d a t a sh eet product speci?cation supersedes data of november 1997 file under ferrite ceramics, ma01 1999 dec 23 ferrite ceramics e64/10/50 planar e cores
1999 dec 23 2 philips components product speci?cation planar e cores e64/10/50 cores effective core parameters of a set of e cores symbol parameter value unit s (i/a) core factor (c1) 0.156 mm - 1 v e effective volume 40700 mm 3 i e effective length 79.7 mm a e effective area 511 mm 2 m mass of core half ? 100 g handbook, halfpage cbw415 64.0 1.3 53.8 1.1 5.1 0.13 50.8 1 r0.64 ref. typ. r0.81 ref. typ. 10.2 0.13 r0.25 max. typ. 10.2 0.2 fig.1 e64/10/50. dimensions in mm. effective core parameters of an e/plt combination ordering information for plates symbol parameter value unit s (i/a) core factor (c1) 0.136 mm - 1 v e effective volume 35500 mm 3 i e effective length 69.6 mm a e effective area 511 mm 2 m mass of plate ? 78 g grade type number 3c90 plt64/50/5-3c90 3f3 plt64/50/5-3f3 3f4 plt64/50/5-3f4 handbook, halfpage cbw416 63.8 1.3 50.3 1 5.08 0.13 r0.64 ref. typ. fig.2 plt 64/50/5. dimensions in mm.
1999 dec 23 3 philips components product speci?cation planar e cores e64/10/50 core halves for use in combination with an e core a l measured in combination with a non-gapped core half, clamping force for a l measurements, 100 30 n, unless stated otherwise. note 1. measured in combination with an equa -gapped core half, clamping force for a l measurements, 100 30 n. core halves for use in combination with a plate (plt) a l measured in combination with a plate (plt), clamping force for a l measurements, 100 30 n. grade a l (nh) m e air gap ( m m) type number 3c90 630 3% (1) ? 78 ? 1100 e64/10-3c90-e630-e 1000 3% (1) ? 124 ? 660 e64/10-3c90-e1000-e 1600 5% ? 199 ? 385 e64/10-3c90-a1600-e 2500 10% ? 310 ? 225 e64/10-3c90-a2500-e 3150 10% ? 391 ? 170 e64/10-3c90-a3150-e 14640 25% ? 1820 ? 0 e64/10/50-3c90 3f3 630 3% (1) ? 78 ? 1100 e64/10-3f3-e630-e 1000 3% (1) ? 124 ? 660 e64/10-3f3-e1000-e 1600 5% ? 199 ? 385 e64/10-3f3-a1600-e 2500 10% ? 310 ? 225 e64/10-3f3-a2500-e 3150 10% ? 391 ? 170 e64/10-3f3-a3150-e 13300 25% ? 1650 ? 0 e64/10/50-3f3 3f4 630 3% (1) ? 78 ? 1100 e64/10-3f4-e630-e 1000 3% (1) ? 124 ? 660 e64/10-3f4-e1000-e 1600 5% ? 199 ? 385 e64/10-3f4-a1600-e 2500 10% ? 310 ? 225 e64/10-3f4-a2500-e 3150 10% ? 391 ? 170 e64/10-3f4-a3150-e 6960 25% ? 860 ? 0 e64/10/50-3f4 grade a l (nh) m e air gap ( m m) type number 3c90 630 3% ? 78 ? 1100 e64/10-3c90-a-630-p 1000 3% ? 124 ? 660 e64/10-3c90-a-1000-p 1600 5% ? 199 ? 385 e64/10-3c90-a-1600-p 2500 10% ? 310 ? 225 e64/10-3c90-a-2500-p 3150 10% ? 391 ? 170 e64/10-3c90-a-3150-p 16540 25% ? 1790 ? 0 e64/10/50-3c90 3f3 630 3% ? 78 ? 1100 e64/10-3f3-a-630-p 1000 3% ? 124 ? 660 e64/10-3f3-a-1000-p 1600 5% ? 199 ? 385 e64/10-3f3-a-1600-p 2500 10% ? 310 ? 225 e64/10-3f3-a-2500-p 3150 10% ? 391 ? 170 e64/10-3f3-a-3150-p 15050 25% ? 1630 ? 0 e64/10/50-3f3
1999 dec 23 4 philips components product speci?cation planar e cores e64/10/50 properties under power conditions 3f4 630 3% ? 78 ? 1100 e64/10-3f4-a-630-p 1000 3% ? 124 ? 660 e64/10-3f4-a-1000-p 1600 5% ? 199 ? 385 e64/10-3f4-a-1600-p 2500 10% ? 310 ? 225 e64/10-3f4-a-2500-p 3150 10% ? 391 ? 170 e64/10-3f4-a-3150-p 7920 25% ? 860 ? 0 e64/10/50-3f4 core combination b (mt) at core loss (w) at h = 250 a/m; f = 10 khz; t = 100 c f = 25 khz; = 200 mt; t = 100 c f = 100 khz; = 100 mt; t = 100 c f = 400 khz; =50mt; t = 100 c f = 1 mhz; =30mt; t = 100 c f = 3 mhz; = 10 mt; t = 100 c e+e64-3c90 3 320 4.90 5.20 --- e+plt64-3c90 3 320 4.30 4.55 --- e+e64-3f3 3 320 - 4.50 7.80 -- e+plt64-3f3 3 320 - 3.95 6.80 -- e+e64-3f4 3 250 --- 12.0 15.0 e+plt64-3f4 3 250 --- 10.5 13.0 grade a l (nh) m e air gap ( m m) type number b ? b ? b ? b ? b ?
|