12 meeting your need s 1.800.pik.toko 1.847.297.0070 www.tokoam.com photolithographic chip inductors type ptl1608f features ? 2% inductance tolerance ? inductance range: 1.0-18nh ? temperature coefficient: +100ppm/ c ? temperature range: C40 c to +100 c ? srf tolerance within 10% ? miniature size: 0603 footprint (1.6mm x 0.8mm) ? q: 50 typical (at 1800mhz) ? s-parameter data available upon request ? packaged on tape and reel in 6,000 piece quantity standard parts selection guide unit: mm type l (mm) w (mm) t (mm) a (mm) ptl1608 1.6 0.1 0.8 0.1 0.5 0.1 0.3 0.2 type ptl1608-f part numbering * add tolerance to part number: c= 0.2nh, s= 0.3nh, g = 2%, t= 3% testing conditions: (1) l,q: hp4291a (test fixture hp16193a) (2) srf: hp8719d (3) rdc: hp4338b the ptl1608-f is a photolithographically etched single layer ceramic chip inductor in a standard 0603 package. toko's proprietary design provides high srf, excellent q, and supe- rior temperature stability. this highly stable inductor family is specifically designed for critical tolerance inductor needs. more economical than thin film or screened wirewounds, the ptl1608-f is an ideal solution for tight tolerance require- ments, such as vco circuits and gaas matching. ptl 1608 - f 1n0 c tolerance (c= 0.2nh, s= 0.3nh, g= 2%, t= 3%) inductance material dimensions (lxw) type name l w t a a polarity marking o k o t r e b m u n t r a p ) h n ( e c n a t c u d n i z h m 0 0 1 t a ) h n ( e c n a t c u d n i z h m 0 0 8 t a z h m - - - t a ) . p y t ( q f r s ) z h m ( ( c d r w ) ) . x a m ( c d i a m ) . x a m ( ) h n ( l* e c n a r e l o t) h n ( le c n a r e l o t0 0 10 0 80 0 8 1 * _ 0 n 1 f - 8 0 6 1 l t p0 . 1s , c0 . 1h n 3 . 0 1 17 37 5% 0 1 0 0 5 2 10 1 . 00 0 0 1 * _ 2 n 1 f - 8 0 6 1 l t p2 . 1s , c2 . 1h n 3 . 0 0 15 36 5% 0 1 0 0 5 1 12 1 . 00 0 9 * _ 5 n 1 f - 8 0 6 1 l t p5 . 1s , c4 . 1h n 3 . 0 93 32 5% 0 1 0 0 0 0 15 1 . 00 0 8 * _ 8 n 1 f - 8 0 6 1 l t p8 . 1s , c7 . 1h n 3 . 0 0 13 30 5% 0 1 0 5 2 95 1 . 00 0 7 * _ 2 n 2 f - 8 0 6 1 l t p2 . 2s , c1 . 2h n 3 . 0 96 34 5% 0 1 0 0 4 82 2 . 00 5 6 * _ 7 n 2 f - 8 0 6 1 l t p7 . 2s , c6 . 2h n 3 . 0 0 16 33 5% 0 1 0 0 4 75 2 . 00 0 6 * _ 3 n 3 f - 8 0 6 1 l t p3 . 3s , c2 . 3h n 3 . 0 93 38 4% 0 1 0 0 6 65 3 . 00 0 5 * _ 9 n 3 f - 8 0 6 1 l t p9 . 3s , c8 . 3h n 3 . 0 95 30 5% 0 1 0 5 8 50 4 . 00 0 5 * _ 7 n 4 f - 8 0 6 1 l t p7 . 4s , c6 . 4h n 3 . 0 0 15 31 5% 0 1 0 0 2 55 4 . 00 5 4 * _ 6 n 5 f - 8 0 6 1 l t p6 . 5s , c5 . 5h n 3 . 0 0 15 39 4% 0 1 0 0 7 45 5 . 00 0 4 * _ 8 n 6 f - 8 0 6 1 l t p8 . 6s , c7 . 6h n 4 . 0 92 34 4% 0 1 0 0 2 45 7 . 00 5 3 * _ 2 n 8 f - 8 0 6 1 l t p2 . 8s , c2 . 8h n 4 . 0 93 33 4% 0 1 0 5 7 30 . 10 0 3 * _ n 0 1 f - 8 0 6 1 l t p0 1t , g1 . 0 1% 4 93 39 3% 0 1 0 5 2 32 . 10 5 2 * _ n 2 1 f - 8 0 6 1 l t p2 1t , g1 . 2 1% 4 81 38 3% 0 1 0 0 1 36 . 10 0 2 * _ n 5 1 f - 8 0 6 1 l t p5 1t , g6 . 5 1% 4 81 32 3% 0 1 0 5 6 20 . 20 0 2 * _ n 8 1 f - 8 0 6 1 l t p8 1t , g8 . 8 1% 4 89 20 3% 0 1 0 0 4 25 . 20 8 1
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