pulses as short as 500ns, and no lower limit on switching frequency. Internal power supply provides to 2W per channel of isolated power to drive upper and lower IGBTs, effectively isolating the MCU from high power circuitry. Operating from a single polarity 15V power source, this device provides +15V/-5V to operate IGBT gates and 50mA to power the MCU from the same source. Built-in under-voltage and over-voltage protection prevents the IGBT from operating at gate voltages outside the optimal window and informs the MCU about such conditions irrespective of the source of the problem, which may be on either the low or high side IGBT behind the isolation barrier or on the primary side before the isolation barrier. Over-current protection with 300mV threshold may utilize either the current sense resistor or IGBT desaturation event. Over-current protection turns the IGBT off immediately after the collector current exceeds the value set by the customer, informing the MCU about every such event to make appropriate decisions. An active clamping comparator with a 3V threshold with respect to negative IGBTs' gate voltage source disables the driver in case the collector voltage exceeds the level set by the customer, preventing from excessive power dissipation on IGBTs. Built-in dead time delay circuitry prevents turning on of both IGBTs simultaneously with channel A priority. If channel B is active and channel A is forced into the ON state, channel B becomes disabled immediately and the channel A IGBT turns on with a delay time of ~0.4 s. After channel A becomes inactive, channel B, if active, turns on with the same delay time. If

Applications

AC and DC motor drives for EV and industrial Inverters for solar and wind power Converters for medical, lighting, and transport UPS, SMPD, and industrial battery chargers Paralleled operation of IGBTs Induction heating and traction Designed for phase-leg IGBT modules Designed for phase-leg SiC MOSFET modules to 450A/1700V


 

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