# Motor Driver/Controller, Three Phase AC, 6.9V to 9.8V, 500V/2.6A/3 Outputs, DIP-23

![Product image](https://novapart.co/image/farnell:2781294/)

**URL**: https://novapart.co/products/IRSM505-065DA/motor-driver-controller-three-phase-ac-69v-to-98v
**SKU**: IRSM505-065DA
**Manufacturer**: INFINEON
**Category**: Semiconductors - Discretes || Intelligent Power Modules
**Price**: €3.3700
**Stock**: 10+

## Description

Motor Type:Three Phase AC; No. of Outputs:3Outputs; Output Current:2.6A; Output Voltage:500V; Driver Case Style:DIP; No. of Pins:23Pins; Supply Voltage Min:6.9V; Supply Voltage Max

## Specifications

| Parameter | Value |
|---|---|
| Svhc | No SVHC (17-Dec-2015) |
| Ipm Series | CIPOS Micro |
| Product Range | CIPOS Micro |
| Ipm Case Style | DIP23 |
| Ipm Power Device | MOSFET |
| Isolation Voltage | 1.9kV |
| Current Rating (Ic / Id) | 2.6A |
| Voltage Rating (Vces / Vdss) | 500V |

## Datasheet

📄 [Download PDF](https://novapart.co/datasheet/farnell:2781294/)

**IRSM505-065 IRSM515-065 Series** 

## _**1.3Ω, 500V**_ 

## **Integrated Power Module for Small Appliance Motor Drive Applications** 

## **Description** 

IRSM505-065 and IRSM515-065 are 3-phase Integrated Power Modules (IPM) designed for advanced appliance motor drive applications such as energy efficient fans and pumps. These advanced IPMs offers a combination of low RDS(on) Trench FREDFET technology and the industry benchmark half-bridge high voltage, rugged driver in a familiar package. The modules are optimized for low EMI characteristics. IRSM505-065 includes temperature feedback while IRSM515-065 does not. 

## **Features** 

- 500V 3-phase inverter including high voltage gate drivers 

- Integrated bootstrap functionality 

- Low 1.3Ω (max, 25°C) RDS(on) Trench FREDFET 

- Under-voltage lockout for all channels 

- Matched propagation delay for all channels 

- Temperature feedback via NTC (IRSM505-065 only) 

- Optimized dV/dt for loss and EMI trade offs 

- Open-source for single and leg-shunt current sensing 

- 3.3V logic compatible & advanced input filter 

- Driver tolerant to negative transient voltage (-Vs) 

- Isolation 1900VRMS, 1min 

- RoHS Compliant 

- Certified by UL - File Number E252584 

|**Series**|**NTC**|**Package Type**|**Standard Pack**|**Standard Pack**|**Product Name**|
|---|---|---|---|---|---|
||||**Form**|**Quantity**||
|IRSM505-065|Yes|SOP23|Tube|240|IRSM505-065PA|
|||DIP23|Tube|240|IRSM505-065DA|
|||DIP23A|Tube|240|IRSM505-065DA2|
|IRSM515-065|No|SOP23|Tube|240|IRSM515-065PA|
|||DIP23|Tube|240|IRSM515-065DA|
|||DIP23A|Tube|240|IRSM515-065DA2|



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**IRSM505-065 IRSM515-065 Series** 

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## **Internal Electrical Schematic** 

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1  COM 17  V+<br>2  VB1<br>3  VCC1<br>4  HIN1<br>Half-Bridge 18  U/VS1<br>5  LIN1 HVIC<br>6  NC 19  VR1<br>Integrated in HVIC<br>7  VB2<br>20  VR2<br>8  VCC2<br>9  HIN2<br>Half-Bridge 21  V/VS2<br>10  LIN2 HVIC<br>11  VTH<br>12  VB3<br>13  VCC3 22  VR3<br>14  HIN3<br>Half-Bridge 23  W/VS3<br>15  LIN3 HVIC<br>16  NC<br>IRSM505-065<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
1  COM 17  V+<br>2  VB1<br>3  VCC1<br>4  HIN1<br>Half-Bridge 18  U/VS1<br>5  LIN1 HVIC<br>6  NC 19  VR1<br>Integrated in HVIC<br>7  VB2<br>20  VR2<br>8  VCC2<br>9  HIN2<br>Half-Bridge 21  V/VS2<br>10  LIN2 HVIC<br>11  NC<br>12  VB3<br>13  VCC3 22  VR3<br>14  HIN3<br>Half-Bridge 23  W/VS3<br>15  LIN3 HVIC<br>16  NC<br>IRSM515-065<br>**----- End of picture text -----**<br>


## **Absolute Maximum Ratings** 

Absolute maximum ratings indicate sustained limits beyond which damage to the module may occur. These are not tested at manufacturing.  All voltage parameters are absolute voltages referenced to COM unless otherwise stated in the table. 

|**Symbol**|**Description**|**Min**|**Max**|**Unit**|
|---|---|---|---|---|
|BVDSS|MOSFET Blocking Voltage|---|500|V|
|IO@ TC=25°C|DC Output Current per MOSFET|---|2.6|A|
|IOP@ TC=25°C|Pulsed Output Current per MOSFET (Note 1)|---|15||
|Pd@ TC=25°C|Maximum Power Dissipation per MOSFET|---|19|W|
|VISO|Isolation Voltage (1min)|---|1900|VRMS|
|TJ|Operating Junction Temperature|-40|150|°C|
|TC|Operating Case Temperature|-40|150|°C|
|TS|Storage Temperature|-40|150|°C|
|VS1,2,3|High Side Floating Supply Offset Voltage|VB1,2,3- 20|VB1,2,3+0.3|V|
|VB1,2,3|High Side Floating Supply Voltage|-0.3|525|V|
|VCC|Low Side and Logic Supply voltage|-0.3|25|V|
|VIN|Input Voltage of LIN, HIN|COM -0.3|VCC+0.3|V|



Note 1: Pulse Width = 100µs, Single Pulse 

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## **Recommended Operating Conditions** 

|**Symbol**|**Description**|**Min**|**Max**|**Unit**|
|---|---|---|---|---|
|V+|Positive DC Bus Input Voltage|---|400|V|
|VS1,2,3|High Side Floating Supply Offset Voltage|(Note 2)|400|V|
|VB1,2,3|High Side Floating Supply Voltage|VS+12|VS+20|V|
|VCC|Low Side and Logic Supply Voltage|13.5|16.5|V|
|VIN|Input Voltage of LIN, HIN, ITRIP, EN, FLT|0|5|V|
|Fp|PWM Carrier Frequency|---|20|kHz|



Note 2: Logic operational for Vs from COM-8V to COM+500V. Logic state held for Vs from COM-8V to COM-VBS. 

## **Static Electrical Characteristics** 

(VCC-COM) = (VB-VS) = 15 V.  TC = 25[o] C unless otherwise specified. The VIN and IIN parameters are referenced to COM and are applicable to all six channels. The VCCUV parameters are referenced to COM. The VBSUV parameters are referenced to VS. 

|**Symbol**|**Description**|**Min**|**Typ**|**Max**|**Units**|**Conditions**|
|---|---|---|---|---|---|---|
|BVDSS|Drain-to-Source Breakdown Voltage|500|---|---|V|TJ=25°C, ILK=250µA|
|ILKH|Leakage Current of High Side FET||12||µA|TJ=25°C, VDS=500V|
|ILKL|Leakage Current of Low Side FET Plus<br>Gate Drive IC||14||µA|TJ=25°C, VDS=500V|
|RDS(on)|Drain to Source ON Resistance|---|1.0|1.3|Ω|TJ=25°C, VCC=15V, Id = 1.2A|
|||---|2.8|---|Ω|TJ=150°C, VCC=15V, Id = 1A<br>(Note 3)|
|VSD|Mosfet Body Diode Forward Voltage|---|0.8|---|V|TJ=25°C, VCC=15V, ID=1.2A|
|VIN,th+|Positive Going Input Threshold|2.2|---|---|V||
|VIN,th-|Negative Going Input Threshold|---|---|0.8|V||
|VCCUV+,<br>VBSUV+|VCCand VBSSupply Under-Voltage,<br>Positive Going Threshold|8|8.9|9.8|V||
|VCCUV-,<br>VBSUV-|VCCand VBSsupply Under-Voltage,<br>Negative Going Threshold|6.9|7.7|8.5|V||
|VCCUVH,<br>VBSUVH|VCCand VBSSupply Under-Voltage<br>Lock-Out Hysteresis|---|1.2|---|V||
|IQBS|Quiescent VBSSupply Current VIN=0V|---|42|60|µA||
|IQBS, ON|Quiescent VBSSupply Current VIN=4V|---|42|60|µA||
|IQCC|Quiescent VCCSupply Current VIN=0V|---|1.7|4|mA||
|IQCC, ON|Quiescent VCCSupply Current VIN=4V|---|1.8|4|mA||
|IIN+|Input Bias Current VIN=4V|---|5.9|18|µA|VIN=3.3V|
|IIN-|Input Bias Current VIN=0V|---|---|2|µA|VIN=0V|
|RBR|Internal Bootstrap Equivalent Resistor<br>Value|---|250|---|Ω|TJ=25°C|



Note 3: Characterized, not tested at manufacturing 

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## **Dynamic Electrical Characteristics** 

(VCC-COM) = (VB-VS) = 15 V.  TC = 25[o] C unless otherwise specified. 

|**Symbol**|**Description**|**Min**|**Typ**|**Max**|**Units**|**Conditions**|
|---|---|---|---|---|---|---|
|TON|Input to Output Propagation Turn-On<br>Delay Time|---|0.8|1.5|µs|ID=120mA, V+=30V<br>See Fig.1|
|TOFF|Input to Output Propagation Turn-Off<br>Delay Time|---|0.9|1.5|µs||
|TFIL,IN|Input Filter Time (HIN, LIN)|200|300|---|ns|VIN=0 & VIN=3.3V|
|DT|Deadtime Inserted|---|400|---|ns|VIN=0 & VIN=3.3V without<br>external deadtime|
|EON|Turn-on switching energy loss|---|32|---|µJ|V+=320V, ID=0.5A, L=40mH,<br>TC=25°C (Note 4)|
|EOFF|Turn-off switching energy loss|---|6|---|µJ||
|EREC|Recovery energy loss|---|6|---|µJ||
|EON,150|Turn-on switching energy loss|---|60|---|µJ|V+=320V, ID=0.5A, L=40mH,<br>TC=150°C (Note 4)|
|EOFF,150|Turn-off switching energy loss|---|7|---|µJ||
|EREC,150|Recovery energy loss|---|15|---|µJ||



Note 4: Characterized, not tested at manufacturing 

## **Thermal and Mechanical Characteristics** 

|**Symbol**|**Description**|**Min**|**Typ**|**Max**|**Units**|**Conditions**|
|---|---|---|---|---|---|---|
|Rth(J-C)|Junction to Case Thermal Resistance|---|6.7|---|°C/W|High Side V-Phase Mosfet<br>(Note 5)|



Note 5: Characterized, not tested at manufacturing. Case temperature (TC) point shown in Figure 2. 

## **Internal NTC – Thermistor Characteristics (IRSM505-065 Only)** 

|**Symbol**|**Description**|**Min**|**Typ**|**Max**|**Units**|**Conditions**|
|---|---|---|---|---|---|---|
|R25|Resistance|---|47|---|kΩ|TC=25°C, ±5% tolerance|
|R125|Resistance|---|1.41|---|kΩ|TC=125°C|
|B|B-constant (25-50°C)|---|4050|---|K|±2% tolerance (Note 6)|
|Temperature Range||-40|---|125|°C||



Note 6: See application notes for usage 

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## **Qualification Information** † 

|**Qualification Information**†|**Qualification Information**†||
|---|---|---|
|**Qualification Level**||Industrial††|
|**Moisture Sensitivity Level**||MSL3†††|
|**RoHS Compliant**||Yes|
|**UL Certified**||Yes – File Number  E252584|
|**ESD**|**Machine Model**<br>**Human Body Model**|Class B|
|||Class 2|



- Qualification standards can be found at International Rectifier’s web site http://www.infineon.com/ 

- †† Higher qualification ratings may be available should the user have such requirements.  Please contact your International Rectifier sales representative for further information. 

- ††† SOP23 package only. Higher MSL ratings may be available for the specific package types listed here.  Please contact your International Rectifier sales representative for further information. 

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## **Module Pin-Out Description** 

|**Pin**|**Name**|**Description **|
|---|---|---|
|1|COM|Logic Ground|
|2|VB1|High Side Floating Supply Voltage 1|
|3|VCC1|15V Supply 1|
|4|HIN1|Logic Input for High Side Gate Driver - Phase 1|
|5|LIN1|Logic Input for Low Side Gate Driver - Phase 1|
|6|NC|Not Connected|
|7|VB2|High Side Floating Supply Voltage 2|
|8|VCC2|15V Supply 2|
|9|HIN2|Logic Input for High Side Gate Driver - Phase 2|
|10|LIN2|Logic Input for Low Side Gate Driver - Phase 2|
|11|VTH|Thermistor Output (IRSM505-065DA)|
||NC|Not Connected (IRSM515-065DA)|
|12|VB3|High Side Floating Supply Voltage 3|
|13|VCC3|15V Supply 3|
|14|HIN3|Logic Input for High Side Gate Driver - Phase 3|
|15|LIN3|Logic Input for Low Side Gate Driver - Phase 3|
|16|NC|Not Connected|
|17|V+|DC Bus Voltage Positive|
|18|U/VS1|Output - Phase 1, High Side Floating Supply Offset 1|
|19|VR1|Phase 1 Low Side Source|
|20|VR2|Phase 2 Low Side Source|
|21|V/VS2|Output - Phase 2, High Side Floating Supply Offset 2|
|22|VR3|Phase 3 Low Side Source|
|23|W/VS3|Output - Phase 3, High Side Floating Supply Offset 2|



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A 0123-412W<br>IRSM505-065PA<br>1  2   3   4   0 6   7   8   9   10   11   12   13   14   15   16<br>17 18 19 20 21 22 23<br>**----- End of picture text -----**<br>


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## **Referenced Figures** 

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V I<br>CE C I V<br>C CE<br>HIN /LIN 90% IC<br>50%<br>HIN /LIN 90% IC 50% 50%<br>VCE HIN /LIN<br>HIN /LIN<br>50%<br>VCE<br>10% IC<br>10% IC<br>tr tf<br>TON TOFF<br>**----- End of picture text -----**<br>


**Figure 1a:** Input to Output propagation turn-on **Figure 1b:** Input to Output propagation turn-off delay time. delay time. 

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IF VCE<br>HIN/LIN<br>I<br>rr<br>trr<br>**----- End of picture text -----**<br>


**Figure 1c:** Diode Reverse Recovery. 

**Figure 1:** Switching Parameter Definitions 

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14.5mm<br>| (13,335) | (13,335)<br>#1 |<br>il A fh hh Ah<br>3.8mm TC<br>#17 || | (12.225) (13.125) |<br>29,00 0,20<br>Top View<br>**----- End of picture text -----**<br>


**Figure 2:** TC measurement point for Rth(j-C) 

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## **Application Notes** 

A basic application schematic is shown below. 

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VB2<br>VB1 VB3 IRSM505-065<br>-4--}-}--4-2------- VBUS - -<br>2M<br>E VCC E HVICs |<br>SPD-REF XTAL0XTAL1 PWMWHPWMUHPWMVHPWMULPWMVL _oeaeePT a t HIN3HIN2LIN1LIN2HIN1 — SSoPeone a a aaenee W, VS3U, VS1V, VS2<br>AIN2 PWMWL LIN3<br>IRMCF171GATEKILL — — +- o 7.50k [| __ |<br>Power AIN1 3V<br>Supply VDD IFB+ Es | VTH !<br>VDDCAPVSS IFBOIFB- [4 7.68k 6.04k 1nF COM |<br>4.87k<br>3 —— Wa<br>0.25<br>**----- End of picture text -----**<br>


**Figure 3:** Basic sensor-less motor drive circuit connection. Motor is connected to U, V, W 

A complete reference design board for running any permanent magnet motor via sensorless sinusoidal control is available. The board – photo below – features the µIPM™-DIP module and the iMotion™ digital control IC. “Reference design kits are available on www.infineon.com/ipm website” 

**Figure 4:** Reference design board featuring the µIPM™-DIP module and the iMotion™ IRMCF171 digital control IC 

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Figures 5-7 show the typical current capability for this module at specified conditions. In all tests, the application board – the IRMCS1071-1-D reference board – was placed in a box to prevent cooling from ambient airflow. Figure 5 is derived from using a heat sink that maintains TC at 125°C. Figures 6-7 represent current capability for the module as used without any heat sink. ∆TJA represents the difference in temperature between the junction of the high-side V-phase Mosfet and the ambient, measured 10cm above and 6cm away from the board. Ambient temperature kept within 28-29°C. 

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1800<br>1600<br>1400<br>1200<br>1000<br>3-Phase Modulation<br>800<br>2-Phase Modulation<br>600<br>400<br>200<br>0<br>6 8 10 12 14 16 18 20<br>Carrier Frequency (kHz)<br>RMS Phase Current (mA)<br>**----- End of picture text -----**<br>


**Figure 5:** Maximum sinusoidal phase current vs PWM switching frequency with a heat sink. Space Vector Modulation, V+=320V, TA=28°C, TJ=150°C, TC=125°C 

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800<br>700<br>600<br>500<br>400<br>3-Phase Modulation<br>300<br>2-Phase modulation<br>200<br>100<br>0<br>6 8 10 12 14 16 18 20<br>Carrier Frequency (kHz)<br>RMS Phase Current (mA)<br>**----- End of picture text -----**<br>


**Figure 6:** Maximum sinusoidal phase current vs PWM switching frequency, no heat sink. Space Vector Modulation, V+=320V, TA=28°C, TJ=128°C 

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700<br>600<br>500<br>400<br>3-Phase Modulation<br>300<br>2-Phase Modulation<br>200<br>100<br>0<br>6 8 10 12 14 16 18 20<br>Carrier Frequency (kHz)<br>RMS Phase Current (mA)<br>**----- End of picture text -----**<br>


**Figure 7:** Maximum sinusoidal phase current vs PWM switching frequency, no heat sink. Space Vector Modulation, V+=320V, TA=28°C, TJ=98°C 

The module contains an NTC – connected between COM and the VTH pin – which can be used to monitor the temperature of the module. The NTC is effectively a resistor whose value decreases as the temperature rises. The NTC resistance can be calculated at any temperature as follows: 

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An external resistor network is connected to the NTC, the simplest of which is one resistor pulled up to VCC as shown in Figure 3. The VTH vs NTC temperature, TTH curve for this configuration is shown in Figure 8 below. The min, typical and max curves result from the NTC having a ±5% tolerance on its resistance and ±2% tolerance on the B-parameter. 

Figure 9 shows the thermistor temperature, TTH plotted against the high-side V-phase junction temperature, TJ for a module without a heat sink. It is thus advisable to shut down the module when TTH reaches 125°C. 

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14.0<br>min typical max<br>12.0<br>10.0<br>8.0<br>6.0<br>4.0<br>2.0<br>0.0<br>0 10 20 30 40 50 60 70 80 90 100 110 120 130 140<br>TTH (°C)<br> (V)<br>TH<br>V<br>**----- End of picture text -----**<br>


**Figure 8:** VTH vs TTH with VTH pin pulled up to VCC with a 7.50kΩ (1%, 100ppm) resistor. A 15V, 1% variation in VCC is assumed. 

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140<br>120<br>100<br>80<br>60<br>40<br>20<br>0<br>0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160<br>TJ (°C)<br>(°C<br>TH<br>T<br>**----- End of picture text -----**<br>


**Figure 9:** TTH vs TJ for a module without a heat sink. VCC=15.4V, R=7.50kΩ 

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## **SOP23 Package Outline** 

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WAVALAT AAT ATALAA ALAC AAP<br>**----- End of picture text -----**<br>


Dimensions in mm 

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## **DIP23A Package Outline** 

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j 16-0.60+ 0.10 [/\] [#16]<br>15*1,778=26,67+ 0.30<br>(13.335) (13.335)<br>| | | |<br>| #16<br>Mh hhhdihhoviw@hh<br>T<br>SY oR aa | fy, Ee aa 3<br>aWYP AY | ae | #23<br>(12.225) ja| (13.125)<br>po 29,00 0200<br>2X3,90=7,80+ 0,30 4X3,90=15,60+ 0,30 _<br>__|1,95+ 0.30 ; a<br>| #19 | #23<br>0.50+ 0.05<br>LEAD #19,#20 LEAD<br>MAX1.00 | | —_|_|_ MAX 1.00<br>Dimensions in mm<br>**----- End of picture text -----**<br>


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## **DIP23 Package Outline** 

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Dimensions in mm<br>**----- End of picture text -----**<br>


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## **Top Marking** 

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A 0123-412P<br>IRSM505-065PA<br>**----- End of picture text -----**<br>


**Marking Code** P = Pb Free; Y = Engineering Samples **Date Code** YWW format, where Y = least significant digit of the production year , WW = two digits representing the week of the production year 

## **Revision History:** 

- **Nov 2014   Corrected logic in Figure 1. Added UL certification note** 

- **Jan 2020   Updated the part table on page 1. OPNs are no longer listed in the** 

   - **datasheet. Updated headers, footers and disclaimers on datasheet.** 

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## **Trademarks** 

All referenced product or service names and trademarks are the property of their respective owners. 

## **IMPORTANT NOTICE** 

**Edition 2019-08-09** The information given in this document shall in no event be regarded as a guarantee of conditions or **Published by** characteristics  (“Beschaffenheitsgarantie”) . **Infineon Technologies AG** With respect to any examples, hints or any typical **81726 Munich, Germany** 

With respect to any examples, hints or any typical values stated herein and/or any information regarding the application of the product, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation warranties of non-infringement of intellectual property rights of any third party. 

**© 2019 Infineon Technologies AG. All Rights Reserved.** 

**Do you have a question about this document? Email:** erratum@infineon.com 

In addition, any information given in this document is subject to customer’s compliance with its obligations stated in this document and any applicable legal requirements, norms and standards concerning customer’s products and any use of the product of Infineon Technologies in customer’s applications. 

The data contained in this document is exclusively intended for technically trained staff. It is the responsibility of customer’s technical departments to evaluate the suitability of the product for the intended application and the completeness of the product information given in this document with respect to such application. 

For further information on the product, technology, delivery terms and conditions and prices please contact your nearest Infineon Technologies office ( **www.infineon.com** ). 

Please note that this product is not qualified according to the AEC Q100 or AEC Q101 documents of the Automotive Electronics Council. 

## **WARNINGS** 

Due to technical requirements products may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies office. 

Except as otherwise explicitly approved by Infineon Technologies in a written document signed by authorized representatives of Infineon Technologies, Infineon Technologies’ products may not be used in any applications where a failure of the product or any consequences of the use thereof can reasonably be expected to result in personal injury. 

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January 21, 2020 



## Links

- [View this product on Novapart](https://novapart.co/products/IRSM505-065DA/motor-driver-controller-three-phase-ac-69v-to-98v)
- [Request a quote for this part](https://novapart.co/quote/)
- [Supplier page](https://es.farnell.com/infineon/irsm505-065da/ipm-module-mosfet-500v-2-6a-dip/dp/2781294)
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