ETQP3M150KVN

Power Inductors Power Choke Coil (Automotive Grade) Series PCC-M0530M-LP PCC-M0840M-LP PCC-M0630M-LP PCC-M1040M-LP High heat resistance and high reliability using metal composite core (MC) Industrial Property : patents 3 (Registered 2/Pending 1) Features ●High heat resistance ●Low profile : Operation up to 155 °C including self-heating : ３ｍｍ max. height（PCC-M0530M-LP, PCC-M0630M-LP） ４ｍｍ max. height（PCC-M0840M-LP, PCC-M1040M-LP） ●SMD type ●High-reliability : High vibration resistance as result of newly developed integral construction ; under severe reliability conditions of automotive and other strenuous applications ●High bias current : Excellent inductance stability using ferrous alloy magnetic material ●Temp. stability : Excellent inductance stability over broad temp. range ●Low audible (buzz) noise : A gapless structure achieved with metal composite core ●High efficiency : Low DC resistance of winding and low eddy-current loss of the core ●Shielded construction ●AEC-Q200 compliant ●RoHS compliant Recommended Applications ●Noise filter for various drive circuitry requiring high temp. operation and peak current handling capability ●Boost-Converter, Buck-Converter DC/DC Standard Packing Quantity (Minimum Quantity/Packing Unit) ●4,000 pcs/box （2 reel）： PCC-M0530M-LP，M0630M-LP ●1,000 pcs/box （2 reel）： PCC-M0840M-LP，M1040M-LP Explanation of Part Numbers 1 2 3 4 E T Q P Product Code Classification 5 6 7 8 9 M Height Winding Inductance 4R7 220 R68 10 11 K V Core Suffix → 4.7 μH → 22 μH → 0.68 μH 12 Size Code P N K C Size □ 5 mm □ 6 mm □ 8 mm □ 10 mm Temperature rating Operating temperature range After PWB mounting Storage condition Before PWB mounting Tc : -55 ℃ to +155 ℃ (Including self-temperature rise) Ta : -5 ℃ to +35 ℃ 85%RH max. Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 1-Feb-20 Power Inductors 1. Series PCC-M0530M-LP (ETQP3M□□□KVP) Standard Parts Inductance Part No. L0 (μH) Tolerance (%) 10.00 6.80 4.70 3.30 2.20 1.50 1.00 0.68 0.33 ETQP3M100KVP ETQP3M6R8KVP ETQP3M4R7KVP ETQP3M3R3KVP ETQP3M2R2KVP ETQP3M1R5KVP ETQP3M1R0KVP ETQP3MR68KVP ETQP3MR33KVP *1 DCR (at 20 ℃) （ｍΩ） (%) 96.00 (105.60) 65.70 (72.27) 45.60 (50.16) 27.30 (30.03) 20.00 (22.00) 12.00 (13.20) 9.60 (10.56) 7.60 (8.36) 4.85 (5.34) ±20 △T=40K Tolerance Typ. (max.) MSL Level △L=–30% Rated Current (Typ. : A) ±10 *2 *3 *4 *5 2.4 2.9 3.4 4.4 5.2 6.7 7.5 8.4 10.6 2.9 3.5 4.1 5.4 6.3 8.1 9.0 10.2 12.7 4.2 6.1 6.7 8.0 10.1 12.0 14.1 15.9 21.8 1 1 1 1 1 1 1 1 1 Series PCC-M0530M-LP [5.5×5.0×3.0(mm)] *1: Measured at 100 kHz *2: DC current which causes temperature rise of 40K. Parts are soldered by reflow on four-layer PWB(1.6 mm FR4) and measured at room temperature. See also ✽5 *3: DC current which causes temperature rise of 40K. Parts are soldered by reflow on multilayer PWB with high heat dissipation performance. Note: Heat radiation constant are approx. 51 K/W measured on 5.5×5.0×3.0 mm case size. See also ✽5 *4: Saturation rated current : DC current which causes L(0) drop –30 %. *5: The solderability is guaranteed for 1 year only. The product out of expiration date shall not be used． *6: Within a suitable application, the part’s temperature depends on circuit design and certain heat dissipation conditions. This should be double checked in a worst case operation mode. In normal case, the max.standard operating temperature of +155°C should not be exceeded. For higher operating temperature conditions, please contact Panasonic representative in your area. Performance Characteristics (Reference 1) ● Inductance vs DC Current ［ ETQP3M100KVP ］ 4 0 2 4 DC Bias (A) 6 6 4 2 00 8 ［ ETQP3M3R3KVP ］ 2 4 6 DC Bias (A) 8 8 DC Bias (A) 12 0 0 1.0 0.5 0 16 Inductors (μH) 1.5 0 4 8 12 DC Bias (A) 10 DC Bias (A) 20 0 4 6 8 12 10 DC Bias (A) 1.0 0.5 0 ［ ETQP3MR68KVP ］ 4 8 12 DC Bias (A) 16 20 ［ ETQP3MR33KVP ］ 0.4 0.6 0.4 0.2 0 2 1.5 0 16 0.8 0.4 1 ［ ETQP3M1R5KVP ］ 2.0 ［ ETQP3M1R0KVP ］ 0.8 2 2.0 Inductors (μH) 1.2 Inductors (μH) Inductors (μH) 1.0 Inductors (μH) Inductors (μH) 2.0 4 3 ［ ETQP3M2R2KVP ］ 3.0 0 4 0 10 2.5 0 ［ ETQP3M4R7KVP ］ 5 Inductors (μH) 8 0 ［ ETQP3M6R8KVP ］ 8 Inductors (μH) Inductors (μH) 12 0 10 20 DC Bias (A) 30 0.3 0.2 0.1 0 0 4 8 12 DC Bias (A) Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 16 20 1-Feb-20 Power Inductors Performance Characteristics (Reference 2) 60 40 20 0 0 1 2 3 4 5 ［ ETQP3M6R8KVP ］ 80 Temperature rise ΔT(K) ［ ETQP3M100KVP ］ 80 Temperature rise ΔT(K) Temperature rise ΔT(K) ● Case Temperature vs DC Current PWB condition A : Four-layer PWB (1.6 mm FR4), See also ✽2 PWB condition B : Multilayer PWB with high heat dissipation performance. See also ✽3 60 40 20 0 DC Bias (A) 0 ［ ETQP3M3R3KVP ］ DC Bias (A) 5 20 0 2 4 6 8 40 20 0 0 20 0 4 8 DC Bias (A) 12 2 4 6 8 DC Bias (A) 0 60 40 20 0 1 2 3 4 DC Bias (A) 5 6 60 40 20 0 0 0 4 8 DC Bias (A) 12 2 4 6 8 DC Bias (A) 10 12 ［ ETQP3MR33KVP ］ 80 Temperature rise ΔT(K) 40 0 ［ ETQP3MR68KVP ］ Temperature rise ΔT(K) 60 20 80 ［ ETQP3M1R0KVP ］ 80 40 ［ ETQP3M1R5KVP ］ Temperature rise ΔT(K) 40 Temperature rise ΔT(K) Temperature rise ΔT(K) 4 60 DC Bias (A) Temperature rise ΔT(K) 3 80 60 0 2 60 ［ ETQP3M2R2KVP ］ 80 0 1 ［ ETQP3M4R7KVP ］ 80 16 80 60 40 20 0 0 4 8 12 DC Bias (A) Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 16 1-Feb-20 Power Inductors 2. Series PCC-M0630M-LP (ETQP3M□□□KVN) Standard Parts Inductance Part No. ETQP3M330KVN ETQP3M220KVN ETQP3M150KVN ETQP3M100KVN ETQP3M6R8KVN ETQP3M4R7KVN ETQP3M3R3KVN ETQP3M2R2KVN ETQP3M1R5KVN ETQP3M1R0KVN ETQP3MR68KVN L0 (μH) DCR (at 20 ℃) （ｍΩ） *1 Tolerance (%) 33.00 22.00 15.00 10.00 6.80 4.70 3.30 2.20 1.50 1.00 0.68 206.00(226.60) 128.00(140.80) 99.20 (109.12) 71.00 (78.10) 45.60 (50.16) 29.00 (31.90) 24.10 (26.51) 14.50 (15.95) 11.00 (12.10) 6.20 (6.82) 5.20 (5.72) ±20 △T=40K Tolerance Typ. (max.) MSL Level △L=–30% Rated Current (Typ. : A) (%) ±10 *2 *3 *4 *5 1.7 2.2 2.5 2.9 3.6 4.6 5.0 6.5 7.4 9.9 10.8 2.1 2.7 3.0 3.6 4.5 5.6 6.1 7.9 9.1 12.1 13.2 3.0 4.3 5.1 5.8 8.1 9.8 11.5 12.8 14.2 16.0 20.2 1 1 1 1 1 1 1 1 1 1 1 Series PCC-M0630M-LP [6.4×6.0×3.0(mm)] *1: Measured at 100 kHz *2: DC current which causes temperature rise of 40K. Parts are soldered by reflow on four-layer PWB(1.6 mm FR4) and measured at room temperature. See also ✽5 *3: DC current which causes temperature rise of 40K. Parts are soldered by reflow on multilayer PWB with high heat dissipation performance. Note: Heat radiation constant are approx. 44 K/W measured on 6.4×6.0×3.0 mm case size. See also ✽5 *4: Saturation rated current : DC current which causes L(0) drop –30 %. *5: The solderability is guaranteed for 1 year only. The product out of expiration date shall not be used． *6: Within a suitable application, the part’s temperature depends on circuit design and certain heat dissipation conditions. This should be double checked in a worst case operation mode. In normal case, the max.standard operating temperature of +155°C should not be exceeded. For higher operating temperature conditions, please contact Panasonic representative in your area. Performance Characteristics (Reference 1) ● Inductance vs DC Current ［ ETQP3M220KVN ］ 10 0 1 2 3 4 15 10 5 0 5 0 2 DC Bias (A) ［ ETQP3M6R8KVN ］ 0 2 4 6 2 0 4 8 12 ［ ETQP3M1R5KVN ］ 3 2 1 0 4 8 12 16 0.5 4 8 12 16 DC Bias (A) 1.0 20 24 6 8 10 12 0 0.4 0 8 12 16 1.5 1.0 0.5 0 20 0 4 8 12 16 DC Bias (A) 20 ［ ETQP3MR68KVN ］ 0.8 0.8 0 4 2.0 DC Bias (A) ［ ETQP3M1R0KVN ］ Inductors (μH) 1.0 0 2.0 0 20 1.2 1.5 4 ［ ETQP3M2R2KVN ］ 3.0 4 DC Bias (A) 2.0 2 2.5 0 16 0 DC Bias (A) Inductors (μH) 4 4 0 8 ［ ETQP3M3R3KVN ］ Inductors (μH) Inductors (μH) Inductors (μH) 5 8 DC Bias (A) ［ ETQP3M4R7KVN ］ DC Bias (A) Inductors (μH) 10 0 8 12 5 6 0 6 15 DC Bias (A) 8 0 4 Inductors (μH) 0 20 ［ ETQP3M100KVN ］ 20 Inductors (μH) Inductors (μH) Inductors (μH) 30 20 ［ ETQP3M150KVN ］ 25 Inductors (μH) ［ ETQP3M330KVN ］ 10 20 DC Bias (A) 30 0.6 0.4 0.2 0 0 10 20 DC Bias (A) 30 40 Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 1-Feb-20 24 Power Inductors Performance Characteristics (Reference 2) ● Case Temperature vs DC Current PWB condition A : Four-layer PWB (1.6 mm FR4), See also ✽2 PWB condition B : Multilayer PWB with high heat dissipation performance. See also ✽3 0 1 2 3 DC Bias (A) 20 0 ［ ETQP3M6R8KVN ］ 4 40 20 0 2 4 6 40 20 DC Bias (A) 0 1 2 40 20 0 12 0 2 4 6 8 4 5 60 40 20 0 5 10 15 DC Bias (A) 60 40 20 0 ［ ETQP3M3R3KVN ］ 20 2 4 6 DC Bias (A) ［ ETQP3M2R2KVN ］ 80 60 40 20 0 0 0 2 4 6 8 60 40 20 0 0 DC Bias (A) 80 0 3 80 4 8 12 DC Bias (A) ［ ETQP3MR68KVN ］ ［ ETQP3M1R0KVN ］ Temperature rise ΔT(K) 60 8 0 ［ ETQP3M100KVN ］ 80 DC Bias (A) 60 ［ ETQP3M1R5KVN ］ 4 20 DC Bias (A) 80 0 40 ［ ETQP3M4R7KVN ］ DC Bias (A) Temperature rise ΔT(K) 3 Temperature rise ΔT(K) 60 0 2 80 Temperature rise ΔT(K) Temperature rise ΔT(K) 1 60 DC Bias (A) 80 0 0 Temperature rise ΔT(K) 0 40 80 Temperature rise ΔT(K) 20 60 Temperature rise ΔT(K) 40 Temperature rise ΔT(K) Temperature rise ΔT(K) 60 ［ ETQP3M150KVN ］ ［ ETQP3M220KVN ］ 80 Temperature rise ΔT(K) ［ ETQP3M330KVN ］ 80 80 60 40 20 0 0 5 10 15 DC Bias (A) 20 Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 1-Feb-20 Power Inductors 3. Series PCC-M0840M-LP (ETQP4M□□□KVK) Standard Parts Inductance Part No. ETQP4M330KVK ETQP4M220KVK ETQP4M150KVK ETQP4M100KVK ETQP4M6R8KVK ETQP4M4R7KVK ETQP4M3R3KVK ETQP4M2R2KVK ETQP4M1R5KVK ETQP4M1R0KVK ETQP4MR68KVK L0 (μH) DCR (at 20 ℃) （ｍΩ） *1 Tolerance Typ. (max.) (%) 33.00 22.00 15.00 10.00 6.80 4.70 3.30 2.20 1.50 1.00 0.68 118.00 78.40 55.00 41.60 23.50 16.10 14.10 8.50 4.90 3.70 2.92 ±20 (129.80) (86.24) (60.50) (45.76) (25.85) (17.71) (15.51) (9.35) (5.39) (4.07) (3.21) MSL Level △L=–30% Rated Current (Typ. : A) △T=40K Tolerance (%) ±10 *2 *3 *4 *5 2.6 3.2 3.8 4.4 5.9 7.1 7.6 9.8 12.8 14.8 16.6 3.1 3.8 4.5 5.2 6.9 8.3 8.9 11.4 15.1 17.3 19.5 4.7 6.0 7.6 9.1 11.0 15.1 17.4 20.4 22.5 24.4 29.0 1 1 1 1 1 1 1 1 1 1 1 Series PCC-M0840M-LP [8.5×8.0×4.0(mm)] *1: Measured at 100 kHz *2: DC current which causes temperature rise of 40K. Parts are soldered by reflow on four-layer PWB(1.6 mm FR4) and measured at room temperature. See also ✽5 *3: DC current which causes temperature rise of 40K. Parts are soldered by reflow on multilayer PWB with high heat dissipation performance. Note: Heat radiation constant are approx. 36 K/W measured on 8.5×8.0×4.0 mm case size. See also ✽5 *4: Saturation rated current : DC current which causes L(0) drop –30 %. *5: The solderability is guaranteed for 1 year only. The product out of expiration date shall not be used． *6: Within a suitable application, the part’s temperature depends on circuit design and certain heat dissipation conditions. This should be double checked in a worst case operation mode. In normal case, the max.standard operating temperature of +155°C should not be exceeded. For higher operating temperature conditions, please contact Panasonic representative in your area. Performance Characteristics (Reference 1) ● Inductance vs DC Current ［ ETQP4M220KVK ］ 10 0 2 4 6 10 5 0 8 DC Bias (A) 15 ［ ETQP4M6R8KV ］ DC Bias (A) 15 10 5 0 12 0 4 8 DC Bias (A) 0 5 10 15 DC Bias (A) 4 3 2 1 10 20 ［ ETQP4M1R0KVK ］ Inductors (μH) 1.0 0.5 10 20 DC Bias (A) 30 40 4 8 12 DC Bias (A) 16 1.0 0 10 20 DC Bias (A) 30 2.0 1.5 1.0 0.5 0 0 10 20 30 DC Bias (A) ［ ETQP4MR68KVK ］ 0.8 0.8 0.4 0 2.0 0 30 1.2 1.5 0 0 DC Bias (A) ［ ETQP4M1R5KVK ］ 0 2.5 3.0 0 20 4 ［ ETQP4M2R2KVK ］ Inductors (μH) 2 8 0 12 ［ ETQP4M3R3KVK ］ Inductors (μH) Inductors (μH) Inductors (μH) 4 2.0 Inductors (μH) 8 12 5 6 0 4 ［ ETQP4M4R7KVK ］ 8 0 0 Inductors (μH) 0 20 ［ ETQP4M100KVK ］ 20 Inductors (μH) Inductors (μH) Inductors (μH) 30 20 ［ ETQP4M150KVK ］ 25 Inductors (μH) ［ ETQP4M330KVK ］ 0 10 20 30 DC Bias (A) 40 0.6 0.4 0.2 0 0 10 20 30 40 50 DC Bias (A) Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 1-Feb-20 40 Power Inductors Performance Characteristics (Reference 2) ● Case Temperature vs DC Current PWB condition A : Four-layer PWB (1.6 mm FR4), See also ✽2 PWB condition B : Multilayer PWB with high heat dissipation performance. See also ✽3 20 0 1 2 3 4 5 40 20 0 0 1 DC Bias (A) 40 20 4 6 8 10 40 20 0 0 4 20 DC Bias (A) 20 25 8 12 60 40 20 0 5 10 15 DC Bias (A) 6 40 20 0 0 2 60 40 20 0 0 4 8 20 25 4 6 8 DC Bias (A) ［ ETQP4M2R2KVK ］ 12 80 60 40 20 0 0 4 DC Bias (A) 80 0 4 60 ［ ETQP4M3R3KVK ］ 8 12 16 DC Bias (A) ［ ETQP4MR68KVK ］ Temperature rise ΔT(K) 40 15 2 80 ［ ETQP4M1R0KVK ］ Temperature rise ΔT(K) Temperature rise ΔT(K) 60 10 0 DC Bias (A) 80 5 0 80 DC Bias (A) 60 ［ ETQP4M1R5KVK ］ 0 6 80 DC Bias (A) 0 5 Temperature rise ΔT(K) Temperature rise ΔT(K) Temperature rise ΔT(K) 60 2 4 20 ［ ETQP4M4R7KVK ］ ［ ETQP4M6R8KVK ］ 0 3 40 DC Bias (A) 80 0 2 60 Temperature rise ΔT(K) 0 60 ［ ETQP4M100KVK ］ ［ ETQP4M150KVK ］ 80 Temperature rise (ΔTK) 40 80 Temperature rise ΔT(K) 60 ［ ETQP4M220KVK ］ Temperature rise ΔT(K) Temperature rise ΔT(K) ［ ETQP4M330KVK ］ 80 80 60 40 20 0 0 10 20 30 DC Bias (A) Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 1-Feb-20 Power Inductors 4. Series PCC-M1040M-LP (ETQP4M□□□KVC) Standard Parts Inductance Part No. ETQP4M470KVC ETQP4M330KVC ETQP4M220KVC ETQP4M150KVC ETQP4M100KVC ETQP4M6R8KVC ETQP4M4R7KVC ETQP4M3R3KVC ETQP4M2R2KVC ETQP4M1R5KVC ETQP4M1R0KVC L0 (μH) DCR (at 20 ℃) （ｍΩ） *1 Tolerance (%) 47.00 33.00 22.00 15.00 10.00 6.80 4.70 3.30 2.20 1.50 1.00 132.00 (145.20) 84.60 (93.06) 60.00 (66.00) 37.00 (40.70) 25.40 (27.94) 18.50 (20.35) 11.80 (12.98) 9.40 (10.34) 6.80 (7.48) 4.90 (5.39) 2.60 (2.86) ±20 △T=40K Tolerance Typ. (max.) MSL Level △L=–30% Rated Current (Typ. : A) (%) ±10 *2 *3 *4 *5 2.8 3.4 4.1 5.2 6.3 7.4 9.2 10.3 12.1 14.3 19.6 3.4 4.2 5.0 6.3 7.6 8.9 11.2 12.6 14.8 17.4 23.9 4.7 5.6 7.4 9.2 10.8 12.1 13.9 17.1 21.0 25.0 34.6 1 1 1 1 1 1 1 1 1 1 1 Series PCC-M1040M-LP [10.7×10.0×4.0(mm)] *1: Measured at 100 kHz *2: DC current which causes temperature rise of 40K. Parts are soldered by reflow on four-layer PWB(1.6 mm FR4) and measured at room temperature. See also ✽5 *3: DC current which causes temperature rise of 40K. Parts are soldered by reflow on multilayer PWB with high heat dissipation performance. Note: Heat radiation constant are approx. 27 K/W measured on 10.7×10.0×4.0 mm case size. See also ✽5 *4: Saturation rated current : DC current which causes L(0) drop –30 %. *5: The solderability is guaranteed for 1 year only. The product out of expiration date shall not be used． *6: Within a suitable application, the part’s temperature depends on circuit design and certain heat dissipation conditions. This should be double checked in a worst case operation mode. In normal case, the max.standard operating temperature of +155°C should not be exceeded. For higher operating temperature conditions, please contact Panasonic representative in your area. ▲ ETQP4M4R7KVC Under development (Start of mass production: the 2nd half of 2020) Please contact us for customized part no. Performance Characteristics (Reference 1) ● Inductance vs DC Current ［ ETQP4M330KVC ］ 30 20 10 2 4 6 20 10 0 8 0 2 DC Bias (A) ［ ETQP4M100KVC ］ 8 12 16 6 4 2 0 20 ［ ETQP4M2R2KVC ］ 0 5 10 15 20 1.0 0.5 DC Bias (A) 40 1.0 0.5 0 10 20 30 DC Bias (A) 0 12 0 4 40 50 8 12 16 DC Bias (A) ［ ETQP4M3R3KVC ］ 3.0 3 2 1 0 10 20 30 2.0 1.0 0 0 DC Bias (A) 1.5 0 8 4 0 25 10 20 30 DC Bias (A) ［ ETQP4M1R0KVC ］ 1.2 Inductors (μH) 1.5 30 4 5 ［ ▲ETQP4M4R7KVC ］ ［ ETQP4M1R5KVC ］ Inductors (μH) Inductors (μH) 2.0 20 0 10 5 2.0 10 5 DC Bias (A) 2.5 0 10 15 DC Bias (A) ［ ETQP4M6R8KVC ］ DC Bias (A) 0 15 0 10 Inductors (μH) 4 4 8 8 Inductors (μH) Inductors (μH) 8 0 6 20 DC Bias (A) 12 0 4 ［ ETQP4M150KVC ］ 20 Inductors (μH) 0 Inductors (μH) Inductors (μH) Inductors (μH) 30 40 0 ［ ETQP4M220KVC ］ 25 Inductors(μH) ［ ETQP4M470KVC ］ 50 0.8 0.4 0 0 10 20 30 40 50 60 ▲ Under development DC Bias (A) Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 1-Feb-20 Power Inductors Performance Characteristics (Reference 2) ● Case Temperature vs DC Current PWB condition A : Four-layer PWB (1.6 mm FR4), See also ✽2 PWB condition B : Multilayer PWB with high heat dissipation performance. See also ✽3 40 20 0 1 2 3 4 5 40 20 0 0 DC Bias (A) 20 6 8 DC Bias (A) 10 12 80 Temperature rise ΔT(K) Temperature rise ΔT(K) ［ ETQP4M2R2KVC ］ 60 40 20 0 0 10 DC Bias (A) 5 6 20 0 0 2 20 80 60 40 20 0 0 4 8 4 6 8 ［ ▲ETQP4M4R7KVC ］ 12 80 60 40 20 0 0 4 8 12 16 DC Bias (A) ［ ETQP4M1R5KVC ］ ［ ETQP4M1R0KVC ］ 80 60 40 20 0 10 60 40 20 0 0 2 20 4 6 8 DC Bias (A) DC Bias (A) 0 80 DC Bias (A) Temperature rise ΔT(K) 40 4 4 Temperature rise ΔT(K) Temperature rise ΔT(K) Temperature rise ΔT(K) 60 2 3 ［ ETQP4M6R8KVC ］ ［ ETQP4M100KVC ］ 0 2 40 DC Bias (A) 80 0 1 60 ［ ETQP4M150KVC ］ ［ ETQP4M3R3KVC ］ Temperature rise ΔT(K) 0 60 ［ ETQP4M220KVC ］ 80 Temperature rise ΔT(K) 60 80 Temperature rise ΔT(K) ［ ETQP4M330KVC ］ Temperature rise ΔT(K) Temperature rise ΔT(K) ［ ETQP4M470KVC ］ 80 80 60 40 20 0 0 4 8 12 DC Bias (A) 16 80 60 40 20 0 DC Bias (A) 0 10 20 30 ▲ Under development DC Bias (A) Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 1-Feb-20 Power Inductors Dimensions in mm (not to scale) Dimensional tolerance unless noted : ±0.5 Series PCC-M0530M-LP Series PCC-M0630M-LP Inductance (ETQP3M□□□KVN) Inductance Suffix 6.0±0.4 2.54±0.3 Polarity 1.0±0.4 Date Code Polarity 1.04±0.4 0.05 min. 0.05 min. Series PCC-M0840M-LP Series PCC-M1040M-LP (ETQP4M□□□✽KVC) ✽Exemption 1R0 (ETQP4M□□□KVK) Inductance Suffix 10.0±0.4 5.08±0.3 Polarity 1.3±0.4 Date Code 1.3±0.4 Polarity 2.08±0.4 2.08±0.4 4.0 max. 4.0 max. 0.05 min. Suffix 10.7±0.4 8.0±0.4 8.5±0.4 3.0±0.3 Inductance Date Code 1.04±0.4 3.0 max. 1.0±0.4 3.0 max. Date Code Suffix 6.4±0.4 5.0±0.4 5.5±0.4 3.18±0.3 (ETQP3M□□□KVP) 0.05 min. Series PCC-M1040M-LP (ETQP4M1R0KVC) Inductance Suffix Date Code 4.7±0.3 10.0±0.4 10.7±0.4 Polarity 0.05 min. 2.15±0.5 4.0 max. 2.15±0.5 Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 1-Feb-20 Power Inductors Recommended Land Pattern in mm (not to scale) Dimensional tolerance unless noted : ±0.5 (ETQP3M□□□KVP) Series PCC-M0630M-LP (ETQP3M□□□KVN) Series PCC-M0840M-LP (ETQP4M□□□KVK) 9.5 2.946 7.0 3.429 6.0 2.79 6.5 5.334 7.4 3.429 6.756 9.0 Series PCC-M0530M-LP 4.826 8.255 9.652 Series PCC-M1040M-LP (ETQP4M□□□✽KVC)✽Exemption 1R0 Series PCC-M1040M-LP (ETQP4M1R0KVC) 5.187 5.842 12.065 12.192 11.0 11.0 3.254 4.953 11.7 11.7 ※Don't wire on the pattern on shaded portion the PWB. ■ As for Soldering Conditions and Safety Precautions (Power Choke Coils (Automotive Grade)), Please see Data Files Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 1-Feb-20 Power Inductors Packaging Methods (Taping) ● Embossed Carrier Tape Dimensions in mm (not to scale) t1 B F A t2 W E P0 P2 øD0 P1 Tape running direction P２ P０ øD0 t1 t2 8 2 4 1.5 0.3 3.3 8 2 4 1.5 0.3 3.3 12 2 4 1.5 0.4 6.0 11.5 16 2 4 1.5 0.5 6.35 Series PCC-M0530M-LP PCC-M0630M-LP PCC-M0840M-LP PCC-M1040M-LP A B C øD E W 330 (100) 13 21 2 Series A B W E F PCC-M0530M-LP 5.6 6.1 16 1.75 7.5 PCC-M0630M-LP 6.5 7.1 16 1.75 7.5 PCC-M0840M-LP 8.63 9.1 16 1.75 7.5 PCC-M1040M-LP 10.65 11.75 24 1.75 P1 ● Taping Reel Dimensions in mm (not to scale) B E C øD 17.5 25.5 W A Terminal Component Placement (Taping) Standard Packing Quantity/Reel Series Part No. PCC-M0530M-LP ETQP3M□□□KVP PCC-M0630M-LP ETQP3M□□□KVN PCC-M0840M-LP ETQP4M□□□KVK PCC-M1040M-LP ETQP4M□□□KVC Minimum Quantity / Packing Unit Quantity per reel 4,000 pcs / box（2 reel） 2,000 pcs 1,000 pcs / box（2 reel） 500 pcs Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 1-Feb-20 *XLGHOLQHVDQGSUHFDXWLRQVUHJDUGLQJWKH WHFKQLFDOLQIRUPDWLRQDQGXVHRIRXUSURGXFWV GHVFULEHGLQWKLVRQOLQHFDWDORJ ‫ٹ‬,I\RXZDQWWRXVHRXUSURGXFWVGHVFULEHGLQWKLVRQOLQHFDWDORJIRUDSSOLFDWLRQVUHTXLULQJ VSHFLDOTXDOLWLHVRUUHOLDELOLW\RUIRUDSSOLFDWLRQVZKHUHWKHIDLOXUHRUPDOIXQFWLRQRIWKH SURGXFWVPD\GLUHFWO\MHRSDUGL]HKXPDQOLIHRUSRWHQWLDOO\FDXVHSHUVRQDOLQMXU\ HJDLUFUDIWDQGDHURVSDFHHTXLSPHQWWUDIILFDQGWUDQVSRUWDWLRQHTXLSPHQWFRPEXVWLRQ HTXLSPHQWPHGLFDOHTXLSPHQWDFFLGHQWSUHYHQWLRQDQWLFULPHHTXLSPHQWDQGRUVDIHW\ HTXLSPHQWLWLVQHFHVVDU\WRYHULI\ZKHWKHUWKHVSHFLILFDWLRQVRIRXUSURGXFWVILWWRVXFK DSSOLFDWLRQV3OHDVHHQVXUHWKDW\RXZLOODVNDQGFKHFNZLWKRXULQTXLU\GHVNDVWRZKHWKHU WKHVSHFLILFDWLRQVRIRXUSURGXFWVILWWRVXFKDSSOLFDWLRQVXVHEHIRUH\RXXVHRXUSURGXFWV ‫ٹ‬7KHTXDOLW\DQGSHUIRUPDQFHRIRXUSURGXFWVDVGHVFULEHGLQWKLVRQOLQHFDWDORJRQO\DSSO\ WRRXUSURGXFWVZKHQXVHGLQLVRODWLRQ7KHUHIRUHSOHDVHHQVXUH\RXHYDOXDWHDQGYHULI\ RXUSURGXFWVXQGHUWKHVSHFLILFFLUFXPVWDQFHVLQZKLFKRXUSURGXFWVDUHDVVHPEOHGLQ\RXU RZQSURGXFWVDQGLQZKLFKRXUSURGXFWVZLOODFWXDOO\EHXVHG ‫ٹ‬,I\RXXVHRXUSURGXFWVLQHTXLSPHQWWKDWUHTXLUHVDKLJKGHJUHHRIUHOLDELOLW\UHJDUGOHVV RIWKHDSSOLFDWLRQLWLVUHFRPPHQGHGWKDW\RXVHWXSSURWHFWLRQFLUFXLWVDQGUHGXQGDQF\ FLUFXLWVLQRUGHUWRHQVXUHVDIHW\RI\RXUHTXLSPHQW ‫ٹ‬7KHSURGXFWVDQGSURGXFWVSHFLILFDWLRQVGHVFULEHGLQWKLVRQOLQHFDWDORJDUHVXEMHFWWR FKDQJHIRULPSURYHPHQWZLWKRXWSULRUQRWLFH7KHUHIRUHSOHDVHEHVXUHWRUHTXHVWDQG FRQILUPWKHODWHVWSURGXFWVSHFLILFDWLRQVZKLFKH[SODLQWKHVSHFLILFDWLRQVRIRXUSURGXFWVLQ GHWDLOEHIRUH\RXILQDOL]HWKHGHVLJQRI\RXUDSSOLFDWLRQVSXUFKDVHRUXVHRXUSURGXFWV ‫ٹ‬7KHWHFKQLFDOLQIRUPDWLRQLQWKLVRQOLQHFDWDORJSURYLGHVH[DPSOHVRIRXUSURGXFWV  W\SLFDORSHUDWLRQVDQGDSSOLFDWLRQFLUFXLWV:HGRQRWJXDUDQWHHWKHQRQLQIULQJHPHQWRI WKLUGSDUW\ VLQWHOOHFWXDOSURSHUW\ULJKWVDQGZHGRQRWJUDQWDQ\OLFHQVHULJKWRULQWHUHVW LQRXULQWHOOHFWXDOSURSHUW\ ‫ٹ‬,IDQ\RIRXUSURGXFWVSURGXFWVSHFLILFDWLRQVDQGRUWHFKQLFDOLQIRUPDWLRQLQWKLVRQOLQH FDWDORJLVWREHH[SRUWHGRUSURYLGHGWRQRQUHVLGHQWVWKHODZVDQGUHJXODWLRQVRIWKH H[SRUWLQJFRXQWU\HVSHFLDOO\ZLWKUHJDUGWRVHFXULW\DQGH[SRUWFRQWUROVKDOOEHREVHUYHG 5HJDUGLQJWKH&HUWLILFDWHRI&RPSOLDQFHZLWK WKH(85R+6'LUHFWLYH5($&+5HJXODWLRQV! ‫ٹ‬7KHVZLWFKRYHUGDWHIRUFRPSOLDQFHZLWKWKH5R+6'LUHFWLYH5($&+5HJXODWLRQVYDULHV GHSHQGLQJRQWKHSDUWQXPEHURUVHULHVRIRXUSURGXFWV ‫ٹ‬:KHQ\RXXVHWKHLQYHQWRU\RIRXUSURGXFWVIRUZKLFKLWLVXQFOHDUZKHWKHUWKRVHSURGXFWV DUHFRPSOLDQWZLWKWKH5R+6'LUHFWLYH5($&+5HJXODWLRQSOHDVHVHOHFW6DOHV,QTXLU\LQWKH ZHEVLWHLQTXLU\IRUPDQGFRQWDFWXV :HGRQRWWDNHDQ\UHVSRQVLELOLW\IRUWKHXVHRIRXUSURGXFWVRXWVLGHWKHVFRSHRIWKH VSHFLILFDWLRQVGHVFULSWLRQVJXLGHOLQHVDQGSUHFDXWLRQVGHVFULEHGLQWKLVRQOLQHFDWDORJ $SU Power Inductors Safety Precautions (Common precautions for Power Choke Coils (Automotive Grade) : Series DUST, Series MC） ・ When using our products, no matter what sort of equipment they might be used for, be sure to make a written agreement on the specifications with us in advance. The design and specifications in this catalog are subject to change without prior notice. ・ Do not use the products beyond the specifications described in this catalog. ・ This catalog explains the quality and performance of the products as individual components. Before use, check and evaluate their operations when installed in your products. ・ Install the following systems for a failsafe design to ensure safety if these products are to be used in equipment where a defect in these products may cause the loss of human life or other significant damage, such as damage to vehicles (automobile, train, vessel), traffic lights, medical equipment, aerospace equipment, electric heating appliances, combustion/gas equipment, rotating equipment, and disaster/crime prevention equipment. ✽ Systems equipped with a protection circuit and a protection device. ✽ Systems equipped with a redundant circuit or other system to prevent an unsafe status in the event of a single fault. ■Precautions for use 1. Provision to abnormal condition This power choke coil itself does not have any protective function in abnormal condition such as overload, short-circuit and open-circuit conditions, etc. Therefore, it shall be confirmed as the end product that there is no risk of smoking, fire, dielectric withstand voltage, insulation resistance, etc. in abnormal conditions to provide protective devices and/or protection circuit in the end product. 2. Temperature rise Temperature rise of power choke coil depends on the installation condition in end products. It shall be confirmed in the actual end product that temperature rise of power choke coil is in the limit of specified temperature class. 3. Dielectric strength Dielectric withstanding test with higher voltage than specific value will damage Insulating material and shorten its life. 4. Water This Power choke coil must not be used in wet condition by water, coffee or any liquid because insulation strength becomes very low in such condition. 5. Potting If this power choke coil is potted in some compound, coating material of magnet wire might be occasionally damaged. Please ask us if you intend to pot this power choke coil. 6. Model When this power choke coil is used in a similar or new product to the original one, it might be unable to satisfy he specifications due to difference of condition of usage. Please ask us if you use this power choke coil in the manner such as above. 7. Drop If the power choke coil receives mechanical stress such as drop, characteristics may become poor (due to damage on coil bobbin, etc.). Never use such stressed power choke coil. 8. Buzz Noise When this coil is used in the frequency band of the audible range (≒ 20 Hz to 20 kHz), or, when using in burst mode, depending on the operating conditions (conditions of the energized waveform) sounds (buzz noise) may occur. Depending on the circuit / board installation environment it may be heard as abnormal sounds, so please check in advance. 9. Solvent (Series MC) If this power choke coil is dipped in the cleaning agent, and the coating agent of the toluene and the xylene system, there is a possibility that the performance decreases greatly. Please ask us if you intend to pot this power choke coil. 10. Static electricity measures (Series MC) ①Circuit design Please set up the ESD measures parts such as capacitors in the former steps of this power choke coil for static electricity when there is a possibility that static electricity is impressed to the choke coil on the circuit. Moreover, please consult our company about such a case once. 1-Oct-19 Power Inductors ②Treatment with single Take countermeasures against static electricity when using single power choke coil. (process and equipment) There is a possibility that the characteristic changes when the voltage of 200 V or more is impressed to this power choke coil. Please handle 200 V or less. 11. Printed circuit board design ①Land pattern and Via which exceed Operating Voltage, should not be placed top layer PWB under the products for keeping isolation between inside coil and surface of PWB. (Series DUST) ②To the opposing part in this power choke coil bottom please install neither pattern nor the beer, etc. (Series MC) 8 8.4 3.8 The opposing part in the choke coil bottom 2.8 10 ③Parts arranged around this power choke coil do not touch the surface of this power choke coil (Top side and side). (Series MC) Top side Side The opposing part in the choke coil bottom (PWB) Side ④This power choke coil is different from the ferrite core-type that installs general concentration GAP. It has the leakage magnetic bunch distribution of the choke coil to the vertical direction. Please be cautious when using parts and circuit compositions which are easily affected by the leakage flux. 12. Other using emviroment This power choke coil is not designed for the use in the following, special environment. Therefore, please do not use it in the following special environment. • Use in place where a lot of causticity gases such as sea breeze, Cl2, H2S, NH3, SO2, and NOx exist. • Use in place where out-of-door exposure and direct sunshine strike. 13. Core Chipping and Core Crack This choke coil has a possibility to make partial chipping or crack in the core due to excessive mechanical stress　 from outside, and might have initially a partial chipping and/or cracks that do not affect the quality. 14. Keeping environment If this power choke coil is kept under following environment and condition, there is a possibility that the performance and soldering decreases greatly. • Keep in place where a lot of causticity gases such as sea breeze, Cl2, H2S, NH3, SO2, and NOx exist. • Keep in place where out-of-door exposure and direct sunshine strike. ■AEC-Q200 Compliant The products are tested based on all or part of the test conditions and methods defined in AEC-Q200. Please consult with Panasonic for the details of the product specification and specific evaluation test results, etc., and please review and approve Panasonic's product specification before ordering. ＜Package markings＞ Package markings include the product number, quantity, and country of origin. In principle, the country of origin should be indicated in English. 1-Oct-19