IRHYS9A97130CM, IRHYB9A97130CM
Radiation Hardened Power MOSFET
-100V, 23A, P-channel, R9 Technology
PD-97957A
Features
Product Summary
Single event effect (SEE) hardened
BVDSS: -100V
ID : -23A
RDS(on), max : 76m
QGmax : 50nC
REF: MIL-PRF-19500/780
(up to LET of 91.2 MeV·cm2/mg)
Low RDS(on)
Rugged SOA
Improved avalanche energy
Simple drive requirements
Hermetically sealed
Electrically isolated case
Ceramic eyelets (Low-Ohmic TO-257AA)
Light weight
ESD rating: class 2 per MIL-STD-750, Method 1020
Low – Ohmic
TO-257AA
Tabless
TO-257AA
Potential Applications
DC-DC converter
Motor drives
Latching current limiter
Product Validation
Qualified according to MIL-PRF-19500 for space applications
Description
IR HiRel R9 technology provides superior power MOSFETs for space applications. This family of p-channel
MOSFETs are the first radiation hardened devices that are based on a superjunction technology. These devices
have improved immunity to Single Event Effect (SEE) and have been characterized for useful performance with
Linear Energy Transfer (LET) up to 91.2 MeV·cm2/mg. Their combination of low RDS(on) and improved SOA allows
for better performance in applications such as Latching Current Limiters (LCL), Solid-State Power Controllers
(SSPC) or DC-DC converters. These devices retain all of the well-established advantages of MOSFETs such as
voltage control, fast switching and temperature stability of electrical parameters.
Ordering Information
Table 1
Ordering options
Part number
Package
Screening Level
COTS
TID Level
IRHYS9A97130CM
JANSR2N7660T3
IRHYS9A93130CM
JANSF2N7660T3
IRHYB9A97130CM
JANSR2N7660D5
IRHYB9A93130CM
JANSF2N7660D5
Low-Ohmic TO-257AA
Low-Ohmic TO-257AA
Low-Ohmic TO-257AA
Low-Ohmic TO-257AA
Tabless TO-257AA
100 krad(Si)
100 krad(Si)
300 krad(Si)
300 krad(Si)
100 krad(Si)
100 krad(Si)
300 krad(Si)
300 krad(Si)
JANS
COTS
JANS
COTS
Tabless TO-257AA
JANS
Tabless TO-257AA
COTS
Tabless TO-257AA
COTS
Please read the Important Notice and Warnings at the end of this document
page 1 of 15
www.infineon.com/irhirel
2022-08-23