CDRH Series Features Magnetically shielded construction Storage temperature range: - ~+ Operating temperature range: - ~+ (including coil s self-heat) RoHS Compliance and Halogen Free Qualification to AEC-Q Applications Ideally used in air bag, car audio and navigation of automotive Shapes and Dimensions/Recommended Land Patterns(mm) CDRHD8R/H 9 8 9 6 CDRH6D8/T 6 8 M a x Max 9 φ 9 6 6 (8) Max 6
CDRH Series CDRH8DR/T 8 8 8 M ax 8 CDRHR/T CDRHD68R/T M ax 8 68 6 6 6 6 8 M ax
CDRH Series CDRH/L,CDRH/L C E B F G A D terminal I J K H Dimension of CDRH/L,CDRH/L Part of solder resist printing Type No A B C D E F G H I J K CDRH/L 6Max 6 9 8 CDRH/L 8Max 6 9 8
CDRH Series Electrical Characteristics specification CDRHD8R/H (μh) DCR(mΩ) Max(Typ) (at ) (A) at at CDRHD8RHNP-RPC R % () 6 CDRHD8RHNP-RPC R % (6) 6 6 CDRHD8RHNP-RPC R % () CDRHD8RHNP-RPC R % (8) CDRHD8RHNP-RPC R % () 89 CDRHD8RHNP-PC 68% (6) 8 8 CDRHD8RHNP-MC % (9) 6 9 CDRHD8RHNP-MC % 8(8) 8 6 CDRHD8RHNP-MC % 66() 9 CDRHD8RHNP-MC % (6) 8 CDRHD8RHNP-MC % () 6 9 6 CDRHD8RHNP-68MC 68 68% 68(8) 9 CDRHD8RHNP-MC % (8) 8 6 6 CDRH6D8/T Part No (μh) [Within] DCR(mΩ) Max(Typ) (at ) Saturation current (A) (at ) (at ) (Typ) rise current (A) CDRH6D8TNP-RØNC R % () 9 CDRH6D8TNP-R9NC R9 9% (96) CDRH6D8TNP-RNC R % () 8 CDRH6D8TNP-R6NC R6 6% () 8 CDRH6D8TNP-NC 68% (6) 6 CDRH6D8TNP-ØØPC % (8) CDRH6D8TNP-ØPC % 98(8) 8 CDRH6D8TNP-ØPC % (8) 6 CDRH6D8TNP-ØPC % (6) 9 CDRH6D8TNP-ØPC % 8() 8 CDRH6D8TNP-68ØPC 68 68% () 8 6 CDRH6D8TNP-ØPC % (98) 68 8
CDRH Series CDRH8DR/T (μh) DCR(mΩ) Max(Typ) (at ) (A) at at CDRH8DRTNP-RNC R % 9(8) 8 6 CDRH8DRTNP-R8NC R8 8% (9) 8 6 CDRH8DRTNP-RNC R % () 6 8 CDRH8DRTNP-RNC R % 6() 6 CDRH8DRTNP-RNC R % (88) CDRH8DRTNP-R6NC R6 6% 69() CDRH8DRTNP-NC 68% 98(9) CDRH8DRTNP-8RNC 8R 8% 8(6) 8 CDRH8DRTNP-MC % (6) CDRH8DRTNP-MC % 68(9) 9 CDRH8DRTNP-MC % 6(6) 8 CDRH8DRTNP-MC % (98) 9 CDRH8DRTNP-MC % 86(9) 6 CDRH8DRTNP-68MC 68 68% 88() CDRH8DRTNP-MC % (8) 8 9 CDRH8DRTNP-MC % (6) 9 6 CDRH8DRTNP-MC % 86(689) 6 6 CDRH8DRTNP-MC % (68) 6 8
CDRH Series CDRHR/T (μh) DCR(Ω) Max(Typ) (at ) (A) at at CDRHRTNP-RPC R % 9m(m) 9 6 8 CDRHRTNP-RPC R % m(88m) 8 66 CDRHRTNP-R6PC R6 6% m(m) 6 6 CDRHRTNP-RPC R % 9m(m) 6 CDRHRTNP-PC 68% 6m(m) 66 9 CDRHRTNP-MC % 68m(9m) 6 CDRHRTNP-MC % 8m(8m) 8 9 CDRHRTNP-MC % m(6m) 6 8 CDRHRTNP-MC % 98m(m) 8 CDRHRTNP-MC % 6m(9m) 8 68 CDRHRTNP-68MC 68 68% 6m(m) CDRHRTNP-MC % m(m) CDRHRTNP-MC % 8m(8m) 8 86 CDRHRTNP-MC % 69m(m) 8 68 CDRHRTNP-MC % 6(8m) 8 6 6
CDRH Series CDRHD68R/T 9 6() % CDRHD68RTNP-PC 6 6 (88) 68% 68 CDRHD68RTNP-68PC 68 (6) % CDRHD68RTNP-PC 9 8 6() % CDRHD68RTNP-PC (96) % CDRHD68RTNP-PC 86 () % CDRHD68RTNP-PC () % CDRHD68RTNP-PC 8 8 () 68% 68 CDRHD68RTNP-68PC 6 88(6) % CDRHD68RTNP-PC 6 8 6 9() % CDRHD68RTNP-PC 9() % CDRHD68RTNP-PC 6 8 6 6() % CDRHD68RTNP-PC 6 () % CDRHD68RTNP-PC 89 6() % R CDRHD68RTNP-RNC 6 9 () 6% 6R CDRHD68RTNP-6RNC 6 99(9) % R CDRHD68RTNP-RNC 8 6 8 8(68) % R CDRHD68RTNP-RNC 9 () % R CDRHD68RTNP-RNC 8 6(9) % R CDRHD68RTNP-RNC (at ) (Typ) (at ) rise current Saturation current (A) DCR(mΩ) Max (Typ) (at ) (μh) [Within] Part No
8 CDRH Series 9(8) % CDRHLNP-MC 6 6 () 68% 68 CDRHLNP-68MC 8 6 88m(686m) % CDRHLNP-MC 9 9 6m(9m) % CDRHLNP-MC 9 9m(m) % CDRHLNP-MC 6 m(m) % CDRHLNP-MC 8 66m(m) % CDRHLNP-MC 6 m(m) 68% 68 CDRHLNP-68MC 9m(m) % CDRHLNP-MC 8 9 9m(m) % CDRHLNP-MC 8 9m(m) % CDRHLNP-MC 8m(m) % CDRHLNP-MC m(m) % CDRHLNP-MC 9 9 6 m(6m) 68% CDRHLNP-NC 6 9 m(m) % R CDRHLNP-RNC 68 6 8 m(m) 9% R9 CDRHLNP-R9NC 8 8m(m) % R CDRHLNP-RNC 8 6 6m(8m) 8% R8 CDRHLNP-R8NC 9 6 8m(68m) % R CDRHLNP-RNC at at (A) DCR(Ω) Max(Typ) (at ) (μh) CDRH/L
CDRH Series CDRH/L (μh) DCR(mΩ) Max(Typ) (at ) (A) at at CDRHLNP-RNC R % 9() 8 9 CDRHLNP-R6NC R6 6% (8) 8 8 8 CDRHLNP-RNC R % () 98 8 CDRHLNP-6RNC 6R 6% 6() 8 CDRHLNP-RNC R % 6(6) 9 CDRHLNP-MC % 6(8) 8 66 6 CDRHLNP-MC % 6() 6 6 CDRHLNP-MC % 6(8) 6 6 CDRHLNP-MC % (8) 8 CDRHLNP-MC % 8(6) 9 CDRHLNP-68MC 68 68% (88) 6 CDRHLNP-MC % () 6 CDRHLNP-MC % 6(8) 8 CDRHLNP-MC % (6) CDRHLNP-MC % 8(8) 8 CDRHLNP-MC % (8) 96 9 CDRHLNP-68MC 68 68% (88) 98 9 CDRHLNP-MC % 9(96) 8 66 6 Measuring condition: at khz; V Saturation current: The value of DC current when the inductance decreases to 6% of it s nominal value rise current: The value of DC current when the temperature rise is t= (Ta= ) For More Information Hong Kong Tel+8-88-6688 FAX+8-6-96 Tokyo Tel+8--- FAX+8--- Chicago Tel+-8--6 FAX +-8--6 Shanghai Tel+86--86-99 FAX+86--86-66 Seoul Tel+8--6- FAX+8--6-8 Obernzell Tel+9-89-9- FAX +9-89-9- Shenzhen Tel+86--89-8 FAX+86--89-8 Singapore Tel+6-696-88 FAX+6-696-9 Neumarkt Tel+9-98-9- FAX +9-98-9- Taipei Tel+886--8- FAX+886--8-8 San Jose Tel+-8--966 FAX+-8--98 9