GB15RF120K - INTERNATIONAL RECTIFIER

Description

MODULE IGBT 1200V 15A ECONO2 PIM

Part Number

GB15RF120K

Price

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Manufacturer

INTERNATIONAL RECTIFIER

Lead Time

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Category

PRODUCTS - G

Datasheet

4153819_1.pdf

425 KiB

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Extracted Text

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9 ��<� �:<� �H�F�:<=�� 9)��"��#��!! 9 75< ��<� 4 � �F5B<*�� F�8�� 9)..�"��#��!! 9 <:< 7�� F��<��( FD5Ω��F�:�� + �� #$��"��#��!! 9 �<�� :�<� �H�F��:<=�� # ��9)��$��#�0� 9 <� 8< �! � �F5B<*�� F�8�� # (�!��#�0� 9 D< 8< � �F��<��( FD5Ω��F�:�� + � �� # ��9)..��$��#�0� 9 C8< D�� H�F��:<=� �� # �$��#�0� 9 �C< �6� � � ��%�#��$%$��#$�� 9 5D� 9 %� � �F�� )�#%�#��$%$��#$�� 9 7< 9 � �F�C�� (�/��!��$�!.��$%$��#$�� 9 :� 9 .�F��2�A �� (�")* (�/��!��$!�"$.��)%��$#��*��$ �-��"I-*(� �H�F��<�=�� F�C�* � ( FD5Ω�� F��<��#�� "�")* "��#��#�"$.��)%��$#��*��$ �� 9 9 ! �H�F��<�=� � �F�7�� F��:�� ( FD5Ω�� F��<��#�� $1�(�/B�(��/��# 9 �C 9 * � �F�8�� F�5B<*��F�D�� + �� $1� � �F��<��#��( FD5Ω �H�F��:<=� �� $��#$��% 9 �B7� :B�� F�5B<* �� 9 :BD� :B5� � �F��<* � 9: 9 � �F�5B<*��H�F��:<=� � 9 :B8< 9 � �F��<*��H�F��:<=� � �� ( (�!�!#$�� D�<�=� ��!!�!��K#$��K�$��/��!��/�� 50 50 45 45 V = 18V V = 18V GE GE VGE = 15V VGE = 15V 40 40 VGE = 12V VGE = 12V 35 35 VGE = 10V VGE = 10V VGE = 8.0V VGE = 8.0V 30 30 25 25 20 20 15 15 10 10 5 5 0 0 0123 4 5 6 0123 4 5 6 V (V) V (V) CE CE �� !��"��!" �� !��"��!" � �#�$�%�&��#�’�(" � �#��$�%�&��#�’�(" � � 180 20 T = 25°C 18 160 J T = 125°C J 16 140 14 120 12 I = 7.5A CE 100 I = 15A 10 CE 80 I = 30A CE 8 60 6 40 4 20 2 0 0 0 2 4 6 8 10 12 14 16 18 20 510 15 20 V (V) V (V) GE GE �� "*�� !��"��!" ��! ��) �"��) �� ) �#��)&��#��(" � �#�$�%� �� 10000 20 18 16 Cies 14 1000 12 I = 7.5A CE I = 15A 10 CE I = 30A Coes CE 8 100 6 4 Cres 2 0 10 510 15 20 0 20 40 60 80 100 V (V) GE V (V) CE ��! ��) �"��) �� !�� !��"��) �� #��$�%� � �) #��)&�*�#��+,- �� I (A) C E V (V) I (A) CE CE Capacitance (pF) (V) I (A) V CE CE �� 16 50 45 25°C 14 125°C 40 400V 12 600V 35 10 30 8 25 20 6 15 4 10 2 5 0 0 0 2040 6080 100 0.0 1.0 2.0 3.0 4.0 Q , Total Gate Charge (nC) V (V) G F ��! �� 2��"��) � �� ./��0.�1 �/�� !��"��!" �� #��&�3�#��4, �� #�’�(" 4000 1000 3500 E ON td 3000 OFF 2500 t F µ E OFF 2000 100 t R 1500 td ON 1000 500 0 10 0 10203040 0 10 20 30 40 I (A) C I (A) C ��51��!��2��4��"�� 9��2��3.""��"�� #��$�%�&�3#��(,&�) #�6��)78 #�$$Ω&) #��) � �#��$�%�&�3#��(,&�) #�6��)78 #�$$Ω&�) #��) � �� 1000 2500 E ON 2000 t F td 1500 OFF µ E 100 OFF td 1000 ON t R 500 10 0 0 10 20 30 40 50 0 10 20 30 40 50 R (Ω) R ( ) Ω G G ��9��2��3.""��"��8 ��51��!��2��4��"��8 � � � �#��$�%�&�3#��(,&�) #�6��)7�� #��&�) #��) � �#��$�%�&�3#��(,&�) #�6��)7�� #��&�) #��) � �� Energy ( J) ( J) Energy V (V) GE Swiching Time (ns) Swiching Time (ns) I (A) F �� 40 30 R 4.7 Ω G = 35 25 30 R 10 Ω G = 20 25 R 22 Ω G = 20 15 R 47 Ω G = 15 10 10 5 5 0 0 0 10 20 30 40 0 10 20 30 40 50 I (A) R (Ω) F G ��! ��./�� "�� ! ��./�� "��8 �� #��$�%� � �#��$�%�&�� #�� 14 30 12 10 20 8 6 10 4 2 0 0 0 20 40 60 80 100 120 140 160 180 0 200 400 600 800 1000 1200 T , Junction Temperature (°C) di /dt (A/µs) J F ��4�"�.��8�"�"� �!��"��4�� ! ��./�� "��/� �/� �� ) #�6��)&�) #��)&�� #��&�� #��$�%� �� 90 80 T = 125°C J 70 T = 25°C 60 J 50 40 30 20 10 0 0.0 0.5 1.0 1.5 2.0 2.5 Forward Voltage Drop - V ( V ) F ��./��0.�1 �/�� !��"��!" ��#�’�(" � �� I (A) I (A) RR RR Instantaneous Forward Current - I ( A ) F I (A) RR Thermistor Resistance ( kΩ) �� 10 1 D = 0.50 0.20 0.10 0.1 R R R R 1 2 3 4 �� τ�� 0.05 R R R R 1 2 3 4 �� τ J τ C 0.01 τ J τ �� τ 0.02 1 τ τ τ 0.01 2 3 4 τ 1 τ τ τ 2 3 4 �� Ci= τi/Ri �� Ci= i/Ri SINGLE PULSE Notes: 0.001 ( THERMAL RESPONSE ) 1. Duty Factor D = t1/t2 2. Peak Tj = P dm x Zthjc + Tc 0.0001 1E-6 1E-5 1E-4 1E-3 1E-2 1E-1 1E+0 t , Rectangular Pulse Duration (sec) 1 ��+ :�4�4�� "��4 ��4��/ �!�7�;��!��.��.�� "��<��= 10 1 D = 0.50 0.20 R R R 0.10 1 2 3 R R R �� τ�� 1 2 3 0.1 τ 0.05 J τ C τ �� J τ τ 1 τ τ 2 3 τ �� 0.01 1 τ τ 2 3 0.02 �� Ci= τi/Ri Ci= τi/Ri 0.01 Notes: 1. Duty Factor D = t1/t2 SINGLE PULSE 2. Peak Tj = P dm x Zthjc + Tc ( THERMAL RESPONSE ) 0.001 1E-6 1E-5 1E-4 1E-3 1E-2 1E-1 1E+0 t , Rectangular Pulse Duration (sec) 1 ��+ :�4�4�� "��4 ��4��/ �!�7�;��!��.��.�� "��<��089�= 900 45 900 18 tf 800 16 800 40 tr 90% I CE 700 35 700 14 TEST CURRENT 600 30 600 12 500 25 500 10 90% test current 400 20 400 8 300 15 300 6 5% V CE 10% test current 200 10 200 4 5% V 5% I CE CE 100 5 100 2 0 0 Eon Loss 0 0 Eoff Loss -100 -5 -100 -2 9.40 9.60 9.80 10.00 10.20 10.40 -0.60 0.40 1.40 2.40 Time (µs) Time(µs) 0�2��>0��.**�3.""�> ��*.�4 0�2��>0$��.��3.""�> ��*.�4 ?�� #��$�%��"��2�0�2�� ?�� #��$�%��"��2�0�2�� VCE (V) ICE (A) VCE (V) ICE (A) Thermal Response ( Z ) Thermal Respon ) thJC se ( Z thJC �� 50 50 45 V = 18V 45 V = 18V GE GE VGE = 15V VGE = 15V 40 40 VGE = 12V VGE = 12V 35 35 VGE = 10V VGE = 10V VGE = 8.0V VGE = 8.0V 30 30 25 25 20 20 15 15 10 10 5 5 0 0 0123 4 5 6 0123 4 5 6 V (V) V (V) CE CE �� !��"��!" �� !��"��!" � �#��$�%�&��#�’�(" � �#�$�%�&��#�’�(" � � 20 100 18 T = 25°C J T = 125°C 16 80 J 14 12 I = 3.75A 60 CE I = 7.5A 10 CE I = 15A CE 8 40 6 4 20 2 0 0 510 15 20 0 2 4 6 8 10 12 14 16 18 20 V (V) V (V) GE GE ��! ��) �"��) �� "*�� !��"��!" �� #�$�%� ) �#��)&��#��(" � �� 20 10000 18 16 14 1000 Cies 12 I = 3.75A CE I = 7.5A 10 CE I = 15A CE 8 100 6 Coes 4 2 Cres 0 10 510 15 20 0 20 40 60 80 100 V (V) GE V (V) CE ��! ��) �"��) �� !�� !��"��) �� #��$�%� � �) #��)&�*�#��+,- �� I (A) CE V (V) CE I (A) CE Capacitance (pF) V (V) I (A) CE CE �� 16 50 45 25°C 14 125°C 400V 600V 40 12 35 10 30 8 25 20 6 15 4 10 2 5 0 0 025 50 75 0.0 1.0 2.0 3.0 4.0 5.0 Q , Total Gate Charge (nC) V (V) G F ��! �� 2��"��) � �� ./��0.�1 �/�� !��"��!" �� #��&�3�#��4, �� #�’�(" 3000 1000 2500 td OFF E ON 2000 µ 1500 100 t F E OFF t R 1000 td ON 500 0 10 010 20 30 0 10 20 30 I (A) C I (A) C ��9��2��3.""��"�� 51��!��2��4��"�� #��$�%�&�3#��(,&�) #�6��)78 #��Ω&�) #��) � �#��$�%�&�3#��(,&�) #�6��)78 #��Ω&) #��) � �� 1000 1200 E ON 1000 td OFF 800 µ t 600 100 F E OFF 400 td ON t 200 R 0 10 0 50 100 150 0 50 100 150 R (Ω) R (Ω) G G ��9��2��3.""��"��8 ��51��!��2��4��"��8 � � � �#��$�%�&�3#��(,&�) #�6��)7�� #�’��&�) #��) � �#��$�%�&�3#��(,&�) #�6��)7�� #�’��&�) #��) � �� ( J) Energy ( J) Energy V (V) GE Swiching Time ( Swiching Time (ns) ns) I (A) F �� 45 25 40 20 35 30 15 R 10 Ω 25 G = 20 10 R 22 Ω 15 G = R 47 Ω G = 10 5 R 100 Ω G = 5 0 0 0 10 20 30 40 0 50 100 150 I (A) R ( F Ω) G ��! ��./�� "�� ! ��./�� "��8 �� #��$�%� � �#��$�%�&�� #�� 25 20 15 10 5 0 0 200 400 600 800 1000 1200 di /dt (A/µs) F ��! ��./�� "��/� �/� �� ) #�6��)&�) #��)&�� #��&�� #��$�%� �� I (A) RR I (A) RR I (A) R R �� 10 1 D = 0.50 0.20 0.10 0.1 0.05 R R R 1 2 3 R R R �� τ�� 1 2 3 0.01 τ J τ C �� τ 0.02 J τ 0.01 τ 1 τ τ 2 3 τ �� 1 τ τ 2 3 �� Ci= τi/Ri Ci= τi/Ri SINGLE PULSE Notes: 0.001 ( THERMAL RESPONSE ) 1. Duty Factor D = t1/t2 2. Peak Tj = P dm x Zthjc + Tc 0.0001 1E-6 1E-5 1E-4 1E-3 1E-2 1E-1 1E+0 t , Rectangular Pulse Duration (sec) 1 ��+ :�4�4�� "��4 ��4��/ �!�7�;��!��.��.�� "��<�� @��= 10 D = 0.50 1 0.20 0.10 R R R 1 2 3 R R R �� τ�� 0.05 1 2 3 0.1 τ J τ C ��!�� τ J τ 0.01 τ 1 τ τ 2 3 τ �� 0.02 1 τ τ 2 3 �� ! Ci= τi/Ri Ci= τi/Ri 0.01 Notes: SINGLE PULSE 1. Duty Factor D = t1/t2 ( THERMAL RESPONSE ) 2. Peak Tj = P dm x Zthjc + Tc 0.001 1E-6 1E-5 1E-4 1E-3 1E-2 1E-1 1E+0 t , Rectangular Pulse Duration (sec) 1 ��+ :�4�4�� "��4 ��4��/ �!�7�;��!��.��.�� "��<�� @��./�= 900 18 900 45 tf 800 16 800 40 tr 90% I CE 700 14 700 35 TEST CURRENT 600 12 600 30 500 10 500 25 90% test current 400 20 400 8 300 15 300 6 5% V CE 10% test current 200 10 200 4 5% I 5% V CE CE 100 5 100 2 0 0 Eon Loss 0 0 Eoff Loss -100 -5 -100 -2 10.00 10.20 10.40 10.60 10.80 -0.60 0.40 1.40 2.40 Time (µs) Time(µs) 0�2��>0��.**�3.""�> ��*.�4 0�2��>0��.��3.""�> ��*.�4 ?�� #��$�%��"��2�0�2�� ?�� #��$�%��"��2�0�2�� VCE (V) I (A) CE VCE (V) ICE (A) Thermal Response ( Z ) thJC Therm ) al Response ( Z thJC �� L L VCC 80 V DUT DUT 0 1000V 1K Rg ��8�5��!�� 2��!��<��.**= diode clamp / DUT L Driver - 5V D 900V C DUT / VCC DRIVER Rg DUT ��5��5��!�� 51��!��2�3.""��!�� VCC R = ICM DUT VCC Rg ��8�"�"��3. /��!�� 6�5��#+��:�4��5�&&�5�$�+��:�� 0.25 [.0098] CONVEX �� <(��:�J ��<(��:�J 6#$#�#�)��7��*��#$��(89��$�$��:#�’��4�$:�($��$�� .:��7+�)(�$�:#��8��)��’��)�#�)�;(#&�*��)�*�+��)(�$+�#&�5#+<�$� =(#&�*��#$��$#�)#+)��#��8��*�(�)��>��8��$�� !"�#�"��!��$��"#��#��$�%��&��’(�)�%��#&�*�+��#�� %�,�-�.�&/��0�� .-��1#2/��0�� 3��$�(��#$�444��+*��5�*�+��#&��$#�$��*�+5#$��%��

Frequently asked questions

At GID Industrial (Elite.Parts' parent company), we specialize in procuring industrial parts. We know where to find the rare and obsolete equipment that our customers need in order to get back to business. There are other companies who claim to do what we do, but we're confident that our commitment to quality and value is unparalleled in our field.

Warranties differ by part and by which suppliers we use to procure it for you. Sometimes, a part will be sold as-is and without a warranty. Our specialty, single board computers, tend to receive a one-year warranty.

Elite.Parts can ship via FedEx, UPS, DHL, and USPS. We have accounts with each of them and generally ship using one of those, but we can also ship using your account if you would prefer. However, we can use other carriers if it will be more convenient for you.

Absolutely! We are happy to serve customers regardless of location. We work with international clients all the time, and we are familiar with shipping to destinations all across the globe.

All major credit cards are accepted: Visa, MasterCard, Discover, and American Express. We will also accept payment made with wire transfer or PayPal. Checks will only be accepted from customers in the USA. Terms may available for larger orders, upon approval.

What they say about us

FANTASTIC RESOURCE

One of our top priorities is maintaining our business with precision, and we are constantly looking for affiliates that can help us achieve our goal. With the aid of GID Industrial, our obsolete product management has never been more efficient. They have been a great resource to our company, and have quickly become a go-to supplier on our list!

Bucher Emhart Glass

EXCELLENT SERVICE

With our strict fundamentals and high expectations, we were surprised when we came across GID Industrial and their competitive pricing. When we approached them with our issue, they were incredibly confident in being able to provide us with a seamless solution at the best price for us. GID Industrial quickly understood our needs and provided us with excellent service, as well as fully tested product to ensure what we received would be the right fit for our company.

Fuji

HARD TO FIND A BETTER PROVIDER

Our company provides services to aid in the manufacture of technological products, such as semiconductors and flat panel displays, and often searching for distributors of obsolete product we require can waste time and money. Finding GID Industrial proved to be a great asset to our company, with cost effective solutions and superior knowledge on all of their materials, it’d be hard to find a better provider of obsolete or hard to find products.

Applied Materials

CONSISTENTLY DELIVERS QUALITY SOLUTIONS

Over the years, the equipment used in our company becomes discontinued, but they’re still of great use to us and our customers. Once these products are no longer available through the manufacturer, finding a reliable, quick supplier is a necessity, and luckily for us, GID Industrial has provided the most trustworthy, quality solutions to our obsolete component needs.

Nidec Vamco

TERRIFIC RESOURCE

This company has been a terrific help to us (I work for Trican Well Service) in sourcing the Micron Ram Memory we needed for our Siemens computers. Great service! And great pricing! I know when the product is shipping and when it will arrive, all the way through the ordering process.

Trican Well Service

GO TO SOURCE

When I can't find an obsolete part, I first call GID and they'll come up with my parts every time. Great customer service and follow up as well. Scott emails me from time to time to touch base and see if we're having trouble finding something.....which is often with our 25 yr old equipment.

ConAgra Foods

Why buy from GID?

What they say about us

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