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LQP02TQ3N9B02D

LQP02TQ3N9B02D

  • 厂商:

    MURATA-PS(村田)

  • 封装:

    IND-2P_0.4X0.2MM_SM

  • 描述:

    Inductor, 3.9Nh, 0.27A, 01005; Inductance:3.9Nh; Product Range:lqp02Tq_02 Series; Dc Current Rating:...

  • 数据手册
  • 价格&库存
LQP02TQ3N9B02D 数据手册
Spec No.: JELF243C_0019K-01 P1/16 CHIP COILS (CHIP INDUCTORS) LQP02TQ□□□□02□ REFERENCE SPECIFICATION 1. Scope This reference specification applies to chip coils (chip inductors) LQP02TQ_02 series for general electronic equipment. 2. Part Numbering (Ex.) LQ P 02 Product Structure Dimension ID (L × W) T Q 0N2 B 0 2 Application Category Inductance Tolerance Performance Electrode and specification characteristic D Packaging L: 4 mm width /plastic tape D: 8 mm width /paper tape *B: bulk *B: Bulk packing is also available (taping condition: however, products without reels are put in plastic bags). 3. Part Number and Rating Operating temperature range Storage temperature range -55°C to +125°C -55°C to +125°C Inductance Customer Part number Murata Part number Nominal value (nH) Tolerance LQP02TQ0N2B02D 0.2 B: ±0.1 nH Q (Min.) DC resistance (Ω max.) - 0.1 Self-resonant frequency (GHz) *Typical value Lower limit >20 16.6 Rated current (mA) 990 LQP02TQ0N2B02L 0.2 B: ±0.1 nH - 0.1 >20 16.6 990 LQP02TQ0N2C02D 0.2 C: ±0.2 nH - 0.1 >20 16.6 990 LQP02TQ0N2C02L 0.2 C: ±0.2 nH - 0.1 >20 16.6 990 LQP02TQ0N3B02D 0.3 B: ±0.1 nH - 0.1 >20 16.6 990 LQP02TQ0N3B02L 0.3 B: ±0.1 nH - 0.1 >20 16.6 990 LQP02TQ0N3C02D 0.3 C: ±0.2 nH - 0.1 >20 16.6 990 LQP02TQ0N3C02L 0.3 C: ±0.2 nH - 0.1 >20 16.6 990 LQP02TQ0N4B02D 0.4 B: ±0.1 nH 10 0.1 >20 16.6 990 LQP02TQ0N4B02L 0.4 B: ±0.1 nH 10 0.1 >20 16.6 990 LQP02TQ0N4C02D 0.4 C: ±0.2 nH 10 0.1 >20 16.6 990 LQP02TQ0N4C02L 0.4 C: ±0.2 nH 10 0.1 >20 16.6 990 LQP02TQ0N5B02D 0.5 B: ±0.1 nH 10 0.1 >20 16.6 730 LQP02TQ0N5B02L 0.5 B: ±0.1 nH 10 0.1 >20 16.6 730 LQP02TQ0N5C02D 0.5 C: ±0.2 nH 10 0.1 >20 16.6 730 LQP02TQ0N5C02L 0.5 C: ±0.2 nH 10 0.1 >20 16.6 730 LQP02TQ0N6B02D 0.6 B: ±0.1 nH 10 0.1 >20 16.6 730 LQP02TQ0N6B02L 0.6 B: ±0.1 nH 10 0.1 >20 16.6 730 LQP02TQ0N6C02D 0.6 C: ±0.2 nH 10 0.1 >20 16.6 730 LQP02TQ0N6C02L 0.6 C: ±0.2 nH 10 0.1 >20 16.6 730 LQP02TQ0N7B02D 0.7 B: ±0.1 nH 10 0.15 >20 16.6 630 LQP02TQ0N7B02L 0.7 B: ±0.1 nH 10 0.15 >20 16.6 630 LQP02TQ0N7C02D 0.7 C: ±0.2 nH 10 0.15 >20 16.6 630 LQP02TQ0N7C02L 0.7 C: ±0.2 nH 10 0.15 >20 16.6 630 LQP02TQ0N8B02D 0.8 B: ±0.1 nH 10 0.15 >20 16.6 630 LQP02TQ0N8B02L 0.8 B: ±0.1 nH 10 0.15 >20 16.6 630 LQP02TQ0N8C02D 0.8 C: ±0.2 nH 10 0.15 >20 16.6 630 MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P2/16 Inductance Customer Part number Murata Part number Q (Min.) Nominal value (nH) Tolerance DC resistance (Ω max.) Self-resonant frequency (GHz) *Typical value Lower limit Rated current (mA) LQP02TQ0N8C02L 0.8 C: ±0.2 nH 10 0.15 >20 16.6 630 LQP02TQ0N9B02D 0.9 B: ±0.1 nH 10 0.15 >20 16.6 580 LQP02TQ0N9B02L 0.9 B: ±0.1 nH 10 0.15 >20 16.6 580 LQP02TQ0N9C02D 0.9 C: ±0.2 nH 10 0.15 >20 16.6 580 LQP02TQ0N9C02L 0.9 C: ±0.2 nH 10 0.15 >20 16.6 580 LQP02TQ1N0B02D 1.0 B: ±0.1 nH 10 0.15 >20 16.6 580 LQP02TQ1N0B02L 1.0 B: ±0.1 nH 10 0.15 >20 16.6 580 LQP02TQ1N0C02D 1.0 C: ±0.2 nH 10 0.15 >20 16.6 580 LQP02TQ1N0C02L 1.0 C: ±0.2 nH 10 0.15 >20 16.6 580 LQP02TQ1N1B02D 1.1 B: ±0.1 nH 10 0.2 >20 16.6 570 LQP02TQ1N1B02L 1.1 B: ±0.1 nH 10 0.2 >20 16.6 570 LQP02TQ1N1C02D 1.1 C: ±0.2 nH 10 0.2 >20 16.6 570 LQP02TQ1N1C02L 1.1 C: ±0.2 nH 10 0.2 >20 16.6 570 LQP02TQ1N2B02D 1.2 B: ±0.1 nH 10 0.2 19.6 16.6 550 LQP02TQ1N2B02L 1.2 B: ±0.1 nH 10 0.2 19.6 16.6 550 LQP02TQ1N2C02D 1.2 C: ±0.2 nH 10 0.2 19.6 16.6 550 LQP02TQ1N2C02L 1.2 C: ±0.2 nH 10 0.2 19.6 16.6 550 LQP02TQ1N3B02D 1.3 B: ±0.1 nH 10 0.2 >20 15.0 400 LQP02TQ1N3B02L 1.3 B: ±0.1 nH 10 0.2 >20 15.0 400 LQP02TQ1N3C02D 1.3 C: ±0.2 nH 10 0.2 >20 15.0 400 LQP02TQ1N3C02L 1.3 C: ±0.2 nH 10 0.2 >20 15.0 400 LQP02TQ1N4B02D 1.4 B: ±0.1 nH 10 0.2 19 15.0 400 LQP02TQ1N4B02L 1.4 B: ±0.1 nH 10 0.2 19 15.0 400 LQP02TQ1N4C02D 1.4 C: ±0.2 nH 10 0.2 19 15.0 400 LQP02TQ1N4C02L 1.4 C: ±0.2 nH 10 0.2 19 15.0 400 LQP02TQ1N5B02D 1.5 B: ±0.1 nH 10 0.2 >20 15.0 400 LQP02TQ1N5B02L 1.5 B: ±0.1 nH 10 0.2 >20 15.0 400 LQP02TQ1N5C02D 1.5 C: ±0.2 nH 10 0.2 >20 15.0 400 LQP02TQ1N5C02L 1.5 C: ±0.2 nH 10 0.2 >20 15.0 400 LQP02TQ1N6B02D 1.6 B: ±0.1 nH 10 0.3 18.9 15.0 390 LQP02TQ1N6B02L 1.6 B: ±0.1 nH 10 0.3 18.9 15.0 390 LQP02TQ1N6C02D 1.6 C: ±0.2 nH 10 0.3 18.9 15.0 390 LQP02TQ1N6C02L 1.6 C: ±0.2 nH 10 0.3 18.9 15.0 390 LQP02TQ1N7B02D 1.7 B: ±0.1 nH 10 0.3 19.0 15.0 380 LQP02TQ1N7B02L 1.7 B: ±0.1 nH 10 0.3 19.0 15.0 380 LQP02TQ1N7C02D 1.7 C: ±0.2 nH 10 0.3 19.0 15.0 380 LQP02TQ1N7C02L 1.7 C: ±0.2 nH 10 0.3 19.0 15.0 380 LQP02TQ1N8B02D 1.8 B: ±0.1 nH 10 0.3 17.7 15.0 380 LQP02TQ1N8B02L 1.8 B: ±0.1 nH 10 0.3 17.7 15.0 380 LQP02TQ1N8C02D 1.8 C: ±0.2 nH 10 0.3 17.7 15.0 380 LQP02TQ1N8C02L 1.8 C: ±0.2 nH 10 0.3 17.7 15.0 380 LQP02TQ1N9B02D 1.9 B: ±0.1 nH 10 0.3 16.8 13.0 380 LQP02TQ1N9B02L 1.9 B: ±0.1 nH 10 0.3 16.8 13.0 380 LQP02TQ1N9C02D 1.9 C: ±0.2 nH 10 0.3 16.8 13.0 380 MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P3/16 Inductance Customer Part number Murata Part number Q (Min.) Nominal value (nH) Tolerance DC resistance (Ω max.) Self-resonant frequency (GHz) *Typical value Lower limit Rated current (mA) LQP02TQ1N9C02L 1.9 C: ±0.2 nH 10 0.3 16.8 13.0 380 LQP02TQ2N0B02D 2.0 B: ±0.1 nH 10 0.3 15.4 13.0 380 LQP02TQ2N0B02L 2.0 B: ±0.1 nH 10 0.3 15.4 13.0 380 LQP02TQ2N0C02D 2.0 C: ±0.2 nH 10 0.3 15.4 13.0 380 LQP02TQ2N0C02L 2.0 C: ±0.2 nH 10 0.3 15.4 13.0 380 LQP02TQ2N1B02D 2.1 B: ±0.1 nH 10 0.3 14.6 13.0 380 LQP02TQ2N1B02L 2.1 B: ±0.1 nH 10 0.3 14.6 13.0 380 LQP02TQ2N1C02D 2.1 C: ±0.2 nH 10 0.3 14.6 13.0 380 LQP02TQ2N1C02L 2.1 C: ±0.2 nH 10 0.3 14.6 13.0 380 LQP02TQ2N2B02D 2.2 B: ±0.1 nH 10 0.3 16.3 13.0 380 LQP02TQ2N2B02L 2.2 B: ±0.1 nH 10 0.3 16.3 13.0 380 LQP02TQ2N2C02D 2.2 C: ±0.2 nH 10 0.3 16.3 13.0 380 LQP02TQ2N2C02L 2.2 C: ±0.2 nH 10 0.3 16.3 13.0 380 LQP02TQ2N3B02D 2.3 B: ±0.1 nH 10 0.4 16.2 13.0 370 LQP02TQ2N3B02L 2.3 B: ±0.1 nH 10 0.4 16.2 13.0 370 LQP02TQ2N3C02D 2.3 C: ±0.2 nH 10 0.4 16.2 13.0 370 LQP02TQ2N3C02L 2.3 C: ±0.2 nH 10 0.4 16.2 13.0 370 LQP02TQ2N4B02D 2.4 B: ±0.1 nH 10 0.4 16.2 13.0 370 LQP02TQ2N4B02L 2.4 B: ±0.1 nH 10 0.4 16.2 13.0 370 LQP02TQ2N4C02D 2.4 C: ±0.2 nH 10 0.4 16.2 13.0 370 LQP02TQ2N4C02L 2.4 C: ±0.2 nH 10 0.4 16.2 13.0 370 LQP02TQ2N5B02D 2.5 B: ±0.1 nH 10 0.4 14.9 11.5 370 LQP02TQ2N5B02L 2.5 B: ±0.1 nH 10 0.4 14.9 11.5 370 LQP02TQ2N5C02D 2.5 C: ±0.2 nH 10 0.4 14.9 11.5 370 LQP02TQ2N5C02L 2.5 C: ±0.2 nH 10 0.4 14.9 11.5 370 LQP02TQ2N6B02D 2.6 B: ±0.1 nH 10 0.4 14.6 11.5 370 LQP02TQ2N6B02L 2.6 B: ±0.1 nH 10 0.4 14.6 11.5 370 LQP02TQ2N6C02D 2.6 C: ±0.2 nH 10 0.4 14.6 11.5 370 LQP02TQ2N6C02L 2.6 C: ±0.2 nH 10 0.4 14.6 11.5 370 LQP02TQ2N7B02D 2.7 B: ±0.1 nH 10 0.4 13.5 11.5 370 LQP02TQ2N7B02L 2.7 B: ±0.1 nH 10 0.4 13.5 11.5 370 LQP02TQ2N7C02D 2.7 C: ±0.2 nH 10 0.4 13.5 11.5 370 LQP02TQ2N7C02L 2.7 C: ±0.2 nH 10 0.4 13.5 11.5 370 LQP02TQ2N8B02D 2.8 B: ±0.1 nH 10 0.45 12.8 10.0 360 LQP02TQ2N8B02L 2.8 B: ±0.1 nH 10 0.45 12.8 10.0 360 LQP02TQ2N8C02D 2.8 C: ±0.2 nH 10 0.45 12.8 10.0 360 LQP02TQ2N8C02L 2.8 C: ±0.2 nH 10 0.45 12.8 10.0 360 LQP02TQ2N9B02D 2.9 B: ±0.1 nH 10 0.45 12.3 10.0 360 LQP02TQ2N9B02L 2.9 B: ±0.1 nH 10 0.45 12.3 10.0 360 LQP02TQ2N9C02D 2.9 C: ±0.2 nH 10 0.45 12.3 10.0 360 LQP02TQ2N9C02L 2.9 C: ±0.2 nH 10 0.45 12.3 10.0 360 LQP02TQ3N0B02D 3.0 B: ±0.1 nH 10 0.45 12.2 10.0 360 LQP02TQ3N0B02L 3.0 B: ±0.1 nH 10 0.45 12.2 10.0 360 LQP02TQ3N0C02D 3.0 C: ±0.2 nH 10 0.45 12.2 10.0 360 MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P4/16 Inductance Customer Part number Murata Part number Nominal value (nH) Tolerance Q (Min.) DC resistance (Ω max.) Self-resonant frequency (GHz) *Typical value Lower limit Rated current (mA) LQP02TQ3N0C02L 3.0 C: ±0.2 nH 10 0.45 12.2 10.0 360 LQP02TQ3N1B02D 3.1 B: ±0.1 nH 10 0.9 12.0 10.0 290 LQP02TQ3N1B02L 3.1 B: ±0.1 nH 10 0.9 12.0 10.0 290 LQP02TQ3N1C02D 3.1 C: ±0.2 nH 10 0.9 12.0 10.0 290 LQP02TQ3N1C02L 3.1 C: ±0.2 nH 10 0.9 12.0 10.0 290 LQP02TQ3N2B02D 3.2 B: ±0.1 nH 10 0.9 12.6 10.0 290 LQP02TQ3N2B02L 3.2 B: ±0.1 nH 10 0.9 12.6 10.0 290 LQP02TQ3N2C02D 3.2 C: ±0.2 nH 10 0.9 12.6 10.0 290 LQP02TQ3N2C02L 3.2 C: ±0.2 nH 10 0.9 12.6 10.0 290 LQP02TQ3N3B02D 3.3 B: ±0.1 nH 10 0.9 12.2 10.0 290 LQP02TQ3N3B02L 3.3 B: ±0.1 nH 10 0.9 12.2 10.0 290 LQP02TQ3N3C02D 3.3 C: ±0.2 nH 10 0.9 12.2 10.0 290 LQP02TQ3N3C02L 3.3 C: ±0.2 nH 10 0.9 12.2 10.0 290 LQP02TQ3N4B02D 3.4 B: ±0.1 nH 10 1.0 12.5 9.7 280 LQP02TQ3N4B02L 3.4 B: ±0.1 nH 10 1.0 12.5 9.7 280 LQP02TQ3N4C02D 3.4 C: ±0.2 nH 10 1.0 12.5 9.7 280 LQP02TQ3N4C02L 3.4 C: ±0.2 nH 10 1.0 12.5 9.7 280 LQP02TQ3N5B02D 3.5 B: ±0.1 nH 10 1.0 12.1 9.7 280 LQP02TQ3N5B02L 3.5 B: ±0.1 nH 10 1.0 12.1 9.7 280 LQP02TQ3N5C02D 3.5 C: ±0.2 nH 10 1.0 12.1 9.7 280 LQP02TQ3N5C02L 3.5 C: ±0.2 nH 10 1.0 12.1 9.7 280 LQP02TQ3N6B02D 3.6 B: ±0.1 nH 10 1.0 11.5 9.7 280 LQP02TQ3N6B02L 3.6 B: ±0.1 nH 10 1.0 11.5 9.7 280 LQP02TQ3N6C02D 3.6 C: ±0.2 nH 10 1.0 11.5 9.7 280 LQP02TQ3N6C02L 3.6 C: ±0.2 nH 10 1.0 11.5 9.7 280 LQP02TQ3N7B02D 3.7 B: ±0.1 nH 10 1.0 11.4 9.7 270 LQP02TQ3N7B02L 3.7 B: ±0.1 nH 10 1.0 11.4 9.7 270 LQP02TQ3N7C02D 3.7 C: ±0.2 nH 10 1.0 11.4 9.7 270 LQP02TQ3N7C02L 3.7 C: ±0.2 nH 10 1.0 11.4 9.7 270 LQP02TQ3N8B02D 3.8 B: ±0.1 nH 10 1.0 11.1 9.7 270 LQP02TQ3N8B02L 3.8 B: ±0.1 nH 10 1.0 11.1 9.7 270 LQP02TQ3N8C02D 3.8 C: ±0.2 nH 10 1.0 11.1 9.7 270 LQP02TQ3N8C02L 3.8 C: ±0.2 nH 10 1.0 11.1 9.7 270 LQP02TQ3N9B02D 3.9 B: ±0.1 nH 10 1.0 10.7 9.0 270 LQP02TQ3N9B02L 3.9 B: ±0.1 nH 10 1.0 10.7 9.0 270 LQP02TQ3N9C02D 3.9 C: ±0.2 nH 10 1.0 10.7 9.0 270 LQP02TQ3N9C02L 3.9 C: ±0.2 nH 10 1.0 10.7 9.0 270 LQP02TQ4N0B02D 4.0 B: ±0.1 nH 10 1.0 10.5 9.0 270 LQP02TQ4N0B02L 4.0 B: ±0.1 nH 10 1.0 10.5 9.0 270 LQP02TQ4N0C02D 4.0 C: ±0.2 nH 10 1.0 10.5 9.0 270 LQP02TQ4N0C02L 4.0 C: ±0.2 nH 10 1.0 10.5 9.0 270 LQP02TQ4N1B02D 4.1 B: ±0.1 nH 10 1.0 10.3 9.0 270 LQP02TQ4N1B02L 4.1 B: ±0.1 nH 10 1.0 10.3 9.0 270 LQP02TQ4N1C02D 4.1 C: ±0.2 nH 10 1.0 10.3 9.0 270 MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P5/16 Inductance Customer Part number Murata Part number Q (Min.) Nominal value (nH) Tolerance DC resistance (Ω max.) Self-resonant frequency (GHz) *Typical value Lower limit Rated current (mA) LQP02TQ4N1C02L 4.1 C: ±0.2 nH 10 1.0 10.3 9.0 270 LQP02TQ4N2B02D 4.2 B: ±0.1 nH 10 1.0 11.0 9.0 270 LQP02TQ4N2B02L 4.2 B: ±0.1 nH 10 1.0 11.0 9.0 270 LQP02TQ4N2C02D 4.2 C: ±0.2 nH 10 1.0 11.0 9.0 270 LQP02TQ4N2C02L 4.2 C: ±0.2 nH 10 1.0 11.0 9.0 270 LQP02TQ4N3H02D 4.3 H: ±3% 10 1.0 10.8 9.0 270 LQP02TQ4N3H02L 4.3 H: ±3% 10 1.0 10.8 9.0 270 LQP02TQ4N3J02D 4.3 J: ±5% 10 1.0 10.8 9.0 270 LQP02TQ4N3J02L 4.3 J: ±5% 10 1.0 10.8 9.0 270 LQP02TQ4N7H02D 4.7 H: ±3% 10 1.0 9.6 8.5 270 LQP02TQ4N7H02L 4.7 H: ±3% 10 1.0 9.6 8.5 270 LQP02TQ4N7J02D 4.7 J: ±5% 10 1.0 9.6 8.5 270 LQP02TQ4N7J02L 4.7 J: ±5% 10 1.0 9.6 8.5 270 LQP02TQ5N1H02D 5.1 H: ±3% 10 1.2 9.2 7.8 250 LQP02TQ5N1H02L 5.1 H: ±3% 10 1.2 9.2 7.8 250 LQP02TQ5N1J02D 5.1 J: ±5% 10 1.2 9.2 7.8 250 LQP02TQ5N1J02L 5.1 J: ±5% 10 1.2 9.2 7.8 250 LQP02TQ5N6H02D 5.6 H: ±3% 10 1.3 9.4 7.8 230 LQP02TQ5N6H02L 5.6 H: ±3% 10 1.3 9.4 7.8 230 LQP02TQ5N6J02D 5.6 J: ±5% 10 1.3 9.4 7.8 230 LQP02TQ5N6J02L 5.6 J: ±5% 10 1.3 9.4 7.8 230 LQP02TQ6N2H02D 6.2 H: ±3% 10 1.3 8.5 7.2 220 LQP02TQ6N2H02L 6.2 H: ±3% 10 1.3 8.5 7.2 220 LQP02TQ6N2J02D 6.2 J: ±5% 10 1.3 8.5 7.2 220 LQP02TQ6N2J02L 6.2 J: ±5% 10 1.3 8.5 7.2 220 LQP02TQ6N8H02D 6.8 H: ±3% 10 1.4 7.8 6.6 210 LQP02TQ6N8H02L 6.8 H: ±3% 10 1.4 7.8 6.6 210 LQP02TQ6N8J02D 6.8 J: ±5% 10 1.4 7.8 6.6 210 LQP02TQ6N8J02L 6.8 J: ±5% 10 1.4 7.8 6.6 210 LQP02TQ7N5H02D 7.5 H: ±3% 10 1.5 8.1 6.6 200 LQP02TQ7N5H02L 7.5 H: ±3% 10 1.5 8.1 6.6 200 LQP02TQ7N5J02D 7.5 J: ±5% 10 1.5 8.1 6.6 200 LQP02TQ7N5J02L 7.5 J: ±5% 10 1.5 8.1 6.6 200 LQP02TQ8N2H02D 8.2 H: ±3% 10 1.6 7.8 6.6 190 LQP02TQ8N2H02L 8.2 H: ±3% 10 1.6 7.8 6.6 190 LQP02TQ8N2J02D 8.2 J: ±5% 10 1.6 7.8 6.6 190 LQP02TQ8N2J02L 8.2 J: ±5% 10 1.6 7.8 6.6 190 LQP02TQ9N1H02D 9.1 H: ±3% 10 1.7 7.0 5.9 170 LQP02TQ9N1H02L 9.1 H: ±3% 10 1.7 7.0 5.9 170 LQP02TQ9N1J02D 9.1 J: ±5% 10 1.7 7.0 5.9 170 LQP02TQ9N1J02L 9.1 J: ±5% 10 1.7 7.0 5.9 170 LQP02TQ10NH02D 10 H: ±3% 10 1.7 6.5 5.5 170 LQP02TQ10NH02L 10 H: ±3% 10 1.7 6.5 5.5 170 LQP02TQ10NJ02D 10 J: ±5% 10 1.7 6.5 5.5 170 MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P6/16 Inductance Customer Part number Murata Part number Nominal value (nH) Q (Min.) Tolerance DC resistance (Ω max.) Self-resonant frequency (GHz) *Typical value Lower limit Rated current (mA) LQP02TQ10NJ02L 10 J: ±5% 10 1.7 6.5 5.5 170 LQP02TQ11NH02D 11 H: ±3% 10 1.9 5.9 3.5 140 LQP02TQ11NH02L 11 H: ±3% 10 1.9 5.9 3.5 140 LQP02TQ11NJ02D 11 J: ±5% 10 1.9 5.9 3.5 140 LQP02TQ11NJ02L 11 J: ±5% 10 1.9 5.9 3.5 140 LQP02TQ12NH02D 12 H: ±3% 10 2.1 5.7 3.5 140 LQP02TQ12NH02L 12 H: ±3% 10 2.1 5.7 3.5 140 LQP02TQ12NJ02D 12 J: ±5% 10 2.1 5.7 3.5 140 LQP02TQ12NJ02L 12 J: ±5% 10 2.1 5.7 3.5 140 LQP02TQ13NH02D 13 H: ±3% 10 2.1 5.6 3.0 140 LQP02TQ13NH02L 13 H: ±3% 10 2.1 5.6 3.0 140 LQP02TQ13NJ02D 13 J: ±5% 10 2.1 5.6 3.0 140 LQP02TQ13NJ02L 13 J: ±5% 10 2.1 5.6 3.0 140 LQP02TQ14NH02D 14 H: ±3% 10 2.3 5.1 3.0 140 LQP02TQ14NH02L 14 H: ±3% 10 2.3 5.1 3.0 140 LQP02TQ14NJ02D 14 J: ±5% 10 2.3 5.1 3.0 140 LQP02TQ14NJ02L 14 J: ±5% 10 2.3 5.1 3.0 140 LQP02TQ15NH02D 15 H: ±3% 10 2.3 5.1 3.0 140 LQP02TQ15NH02L 15 H: ±3% 10 2.3 5.1 3.0 140 LQP02TQ15NJ02D 15 J: ±5% 10 2.3 5.1 3.0 140 LQP02TQ15NJ02L 15 J: ±5% 10 2.3 5.1 3.0 140 LQP02TQ16NH02D 16 H: ±3% 10 2.5 4.9 2.5 140 LQP02TQ16NH02L 16 H: ±3% 10 2.5 4.9 2.5 140 LQP02TQ16NJ02D 16 J: ±5% 10 2.5 4.9 2.5 140 LQP02TQ16NJ02L 16 J: ±5% 10 2.5 4.9 2.5 140 LQP02TQ17NH02D 17 H: ±3% 10 2.5 4.7 2.5 140 LQP02TQ17NH02L 17 H: ±3% 10 2.5 4.7 2.5 140 LQP02TQ17NJ02D 17 J: ±5% 10 2.5 4.7 2.5 140 LQP02TQ17NJ02L 17 J: ±5% 10 2.5 4.7 2.5 140 LQP02TQ18NH02D 18 H: ±3% 8 2.5 4.7 2.5 140 LQP02TQ18NH02L 18 H: ±3% 8 2.5 4.7 2.5 140 LQP02TQ18NJ02D 18 J: ±5% 8 2.5 4.7 2.5 140 LQP02TQ18NJ02L 18 J: ±5% 8 2.5 4.7 2.5 140 LQP02TQ19NH02D 19 H: ±3% 8 2.9 4.4 2.7 140 LQP02TQ19NH02L 19 H: ±3% 8 2.9 4.4 2.7 140 LQP02TQ19NJ02D 19 J: ±5% 8 2.9 4.4 2.7 140 LQP02TQ19NJ02L 19 J: ±5% 8 2.9 4.4 2.7 140 LQP02TQ20NH02D 20 H: ±3% 8 2.9 4.4 2.7 140 LQP02TQ20NH02L 20 H: ±3% 8 2.9 4.4 2.7 140 LQP02TQ20NJ02D 20 J: ±5% 8 2.9 4.4 2.7 140 LQP02TQ20NJ02L 20 J: ±5% 8 2.9 4.4 2.7 140 LQP02TQ21NH02D 21 H: ±3% 8 3.2 4.4 2.3 120 LQP02TQ21NH02L 21 H: ±3% 8 3.2 4.4 2.3 120 LQP02TQ21NJ02D 21 J: ±5% 8 3.2 4.4 2.3 120 MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P7/16 Inductance Customer Part number Murata Part number Nominal value (nH) Q (Min.) DC resistance (Ω max.) Tolerance Self-resonant frequency (GHz) *Typical value Lower limit Rated current (mA) LQP02TQ21NJ02L 21 J: ±5% 8 3.2 4.4 2.3 120 LQP02TQ22NH02D 22 H: ±3% 8 3.2 4.4 2.3 120 LQP02TQ22NH02L 22 H: ±3% 8 3.2 4.4 2.3 120 LQP02TQ22NJ02D 22 J: ±5% 8 3.2 4.4 2.3 120 LQP02TQ22NJ02L * Typical value is actual performance. 22 J: ±5% 8 3.2 4.4 2.3 120 4. Testing Conditions Unless otherwise specified Temperature: ordinary temperature (15°C to 35°C) Humidity: ordinary humidity [25% to 85% (RH)] In case of doubt Temperature: 20°C±2°C Humidity: 60% to 70% (RH) Atmospheric pressure: 86 kPa to 106 kPa 5. Appearance and Dimensions Unit mass (typical value): 0.05 mg 6. Marking 7. Electrical Performance No. Item 7.1 Inductance 7.2 Q Specification Meet chapter 3 ratings. Meet chapter 3 ratings. Test method Measuring equipment: Keysight E4991A or the equivalent Measuring frequency: 500 MHz Measuring conditions: Measurement signal level: Approx. 0 dBm Electrical length: 27.3 mm Measuring fixture: Keysight 16196D Position the chip coil under test as shown in the measuring example below and connect it to the electrode by applying weight. MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 No. P8/16 Item 7.3 DC resistance 7.4 Self-resonant frequency 7.5 Rated current Specification Meet chapter 3 ratings. Meet chapter 3 ratings. Product temperature rise: 25°C max. Test method Measurement example: Product insertion hole: ø0.3 mm Measuring method: see "Electrical performance: Measuring method for inductance/Q" in the Appendix. Measuring equipment: digital multimeter Measuring equipment: Keysight N5230A or the equivalent Apply the rated current specified in chapter 3. 8. Mechanical Performance No. Item 8.1 Shear test Specification No significant mechanical damage or no sign of electrode peeling off shall be observed. Test method Test substrate: glass-epoxy substrate Applying force: 1 N Holding time: 5 s±1 s Force application direction: 8.2 Bending test No significant mechanical damage or no sign of electrode peeling off shall be observed. Test substrate: glass-epoxy substrate (100 mm × 40 mm × 0.8 mm) Pressurizing speed: 1 mm/s Pressure jig: R340 Deflection: 1 mm Holding time: 30 s 8.3 Vibration Appearance shall have no significant mechanical damage. Inductance change rate: within ±10% 8.4 Solderability 90% or more of the outer electrode shall be covered with new solder seamlessly. Oscillation frequency: 10 Hz to 2000 Hz to 10 Hz, for approx. 20 min Total amplitude: total amplitude of 1.5 mm or acceleration amplitude of 196 m/s2, whichever is smaller Test time: 3 directions perpendicular to each other, 2 h for each direction (6 h in total) Flux: immersed in ethanol solution with a rosin content of 25(wt)% for 5 s to 10 s Solder: Sn-3.0Ag-0.5Cu solder Pre-heating: 150°C±10°C/60 s to 90 s MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 No. P9/16 Item 8.5 Resistance to soldering heat Specification Appearance: No significant mechanical damage shall be observed. Inductance change rate: within ±10% Test method Solder temperature: 240°C±5°C Immersion time: 3 s±1 s Flux: immersed in ethanol solution with a rosin content of 25(wt)% for 5 s to 10 s Solder: Sn-3.0Ag-0.5Cu solder Pre-heating: 150°C±10°C/60 s to 90 s Solder temperature: 260°C±5°C Immersion time: 5 s±1 s Post-treatment: left at a room condition for 24 h±2 h 9. Environmental Performance The product is soldered on a glass-epoxy substrate for test. No. Item Specification 9.1 Heat resistance Appearance: No significant mechanical damage shall be observed. Inductance change rate: within ±10% 9.2 Cold resistance Appearance: No significant mechanical damage shall be observed. Inductance change rate: within ±10% 9.3 Humidity Appearance: No significant mechanical damage shall be observed. Inductance change rate: within ±10% 9.4 Temperature cycle Appearance: No significant mechanical damage shall be observed. Inductance change rate: within ±10% Test method Temperature: 125°C±2°C Test time: 1000 h (+48 h, -0 h) Post-treatment: left at a room condition for 24 h±2 h Temperature: -55°C±3°C Test time: 1000 h (+48 h, -0 h) Post-treatment: left at a room condition for 24 h±2 h Temperature: 40°C±2°C Humidity: 90% (RH) to 95% (RH) Test time: 1000 h (+48 h, -0 h) Post-treatment: left at a room condition for 24 h±2 h Single cycle conditions: Step 1: -55°C±2°C/30 min±3 min Step 2: ordinary temperature/10 min to 15 min Step 3: +125°C±2°C/30 min±3 min Step 4: ordinary temperature/10 min to 15 min Number of testing: 10 cycles Post-treatment: left at a room condition for 24 h±2 h 10. Specification of Packaging 10.1 Appearance and dimensions of tape • 8 mm width/paper tape A (0.23) B (0.45) t 0.39 max. (in mm) • 4 mm width/plastic tape A (0.22) B (0.47) t (0.23) t' 0.20±0.05 (in mm) * The dimensions of the cavity are measured at its bottom. MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P10/16 10.2 Taping specifications Packing quantity (Standard quantity) 20000 pcs/reel (carrier tape: 8 mm width, 2 mm pitch) 40000 pcs/reel (carrier tape: 4 mm width, 1 mm pitch) Packing method The products are placed in cavities of a carrier tape and sealed by a cover tape (top tape and bottom tape when the cavities of the carrier tape are punched type). Feed hole position The feed holes on the carrier tape are on the right side when the cover tape (top tape when the cavities of the carrier tape are punched type) is pulled toward the user. Joint The carrier tape and cover tape (top tape when the cavities of the carrier tape are punched type) are seamless. Number of missing products Number of missing products within 0.1% of the number per reel or 1 pc., whichever is greater, and are not continuous. The specified quantity per reel is kept. 10.3 Break down force of tape Cover tape (or top tape) 5 N min. Bottom tape (only when the cavities of the carrier tape are punched type) 5 N min. 10.4 Peeling off force of tape Speed of peeling off Peeling off force 300 mm/min 0.1 N to 0.6 N (The lower limit is for typical value.) 10.5 Dimensions of leader section, trailer section and reel A vacant section is provided in the leader (start) section and trailer (end) section of the tape for the product. The leader section is further provided with an area consisting only of the cover tape (or top tape). (See the diagram below.) • 8 mm width carrier tape MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P11/16 • 4 mm width carrier tape 10.6 Marking for reel Customer part number, Murata part number, inspection number (*1), RoHS marking (*2), quantity, etc. *1 Expression of inspection No.: (1) Factory code  □□ ○○○○ (2) Date First digit: year/last digit of year (1) (2) (3) Second digit: month/Jan. to Sep.→1 to 9, Oct. to Dec.→O, N, D Third, Fourth digit: day (3) Serial No. *2 Expression of RoHS marking: (1) RoHS regulation conformity ROHSY () (2) Murata classification number (1) (2) 10.7 Marking on outer box (corrugated box) Customer name, purchasing order number, customer part number, Murata part number, RoHS marking (*2), quantity, etc. 10.8 Specification of outer box Dimensions of outer box (mm) Label H D W 11. W D H 186 186 93 Tape width Standard reel quantity (mm) in outer box(reel) 4 10 8 5 * Above outer box size is typical. It depends on a quantity of an order. Caution 11.1 Restricted applications Please contact us before using our products for the applications listed below which require especially high reliability for the prevention of defects which might directly cause damage to the third party's life, body or property. (1) Aircraft equipment (2) Aerospace equipment (3) Undersea (4) Power plant control equipment equipment (5) Medical equipment (6) Transportation equipment (vehicles, (7) Traffic signal (8) Disaster/crime trains, ships, etc.) equipment prevention equipment (9) Data-processing (10) Applications of similar complexity and/or reliability equipment requirements to the applications listed in the above 11.2 Precautions on rating Avoid using in exceeded the rated temperature range, rated voltage, or rated current. Usage when the ratings are exceeded could lead to wire breakage, burning, or other serious fault. 11.3 Inrush current If an inrush current (or pulse current or rush current) that significantly exceeds the rated current is applied to the product, overheating could occur, resulting in wire breakage, burning, or other serious fault. MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P12/16 12. Precautions for Use This product is for use only with reflow soldering. It is designed to be mounted by soldering. If you want to use other mounting method, for example, using a conductive adhesive, please consult us beforehand. Also, if repeatedly subjected to temperature cycles or other thermal stress, due to the difference in the coefficient of thermal expansion with the mounting substrate, the solder (solder fillet part) in the mounting part may crack. The occurrence of cracks due to thermal stress is affected by the size of the land where mounted, the solder volume, and the heat dissipation of the mounting substrate. Carefully design it when a large change in ambient temperature is assumed. 12.1. Land dimensions The following diagram shows the recommended land dimensions for reflow soldering: a 0.20 b 0.56 c 0.16 (in mm) 12.2 Flux and solder used Flux • Use a rosin-based flux. • Do not use a highly acidic flux with a halide content exceeding 0.2(wt)% (chlorine conversion value). • Do not use a water-soluble flux. Solder • Use Sn-3.0Ag-0.5Cu solder. • Standard thickness of solder paste: 50 μm to 65 μm If you want to use a flux other than the above, please consult our technical department. 12.3 Soldering conditions (reflow) • Pre-heating should be in such a way that the temperature difference between solder and product surface is limited to 150°C max. Cooling into solvent after soldering also should be in such a way that the temperature difference is limited to 100°C max. Insufficient pre-heating may cause cracks on the product, resulting in the deterioration of product quality. • Standard soldering profile and the limit soldering profile is as follows. The excessive limit soldering conditions may cause leaching of the electrode and/or resulting in the deterioration of product quality. Temp. (℃) 260℃ 245℃±3℃ 230℃ 220℃ Limit Profile 180 150 Standard Profile 30s~60s 60s max. 90s±30s Time. (s) Standard profile Limit profile Pre-heating 150°C to 180°C/90 s±30 s 150°C to 180°C/90 s±30 s Heating Above 220°C/30 s to 60 s Above 230°C/60 s max. 245°C±3°C 260°C/10 s 2 times 2 times Peak temperature Number of reflow cycles 12.4 Reworking with soldering iron Do not perform reworking with a soldering iron on this product. MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P13/16 12.5 Solder volume Solder shall be used not to increase the volume too much. An increased solder volume increases mechanical stress on the product. Exceeding solder volume may cause the failure of mechanical or electrical performance. 12.6 Product's location The following shall be considered when designing and laying out PCBs. (1) PCB shall be designed so that products are not subject to mechanical stress due to warping the board. [Products direction] Products shall be located in the sideways direction (length: a < b) to the mechanical stress. a b 〈 Poor example〉 〈 Good example〉 (2) Components location on PCB separation It is effective to implement the following measures, to reduce stress in separating the board. It is best to implement all of the following three measures; however, implement as many measures as possible to reduce stress. Contents of measures Stress level (1) Turn the mounting direction of the component parallel to the board separation surface. A > D*1 (2) Add slits in the board separation part. A>B (3) Keep the mounting position of the component away from the board separation surface. A>C *1 A > D is valid when stress is added vertically to the perforation as with hand separation. If a cutting disc is used, stress will be diagonal to the PCB, therefore A > D is invalid. (3) Mounting components near screw holes When a component is mounted near a screw hole, it may be affected by the board deflection that occurs during the tightening of the screw. Mount the component in a position as far away from the screw holes as possible. MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P14/16 12.7 Handling of substrate (1) The stress applied to the chip varies depending on the material and construction of the mounted substrate. If the coefficients of thermal expansion for the substrate and chip vary significantly, the difference in thermal expansion and shrinkage could cause cracks to form in the chip. We assume that the products are mounted on glass-epoxy substrate. Assessment has not been conducted on substrates where the coefficient of thermal expansion varies significantly from glass-epoxy substrates. If mounting on these substrates, be sure to conduct full assessments before use. (2) After mounting products on a substrate, do not apply any stress to the product caused by bending or twisting to the substrate when cropping the substrate, inserting and removing a connector from the substrate or tightening screw to the substrate. Excessive mechanical stress may cause cracking in the product. Also, if mounting on flexible substrates, excessive mechanical stress could be applied to the chip by even slight bending or twisting when handling this substrate, and so please conduct full assessments before use. Bending Twisting 12.8 Cleaning The product shall be cleaned under the following conditions. (1) The cleaning temperature shall be 60°C max. If isopropyl alcohol (IPA) is used, the cleaning temperature shall be 40°C max. (2) Perform ultrasonic cleaning under the following conditions. Exercise caution to prevent resonance phenomenon in mounted products and the PCB. Item Requirement Power Time 20 W/L max. 5 min max. Frequency 28 kHz to 40 kHz (3) Cleaner Alcohol-based cleaner: IPA Aqueous agent: PINE ALPHA ST-100S (4) There shall be no residual flux or residual cleaner. When using aqueous agent, rinse the product with deionized water adequately and completely dry it so that no cleaner is left. * For other cleaning, consult our technical department. 12.9 Storage and transportation Storage period Use the product within 12 months after delivery. If you do not use the product for more than 12 months, check solderability before using it. Storage conditions • The products shall be stored in a room not subject to rapid changes in temperature and humidity. The recommended temperature range is -10°C to +40°C. The recommended relative humidity range is 15% to 85%. Keeping the product in corrosive gases, such as sulfur, chlorine gas or acid may cause the poor solderability. • Do not place the products directly on the floor; they should be placed on a palette so that they are not affected by humidity or dust. • Avoid keeping the products in a place exposed to direct sunlight, heat or vibration. • Do not keep products in bulk packaging. Bulk storage could result in collisions between the products or between the products and other parts, resulting in chipping or wire breakage. • Avoid storing the product by itself bare (i.e. exposed directly to air). Transportation Excessive vibration and impact reduces the reliability of the products. Exercise caution when handling the products. 12.10 Resin coating (including moisture-proof coating) Before applying any resin coating, please consult our technical department. 12.11 Mounting conditions Check the mounting condition before using. Using mounting conditions (nozzles, equipment conditions, etc.) that are not suitable for products may lead to pick up errors, misalignment, or damage to the product. MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P15/16 12.12 Operating environment Do not use this product under the following environmental conditions as it may cause deterioration of product quality. (1) In the corrodible atmosphere such as acidic gases, alkaline gases, chlorine, sulfur gases, organic gases and etc. (the sea breeze, Cl2, H2S, NH3, SO2, NO2, etc) (2) In the atmosphere where liquid such as organic solvent, may splash on the products. (3) In the atmosphere where the temperature/humidity changes rapidly and it is easy to dew. 12.13 Mounting density If this product is placed near heat-generating products, be sure to implement sufficient heat-dissipating measures. If this product is subjected to a significant amount of heat from other products, this could adversely affect product quality, resulting in a circuit malfunction or failure of the mounted section. Also, be sure that the product is used in a manner so that the heat that the product is subjected to from other products does not exceed the upper limit of the rated operating temperature for the product. 13. Note (1) Please make sure that your product has been evaluated in view of your specifications with our product being mounted to your product. (2) You are requested not to use our product deviating from the reference specifications. (3) The contents of this reference specification are subject to change without advance notice. Please approve our product specifications or transact the approval sheet for product specifications before ordering. MURATA MFG CO., LTD Spec No.: JELF243C_0019K-01 P16/16 Appendix Electrical performance: Measuring method for inductance/Q (Q measurement is applicable only when the Q value is included in the rating table.) Perform measurement using the method described below. (Perform correction for the error deriving from the measuring terminal.) (1) Residual elements and stray elements of the measuring terminal can be expressed by the F parameter for the 2-pole terminal as shown in the figure below. (2) The product's impedance value (Zx) and measured impedance value (Zm) can be expressed as shown below, by using the respective current and voltage for input/output. Zm= V1 I1 Zx= V2 I2 (3) Thus, the relationship between the product's impedance value (Zx) and measured impedance value (Zm) is as follows. Zx=α Zm-β 1-ZmΓ Here, α = D/A = 1 β = B/D = Zsm - (1 - Yom Zsm) Zss Γ = C/A = Yom Zsm: measured impedance of short chip Zss: residual impedance of short chip (0.110 nH) Yom: measured admittance when measuring terminal is open (4) Calculate inductance Lx and Qx using the equations shown below. Im(Zx) Lx: inductance of chip coil Lx= 2πf Qx: Q of chip coil Im(Zx) Qx= f: measuring frequency Re(Zx) MURATA MFG CO., LTD
LQP02TQ3N9B02D 价格&库存

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LQP02TQ3N9B02D
    •  国内价格
    • 50+0.10055
    • 500+0.07381
    • 1500+0.05695
    • 5000+0.05170
    • 20000+0.04716
    • 40000+0.04471

    库存:15690

    LQP02TQ3N9B02D
      •  国内价格
      • 50+0.21209
      • 100+0.20237
      • 200+0.20148
      • 500+0.19706
      • 1000+0.19618
      • 2000+0.19000

      库存:18448