9RV Series
6 to 600VDC, 3 to 40W, 1 to 90kJ
- Part #MCOV (VDC)PMAXWMAXVC
- Part #9RV3A1MCOV (VDC)6 VPMAX3 WWMAX1100 JVC40 V
- Part #9RV3A2MCOV (VDC)6 VPMAX6 WWMAX2200 JVC40 V
- Part #9RV3A3MCOV (VDC)6 VPMAX12 WWMAX4400 JVC40 V
- Part #9RV3A4MCOV (VDC)12 VPMAX3 WWMAX1350 JVC80 V
- Part #9RV3A5MCOV (VDC)12 VPMAX6 WWMAX2700 JVC80 V
- Part #9RV3A6MCOV (VDC)12 VPMAX12 WWMAX5400 JVC80 V
- Part #9RV3A7MCOV (VDC)25 VPMAX6 WWMAX2700 JVC160 V
- Part #9RV3A8MCOV (VDC)50 VPMAX3 WWMAX1700 JVC200 V
- Part #9RV3A9MCOV (VDC)50 VPMAX6 WWMAX3400 JVC200 V
- Part #9RV3A10MCOV (VDC)50 VPMAX12 WWMAX6800 JVC200 V
- Part #9RV3A11MCOV (VDC)100 VPMAX6 WWMAX3400 JVC400 V
- Part #9RV3A12MCOV (VDC)150 VPMAX3 WWMAX5,100 JVC775 V
- Part #9RV3A14MCOV (VDC)300 VPMAX3 WWMAX5,100 JVC1350 V
- Part #9RV3A15MCOV (VDC)600 VPMAX6 WWMAX10200 JVC2300 V
- Part #9RV3B3MCOV (VDC)12 VPMAX6 WWMAX2200 JVC80 V
- Part #9RV3B4MCOV (VDC)15 VPMAX3 WWMAX1350 JVC100 V
- Part #9RV3B5MCOV (VDC)15 VPMAX6 WWMAX2700 JVC100 V
- Part #9RV3B6MCOV (VDC)30 VPMAX3 WWMAX1700 JVC150 V
- Part #9RV3B7MCOV (VDC)30 VPMAX6 WWMAX3400 JVC150 V
- Part #9RV3B8MCOV (VDC)60 VPMAX3 WWMAX1700 JVC250 V
- Part #9RV3B9MCOV (VDC)60 VPMAX6 WWMAX3400 JVC250 V
- Part #9RV3B10MCOV (VDC)60 VPMAX12 WWMAX6800 JVC250 V
- Part #9RV3B11MCOV (VDC)100 VPMAX6 WWMAX3400 JVC400 V
- Part #9RV6A1MCOV (VDC)150 VPMAX10 WWMAX22,500 JVC780 V
- Part #9RV6A2MCOV (VDC)150 VPMAX20 WWMAX45000 JVC780 V
- Part #9RV6A3MCOV (VDC)150 VPMAX30 WWMAX67500 JVC780 V
- Part #9RV6A4MCOV (VDC)150 VPMAX40 WWMAX90000 JVC780 V
- Part #9RV6A5MCOV (VDC)300 VPMAX20 WWMAX45000 JVC1440 V
- Part #9RV6A6MCOV (VDC)275 VPMAX10 WWMAX22,500 JVC1200 V
- Part #9RV6A7MCOV (VDC)275 VPMAX20 WWMAX45000 JVC1200 V
- Part #9RV6A8MCOV (VDC)275 VPMAX30 WWMAX67500 JVC1200 V
- Part #9RV6A9MCOV (VDC)275 VPMAX40 WWMAX90000 JVC1200 V
- Part #9RV6A10MCOV (VDC)550 VPMAX20 WWMAX45000 JVC2160 V
Notes
- Continuous body temperature limit to 110°C.
- Short-Term body temperature can reach 150°C.
- AC voltage of approximately 90% of the DC voltage rating may be used.
- The Discharge Capacity value should not be exceeded by the energy stored in the magnetic or inductive field (W=1/2LI2). A discharge energy equal to the Discharge Capacity value will result in a temperature rise of approximately 80°C.
- Most bracket mounted assemblies are also available for stud mounting. Substitute "C" for "A" in catalog number.
