Discrete SiC Schottky Diodes 1200V

1200V Discrete Silicon Carbide Schottky Diodes

Wolfspeed Discrete Silicon Carbide Schottky Diodes

SpeedFit Design Simulator LTspice & PLECS Models Technical Support Forum

Wolfspeed’s 1200V Discrete Silicon Carbide (SiC) Schottky Diodes feature the MPS (Merged PiN Schottky) design which is more robust and reliable than standard Schottky barrier diodes. Pairing Wolfspeed Silicon Carbide diodes with Silicon Carbide MOSFETs creates a powerful combination of higher efficiency and reduced component pricing when purchased together.

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Product SKU	Request Sample	Blocking Voltage	Current Rating	Generation	Forward Voltage(V_F(type))	Maximum Continuous Current (IF)	Total Capacitive Charge (Q_C (typ))	Total Power Dissipation (P_TOT)	Package	Qualification	Recommended For New Design?
C4D02120A	Click to request a Sample	1200 V	2 A	Gen 4	1.4 V	2 A	11 nC	60 W	TO-220-2	Industrial	Yes
C4D02120E	Click to request a Sample	1200 V	2 A	Gen 4	1.4 V	2 A	11 nC	52 W	TO-252-2	Industrial	Yes
E4D02120E New	Click to request a Sample	1200 V	2 A	Gen 4	1.4 V	2 A	16 nC	50 W	TO-252-2	Automotive	Yes
C4D05120A	Click to request a Sample	1200 V	5 A	Gen 4	1.4 V	5 A	27 nC	81 W	TO-220-2	Industrial	Yes
C4D05120E	Click to request a Sample	1200 V	5 A	Gen 4	1.4 V	5 A	27 nC	97 W	TO-252-2	Industrial	Yes
C4D08120A	Click to request a Sample	1200 V	8 A	Gen 4	1.5 V	8 A	37 nC	120 W	TO-220-2	Industrial	Yes
C4D08120E	Click to request a Sample	1200 V	8 A	Gen 4	1.5 V	8 A	37 nC	137 W	TO-252-2	Industrial	Yes
E4D10120A	Click to request a Sample	1200 V	10 A	Gen 4	1.5 V	10 A	56 nC	166 W	TO-220-2	Automotive	Yes
C4D10120A	Click to request a Sample	1200 V	10 A	Gen 4	1.5 V	10 A	52 nC	136 W	TO-220-2	Industrial	Yes
C4D10120D	Click to request a Sample	1200 V	10 A	Gen 4	1.4 V	10 A	54 nC	187 W	TO-247-3	Industrial	Yes
C4D10120E	Click to request a Sample	1200 V	10 A	Gen 4	1.5 V	10 A	52 nC per leg	170 W	TO-252-2	Industrial	Yes
C4D10120H	Click to request a Sample	1200 V	10 A	Gen 4	1.4 V	10 A	52 nC	136 W	TO-247-2	Industrial	Yes
C4D15120A	Click to request a Sample	1200 V	15 A	Gen 4	1.6 V	15 A	77.5 nC	192 W	TO-220-2	Industrial	Yes
C4D15120D	Click to request a Sample	1200 V	15 A	Gen 4	1.5 V	15 A	37 nC per leg	270 W	TO-247-3	Industrial	Yes
C4D15120H	Click to request a Sample	1200 V	15 A	Gen 4	1.5 V	15 A	77.5 nC	174.5 W	TO-247-2	Industrial	Yes
E4D20120D	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V	20 A	52 nC per leg	176 W	TO-247-3	Automotive	Yes
E4D20120A	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V	20 A	99 nC	242 W	TO-220-2	Automotive	Yes
C4D20120A	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V	20 A	99 nC	242 W	TO-220-2	Industrial	Yes
C4D20120D	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V per leg	20 A	52 nC per leg	352 W	TO-247-3	Industrial	Yes
C4D20120H	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V	20 A	99 nC	246 W	TO-247-2	Industrial	Yes
E4D20120G	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V	20 A	110 nC	250 W	TO-263-2	Automotive	Yes
C4D30120H New	Click to request a Sample	1200 V	30 A	Gen 4	1.5 V	30 A	152 nC	441 W	TO-247-2	Industrial	Yes
C4D30120D	Click to request a Sample	1200 V	30 A	Gen 4	1.6 V per leg	30 A	77.5 nC per leg	440 W	TO-247-3	Industrial	Yes
C4D40120H New	Click to request a Sample	1200 V	40 A	Gen 4	1.5 V	40 A	167 nC	667 W	TO-247-2	Industrial	Yes
C4D40120D	Click to request a Sample	1200 V	40 A	Gen 4	1.5 V per leg	40 A	99 nC per leg	532 W	TO-247-3	Industrial	Yes

Product SKU	Request Sample	Blocking Voltage	Current Rating	Generation	Forward Voltage(V_F(type))	Maximum Continuous Current (IF)	Total Capacitive Charge (Q_C (typ))	Total Power Dissipation (P_TOT)	Package	Qualification	Recommended For New Design?
C4D02120A	Click to request a Sample	1200 V	2 A	Gen 4	1.4 V	2 A	11 nC	60 W	TO-220-2	Industrial	Yes
C4D02120E	Click to request a Sample	1200 V	2 A	Gen 4	1.4 V	2 A	11 nC	52 W	TO-252-2	Industrial	Yes
E4D02120E New	Click to request a Sample	1200 V	2 A	Gen 4	1.4 V	2 A	16 nC	50 W	TO-252-2	Automotive	Yes
C4D05120A	Click to request a Sample	1200 V	5 A	Gen 4	1.4 V	5 A	27 nC	81 W	TO-220-2	Industrial	Yes
C4D05120E	Click to request a Sample	1200 V	5 A	Gen 4	1.4 V	5 A	27 nC	97 W	TO-252-2	Industrial	Yes
C4D08120A	Click to request a Sample	1200 V	8 A	Gen 4	1.5 V	8 A	37 nC	120 W	TO-220-2	Industrial	Yes
C4D08120E	Click to request a Sample	1200 V	8 A	Gen 4	1.5 V	8 A	37 nC	137 W	TO-252-2	Industrial	Yes
E4D10120A	Click to request a Sample	1200 V	10 A	Gen 4	1.5 V	10 A	56 nC	166 W	TO-220-2	Automotive	Yes
C4D10120A	Click to request a Sample	1200 V	10 A	Gen 4	1.5 V	10 A	52 nC	136 W	TO-220-2	Industrial	Yes
C4D10120D	Click to request a Sample	1200 V	10 A	Gen 4	1.4 V	10 A	54 nC	187 W	TO-247-3	Industrial	Yes
C4D10120E	Click to request a Sample	1200 V	10 A	Gen 4	1.5 V	10 A	52 nC per leg	170 W	TO-252-2	Industrial	Yes
C4D10120H	Click to request a Sample	1200 V	10 A	Gen 4	1.4 V	10 A	52 nC	136 W	TO-247-2	Industrial	Yes
C4D15120A	Click to request a Sample	1200 V	15 A	Gen 4	1.6 V	15 A	77.5 nC	192 W	TO-220-2	Industrial	Yes
C4D15120D	Click to request a Sample	1200 V	15 A	Gen 4	1.5 V	15 A	37 nC per leg	270 W	TO-247-3	Industrial	Yes
C4D15120H	Click to request a Sample	1200 V	15 A	Gen 4	1.5 V	15 A	77.5 nC	174.5 W	TO-247-2	Industrial	Yes
E4D20120D	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V	20 A	52 nC per leg	176 W	TO-247-3	Automotive	Yes
E4D20120A	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V	20 A	99 nC	242 W	TO-220-2	Automotive	Yes
C4D20120A	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V	20 A	99 nC	242 W	TO-220-2	Industrial	Yes
C4D20120D	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V per leg	20 A	52 nC per leg	352 W	TO-247-3	Industrial	Yes
C4D20120H	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V	20 A	99 nC	246 W	TO-247-2	Industrial	Yes
E4D20120G	Click to request a Sample	1200 V	20 A	Gen 4	1.5 V	20 A	110 nC	250 W	TO-263-2	Automotive	Yes
C4D30120H New	Click to request a Sample	1200 V	30 A	Gen 4	1.5 V	30 A	152 nC	441 W	TO-247-2	Industrial	Yes
C4D30120D	Click to request a Sample	1200 V	30 A	Gen 4	1.6 V per leg	30 A	77.5 nC per leg	440 W	TO-247-3	Industrial	Yes
C4D40120H New	Click to request a Sample	1200 V	40 A	Gen 4	1.5 V	40 A	167 nC	667 W	TO-247-2	Industrial	Yes
C4D40120D	Click to request a Sample	1200 V	40 A	Gen 4	1.5 V per leg	40 A	99 nC per leg	532 W	TO-247-3	Industrial	Yes

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Schottky Diodes

Selecting the Right Semiconductor Technology for High Power Designs

Join Anuj Narain with Wolfspeed as he compares SiC vs GaN vs Si and learn practical design considerations when selecting semiconductor materials for a variety of high power applications.

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Silicon Carbide in Grid-Tied Applications

This whitepaper will cover the many benefits of Silicon Carbide (SiC) for Grid-Tied applications ranging from 2.2 kW to over 200 kW with Wolfspeed discrete and power module products. The presenters will perform topology analysis to demonstrate the simplifications in system implementation SiC can enable with fast, efficient switching performance compared to more complex, multi-level systems used with Si technology. Next, an overview of Wolfspeed simulation tools will demonstrate how to find the right parts to meet system needs. Finally, examples will show the audience practical examples of how to implement and get started with SiC including a 2.2 kW Totem Pole PFC and 22 kW Bi-directional active front end (AFE) with discrete devices. Utilizing Wolfspeed modules, a 25 kW Bi-directional AFE using Wolfpack modules and a 200 kW Bi-directional AFE using the XM3 module will be presented. With the topics covered, the audience will understand the advantages and capabilities Wolfspeed’s SiC family can bring to their next system design.

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Modeling with SpeedFit

Wolfspeed’s SpeedFit is a powerful online simulator that allows designers to quickly evaluate different power conversion topologies and Silicon Carbide (SiC) devices. The platform is best utilized early in a design cycle to analyze design tradeoffs between different topologies, estimate semiconductor losses and junction temperatures, as well as identifying the best Silicon Carbide (SiC) MOSFETs and Silicon Carbide (SiC) diodes to use in a given design. This saves a great deal of time by reducing the need to sort through datasheets and calculate device losses to select an optimized device. The SpeedFit tool supports numerous power conversion topologies for DC-DC, AC-DC, and DC-AC to support a wide range of applications. This whitepaper will explore some of the topologies including newly added options and demonstrate how SpeedFit can be used to evaluate different device packages and paralleling options.

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