toll free: (888) sei-seis www.seielect.com email: marketing@seielect.com 11 (888) 734-7347 hvc series ? high voltage thick film chip resistors *the continuous maximum voltage applied cannot exceed the maximum power rating and is ohmic value dependent. note: other case sizes and tolerances are available. features ? voltage ratings to 40,000 volts ? low tcr to 25 ppm/c ? ohmic values to 10g; higher values possible ? low vcr to 1 ppm/volt ? available with wire bondable terminations ? very low noise ? tight tolerances to 0.25% ? ultra high stability ? utilizes fine film resistor deposition technology ? custom sizes available ? superior pulse handling capabilities ? rohs compliant / lead-free electrical specifications type package type power rating (watts) @ 70c maximum working voltage* resistance temperature coefficient ohmic range and tolerance 0.5% 1% 5% 10% hvc 0603 0603 0.06 400 25 ppm/c 50 ppm/c 100 ppm/c 200 ppm/c ? 100k ? 1m 100k ? 250m 10k ? 250m 1k ? 1g 100k ? 1m 100k ? 250m 10k ? 250m 1k ? 1g 100k ? 1m 100k ? 250m 10k ? 250m 1k ? 10g hvc 0805 0805 0.20 750 50 ppm/c 100 ppm/c 200 ppm/c ? 100k ? 250m 10k ? 250m 1k ? 1g 100k ? 250m 10k ? 250m 1k ? 1g 100k ? 250m 10k ? 250m 1k ? 10g hvc 1206 1206 0.33 1,200 25 ppm/c 50 ppm/c 100 ppm/c 200 ppm/c 100k ? 1m 100k ? 250m 10k ? 250m 1k ? 250m 100k ? 1m 100k ? 250m 10k ? 250m 1k ? 1g 100k ? 1m 100k ? 250m 10k ? 250m 1k ? 1g 100k ? 1m 100k ? 250m 10k ? 250m 1k ? 10g hvc 2010 2010 1.00 1,700 25 ppm/c 50 ppm/c 100 ppm/c 200 ppm/c 100k ? 1m 100k ? 250m 10k ? 250m 10k ? 250m 100k ? 1m 100k ? 250m 10k ? 250m 10k ? 1g 100k ? 1m 100k ? 250m 10k ? 250m 10k ? 1g 100k ? 1m 100k ? 250m 10k ? 250m 10k ? 10g hvc 2512 2512 2.00 2,500 25 ppm/c 50 ppm/c 100 ppm/c 200 ppm/c 100k ? 1m 100k ? 250m 10k ? 250m 10k ? 250m 100k ? 1m 100k ? 250m 10k ? 250m 10k ? 1g 100k ? 1m 100k ? 250m 10k ? 250m 10k ? 1g 100k ? 1m 100k ? 250m 10k ? 250m 10k ? 10g how to order hvc b 1206 t2 100m 5% r sei type termination size tcr nominal resistance tolerance packaging code termination tcr ratio tolerance style pkg qty description code g wire bondable (gold) t0 = 200ppm 0.25 0402 10,000 7" reel - paper r s solderable single surface t1 = 100ppm 0.50 0603, 0805, 1206 5,000 b solderable (solder coated with nickel barrier) t2 = 50ppm 1.00 10,000 10" reel - paper g t9 = 25ppm 2.00 1,000 bulk a t solderable wrap-around matte tin 5.00 2010, 2512 4,000 7" reel - emboss r z solderable single surface matte tin 10.00
toll free: (888) sei-seis www.seielec t.com email: market ing@seielect.com hvc series ? high voltage thick film chip resistors 12 (888) 734-7347 note: 0202 and 0303 case sizes available only with wire bondable terminations. mechanical specifications type l body length w body width h body height a top termination b bottom termination units hvc 0603 0.063 + 0.01/-0.005 1.60 + 0.25/-0.13 0.031 0.005 0.80 0.13 0.020 0.50 0.010 + 0.01/-0.005 0.25 + 0.25/-0.13 0.010 + 0.01/-0.005 0.25 + 0.25/-0.13 inches mm hvc 0805 0.079 + 0.01/-0.005 2.00 + 0.25/-0.13 0.050 0.005 1.25 0.13 0.025 0.64 0.010 + 0.01/-0.005 0.25 + 0.25/-0.13 0.010 + 0.01/-0.005 0.25 + 0.25/-0.13 inches mm hvc 1206 0.126 + 0.01/-0.005 3.20 + 0.25/-0.13 0.061 0.007 1.5 0.18 0.030 0.76 0.015 + 0.01/-0.005 0.38 + 0.25/-0.13 0.015 + 0.01/-0.005 0.38 + 0.25/-0.13 inches mm hvc 2010 0.200 + 0.01/-0.005 5.08 + 0.25/-0.13 0.100 0.005 2.54 0.13 0.030 0.76 0.020 + 0.01/-0.005 0.51 + 0.25/-0.13 0.020 + 0.01/-0.005 0.51 + 0.25/-0.13 inches mm hvc 2512 0.250 + 0.01/-0.005 6.35 + 0.25/-0.13 0.125 0.005 3.18 0.13 0.030 0.76 0.020 + 0.01/-0.005 0.51 + 0.25/-0.13 0.020 + 0.01/-0.005 0.51 + 0.25/-0.13 inches mm performance characteristics test test method acceptable parameter load life mil-std-202g method 108a test condition d ? r = 2% temperature cycle (thermal shock) mil-std-202g method 107g test condition a ? r = 0.02% resistance to soldering heat ipc/eia j-std-002a paragraph 4.2.4 ipc/eia j-std-002a paragraph 4.2.4.4 solderability ipc/eia j-std-002a paragraph 4.2.2 ipc/eia j-std-002a paragraph 4.2.2.4.2 short time overload mil-prf-55342h pg.32, paragraph 4.8.6 mil-prf-55342h pg.11, paragraph 3.12
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