id inductor e 0

2015
CATALOG
Inductors
2015.5
industrial.panasonic.com/
Inductors CONTENTS
Classification
Product ltem
Power Choke Coils
Power
Inductors
(SMD)
Type ∙ Series
Part Number
Page
PCC- M0530M/M0540M
M0630M/M0645M
M0754M
M0854M/M0850M
M1054M/M1050M
M1050ML/M1060ML (MC)
for automotive use
ETQ P3M
ETQ P4M
ETQ P5M
ETQ P6M
2
PCC-D1413H (DUST) for automotive use
ETQ PDH240DTV
12
PCC-M0630L / M0630M (MC) for consumer use
ETQ P3L/3M
15
PCC-M0512W (MC) for consumer use
ETQ P1W
17
PCC-M0630W (MC) for consumer use
ETQ P3W
19
PCC-M0730L (MC) for consumer use
ETQ P3L
21
PCC-M0740L (MC) Low DCR Type for consumer use
ETQ P4L
23
PCC-M1040L (MC) for consumer use
ETQ P4L
25
PCC-M1040L (MC) Low DCR Type for consumer use
ETQ P4L
27
PCC-M1040W (MC) for consumer use
ETQ P4W
29
PCC-M1250L (MC) for consumer use
ETQ P5L
31
Packaging Methods ∙ Soldering Conditions
33
Safety Precautions (PCC for automotive use)
36
Safety Precautions (PCC for consumer use)
38
Power Inductors
Selection Guide
39
Multilayer
Power Inductors
Magnetic Shielded Type
ELG UEB
40
ELG TEA
42
Safety Precautions
44
Magnetic Shielded Type
(Magnetic Adhesive Type)
Power Inductors
/ Wire Wound type
Magnetic Shielded Type
(Ring Core Type)
ELL VEG, VFG-C, VGG, VGG-C
50
ELL 4FG-A, 4GG, 4LG-A
53
ELL 6GG, 6PG
56
ELL 6RH, 6SH, 6UH
58
ELL 8TP
61
ELL ATP
63
ELL CTP
65
Soldering Conditions ∙ Safety Precautions
Voltage Step-up
Coils
Chip
67
ELT 3KN
69
Common page
Power
Inductors
(THD)
Choke Coils
Pin terminal
74
Regular Type
ELC 09D, 11D, 12D, 16B, 18B
76
Magnetic Shield Type
ELC 10E-L, 12E-L, 15E-L, 18E-L
81
Taping/Safety Precautions
85
All products in this catalog comply with the RoHS Directive.
The RoHS Directive is “the Directive (2011/65/EU) on the Restriction of the Use of Certain
Hazardous Substances in Electrical and Electronic Equipment “ and its revisions.
00 May. 2015
–1–
Power Inductors
Power Choke Coil for Automotive application
Series:
PCC-M0530M (MC)
PCC-M0630M (MC)
PCC-M0754M (MC)
PCC-M0854M (MC)
PCC-M1054M (MC)
PCC-M1050ML (MC)
PCC-M0540M (MC)
PCC-M0645M (MC)
PCC-M0850M (MC)
PCC-M1050M (MC)
PCC-M1060ML (MC)
Realize high heat resistance and high reliability
with metal composite core(MC)
Industrial Property : patents 21 (Registered 2/Pending 19)
Features
● High bias current
● Temp. stability
● Low buzz noise
● High efficiency
● AEC-Q200 qualified
● RoHS compliant
: Operation up to 150 °C
: High vibration resistance due to newly developed
integral construction and severe reliability condition
of automotive application is covered
: Excellent inductance stability by using ferrous alloy
magnetic material(Fig.1)
: Excellent inductance stability in wide temp. range (Fig.1)
: New metal composite core technology
: Low RDC of winding and low eddy-current loss of the core
● Fig.1 Inductance v.s. DC current, Temp.
ETQP5M470YFM(reference)
60.0
50.0
Inductance (µH)
● High heat resistance
● High-reliability
40.0
30.0
25 °C
100 °C
125 °C
150 °C
20.0
10.0
0.0
0.0
0.5
1.0
1.5
2.0
IDC (A)
2.5
3.0
Recommended Applications
● Noise
filter for various drive circuitry requiring high temp. operation and peak current handling capability
converters
● DC/DC
Standard Packing Quantity (Minimum Quantity/Packing Unit)
● 1,000
pcs./box (2 reel) : PCC-M0645M, M0754M, M0854M, M0850M, M1054M, M1050M,
M1050ML, M1060ML
● 2,000 pcs./box (2 reel) : PCC-M0530M, M0540M, M0630M
Explanation of Part Numbers
1
2
3
4
E
T
Q
P
Product Code
5
Classification Height
6
7
8
M
Winding
Inductance
4R7→ 4.7 µH
220→ 22 µH
101→ 100 µH
9
10
11
Y
F
Core
Suffix
P
N
M
K
C
12
Size
□ 5 mm size
□ 6 mm size
□ 7 mm size
□ 8 mm size
□10 mm size
Temperature rating
Operating temperature range
Storage condition
After PWB mounting
Before PWB mounting
Tc : -40 °C to +150 °C(Including self-temperature rise)
Ta : -5 °C to +35 °C 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.
08
–2–
Jul. 2015
Power Inductors
1. Series PCC-M0530M/PCC-M0540M (ETQP3M□□□YFP/ETQP4M□□□YFP)
Standard Parts
Series
Part No.
PCC-M0530M
[5.5×5.0×3.0(mm)]
PCC-M0540M
[5.5×5.0×4.0(mm)]
ETQP3M2R2YFP
ETQP3M3R3YFP
ETQP4M4R7YFP
ETQP4M220YFP
Inductance ✽1
L0
Tolerance
(µH)
(%)
2.2
3.3
±20
4.7
22
DCR (at 20 °C) (mΩ)
Typ.
Tolerance
(max.)
(%)
22.6 (24.8)
31.3 (34.4)
±10
36.0 (39.6)
163 (179)
Rated Current (Typ. : A)
△T=40K
△L=–30%
(✽2)
(✽3)
(✽4)
4.8
5.8
10.9
4.1
5.0
8.6
4.0
4.8
7.7
1.9
2.3
3.1
(✽1) Measured at 100 kHz.
(✽2) DC current which causes temperature rise of 40 K. 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 40 K. Parts are soldered by reflow on multilayer PWB with high
heat dissipation performance. Note: Heat radiation constant are approx. 52 K/W measured on 5.5×5.0×3.0 mm
case size and approx. 48 K/W measured on 5.5×5.0×4.0 mm case size. See also (✽5)
(✽4) Saturation rated current : DC current which causes L(0) drop –30 %.
(✽5) 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 +150 °C should not be exceeded.
For higher operating temperature conditions, please contact Panasonic representative in your area.
Performance Characteristics (Reference)
● Inductance
vs DC Current
ETQP3M2R2YFP
2.0
1.5
1.0
0.5
0.0
0
2
4
Inductance (µH)
2.0
1.0
4
6
8
IDC (A)
10
12
80
70
60
50
40
30
20
10
0
PWB condition A
PWB condition B
1
2
3
4
5
IDC (A)
6
7
8
ETQP4M4R7YFP
PWB condition A
PWB condition B
0
1
2
3
4
IDC (A)
0
2
4
6
8
IDC (A)
10
12
14
ETQP4M220YFP
25
20
15
10
5
0
1
2
3
4
5
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)
ETQP3M2R2YFP
0
1.0
IDC (A)
Temperature vs DC Current
80
70
60
50
40
30
20
10
0
2.0
0
14
ΔT(K)
● Case
2
3.0
30
3.0
0
4.0
0.0
14
ΔT(K)
Inductance (µH)
12
4.0
0.0
ΔT(K)
10
ETQP4M4R7YFP
5.0
ΔT(K)
6
8
IDC (A)
ETQP3M3R3YFP
5.0
Inductance (µH)
Inductance (µH)
2.5
5
6
7
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
ETQP3M3R3YFP
PWB condition A
PWB condition B
0
1
2
3
4
IDC (A)
5
6
7
3
3.5
ETQP4M220YFP
PWB condition A
PWB condition B
0
0.5
1
1.5
2
IDC (A)
2.5
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.
08
–3–
Jul. 2015
Power Inductors
2. Series PCC-M0630M/PCC-M0645M (ETQP3M□□□YFN/ETQP4M□□□YFN)
Standard Parts
Series
Part No.
DCR (at 20 °C) (mΩ)
Inductance ✽1
L0
Tolerance
Typ.
Tolerance
(µH)
(%)
(max.)
(%)
0.68
6.3 (6.9)
1.0
7.9 (8.7)
±20
±10
6.8
39.3 (43.2)
10
54.2 (59.6)
47
210 (231)
Rated Current (Typ. : A)
△T=40K
△L=–30%
(✽2)
(✽3)
(✽4)
9.8
12.0
24.0
8.8
10.7
20.0
4.1
5.2
10.0
3.3
4.5
8.3
1.8
2.2
3.8
ETQP3MR68YFN
ETQP3M1R0YFN
ETQP4M6R8YFN
PCC-M0645M
[6.5×6.0×4.5(mm)] ETQP4M100YFN
ETQP4M470YFN
(✽1) Measured at 100 kHz.
(✽2) DC current which causes temperature rise of 40 K. 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 40 K. Partsare soldered by reflow on multilayer PWB with high heat
dissipation performance. Note: Heat radiation constant are approx. 44 K/W measured on 6.5×6.0×3.0 mm case
size and approx. 37 K/W measured on 6.5×6.0×4.5 mm case size. See also (✽5)
(✽4) Saturation rated current : DC current which causes L(0) drop –30 %.
(✽5) 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 +150 °C should not be exceeded.
For higher operating temperature conditions, please contact Panasonic representative in your area.
PCC-M0630M
[6.5×6.0×3.0(mm)]
Performance Characteristics (Reference)
Inductance (µH)
0.6
0.5
0.4
0.3
0.2
0.1
0
0
ΔT(K)
12 16
IDC (A)
20
ETQP4M6R8YFN
80
70
60
50
40
30
20
10
0
Inductance (µH)
PWB condition A
PWB condition B
0 2 4 6 8 10 12 14 16 18
IDC (A)
ETQP4M6R8YFN
PWB condition A
PWB condition B
2
3 4
IDC (A)
5
6
0.2
0
7
5
10
IDC (A)
15
20
ETQP4M100YFN
10
8
6
4
2
0 1 2 3 4 5 6 7 8 9
IDC (A)
50
45
40
35
30
25
20
15
10
5
0
ETQP4M470YFN
0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0
IDC (A)
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)
ETQP3MR68YFN
1
0.4
0
0 1 2 3 4 5 6 7 8 9 10
IDC (A)
0
0.6
12
Temperature vs DC Current
80
70
60
50
40
30
20
10
0
0.8
0
24
ΔT(K)
ΔT(K)
● Case
8
ΔT(K)
Inductance (µH)
8
7
6
5
4
3
2
1
0
4
ETQP3M1R0YFN
1
Inductance (µH)
0.7
Inductance (µH)
vs DC Current
ETQP3MR68YFN
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
ETQP3M1R0YFN
PWB condition A
PWB condition B
0 2 4 6 8 10 12 14 16 18
IDC (A)
ETQP4M100YFN
PWB condition A
PWB condition B
ΔT(K)
● Inductance
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6
IDC (A)
80
70
60
50
40
30
20
10
0
ETQP4M470YFN
PWB condition A
PWB condition B
0
0.5
1.0 1.5 2.0 2.5 3.0
IDC (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.
08
–4–
Jul. 2015
Power Inductors
3. Series PCC-M0754M (ETQP5M□□□YFM)
Standard Parts
Series
Part No.
PCC-M0754M
[7.5×7.0×5.4(mm)]
ETQP5M4R7YFM
ETQP5M100YFM
ETQP5M220YFM
ETQP5M330YFM
ETQP5M470YFM
Inductance ✽1
L0
Tolerance
(µH)
(%)
4.7
10
±20
22
33
48
DCR (at 20 °C) (mΩ)
Typ.
Tolerance
(max.)
(%)
20(23)
37.6(41.3)
±10
92(102)
120(132)
156(172)
Rated Current (Typ. : A)
△T=40K
△L=–30%
(✽2)
(✽3)
(✽4)
6.3
8.0
13.1
4.7
5.7
10.6
3.0
3.7
5.8
2.6
3.3
4.8
2.3
2.9
4.1
(✽1) Measured at 100 kHz.
(✽2) DC current which causes temperature rise of 40 K. 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 40 K. Parts are soldered by reflow on multilayer PWB with high heat dissipation
performance. Note: Heat radiation constant is approx. 31 K/W measured on 7.5×7.0×5.4 mm case size. See also (✽5)
(✽4) Saturation rated current : DC current which causes L(0) drop –30 %.
(✽5) 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 +150 °C should not be exceeded.
For higher operating temperature conditions, please contact Panasonic representative in your area.
Performance Characteristics (Reference)
4.0
3.0
2.0
1.0
0
15
Inductance (µH)
20
10
2
4
IDC (A)
6
Temperature vs DC Current
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
PWB condition A
PWB condition B
2
4
6
IDC (A)
8
10
ETQP5M330YFM
PWB condition A
PWB condition B
0
1
2
3
IDC (A)
4
4
2
0
5
2
4
6
20
15
10
5
0
8 10 12 14 16
IDC (A)
0
2
4
6
IDC (A)
8
10
ETQP5M470YFM
50
40
30
20
10
0
1
2
3
4
IDC (A)
5
6
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)
ETQP5M4R7YFM
0
6
0
8
ΔT(K)
● Case
0
8
60
30
0
10
0
20
ΔT(K)
Inductance (µH)
10
IDC (A)
ETQP5M330YFM
40
ΔT(K)
5
ETQP5M220YFM
25
Inductance (µH)
5.0
0.0
ETQP5M100YFM
12
Inductance (µH)
Inductance (µH)
6.0
ΔT(K)
vs DC Current
ETQP5M4R7YFM
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
ETQP5M100YFM
PWB condition A
PWB condition B
ΔT(K)
● Inductance
0
1
2
3
4 5
IDC (A)
6
7
8
80
70
60
50
40
30
20
10
0
ETQP5M220YFM
PWB condition A
PWB condition B
0
1
2
3
IDC (A)
4
5
ETQP5M470YFM
PWB condition A
PWB condition B
0
1
2
IDC (A)
3
4
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.
08
–5–
Jul. 2015
Power Inductors
4. Series PCC-M0854M/PCC-M0850M (ETQP5M□□□YFK/ETQP5M□□□YGK)
Standard Parts
Series
Part No.
PCC-M0854M
[8.5×8.0×5.4(mm)]
ETQP5M2R5YFK
ETQP5M100YFK
ETQP5M220YFK
ETQP5M470YFK
Inductance ✽1
DCR (at 20 °C) (mΩ)
L0
Tolerance
Typ.
Tolerance
(µH)
(%)
(max.)
(%)
2.5
7.6(8.4)
10
33(37)
22
63(70)
±20
±10
48
125(138)
PCC-M0850M
[8.5×8.0×5.0(mm)]
ETQP5M101YGK
100
Rated Current (Typ. : A)
△T=40K
△L=–30%
(✽2)
(✽3)
(✽4)
11.9
14.0
20.1
5.7
6.7
13.0
4.1
4.8
6.9
2.9
3.4
5.4
302(333)
1.7
2.1
3.0
(✽1) Measured at 100 kHz.
(✽2) DC current which causes temperature rise of 40 K. 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 40 K. Parts are soldered by reflow on multilayer PWB with high heat dissipation performance. Note: Heat radiation
constant are approx. 27 K/W measured on 8.5×8.0×5.4 mm case size and approx. 29 K/W measured on 8.5×8.0×5.0 mm case size. See also (✽5)
(✽4) Saturation rated current : DC current which causes L(0) drop –30 %.
(✽5) 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 + 150 °C should not be exceeded.
For higher operating temperature conditions, please contact Panasonic representative in your area.
Performance Characteristics (Reference)
2.0
1.5
1.0
0.5
0
25
Inductance (µH)
20
10
PWB condition A
PWB condition B
4
8
12
IDC (A)
16
20
ETQP5M470YFK
PWB condition A
PWB condition B
0
1
2
3
IDC (A)
4
5
10
5
0
6 8 10 12 14 16
IDC (A)
0
2
4
6
IDC (A)
8
10
ETQP5M101YGK
60
40
20
0
1
2
3
IDC (A)
4
5
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)
ETQP5M2R5YFK
0
4
15
80
0
8
Temperature vs DC Current
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
6
0 2
20
100
ΔT(K)
● Case
4
IDC (A)
2
120
30
2
4
30
40
0
6
ΔT(K)
Inductance (µH)
15 20
IDC (A)
50
0
ΔT(K)
10
ETQP5M470YFK
60
ΔT(K)
5
8
0
ETQP5M220YFK
25
10
Inductance (µH)
2.5
0.0
ETQP5M100YFK
12
Inductance (μH)
3.0
Inductance (µH)
vs DC Current
ETQP5M2R5YFK
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
ETQP5M100YFK
PWB condition A
PWB condition B
ΔT(K)
● Inductance
0
2
4
6
IDC (A)
8
10
80
70
60
50
40
30
20
10
0
ETQP5M220YFK
PWB condition A
PWB condition B
0
1
2
3 4
IDC (A)
5
6
7
ETQP5M101YGK
PWB condition A
PWB condition B
0
0.5 1.0 1.5 2.0 2.5 3.0
IDC (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.
08
–6–
Jul. 2015
Power Inductors
5. Series PCC-M1054M/PCC-M1050M (ETQP5M□□□YFC/ETQP5M□□□YGC)
Standard Parts
Inductance ✽1
Series
Part No.
ETQP5M1R5YFC
ETQP5M2R5YFC
ETQP5M3R3YFC
PCC-M1054M
ETQP5M4R7YFC
[10.7×10.0×5.4(mm)]
ETQP5M100YFC
ETQP5M220YFC
ETQP5M330YFC
PCC-M1050M
ETQP5M101YGC
[10.7×10.0×5.0(mm)]
L0
(µH)
Tolerance
(%)
1.45
2.5
3.3
4.7
10
22
32.5
±20
97
DCR (at 20 °C) (mΩ)
Typ.
(max.)
Rated Current (Typ. : A)
△T=40K
△L=–30%
(✽2)
(✽3)
(✽4)
17.9
21.4
35.1
15.1
18.1
27.2
13.1
15.7
22.7
10.9
13.1
20.0
7.1
8.5
10.7
5.2
6.2
8.8
4.2
5.0
7.6
Tolerance
(%)
3.8(4.2)
5.3(5.9)
7.1(7.9)
10.2(11.3)
23.8(26.2)
45(50)
68.5(75.4)
±10
208(229)
2.2
2.7
3.0
(✽1) Measured at 100 kHz.
(✽2) DC current which causes temperature rise of 40 K. 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 40 K. Parts are soldered by reflow on multilayer PWB with high heat
dissipation performance. Note: Heat radiation constant are approx. 23 K/W measured on 10.7×10.0×5.4 mm case
size and approx. 26 K/W measured on 10.7×10.0×5.0 mm case size. See also (✽ 5)
(✽4) Saturation rated current : Dc current which causes L(0) drop –30 %.
(✽ 5) 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 +150 °C should not be exceeded.
For higher operating temperature conditions, please contact Panasonic representative in your area.
Performance Characteristics (Reference)
ETQP5M1R5YFC
1.2
0.8
0.4
0
20
IDC (A)
30
2.0
1.5
1.0
0.5
0.0
40
0
10
20
IDC (A)
30
2
1
10
IDC (A)
15
0
6
4
2
0
5
10
15 20
IDC (A)
25
30
ETQP5M220YFC
8
20
ETQP5M330YFC
40
1
25
10
Inductance (µH)
3
5
2
ETQP5M100YFC
4
0
3
0
40
12
5
0
2.5
ETQP5M4R7YFC
6
Inductance (µH)
10
ETQP5M3R3YFC
4
Inductance (µH)
0
ETQP5M2R5YFC
3.0
Inductance (µH)
Inductance (µH)
1.6
0
2
4
6 8 10 12 14 16
IDC (A)
20
15
10
5
0
0
2
4
6
IDC (A)
8
10
ETQP5M101YGC
120
100
Inductance (µH)
Inductance (µH)
vs DC Current
Inductance (µH)
● Inductance
30
20
10
0
0
2
4
6
IDC (A)
8
10
80
60
40
20
0
0
1
2
3 4
IDC (A)
5
6
7
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.
08
–7–
Jul. 2015
Power Inductors
80
70
60
50
40
30
20
10
0
ΔT(K)
PWB condition A
PWB condition B
0
5
10
15 20
IDC (A)
25
30
ETQP5M4R7YFC
PWB condition A
PWB condition B
0
80
70
60
50
40
30
20
10
0
4
8
12
IDC (A)
16
20
ETQP5M330YFC
PWB condition A
PWB condition B
0
1
2
3 4
IDC (A)
5
6
7
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
ETQP5M2R5YFC
PWB condition A
PWB condition B
ΔT(K)
ETQP5M1R5YFC
ΔT(K)
80
70
60
50
40
30
20
10
0
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
5
10
15
IDC (A)
20
25
ETQP5M100YFC
PWB condition A
PWB condition B
ΔT(K)
Temperature vs DC Current
ΔT(K)
ΔT(K)
ΔT(K)
ΔT(K)
● Case
0
2
4
6
8
IDC (A)
10 12
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
ETQP5M3R3YFC
PWB condition A
PWB condition B
0
4
8
12 16
IDC (A)
20
24
ETQP5M220YFC
PWB condition A
PWB condition B
0
2
4
6
IDC (A)
8
10
ETQP5M101YGC
PWB condition A
PWB condition B
0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0
IDC (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.
08
–8–
Jul. 2015
Power Inductors
6. Series PCC-M1050ML/PCC-M1060ML (ETQP5M□□□YLC/ETQP6M□□□YLC)
Standard Parts
Series
Inductance ✽1
L0
Tolerance
(µH)
(%)
0.68
1.0
±20
2.5
3.3
Part No.
DCR (at 20 °C) (mΩ)
Typ.
Tolerance
(max.)
(%)
1.75(1.93)
2.3(2.53)
±10
4.5(5.0)
6.0(6.6)
Rated Current (Typ. : A)
△T=40K
△L=–30%
(✽2)
(✽3)
(✽4)
26.3
31.5
42.0
23.0
27.5
38
16.3
19.6
27.0
14.2
17.0
26.0
ETQP5MR68YLC
ETQP5M1R0YLC
ETQP6M2R5YLC
ETQP6M3R3YLC
✽
( 1) Measured at 100 kHz.
(✽2) DC current which causes temperature rise of 40 K. 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 40 K. Parts are soldered by reflow on multilayer PWB with high heat
dissipation performance. Note: Heat radiation constant are approx. 23 K/W measured on 10.9×10.0×5.0 mm case
size and approx. 23 K/W measured on 10.9×10.0×6.0 mm case size. See also (✽ 5)
(✽4) Saturation rated current : Dc current which causes L(0) drop –30 %.
(✽ 5) 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 +150 °C should not be exceeded.
For higher operating temperature conditions, please contact Panasonic representative in your area.
PCC-M1050ML
[10.9×10.0×5.0(mm)]
PCC-M1060ML
[10.9×10.0×6.0(mm)]
Performance Characteristics (Reference)
vs DC Current
ETQP5MR68YLC
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0.0
0
10
20
Inductance (µH)
2.0
1.5
1.0
0.5
10
20
IDC (A)
30
40
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
ETQP5MR68YLC
PWB condition A
PWB condition B
0
5
10
15
20 25
IDC (A)
30
35
40
45
ETQP6M2R5YLC
PWB condition A
PWB condition B
0
4
8
12
16
IDC (A)
20
0.8
0.6
0.4
0.2
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0.0
0
10
20
30
IDC (A)
40
50
60
ETQP6M3R3YLC
0
5
10
15
20
IDC (A)
25
30
35
40
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)
Temperature vs DC Current
ΔT(K)
● Case
0
1.0
0.0
60
ΔT(K)
Inductance (µH)
50
2.5
0.0
ΔT(K)
40
ETQP6M2R5YLC
3.0
ΔT(K)
30
IDC (A)
ETQP5M1R0YLC
1.2
Inductance (µH)
Inductance (µH)
● Inductance
24
28
80
70
60
50
40
30
20
10
0
80
70
60
50
40
30
20
10
0
ETQP5M1R0YLC
PWB condition A
PWB condition B
0
5
10
15
20
IDC (A)
25
30
35
ETQP6M3R3YLC
PWB condition A
PWB condition B
0
5
10
15
IDC (A)
20
25
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.
08
–9–
Jul. 2015
Power Inductors
Dimensions in mm (not to scale)
Dimensional tolerance unless noted : ±0.5
Series PCC-M0530M
Series PCC-M0540M
Series PCC-M0630M
Series PCC-M0645M
(ETQP3M□□□YFP/ETQP4M□□□YFP)
(ETQP3M□□□YFN/ETQP4M□□□YFN)
Suffix
0.1 min.
H
Series
M0530M
M0540M
1.2
1.5
Date Code Polarity
H
3.0 max.
4.0 max.
Series
M0630M
M0645M
0.1 min.
H
1.2
Date Code Polarity
6.0±0.4
3.0±0.3
Inductance
6.5±0.4
3.0±0.3
Suffix
5.0±0.4
Inductance
5.5±0.4
Series PCC-M0754M
1.5
H
3.0 max.
4.5 max.
Series PCC-M0854M
Series PCC-M0850M
(ETQP5M□□□YFM)
(ETQP5M□□□YFK/YGK)
Inductance
7.5±0.4
Inductance
Suffix
2.0
Polarity
2.0
0.1 min.
H
Series
M0854M
M0850M
2.0
H
5.4 max.
5.0 max.
Series PCC-M1054M
Series PCC-M1050M
Series PCC-M1050ML
Series PCC-M1060ML
(ETQP5M□□□YFC/YGC)
(ETQP5M□□□YLC/ETQP6M□□□YLC)
Suffix
Date Code
H
5.4 max.
5.0 max.
7.3±0.3
1.8
Polarity
H
H
Series
M1054M
M1050M
2.0
0.5 min.
2.0
Suffix
10.0±0.4
4.2±0.3
10.0±0.4
Inductance
10.9±0.6
Polarity
0.1 min.
Date Code
2.0
Polarity
0.1 min.
5.4 max.
Date Code
Inductance
10.7±0.5
3.0±0.3
8.0±0.4
3.0±0.3
7.0±0.4
Date Code
Suffix
8.5±0.4
Series
H
M1050ML 5.0 max.
M1060ML 6.0 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.
08
– 10 –
1.8
Jul. 2015
Power Inductors
Recommended Land Pattern in mm (not to scale)
Dimensional tolerance unless noted : ±0.5
Series PCC-M0530M
Series PCC-M0540M
Series PCC-M0630M
Series PCC-M0645M
Series PCC-M0754M
(ETQP3M□□□YFP/ETQP4M□□□YFP)
(ETQP3M□□□YFN/ETQP4M□□□YFN)
(ETQP5M□□□YFM)
8.4
7.1
3.6
8.0
3.6
7.0
3.6
6.0
6.1
2.2
2.8
2.8
7.2
10.0
8.8
Don't wire on the pattern
on shaded portion the PWB.
The same as the left.
Series PCC-M0854M
Series PCC-M0850M
Series PCC-M1054M
Series PCC-M1050M
Series PCC-M1050ML
Series PCC-M1060ML
(ETQP5M□□□YFK/YGK)
(ETQP5M□□□YFC/YGC)
(ETQP5M□□□YLC/ETQP6M□□□YLC)
11.7
7.9
11
11.9
4.8
11
4.0
9.0
9.4
The same as the left.
3.8
6.1
6.5
12.4
13.7
13.9
Don't wire on the pattern
on shaded portion the PWB.
The same as the left.
The same as the left.
■ As for Packaging Methods, Soldering Conditions and Safety Precautions
(Power Choke Coils for Automotive application),
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.
08
– 11 –
Jul. 2015
Power Inductors
Power Choke Coil
for Automotive application
Series : PCC-D1413H (DUST)
Realize high heat resistance, low loss and high reliability
with dust core (DUST)
Industrial Property : patents 5 (Pending)
Features
● High
heat resistance
: Operation up to 150 °C
and small package : L×W×T=14.7×13.2×13.1 mm
● High-reliability
: High vibration resistance due to newly developed integral construction and severe
reliability condition of automotive application is covered
● High bias current
: Excellent inductance stability by using ferrous alloy magnetic material
● High Vibration proof
: 5 Hz to 2 kHz/30 G
● High efficiency
: Achieve by Low loss Dust core and Edgewise coil with rectangular wire
● AEC-Q200 qualified
● RoHS compliant
● SMD
Recommended Applications
● Driver
circuits of fuel injection systems in automotive, driver circuits of diesel common rail injection,
step-up power supplies for motor driver-circuits
Standard Packing Quantity
● 600
pcs./10 tray
Explanation of Part Numbers
1
2
3
4
E
T
Q
P
Product Code
5
6
7
8
H
Classification Height
9
10
11
12
Suffix
Size
D
Winding
Inductance
Core
Temperature rating
Operating temperature range
Storage condition
Tc : -40 °C to +150 °C(Including self-temperature rise)
After PWB mounting
Before PWB mounting
Ta : -5 °C to +35 °C 85%RH max.
Standard Parts
Inductance ✽1
Part No.
L0 at 0A
(µH)
ETQPDH240DTV
36.0±30%
L1 at 10A
(µH)
(24.0)
✽2
DCR
ACR
Rated Current ✽3
at 20 °C (mΩ)
at 20 kHz (mΩ)
△T=40K (A)
25.8 typ.
50.0 typ.
6.9
(✽1) Measured at 100 kHz.
(✽2) Reference Only.
(✽3) DC current which causes temperature rise of 40 K. Parts are soldered by reflow on four-layer PWB (1.6 mm FR4)
and measured at room temperature.
✽ 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 +150 °C should not be exceeded.
For higher operating temperature conditions, please contact Panasonic representative in your area.
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.
01
– 12 –
Oct. 2014
Power Inductors
Performance Characteristics (Reference)
● Inductance
ETQPDH240DTV
100
90
40
80
35
70
30
60
ΔT(K)
45
25
50
20
40
15
30
10
20
5
10
0
Temperature vs DC Current
ETQPDH240DTV
(uH)
50
Inductance (µH)
● Case
vs DC Current
0
0
2
4
6
8
10
12
14
16
18
20
0
1
IDC (A)
2
3
4
5
6
7
8
9
10
IDC (A)
Dimensions in mm (not to scale)
Connection
Dimensional tolerance unless noted : ±0.5
P1
13.2±0.6
P2
13.1
5.9
2.45
6.7 min.
14.7
P2
10.53
Suffix
10.53
Date Code
2.45
Inductance
12.6
P1
✽ None polar character
Recommended land patterns in mm (not to scale)
Dimensional tolerance unless noted : ±0.5
1.9
Recommend
Resist opening area
8.4
20.6
5
4.4
Recommend
copper pad area
10.35
10.35
✽ Due to bigger part, Thermal Capacity is large and may
occure PWB temperature differences during reflow
process.
Recommended land pattern (Heat absorb) should be
designed with reflow mountablity.
■ As for Soldering Conditions and Safety Precautions
(Common precautions for Power Choke Coils for Automotive application),
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.
01
– 13 –
Oct. 2014
Power Inductors
Packaging Methods (Tray)
● Blister
Tray (mm) 60 pcs.
B
G
A
F
D
E
C
● Blister
Tray Dimention
Part No.
A
B
C
D
E
F
G
ETQPDH240DTV
152
262
23
14.8
15.1
19
18
Component Placement (Tray)
Terminals
Standard Packing Quantity/Tray
Part No.
Quantity
ETQPDH240DTV
600 pcs. /10 tray (60 pcs. /1 tray)
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.
01
– 14 –
Oct. 2014
Power Inductors
Power Choke Coil
Series : PCC-M0630L (MC)
PCC-M0630M (MC)
ETQP3M1R5YFN
ETQP3LR33XFN
High power, Low loss, Compact size.
Rust proof structure
Industrial Property : patents 21 (Pending)
Features
● Downsize
circuit space due to small and low profile package size
DC bias performance and high reliability under high humidity
● Reduce number of components by high power and low loss
● Realize excellent performance by capability to high frequency range
● Low buzz noise
● RoHS compliant
● Excellent
Recommended Applications
● Servers, Routers, DC/DC converters for
● Laptop and desktop PC power supply
● Power supply modules
driving CPUs
Standard Packing Quantity (Minimum Quantity/Packing Unit)
● 2,000
pcs./box (2 reel)
Explanation of Part Numbers
● PCC-M0630L
series
1
2
3
4
5
6
E
T
Q
P
3
L
Classification Size
Product Code
● PCC-M0630M
7
Winding
8
9
Inductance
10
11
12
X
F
N
Core
Packaging
Suffix
10
11
12
Y
F
N
Core
Packaging
Suffix
series
1
2
3
4
5
6
E
T
Q
P
3
M
Classification Size
Product Code
7
Winding
8
9
Inductance
Standard Parts
Inductance
✽1
L0
DC resistance
L1
Part No.
Measurement
current
(A)
(μH)
Tolerance
(%)
(μH)
ETQP3LR33XFN
0.33
±20
0.28
17
ETQP3M1R5YFN
1.50
±20
1.36
5.6
Rated
current
✽2
(A)
Series
Center
(mΩ)
Tolerance
(%)
17
2.0
±10
PCC-M0630L
5.6
11.0
±10
PCC-M0630M
(✽1) Measured at 100 kHz.
(✽2) Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K.
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.
04
– 15 –
Oct. 2014
Power Inductors
Performance Characteristics (Reference)
● PCC-M0630M
(MC)
● Inductance
● Case
ETQP3LR33XFN
0.3
0.2
0.1
5
10
15
DC Bias (A)
20
Temperature
vs DC Current✽
ETQP3M1R5YFN
ETQP3M1R5YFN
2.0
Inductance (μH)
ΔT(K)
Inductance (μH)
0.4
80
70
60
50
40
30
20
10
0
● Case
vs DC Current
ETQP3LR33XFN
0.5
0.0
0
● Inductance
Temperature
vs DC Current
vs DC Current
(MC)
0
5
10 15 20
DC Bias (A)
25
1.6
1.2
ΔT(K)
● PCC-M0630L
0.8
0.4
0.0
0
5
10
15
DC Bias (A)
20
80
70
60
50
40
30
20
10
0
PWB condition A
PWB condition B
0
2
4
6
8
DC Bias (A)
10
PWB condition A : FR4, single layer PWB, t=1.6mm ✽our specification
PWB condition B : FR4, four layer PWB, t=1.6mm
✽ Our temperature rise is specified with measurement of single layer PWB(condition A). Please refer to temperature rise curve V.S. current for the rated current
(ΔT=15K) and Reference value (ΔT=40K). and when four layer PWB (condition B) is used, temperature rise is different from single layer PWB (conditionA).
Even we specify the rated current at our condition, the actual temperature rise of PCC may have different result due to thermal
dissipation condition. We recommend customers to measure PCC temperature rise at application to confirm it.
Dimensions in mm (not to scale)
PCC-M0630L (MC)
PCC-M0630M (MC)
(ETQP3LR33XFN)
(ETQP3M1R5YFN)
Inductance
6.5±0.4
1.8
Data Code Marking of Polarity
1.8
3.0±0.3
Recommended land patterns in mm (not to scale)
PCC-M0630L (MC)
PCC-M0630M (MC)
(ETQP3LR33XFN)
(ETQP3M1R5YFN)
7.5
7.1
3.6
P2
1.5
7.5
Connection
P2
1.5
0.05 min.
3.0 max.
3.0 max.
P1
7.0
0.01 min.
P2
3.6
P1
Data Code
6.0±0.4
3.0±0.3
6.5±0.3
Inductance
7.5±0.4
P1
3.3
2.8
9.5
8.8
Not to contact the PWB.
Not to contact the PWB.
■ As for Packaging Methods, Soldering Conditions and Safety Precautions
(Automotive application : PCC-M0630M, Consumer use : PCC-M0630L)
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.
04
– 16 –
Oct. 2014
Power Inductors
Power Choke Coil
Series : PCC-M0512W (MC)
High power, Low loss, Low-profile
Features
● Small
type (5.4×5.15×H1.2 mm)
power (2.2 A to 5.5 A)
● Low loss (RDC :19.2 to 168.0 mΩ)
● Suitable for high frequency circuit (up to 1 MHz)
● Low buzz noise due to its gap-less structure
● RoHS compliant
● High
Recommended Applications
● HDD, Tablet PC power supply modules
● Servers, Routers, DC/DC converters for
driving CPUs
Standard Packing Quantity (Minimum Quantity/Packing Unit)
● 6,000
pcs./box (2 reel)
Explanation of Part Numbers
1
2
3
4
5
6
E
T
Q
P
1
W
Product Code
Classification Size
7
Winding
8
9
Inductance
10
11
12
Core
Packaging
Suffix
Standard Parts
Inductance (at 20 °C)✽1
L0 at 0A
Part No.
L1 ✽4
Measurement
current
(A)
5.5
Rated current
(A) ✽2
Rated current
(ref)
(A) ✽3
5.5
6.7
19.2
DC resistance
(at 20 °C)
(mΩ) max.
(μH)
(μH)
ETQP1WR47WFP
0.47±20 %
(0.42)
ETQP1W1R0WFP
1.00±20 %
(0.87)
4.4
4.4
4.5
46.5
ETQP1W2R2WFP
2.20±20 %
(1.80)
3.4
3.4
3.5
77.3
ETQP1W3R3WFP
3.30±20 %
(2.70)
2.8
2.8
3.0
103.0
ETQP1W4R7WFP
4.70±20 %
(3.90)
2.2
2.2
2.3
168.0
(✽1)
(✽2)
(✽3)
(✽4)
(✽5)
Inductance is measured at 100 kHz.
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method A)
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method B)
Reference only
Method A (PANASONIC's standard measurement conditions),
Method B (high heat dissipation measurement) is different from Method A by the measurement methods.
In normal application condition, the part's temperature depends on circuit design and heat dissipation condition.
This condition shall be verified by the worst operational condition.
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.
05 May. 2015
– 17 –
Power Inductors
Performance Characteristics (Reference)
Case Temperature vs DC Current (Method A)
Inductance vs DC Current
ETQP1W2R2WFP
ETQP1W1R0WFP
ETQP1WR47WFP
ETQP1W4R7WFP
ETQP1W3R3WFP
(uH)
5.0
120
110
100
90
80
70
60
50
40
30
20
10
0
4.5
4.0
Temp. rise (K)
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0.0
ETQP1W2R2WFP
ETQP1W1R0WFP
ETQP1WR47WFP
ETQP1W4R7WFP
ETQP1W3R3WFP
0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
5
5.5
6
6.5
7
7.5
0
1
2
(A)
3
4
5
6
7
8
Idc (A)
Dimensions in mm (not to scale)
5.15±0.30
2.00±0.15
5.4±0.3
P2
P1
(1.05)
1.2 max.
Connection
Recommended land patterns in mm (not to scale)
2.5
P2
P1
2.2
6.0
■ As for Packaging Methods, Soldering Conditions and Safety Precautions
(Power Choke Coils for Consumer use),
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.
05 May. 2015
– 18 –
Power Inductors
Power Choke Coil
Series : PCC-M0630W (MC)
High power, Low loss, Low-profile
Features
● Small
type (7.3×6.6×H3.0 mm)
power (5.5 A to 20.0 A)
● Low loss (RDC : 3.3 to 35.0 mΩ)
● Suitable for high frequency circuit (up to 1 MHz)
● Low buzz noise due to its gap-less structure
● RoHS compliant
● High
Recommended Applications
● Notebook PC power supply modules
● Servers, Routers, DC/DC converters for
driving CPUs
Standard Packing Quantity (Minimum Quantity/Packing Unit)
● 2,000
pcs./box (2 reel)
Explanation of Part Numbers
1
2
3
4
5
6
E
T
Q
P
3
W
Product Code
Classification Size
7
Winding
8
Inductance
9
10
11
12
Core
Packaging
Suffix
Standard Parts
L0 at 0A
Part No.
(μH)
ETQP3WR33WFN
ETQP3WR47WFN
ETQP3WR68WFN
ETQP3WR82WFN
ETQP3W1R0WFN
ETQP3W1R5WFN
ETQP3W2R2WFN
ETQP3W3R3WFN
ETQP3W4R7WFN
(✽1)
(✽2)
(✽3)
(✽4)
(✽5)
0.33±20 %
0.47±20 %
0.68±20 %
0.82±20 %
1.0±20 %
1.5±20 %
2.2±20 %
3.3±20 %
4.7±20 %
Inductance (at 20 °C)✽1
L1 ✽4
Rated
current
Measurement
(A) ✽2
(μH)
current
(A)
(typ.)
(0.27)
(20.0)
13.7
(0.38)
(17.0)
11.6
(0.55)
(14.0)
9.6
(0.66)
(13.0)
8.9
(0.84)
(11.8)
8.1
(1.24)
(9.6)
6.6
(1.80)
(8.5)
5.8
(2.69)
(7.0)
4.8
(3.89)
(5.5)
3.8
Rated
current
(ref)
(A) ✽3
(typ.)
21
20
17
14
13
11
9
7.4
5.7
DC resistance
(at 20 °C)
(mΩ)
typ.
3.3
3.8
4.9
6.7
6.9
9.8
15.5
25.0
35.0
max.
3.9
4.2
5.5
8.0
7.9
13.0
17.8
28.8
40.3
Inductance is measured at 100 kHz.
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method A)
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method B)
Reference only
Method A (PANASONIC's standard measurement conditions),
Method B (high heat dissipation measurement) is different from Method A by the measurement methods.
In normal application condition, the part's temperature depends on circuit design and heat dissipation condition.
This condition shall be verified by the worst operational condition.
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.
05 May. 2014
– 19 –
Power Inductors
Performance Characteristics (Reference)
Case Temperature vs DC Current (Method A)
Inductance vs DC Current
ETQP3W4R7WFN
ETQP3W3R3WFN
ETQP3W2R2WFN
ETQP3W1R5WFN
(uH)
5.0
ETQP3W1R0WFN
ETQP3WR82WFN
ETQP3WR68WFN
ETQP3WR47WFN
ETQP3WR33WFN
100
90
4.0
80
3.5
70
Temp. rise (K)
4.5
3.0
2.5
2.0
60
50
40
1.5
30
1.0
20
0.5
10
0.0
ETQP3W1R0WFN
ETQP3WR82WFN
ETQP3WR68WFN
ETQP3WR47WFN
ETQP3WR33WFN
ETQP3W4R7WFN
ETQP3W3R3WFN
ETQP3W2R2WFN
ETQP3W1R5WFN
0
0
2
4
6
8
10
12
14
16
18
20
0
2
4
(A)
6
8
10
12
14
16
18
20
Idc (A)
Dimensions in mm (not to scale)
6.6±0.3
3.0±0.3
7.0±0.3
P2
P1
(1.22)
3.0 max.
Connection
Recommended land patterns in mm (not to scale)
3.5
P2
P1
3.7
7.4
■ As for Packaging Methods, Soldering Conditions and Safety Precautions
(Power Choke Coils for Consumer use),
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.
05 May. 2014
– 20 –
Power Inductors
Power Choke Coil
Series : PCC-M0730L (MC)
Small mounting size
for multi-phase DC/DC converter circuits
Features
● Small
type (8.7×7.0×H3.0 mm)
power (22 A)
● Low loss (RDC :1.12 mΩ)
● Tighter DCR tolerance (±7 %)
● Suitable for high frequency circuit (up to 1 MHz)
● Low buzz noise due to its gap-less structure
● RoHS compliant
● High
Recommended Applications
● Notebook PC power supply modules
● Servers, Routers, DC/DC converters for
driving CPUs
Standard Packing Quantity (Minimum Quantity/Packing Unit)
● 3,000
pcs./box (2 reel)
Explanation of Part Numbers
1
2
3
4
5
6
E
T
Q
P
3
L
Product Code
Classification Size
7
Winding
8
9
Inductance
10
11
12
Core
Packaging
Suffix
Standard Parts
✽1
Inductance (at 20 °C)
L0 at 0A
L1
Part No.
ETQP3LR24CFM
(✽1)
(✽2)
(✽3)
(✽4)
(✽5)
✽4
(μH)
(μH)
Measurement
current
(A)
0.24±20 %
(0.19)
22
Rated current
✽2
(A)
Rated current
(ref)
(A) ✽3
DC resistance
(at 20 °C)
(mΩ)
22
35
1.12±7 %
Inductance is measured at 1.0 MHz.
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method A)
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method B)
Reference only
Method A (PANASONIC's standard measurement conditions),
Method B (high heat dissipation measurement) is different from Method A by the measurement methods.
In normal application condition, the part's temperature depends on circuit design and heat dissipation condition.
This condition shall be verified by the worst operational condition.
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.
02 May. 2015
– 21 –
Power Inductors
Performance Characteristics (Reference)
Case Temperature vs DC Current (Method A)
Inductance vs DC Current
(uH)
0.45
ETQP3LR24CFM
90
0.35
80
Temp. rise (K)
0.40
0.30
0.25
0.20
0.15
70
60
50
40
30
0.10
20
0.05
10
0.00
ETQP3LR24CFM
100
0
0
5
10
15
20
25
30
0
5
10
15
(A)
20
25
30
Idc (A)
Dimensions in mm (not to scale)
8.7 max.
7.0±0.3
2.0±0.3
0.01 min.
P1
P2
2.0
3.0 max.
Connection
Recommended land patterns in mm (not to scale)
2.6
P2
P1
2.8
3.6
2.8
■ As for Packaging Methods, Soldering Conditions and Safety Precautions
(Power Choke Coils for Consumer use),
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.
02 May. 2015
– 22 –
Power Inductors
Power Choke Coil
Series : PCC-M0740L (MC)
Low DCR Type
Small mounting size
for multi-phase DC/DC converter circuits
Features
● Small
type (8.7×7.0×H4.0 mm)
power (17 A to 24 A)
● Low loss (RDC :1.0 to 1.5 mΩ)
● Tighter DCR tolerance (±7 %)
● Suitable for high frequency circuit (up to 1 MHz)
● Low buzz noise due to its gap-less structure
● RoHS compliant
● High
Recommended Applications
● Notebook PC power supply modules
● Servers, Routers, DC/DC converters for
driving CPUs
Standard Packing Quantity (Minimum Quantity/Packing Unit)
● 3,000
pcs./box (2 reel)
Explanation of Part Numbers
1
2
3
4
5
6
E
T
Q
P
4
L
Product Code
Classification Size
7
Winding
8
9
Inductance
10
11
12
Core
Packaging
Suffix
Standard Parts
✽1
Inductance (at 20 °C)
L0 at 0A
L1
Part No.
(✽1)
(✽2)
(✽3)
(✽4)
(✽5)
✽4
Rated current
✽2
(A)
Rated current
(ref)
✽3
(A)
DC resistance
(at 20 °C)
(mΩ)
(μH)
(μH)
ETQP4LR24AFM
0.24±20 %
(0.20)
Measurement
current
(A)
24
24
35.5
1.00±7 %
ETQP4LR36AFM
0.36±20 %
(0.30)
20
20
31.0
1.35±7 %
ETQP4LR42AFM
0.42±20 %
(0.35)
17
17
28.5
1.50±7 %
Inductance is measured at 1.0 MHz.
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method A)
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method B)
Reference only
Method A (PANASONIC's standard measurement conditions),
Method B (high heat dissipation measurement) is different from Method A by the measurement methods.
In normal application condition, the part's temperature depends on circuit design and heat dissipation condition.
This condition shall be verified by the worst operational condition.
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.
04 May. 2015
– 23 –
Power Inductors
Performance Characteristics (Reference)
Case Temperature vs DC Current (Method A)
Inductance vs DC Current
ETQP4LR42AFM
ETQP4LR36AFM
ETQP4LR24AFM
(uH)
0.45
100
90
0.35
80
Temp. rise (K)
0.40
0.30
0.25
0.20
0.15
70
60
50
40
30
0.10
20
0.05
10
0.00
ETQP4LR42AFM
ETQP4LR36AFM
ETQP4LR24AFM
0
0
5
10
15
20
25
30
0
5
10
15
(A)
20
25
30
Idc (A)
Dimensions in mm (not to scale)
0.01 min.
A
7.0±0.3
8.7 max.
Part No.
A
ETQP4LR24AFM
3.0±0.3
ETQP4LR36AFM
P1
P2
2.0±0.3
2.0
4.0 max.
Connection
ETQP4LR42AFM
Recommended land patterns in mm (not to scale)
B
P2
Part No.
B
ETQP4LR24AFM
3.6
ETQP4LR36AFM
P1
2.8
3.6
2.8
ETQP4LR42AFM
2.6
■ As for Packaging Methods, Soldering Conditions and Safety Precautions
(Power Choke Coils for Consumer use),
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.
04 May. 2015
– 24 –
Power Inductors
Power Choke Coil
Series : PCC-M1040L (MC)
Small mounting size
for multi-phase DC/DC converter circuits
Features
● Small
type (11.5×10.0×H4.0 mm)
power (21 A to 28 A)
● Low loss (RDC :0.7 to 1.56 mΩ)
● Tighter DCR tolerance (±5 % to ±10 %)
● Suitable for high frequency circuit (up to 1 MHz)
● Low buzz noise due to its gap-less structure
● RoHS compliant
● High
Recommended Applications
● Servers, Routers, DC/DC converters for
● Notebook PC power supply modules
driving CPUs
Standard Packing Quantity (Minimum Quantity/Packing Unit)
● 2,000
● 1,000
pcs./box (2 reel) : ETQP4LR36WFC, ETQP4LR56WFC, ETQP4LR45XFC
pcs./box (2 reel) : ETQP4LR19WFC
Explanation of Part Numbers
1
2
3
4
5
6
E
T
Q
P
4
L
Product Code
Classification Size
7
Winding
8
9
Inductance
10
11
12
Core
Packaging
Suffix
Standard Parts
Inductance (at 20 °C)✽1
Part No.
L0 at 0A
L2 (Reference)✽4
L1
Rated
current
(A)✽2
Rated
current
(ref)
(A)✽3
DC resistance
(at 20 °C)
(mΩ)
(µH)
(µH)
Measurement
current
(A)
(µH)
Measurement
current
(A)
ETQP4LR19WFC
(0.20)
0.19±20 %
21
(0.17)
30
28
38
0.70±10 %
ETQP4LR36WFC
(0.37)
0.36±20 %
17
(0.34)
24
24
33
1.10± 5 %
ETQP4LR56WFC
(0.60)
0.56±20 %
15
(0.53)
21
21
28
1.56± 5 %
ETQP4LR45XFC
0.45+20%
–25%
—
—
(0.38)
25
25
33
1.10± 5 %
(✽1)
(✽2)
(✽3)
(✽4)
(✽5)
Inductance is measured at 100 kHz.
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method A)
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method B)
Reference only
Method A (PANASONIC's standard measurement conditions),
Method B (high heat dissipation measurement) is different from Method A by the measurement methods.
In normal application condition, the part's temperature depends on circuit design and heat dissipation condition.
This condition shall be verified by the worst operational condition.
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.
05 May. 2015
– 25 –
Power Inductors
Performance Characteristics (Reference)
Case Temperature vs DC Current (Method A)
Inductance vs DC Current
ETQP4LR56WFC
ETQP4LR36WFC
ETQP4LR19WFC
ETQP4LR45XFC
(uH)
0.8
ETQP4LR56WFC
ETQP4LR36WFC / ETQP4LR45XFC
ETQP4LR19WFC
100
90
0.7
80
Temp. rise (K)
0.6
0.5
0.4
0.3
60
50
40
30
0.2
20
0.1
0.0
70
10
0
0
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
0
5
10
15
(A)
20
25
30
Idc (A)
Dimensions in mm (not to scale)
11.5 max.
10.0±0.3
4.0±0.2
0.01 min.
P1
P2
2.5
4.0 max.
Connection
Recommended land patterns in mm (not to scale)
4.6
P2
P1
3.8
6.0
3.8
■ As for Packaging Methods, Soldering Conditions and Safety Precautions
(Power Choke Coils for Consumer use),
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.
06 May. 2015
– 26 –
Power Inductors
Power Choke Coil
Series : PCC-M1040L (MC)
Low DCR Type
Small mounting size
for multi-phase DC/DC converter circuits
Features
● Small
type (11.7×10.0×H4.0 mm)
power (21 A to 30 A)
● Low loss (RDC :0.76 to 1.58 mΩ)
● Tighter DCR tolerance (±5 %)
● Suitable for high frequency circuit (up to 1 MHz)
● Low buzz noise due to its gap-less structure
● RoHS compliant
● High
Recommended Applications
● Notebook PC power supply modules
● Servers, Routers, DC/DC converters for
driving CPUs
Standard Packing Quantity (Minimum Quantity/Packing Unit)
● 2,000
pcs./box (2 reel)
Explanation of Part Numbers
1
2
3
4
5
6
E
T
Q
P
4
L
Product Code
Classification Size
7
Winding
8
9
Inductance
10
11
12
Core
Packaging
Suffix
Standard Parts
✽1
Inductance (at 20 °C)
L0 at 0A
L1
Part No.
(✽1)
(✽2)
(✽3)
(✽4)
(✽5)
✽4
(μH)
(μH)
ETQP4LR36AFC
0.36±20 %
(0.29)
Measurement
current
(A)
30
ETQP4LR68XFC
0.68±20 %
(0.59)
21
Rated current
✽2
(A)
Rated current
(ref)
✽3
(A)
DC resistance
(at 20 °C)
(mΩ)
30
40
0.76±5 %
21
28
1.58±5 %
Inductance is measured at 1.0 MHz.
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method A)
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method B)
Reference only
Method A (PANASONIC's standard measurement conditions),
Method B (high heat dissipation measurement) is different from Method A by the measurement methods.
In normal application condition, the part's temperature depends on circuit design and heat dissipation condition.
This condition shall be verified by the worst operational condition.
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.
04 May. 2015
– 27 –
Power Inductors
Performance Characteristics (Reference)
Case Temperature vs DC Current (Method A)
Inductance vs DC Current
ETQP4LR36AFC
ETQP4LR68XFC
(uH)
0.8
100
90
0.7
80
Temp. rise (K)
0.6
0.5
0.4
0.3
70
60
50
40
30
0.2
20
0.1
0.0
ETQP4LR36AFC
ETQP4LR68XFC
10
0
0
5
10
15
20
25
30
35
30
0
5
10
(A)
15
20
25
30
35
40
Idc (A)
Dimensions in mm (not to scale)
11.7 max.
10.0±0.3
4.0±0.3
0.01 min.
P1
P2
2.5
4.0 max.
Connection
Recommended land patterns in mm (not to scale)
4.6
P2
P1
3.8
6.0
3.8
■ As for Packaging Methods, Soldering Conditions and Safety Precautions
(Power Choke Coils for Consumer use),
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.
04 May. 2015
– 28 –
Power Inductors
Power Choke Coil
Series : PCC-M1040W (MC)
High power, Low loss, Low-profile
Industrial Property : patents 10 (Registered 8 / Pending 2)
Features
● Small
type (11.0×10.0×H4.0 mm)
power (13 A)
● Low loss (RDC : 4.0 mΩ)
● Suitable for high frequency circuit (up to 1 MHz)
● Low buzz noise due to its gap-less structure
● RoHS compliant
● High
Recommended Applications
● Notebook PC power supply modules
● Servers, Routers, DC/DC converters for
driving CPUs
Standard Packing Quantity (Minimum Quantity/Packing Unit)
● 1,000
pcs./box (2 reel)
Explanation of Part Numbers
1
2
3
4
5
6
E
T
Q
P
4
W
Product Code
Classification Size
7
Winding
8
9
Inductance
10
11
12
Core
Packaging
Suffix
Standard Parts
Inductance (at 20 °C)✽1
L1✽3
L0 at 0A
Part No.
ETQP4W1R5WFC
(✽1)
(✽2)
(✽3)
(✽4)
(μH)
(μH)
1.5±20 %
(1.27)
Measurement
current
(A)
13
Rated
current
(A) ✽2
DC resistance
(at 20 °C)
(mΩ) max.
13
4.0±15 %
Inductance is measured at 100 kHz.
Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K. (Method A)
Reference only
Method A (PANASONIC's standard measurement conditions)
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.
01
– 29 –
Oct. 2014
Power Inductors
Performance Characteristics (Reference)
Case Temperature vs DC Current (Method A)
Inductance vs DC Current
(uH)
2.5
ETQP4W1R5WFC
ETQP4W1R5WFC
100
90
2.0
Temp. rise (K)
80
1.5
1.0
70
60
50
40
30
20
0.5
10
0.0
0
0
2
4
6
8
10
12
14
16
18
20
0
2
4
(A)
6
8
10
12
14
16
18
20
Idc (A)
Dimensions in mm (not to scale)
3.0
10.0±0.3
11.0 max.
P1
P2
(2.0)
4.0 max.
Connection
Recommended land patterns in mm (not to scale)
3.6
P2
P1
5.7
11.7
■ As for Packaging Methods, Soldering Conditions and Safety Precautions
(Power Choke Coils for Consumer use),
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.
01
– 30 –
Oct. 2014
Power Inductors
Power Choke Coil
Series : PCC-M1250L (MC)
High power, Low loss, Low-profile
Features
● High
power (25 A to 30 A)
loss (RDC :0.8 to 1.1 mΩ)
● Narrow RDC tolerance (±5 % to ±7 %)
● Low profile (14.5×12.5×H5.0 mm)
● High frequency (up to 1 MHz)
● Low buzz noise due to its gap-less structure
● RoHS compliant
● Low
Recommended Applications
● Servers, Routers, DC/DC converters for
● Notebook PC power supply modules
driving CPUs
Standard Packing Quantity (Minimum Quantity/Packing Unit)
● 1,000
pcs./box (2 reel)
Explanation of Part Numbers
1
2
3
4
5
6
E
T
Q
P
5
L
Product Code
Classification Size
7
Winding
8
9
Inductance
10
11
12
Core
Packaging
Suffix
Standard Parts
✽1
Inductance (at 20 °C)
L1
Part No.
L2 (Reference)
Rated
current
✽2
(A)
DC resistance
(at 20 °C)
(mΩ)
(µH)
Measurement
current
(A)
(µH)
Measurement
current
(A)
ETQP5LR50XFA
0.50±20 %
30
(0.46)
42
30
0.80±7 %
ETQP5LR60XFA
0.60±20 %
30
(0.54)
42
27
1.10±5 %
(✽1) Inductance is measured at 100 kHz.
(✽2) Rated current defines actual value of DC current, when temperature rise of coil becomes 40 K.
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.
03
– 31 –
Oct. 2014
Power Inductors
Performance Characteristics (Reference)
Case Temperature vs DC Current
Inductance vs DC Current
ETQP5LR50XFA
ETQP5LR60XFA
ETQP5LR60XFA
(uH)
1.0
ETQP5LR50XFA
100
90
0.8
80
Temp. rise (K)
0.9
70
0.7
60
0.6
50
0.5
40
0.4
0.3
30
0.2
20
0.1
10
0.0
0
0
5
10
15
20
IDC (A)
25
30
35
40
0
5
10
15
20
25
IDC (A)
30
35
40
45
Dimensions in mm (not to scale)
0.01 min.
12.5±0.3
4.0±0.2
14.5 max.
P2
P1
5.0 max.
Connection
(2.5)
Recommended land patterns in mm (not to scale)
4.6
P2
P1
3.8
8.7
3.8
■ As for Packaging Methods, Soldering Conditions and Safety Precautions
(Power Choke Coils for Consumer use),
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.
03
– 32 –
Oct. 2014
Power Inductors
Packaging Methods (Taping)
Carrier Tape Dimensions in mm (not to scale)
P2
0
fD
P0
t1
E
● Embossed
B
F
W
A
t2
Tape running direction
P1
Power Choke Coils for Automotive application
Series
PCC-M0530M
PCC-M0540M
PCC-M0630M
PCC-M0645M
PCC-M0754M
PCC-M0854M/M0850M
PCC-M1054M/M1050M
PCC-M1050ML/M1060ML
A
B
5.6
6.1
7.1
6.6
8.1
9.1
7.6
8.6
10.7
11.9
W
E
16.0
F
P1
7.5
12.0
1.75
24.0
11.5
16.0
F
5.5
P1
8.0
7.5
12.0
P2
P0
fD0
2.0
4.0
1.5
t1
t2
3.3
4.3
3.3
5.0
0.4
6.0
0.5
6.3
t1
t2
1.4
3.2
3.3
4.2
Power Choke Coils for consumer use
Series
PCC-M0512W
PCC-M0630L
PCC-M0630W
PCC-M0730L
PCC-M0740L
PCC-M1040W
PCC-M1040L
PCC-M1250L
PCC-D124H
PCC-D125H
PCC-D126H
PCC-D126F
PCC-F126F
● Taping
A
5.6
7.1
7.2
7.6
7.6
10.6
10.6
13.1
B
5.85
8.0
7.5
8.9
8.9
11.0
11.8
14.8
13.5
13.5
W
12.0
E
16.0
P2
P0
fD0
4.3
1.75
24.0
2.0
11.5
4.0
1.5
0.4
5.2
5.3
16.0
5.2
6.2
13.0
13.0
6.0
Reel Dimensions in mm (not to scale)
B
E
C
D
W
A
Power Choke Coils for Automotive application
Series
PCC-M0530M/M0540M
PCC-M0630M/M0645M
PCC-M0754M
PCC-M0854M/M0850M
PCC-M1054M/M1050M
PCC-M1050ML/M1060ML
A
B
C
D
E
330
100
13
21
2
W
17.5
25.5
Power Choke Coils for consumer use
Series
PCC-M0512W
PCC-M0630L/M0630W
PCC-M1040W
PCC-M0730L/M0740L
PCC-M1040L
PCC-M1250L/D124H/D125H/
D126H/D126F/F126F
A
B
(80)
C
D
E
13
21
2
330
80
380
W
13.5
17.5
25.5
17.5
25.4
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.
06
– 33 –
Jan. 2015
Power Inductors
Component Placement (Taping)
● Power
● Power
Choke Coils for Automotive application
Series M0630M/M0645M
M0754M
M0854M/M0850M
Choke Coils for consumer use
Series Ｍ0512W/M0630W/M1040W
Terminal
Series M0630L/M0730L/M0740L/M1040L/
M1250L/D126F/F126F
Terminal
Series M0530M/M0540M
M1054M/M1050M
M1050ML/M1060ML
Series D124H/D125H/D126H
Standard Packing Quantity/Reel
● Power
Choke Coils for Automotive application
Series
PCC-M0530M/M0540M
PCC-M0630M
PCC-M0645M
PCC-M0754M
PCC-M0854M/M0850M
PCC-M1054M/M1050M
PCC-M1050ML/M1060ML
● Power
Minimum Quantity / Packing Unit
Quantity per reel
2,000 pcs. / box (2 reel)
1,000 pcs.
1,000 pcs. / box (2 reel)
500 pcs.
Choke Coils for consumer use
Series
PCC-M0512W
PCC-M0730L
PCC-M0740L
PCC-M0630L
PCC-M0630W
PCC-M1040L
PCC-M1040L
(ETQP4LR19WFC)
PCC-M1040W
PCC-M1250L
PCC-D124H
PCC-D125H
PCC-D126H
PCC-D126F
PCC-F126F
Minimum Quantity / Packing Unit
6,000 pcs. / box (2 reel)
Quantity per reel
3,000 pcs.
3,000 pcs. / box (2 reel)
1,500 pcs.
2,000 pcs. / box (2 reel)
1,000 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.
06
– 34 –
Jan. 2015
Power Inductors
Soldering Conditions
Temperature (°C)
Reflow soldering conditions
T3
T2
T1
t2
t1
0
Time
● Pb
free solder recommended temperature profile
Power Choke Coils for Automotive application
Series
PCC-D1413H
PCC-M0530M/M0540M
PCC-M0630M/M0645M
PCC-M0754M
PCC-M0854M/M0850M
PCC-M1054M/M1050M
PCC-M1050ML/M1060ML
Preheat
Soldering
T1 [°C]
t1 [s]
T2 [°C]
t2 [s]
150 to 170
60 to 120
230 °C
30 to 40
Peak Temperature
T3
T3 Limit
Time of
Reflow
250 °C, 5 s 260 °C, 10 s 2 times max.
Power Choke Coils for consumer use
Series
PCC-M0512W
PCC-M0630L
PCC-M0630W
PCC-M0730L
PCC-M0740L
PCC-M1040L
PCC-M1040W
PCC-M1250L
PCC-D124H
PCC-D125H
PCC-D126H
PCC-D126F
PCC-F126F
Preheat
Soldering
T1 [°C]
t1 [s]
T2 [°C]
t2 [s]
150 to 170
60 to 120
230 °C
30 to 40
Peak Temperature
T3
T3 Limit
Time of
Reflow
250 °C, 5 s 260 °C, 10 s 2 times 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.
06
– 35 –
Jan. 2015
Power Inductors
Safety Precautions
(Common precautions for Power Choke Coils for Automotive application : 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, shortcircuit 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
the 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. Printed circuit board design
1 Land 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)
2 To the opposing part in this power choke coil bottom please install neither pattern nor the beer, etc. (Series MC)
The opposing part in
the choke coil bottom
3.6
8
8.4
2.8
10
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.
01
– 36 –
Oct. 2014
Power Inductors
3 Parts 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
4 This 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.
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)
1 Circuit 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.
2 Treatment 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. 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.
12. 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.
<Package markings>
Package markings include the product number, quantity, and country of origin.
In principle, the country of origin should be indicated in English.
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.
01
– 37 –
Oct. 2014
Power Inductors
Safety Precautions
(Common precautions for Power Choke Coils for consumer use)
• 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. Detergent
Please consult our company when using detergent for the power choke coil as reliability confirmation etc., is
necessary.
7. Storage temperature
-5 °C to +35 °C
8. Operating temperature
Minimum temperature : -40 °C (Ambient temperature of the power choke coil)
Maximum temperature : 130 °C (Ambient temperature of the power choke coil plus the temperature rise)
100 °C (Only series : PCC-F126F(N6))
9. Model
When this power choke coil is used in a similar or new product to the original one, it might be unable to satisfy
the specifications due to difference of condition of usage.
Please ask us if you use this power choke coil in the manner such as above.
10. 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.
<Package markings>
Package markings include the product number, quantity, and country of origin.
In principle, the country of origin should be indicated in English.
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.
02
– 38 –
Oct. 2014
Power Inductors
Power Inductors (Multilayer type, Wire Wound type) · Selection Guide
No.
Dimensions (mm)
External
Height
dimension (typ.) (max.)
Type
1 2.0 × 1.25
1.0
ELGTEA
2.0 × 1.6
1.0
ELGUEB
3
1.0
ELLVEG
4
1.2
ELLVFG-C
5
1.5
ELLVGG
6
1.5
ELLVGG-C
7
1.2
ELL4FG-A
1.4
ELL4GG
1.8
ELL4LG-A
1.6
ELL6GG
11
2.0
ELL6PG
12
2.8
ELL6RH
3.3
ELL6SH
5.0
ELL6UH
2
Appearance
Magnetic
shielded structure
Inductance [L] (µH)
1.0
0.47
µH
10
100
1000
10000
0.8 to 1.2
4.7 µH
0.24µH
0.7 to 3.7
2.2 µH
0.68
µH
Rated Current
I dc (A)
22 µH
0.33 to 1.80
33 µH
0.28 to 1.50
3.0
8
3.8
9
10
0.27 to 1.80
47 µH
0.18 to 1.40
100 µH
0.29 to 1.90
47 µH
1.2 µH
0.25 to 1.90
100 µH
150 µH
0.22 to 1.90
100 µH
0.30 to 2.50
100 µH
0.38 to 2.80
6.0
13
6.0 × 6.4
14
15
8.0
5.0
ELL8TP
16
10.0
4.5
ELLATP
17
12.0
4.5
ELLCTP
0.8 µH
220 µH
680 µH
10 µH
0.8 µH
1.2 µH
0.20 to 3.00
0.16 to 3.40
1000 µH
0.18 to 1.80
1000 µH
0.25 to 9.00
1000 µH
0.31 to 8.00
1000 µH
0.40 to 7.00
✽ Please see the pages of each product for details of the electrical characteristics.
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.
05
– 39 –
Oct. 2014
Power Inductors
Multilayer Power Inductors
Type:
ELGUEB
Features
● Realized
the high current by the original laminating process technology
shielded structure
● Small and thin structure (2.0×1.6×1.0mm max.)
● RoHS compliant
● Magnetic
Recommended Applications
● DC/DC
converter circuit use of the small portable device
Smart phone, mobile phone, DSC .
Standard Packing Quantity
● 4000
pcs./Reel
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
11
E
L
G
U
E
B
R
4
7
M
A
12
Suffix
T dimension
Construction
Nominal
Size
Product Code
Inductance Design Code
Inductance
Tolerance EX.
Height
Code High
ELG Multilayer Inductor Code mm (inch) Code
A High-Isat
Current Type EX.
Code
E 1.0 mm max.
B
U 2016 (0806)
±20 %
R47→0.47 µH
R Low-Rdc
M
2R2→2.2 µH
0.5±0.2
Recommended Land Pattern in mm (not to scale)
1.2 to 1.4
Dimensions in mm (not to scale)
0.8±0.2
0.8 to 1.2
2.0±0.2
1.6±0.2
2.4 to 3.0
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.
00
– 40 –
Jul. 2014
Power Inductors
Ratings and Characteristics
Inductance
at 1 MHz
Part Number
●
Rated Current (A)
DC Resistance
at 20 °C
dL/L=–30% ✽1
max. (typ.)
dt/t=40 ˚C ✽2
max. (typ.)
ELGUEBR24MA
(µH)
0.24
Tol.
±20 %
(mΩ) max. (typ.)
29 (22)
3.7 (4.2)
3.7 (4.2)
ELGUEBR47MA
0.47
±20 %
52 (40)
3.2 (3.5)
3.2 (3.5)
ELGUEBR68MA
0.68
±20 %
75 (60)
2.4 (2.9)
2.9 (3.3)
ELGUEB1R0MA
1.0
±20 %
85 (70)
1.6 (1.9)
1.7 (1.9)
ELGUEB2R2MR
2.2
±20 %
108 (90)
0.7 (0.8)
1.6 (1.8)
Operating Temperature Range : –40 to 125 °C (Including self-temperature rise)
✽1 This indicate the value of current when inductance change dL/L=-30 % from initial value.
✽2 This indicates the value of current when temperature rise dt/t=40 °C (at 20 °C).
DC current bias characteristics
2.5
0.8
0.68 µH
2.2 µH
0.7
2.0
0.5
Inductance (µH)
Inductance (µH)
0.6
0.47 µH
0.4
0.3
0.24 µH
0.2
1.5
1.0 µH
1.0
0.5
0.1
0
0.0
0.5
1.0
1.5
2.0
2.5
3.0
DC Current (A)
3.4
4.0
0
0.0
4.5
0.2
0.4
0.6
0.8 1.0 1.2 1.4
DC Current (A)
1.6
1.8
2.0
2.2
Packaging Methods (Taping)
● Punched
Feeding hole
fD0
Reel
W1
Chip pocket
E
C
E
t1
● Taping
Carrier Taping (Pitch 4mm)
B
F
W
B
A
t2
D
P1
Chip component
P2
P0
Tape running direction
W2
A
(Unit : mm)
Symbol
Dim
(mm)
A
B
W
F
E
P1
P2
P0 0D0
t1
(Unit : mm)
t2
2.0 2.4 8.0 3.50 1.75 4.0 2.00 4.0 1.5 1.1 1.4
±0.2 ±0.2 ±0.2 ±0.05 ±0.10 ±0.1 ±0.05 ±0.1 +0.1
max. max.
0
Symbol
0A
Dim
(mm)
180–30
0B
C
D
E
W1
W2
60.0±0.5 13.0±0.5 21.0±0.8 2.0±0.5 9.0+1.0
11.4±1.0
0
● Leader
Part and Taped End
Leader part
Tape end
Cover tape
100 min.
Vacant position
400 min.
160 min.
Vacant position
(Unit : mm)
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.
00
– 41 –
Jul. 2014
Power Inductors
Multilayer Power Inductors
Type:
ELGTEA
Features
● Superior
DC current bias characteristics by the original laminating process technology
shielded structure
● Small and thin structure (2.0×1.25×1.0mm max.)
● RoHS compliant
● Magnetic
Recommended Applications
● DC/DC
converter circuit use of the small portable device
Smart phone, mobile phone, DSC .
Standard Packing Quantity
● 4000
pcs./Reel
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
11
E
L
G
T
E
A
1
R
0
N
A
12
Design Code
Size
Product Code
ELG Multilayer Inductor Code mm (inch)
2012 (0805)
T
T dimension
Construction
Height
Code
Code
Multilayer
E 1.0 mm max.
A Power Inductor
0.45±0.20
Recommended Land Pattern in mm (not to scale)
1.1 to 1.3
Dimensions in mm (not to scale)
Nominal
Inductance
Inductance
Tolerance
Code
EX.
±30 %
R47→0.47 μH
N
2R2→2.2 μH
0.80±0.20
0.8 to 1.2
2.00±0.20
1.25±0.20
2.4 to 3.0
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.
02
– 42 –
Jul. 2014
Power Inductors
Ratings and Characteristics
Inductance
at 1 MHz
Part Number
●
DC Resistance
at 20 °C
(Ω) max.
Rated Current✽1
(A)
Self-resonant
Frequency✽2
(MHz)
ELGTEAR47NA
(μH)
0.47
Tol.
±30 %
0.10
1.2
126
ELGTEA1R0NA
1.0
±30 %
0.15
1.0
80
ELGTEA1R5NA
1.5
±30 %
0.18
1.0
80
ELGTEA2R2NA
2.2
±30 %
0.20
0.8
55
ELGTEA3R3NA
3.3
±30 %
0.25
0.8
50
ELGTEA4R7NA
4.7
±30 %
0.30
0.8
33
Operating Temperature Range : –40 to 125 °C (Including self-temperature rise)
✽1 This indicates the value of current when temperature rise dt/t=40 °C (at 20 °C).
✽2 Reference data
Inductance frequency characteristics
DC current bias characteristics
6.0
10
9
5.0
7
Inductance (μH)
Inductance (μH)
8
6
5
4.7 μH
4
3.3 μH
3
4.7 μH
4.0
3.3 μH
3.0
2.2 μH
2.0
2.2 μH
2
1.5 μH
1.0
1.5 μH
1
1.0 μH
1.0 μH
0
0.01
0.47 μH
0.1
1
Frequency (MHz)
10
0.0
0.0
100
0.47 μH
0.5
1.0
DC Current (A)
1.5
2.0
Packaging Methods (Taping)
● Punched
Feeding hole
fD0
Reel
W1
Chip pocket
E
C
E
t1
● Taping
Carrier Taping (Pitch 4mm)
B
F
W
B
A
t2
D
P1
Chip component
P2
P0
Tape running direction
W2
A
(Unit : mm)
Symbol
Dim
(mm)
A
B
W
F
E
P1
P2
P0 0D0
t1
(Unit : mm)
Symbol
t2
1.65 2.4 8.0 3.50 1.75 4.0 2.00 4.0 1.5 1.2 1.4
Dim
(mm)
±0.20 ±0.2 ±0.2 ±0.05 ±0.10 ±0.1 ±0.05 ±0.1 +0.1
max. max.
0
0A
0
–3
180
0B
C
D
E
W1
W2
60.0+1.0
13.0±0.5 21.0±0.8 2.0±0.5 9.0+1.0
11.4±1.0
0
0
● Leader
Part and Taped End
Leader part
Tape end
Cover tape
100 min.
Vacant position
400 min.
160 min.
Vacant position
(Unit : mm)
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.
02
– 43 –
Jul. 2014
Power Inductors
Multilayer Power Inductors
Type:
ELGTEA, ELGUEB
Handling Precautions
Safety Precautions
Multilayer Power Inductors (hereafter refereed to as “Inductors”) should be used for general purpose
applications in consumer electronics (audio/visual, home, office, information & communication) equipment. When
subjected to severe electrical, environmental, and/or mechanical stress beyond the specifications, as noted in the Ratings
and Specified Conditions section, the Inductors may fail in a short circuit mode or in an open-circuit mode. This case
results in a burn-out, smoke or flaming.
For products which require high safety levels, please carefully consider how a single malfunction can affect your product.
In order to ensure the safety in the case of a single malfunction, please design products with fail-safe, such as setting up
protecting circuits, etc.
• For the following applications and conditions, please contact us for additional specifications not found in this document.
· When your application may have difficulty complying with the safety or handling precautions specified below.
· For any applications where a malfunction with this product may directly or indirectly cause hazardous conditions
which could result in death or injury;
1 Aircraft and Aerospace Equipment (artificial satellite, rocket, etc.)
2 Submarine Equipment (submarine repeating equipment, etc.)
3 Transport Equipment (motor vehicles, airplanes, trains, ship, traffic signal controllers, etc.)
4 Power Generation Control Equipment (atomic power, hydroelectric power, thermal power plant control system, etc.)
5 Medical Equipment (life-support equipment, pacemakers, dialysis controllers, etc.)
6 Information Processing Equipment (large scale computer system, etc.)
7 Electric Heating Appliances, Combustion devices (gas fan heaters, oil fan heaters, etc.)
8 Rotary Motion Equipment
9 Security Systems
J And any similar types of equipment
Strict Observance
1. Confirmation of Rated Performance
The Inductors shall be operated within the specified rating/performance.
Application exceeding the specifications may cause deteriorated performance and/or breakdown, resulting in
degradation and/or smoking or ignition of products. The following are strictly observed.
(1) The Inductors should be use within the specified operating temperature range including self-fever.
(2) The electricity electric current of the inductor should be use in less than rated current.
2. The Inductors shall not be mounted near inflammables.
3. The inductors shall not be bring a magnet and the thing which became magnetized close.
■ Operating Conditions and Circuit Design
1. Circuit Design
1.1 Operating Temperature and Storage Temperature
short and/or damage due to thermal run away.
When high frequency and steep pulse current are
continuously used, even when less than the “Rated
current”, in a circuit, please examine the reliability
of the Inductor while also checking the safety and
reliability of your circuit. Check safety and reliability
in your circuit.
The specified “Operating Temperature Range”
found in the Specification is the absolute
maximum and minimum temperature rating. Every
Inductor shall be operated within the specified
“Operating Temperature Range”.
The Inductors mounted on PWB shall be stored
without operating within the specified “Storage
Temperature Range” in the Specifications.
1.3 Self-heating
The surface temperature of the Inductors shall
be under the specified Maximum Operating
Temperature in the Specifications including the
temperature rise cause by self-heating. Check
temperature rise of the Inductor in your circuit.
1.2 Operating Current
The Inductors shall not be operated in excess of
the “Rated current”. If the Inductors are operated
beyond the specified “Rated current”, it may cause
02
– 44 –
Jul. 2014
Power Inductors
1.4 Environmental Restrictions
2.3 Utilization of Solder Resist
The Inductors shall not be operated and/or stored
under the following conditions.
(1) Environmental conditions
(a) Under direct exposure to water or salt water
(b) U n d e r c o n d i t i o n s w h e r e w a t e r c a n
condense and/or dew can form
(c) Under conditions containing corrosive
gases such as hydrogen sulfide, sulfurous
acid, chlorine and ammonia
(2) Mechanical conditions
Under severe conditions of vibration or impact
beyond the specified conditions found in the
Specifications.
(1) Solder resist shall be utilized to equalize the
amounts of solder on both sides.
(2) Solder resist shall be used to divide the pattern
for the following cases;
· Components are arranged closely.
· The Inductor is mounted near a component
with lead wires.
· The Inductor is placed near a chassis.
See the table below.
Prohibited Applications and Recommended Applications
Item
2. Design of Printed Circuit Board
Prohibited
applications
Improved applications
by pattern division
The lead wire of a
2.1 Selection of Printed Circuit Boards
Mixed mounting component with lead wires
with a component
with lead wires
When the Inductors are mounted and soldered on
an “Alumina Substrate”, the substrate influences
the Inductors’ reliability against “Temperature
Cycles” and “Heat shock” due to the difference in
the thermal expansion coefficient between them.
Confirm that the actual board used does not
deteriorate the characteristics of the Inductors.
Arrangement near
chassis
Chassis
Solder
(Ground solder)
2.2 Design of Land Pattern
Solder resist
Solder resist
Electrode pattern
(1) Recommended land dimensions are shown
below. Use the proper amount of solder
in order to prevent cracking. Using too
much solder places excessive stress on the
Inductors.
Retro-fitting of
component with
lead wires
Recommended Land Dimensions
SMD
Lateral
arrangement
Portion to be
excessively soldered
Land
Solder resist
Solder resist
c
Land
A lead wire of
Retro-fitted
Soldering component
iron
b
a
2.4 Component Layout
Solder resist
The Inductors/components shall be placed on
the PC board such that both electrodes are
subjected to uniform stresses, or to position the
component electrodes at right angles to the grid
glove or bending line. This should be done to
avoid cracking the Inductors from bending the PC
board after or during placing/mounting on the PC
board.
Unit (mm)
Size
Code
(inch)
Component dimensions
a
b
c
L
W
T
T(0805)
2.0
1.25
1.0 max.
0.8 to 1.2 0.6 to 1.1 1.1 to 1.3
U(0806)
2.0
1.60
1.0 max.
0.8 to 1.2 0.6 to 1.1 1.2 to 1.4
(2) The size of lands shall be designed to have
equal spacing between the right and left sides. If
the amount of solder on the right land is different
from that on the left land, the component may
be cracked by stress since the side with a larger
amount of solder solidifies later during cooling.
(1) To minimize mechanical stress caused by the
warp or bending of a PC board, please follow
the recommended Inductors’ layout below.
Prohibited layout
Recommended layout
Recommended Amount of Solder
(a) Excessive amount (b) Proper amount
(c) Insufficient amount
Layout the Inductor sideways
against the stressing direction.
02
– 45 –
Jul. 2014
Power Inductors
(2) The following layout is for your reference since
mechanical stress near the dividing/breaking
position of a PC board varies depending on
the mounting position of the Inductors.
(4) Adhesives for mounting can be cured by ultraviolet
or infrared radiation. In order to prevent the terminal
electrodes of the Inductors from oxidizing, the curing
shall be done under the following conditions:
160 °C max., for 2 minutes max.
(5) Insufficient curing may cause the Inductors to fall
off after or during soldering. In addition, insulation
resistance between terminal electrodes may
deteriorate due to moisture absorption. In order
to prevent these problems, please observe
proper curing conditions.
E
D
Perforation
C
A
3. Chip Mounting Consideration
B
Slit
(1) When mounting the Inductors/components on a
PC board, the Inductor bodies shall be free from
excessive impact loads such as mechanical
impact or stress due to the positioning, pushing
force and displacement of vacuum nozzles during
mounting.
(2) Maintenance and inspection of the Chip Mounter
must be performed regularly.
(3) If the bottom dead center of the vacuum nozzle
is too low, the Inductor will crack from excessive
force during mounting.
The following precautions and recommendations
are for your reference in use.
Magnitude of stress A>B=C>D>E
(3) The magnitude of mechanical stress applied to
the Inductors when the circuit board is divided
is in the order of push back < slit < V-groove
< perforation.
Also take into account the layout of the Inductors
and the dividing/breaking method.
2.5 Mounting Density and Spaces
If components are arranged in too narrow a space,
the components can be affected by solder bridges
and solder balls. The space between components
should be carefully determined.
(a) Set and adjust the bottom dead center of the vacuum
nozzles to the upper surface of the PC board after
correcting the warp of the PC board.
(b) Set the pushing force of the vacuum nozzle during
mounting to 1 to 3 N in static load.
(c) F o r d o u b l e s u r f a c e m o u n t i n g , a p p l y a
supporting pin on the rear surface of the PC
board to suppress the bending of the PC
board in order to minimize the impact of the
vacuum nozzles. Typical examples are shown
in the table below.
■ Precautions for Assembly
1. Storage
(1) The Inductors shall be stored between 5 - 40 °C
and 20 - 70 %RH, not under severe conditions of
high temperature and humidity.
(2) If stored in a place that is humid, dusty, or
contains corrosive gasses (hydrogen sulfide,
sulfurous acid, hydrogen chloride and ammonia
etc.), the solderability of terminal electrodes may
deteriorate.
In addition, storage in a place subjected to
heating and/or exposure to direct sunlight will
causes deformed tapes and reels, and component
sticking to tapes, both of which can result in
mounting problems.
(3) Do not store components longer than 6 months.
Check the solderability of products that have been
stored for more than 6 months before use.
Item
Prohibited mounting Recommended mounting
The supporting pin does not necessarily have
to be positioned beneath the Inductor.
Single surface
mounting
Crack
Supporting
pin
Double surface
mounting
2. Adhesives for Mounting
Separation of solder
(1) The amount and viscosity of an adhesive for
mounting shall be such that the adhesive shall
not flow off on the land during its curing.
(2) If the amount of adhesive is insufficient for
mounting, the Inductors may fall off after or during
soldering.
(3) If the adhesive is too low in its viscosity, the
Inductors may be out of alignment after or
during soldering.
Crack
Supporting
(d) Adjust the vacuum nozzles so that their bottom dead
center during mounting is not too low.
(4) The closing dimensions of the positioning chucks
shall be controlled. Maintenance and replacement
of positioning chucks shall be performed regularly
to prevent chipping or cracking of the Inductors
caused by mechanical impact during positioning
due to worn positioning chucks.
02
– 46 –
Jul. 2014
Power Inductors
5.2 Hand Soldering
(5) Maximum stroke of the nozzle shall be adjusted so
that the maximum bending of PC board does not
exceed 0.5mm at 90 mm span. The PC board
shall be supported by an adequate number of
supporting pins.
Hand soldering typically causes significant
temperature change, which may induce excessive
thermal stresses inside the Inductors, resulting in
the thermal cracks, etc. In order to prevent any
defects, the following should be observed;
· The temperature of the soldering tips should be
controlled with special care.
· The direct contact of soldering tips with the
Inductors and/or terminal electrodes should be
avoided.
· Dismounted Inductors shall not be reused.
(1) Condition 1 (with preheating)
4. Selection of Soldering Flux
Soldering flux may seriously affect the performance
of the Inductors. Please confirm whether soldering
flux does not have an influence on performance of
the Inductor before using enough.
(a) Soldering :
01.0 mm Thread eutectic solder with soldering flux✽
in the core.
✽ Rosin-based and non-activated flux is
Recommended.
(b) Preheating :
The Inductors shall be preheated so that the
“Temperature Gradient” between the devices and
the tip of soldering iron is 150 °C or below.
(c) Temperature of Iron tip: 350 °C max.
(The required amount of solder shall be melted in
advance on the soldering tip.)
(d) Gradual cooling :
After soldering, the Inductors shall be cooled
gradually at room temperature.
5. Soldering
5.1 Reflow Soldering
The reflow soldering temperature conditions are
each temperature curves of Preheating, Temp.
rise, Heating, Peak and Gradual cooling. Large
temperature difference caused by rapid heat
application to the Inductors may lead to excessive
thermal stresses, contributing to the thermal cracks.
The Preheating temperature requires controlling with
great care so that tombstone phenomenon may be
prevented.
2 Temp. rise
3 Heating
4 Peak
5 Gradual cooling
Temperature
140 to 180 °C
Preheating temp
to Peak temp.
220 °C min.
260 °C max.
Peak temp.
to 140 °C
Period or Speed
60 to 120 sec
2 to 5 °C /sec
Recommended profile of Hand soldering [EX]
60 sec max.
10 sec max.
1 to 4 °C /sec
Gradual cooling
△T
Item
1 Preheating
Recommended profile of Reflow soldering (EX)
4 Peak
220
△T
Temperature (˚C)
260
Preheating
2 Temp. rise
5 Gradual
cooling
180
60 to 120 sec
3 sec max.
△T : Allowable temperature difference △T<150 °C
140
1 Preheating
3 Heating
60 to 120 sec
60 sec max.
(2) Condition 2 (without preheating)
Hand soldering can be performed without
preheating, by following the conditions below:
Time
(a) Soldering iron tip shall never directly touch the
ceramic and terminal electrodes of the Inductors.
(b) The lands are sufficiently preheated with a
soldering iron tip before sliding the soldering iron
tip to the terminal electrodes of the Inductors for
soldering.
△T : Allowable temperature difference △T < 150 °C
The rapid cooling (forced cooling) during Gradual
cooling part should be avoided, because this may
cause defects such as the thermal cracks, etc.
When the Inductors are immersed into a cleaning
solvent, make sure that the surface temperatures of
the devices do not exceed 100 °C.
P e r f o r m i n g re f l o w s o l d e r i n g t w i c e u n d e r
the co nditio ns shown in the figure above
[Recommended profile of Reflow soldering (EX)] will
not cause any problems. However, pay attention to
the possible warp and bending of the PC board.
Conditions of Hand soldering without preheating
Condition
Temperature of Iron tip
270 °C max.
Wattage
20 W max.
Shape of Iron tip
03 mm max.
Soldering time with a soldering iron
3 sec max.
02
– 47 –
Jul. 2014
Power Inductors
6. Post Soldering Cleaning
8. Protective Coating
6.1 Cleaning solvent
When the surface of a PC board on which
the Inductors have been mounted is coated
with resin to protect against moisture and
dust, it shall be confirmed that the protective
coating which is corrosive or chemically active
is not used, in order that the reliability of the
Inductors in the actual equipment may not
be influenced. Coating materials that expand
or shrink also may lead to damage to the
Inductor during the curing process.
Soldering flux residue may remain on the PC
board if cleaned with an inappropriate solvent.
This may deteriorate the electrical characteristics
and reliability of the Inductors.
6.2 Cleaning conditions
Inappropriate cleaning conditions such as
insufficient cleaning or excessive cleaning may
impair the electrical characteristics and reliability
of the Inductors.
(1) Insufficient cleaning can lead to :
9. Dividing/Breaking of PC Boards
(a) The halogen substance found in the residue of
the soldering flux may cause the metal of terminal
electrodes to corrode.
(b) The halogen substance found in the residue of
the soldering flux on the surface of the Inductors
may change resistance values.
(c) Water-soluble soldering flux may have more
remarkable tendencies of (a) and (b) above
compared to those of rosin soldering flux.
(1) Abnormal and excessive mechanical stress such
as bending or torsion shown below can cause
cracking in the Inductors.
Bending
Torsion
(2) Dividing/Breaking of the PC boards shall be
done carefully at moderate speed by using a
jig or apparatus to prevent the Inductors on the
boards from mechanical damage.
(3) Examples of PWB dividing/breaking jigs :
The outline of PC board breaking jig is shown
below.
When PC board are broken or divided, loading
points should be close to the jig to minimize the
extent of the bending.
Also, planes with no parts mounted on should
be used as plane of loading, which generates
a compressive stress on the mounted plane, in
order to prevent tensile stress induced by the
bending, which may cause cracks of the Inductors
or other parts mounted on the PC boards.
(2) Excessive cleaning can lead to :
(a) Overuse of ultrasonic cleaning may deteriorate the
strength of the terminal electrodes or cause cracking
in the solder and/or ceramic bodies of the Inductors
due to vibration of the PC boards.
Please follow these conditions for Ultrasonic
cleaning :
Ultrasonic wave output
: 20 W/L max.
Ultrasonic wave frequency
: 40 kHz max.
Ultrasonic wave cleaning time : 5 min. max.
6.3 Contamination of Cleaning solvent
Cleaning with contaminated cleaning solvent may
cause the same results as insufficient cleaning
due to the high density of liberated halogen.
7. Inspection Process
Outline of Jig
When mounted PC boards are inspected with
measuring terminal pins, abnormal and excess
mechanical stress shall not be applied to the PC
broad or mounted components, to prevent failure
or damage to the devices.
(1) Mounted PC boards shall be supported by an
adequate number of supporting pins with bend
settings of 90 mm span 0.5 mm max.
(2) Confirm that the measuring pins have the right
tip shape, are equal in height and are set in
the correct positions.
The following figures are for your reference to
avoid bending the PC board.
Prohibited setting
Check pin
PC board
V-groove
PC board
splitting jig
Prohibited dividing
Recommended dividing
Loading direction
Loading
point
PC
board
Chip
component
V-groove
Recommended setting
PC
board
Loading direction
V-groove
Chip component
Loading
point
Check pin
Bending of
PC board
Separated, Crack
Supporting pin
02
– 48 –
Jul. 2014
Power Inductors
10. Mechanical Impact
(1) The Inductors shall be free from any excessive
mechanical impact. The Inductor body is made
of ceramics and may be damaged or cracked if
dropped. Never use a Inductor which has been
dropped; their quality may be impaired and failure
rate increased.
(2) When handling PC boards with Inductors mounted
on them, do not allow the Inductors to collide
with another PC board.
When mounted PC boards are handled or stored
in a stacked state, impact between the corner of
a PC board and the Inductor may cause damage
or cracking and can deteriorate the withstand
voltage and insulation resistance of the Inductor.
Mounted PWB
Crack
Crack
Floor
■ Other
The various precautions described above are typical.
For special mounting conditions, please contact us.
02
– 49 –
Jul. 2014
Power Inductors
Power Inductors /
Wire Wound type
Series : G
Type : ELLVEG
Type ELLVEG
Type ELLVFG
Type ELLVGG
Type ELLVGG-C
ELLVFG-C
ELLVGG
ELLVGG-C
Features
● Magnetic
shielded structure
DC resistance and large current capability
● Shock resistant
● RoHS compliant
● Low
Recommended Applications
● DSC,
Tablet terminal, Portable game device, DC/DC converter circuit for cellular phone
Standard Packing Quantity
● 2,000
pcs./reel
■ As for Soldering Conditions and Safety Precautions,
Please see Data Files
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
E
L
L
V
G
G
1
0
0
M
Product Code
Outer size Height Structure
ELL Choke Coil (Magnetic shielded type )
E
1.0 max.
F
1.2 max.
G
1.5 max.
Dimensions in mm (not to scale)
Tolerance Design No.
Inductance
G
Series
11
2R2 → 2.2 µH
150 → 15 µH
M → ±20 %
N → ±30 %
Recommended land patterns in mm (not to scale)
3.00±0.2
3.40
0.60
H
0.10
0.30
Type
ELLVEG
ELLVFG-C
ELLVGG
ELLVGG-C
3.20
1.10
0.80
3.00±0.2
0.75
Marking
H
1.0 max.
1.2 max.
1.5 max.
1.5 max.
0.70
1.40
0.70
1.40
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.
03
– 50 –
Oct. 2014
Power Inductors
Standard Parts
Series
VEG
Series
VFG-C
Series
VGG
Series
VGG-C
Part No.
ELLVEGR68N
ELLVEG1R0N
ELLVEG1R5N
ELLVEG2R2N
ELLVEG3R3N
ELLVEG4R7N
ELLVEG6R8N
ELLVEG100M
ELLVEG150M
ELLVEG220M
ELLVFG1R0NC
ELLVFG1R5NC
ELLVFG2R2NC
ELLVFG3R3NC
ELLVFG4R7NC
ELLVFG6R8NC
ELLVFG100MC
ELLVFG150MC
ELLVFG220MC
ELLVFG330MC
ELLVGG1R0N
ELLVGG1R2N
ELLVGG1R6N
ELLVGG2R2N
ELLVGG3R3N
ELLVGG3R9N
ELLVGG4R7N
ELLVGG6R8N
ELLVGG100M
ELLVGG120M
ELLVGG150M
ELLVGG220M
ELLVGG330M
ELLVGG470M
ELLVGG1R0NC
ELLVGG2R2NC
ELLVGG3R3NC
ELLVGG4R7NC
ELLVGG6R8NC
ELLVGG100MC
ELLVGG120MC
ELLVGG150MC
ELLVGG220MC
ELLVGG330MC
ELLVGG470MC
ELLVGG101MC
Inductance
(100 kHz)
(µH)
Tol.
0.68
1.0
1.5
2.2
±30 %
3.3
4.7
6.8
10.0
±20 %
15.0
22.0
1.0
1.5
2.2
±30 %
3.3
4.7
6.8
10.0
15.0
±20 %
22.0
33.0
1.0
1.2
1.6
2.2
±30 %
3.3
3.9
4.7
6.8
10.0
12.0
15.0
±20 %
22.0
33.0
47.0
1.0
2.2
3.3
±30 %
4.7
6.8
10.0
12.0
15.0
±20 %
22.0
33.0
47.0
100
RDC
(at 20 °C)
(mΩ)
Tol.
50
61
74
110
210
240
350
480
710
1200
50
61
87
110
150
230
380
540
710
1160
52
61
73
±20 %
92
130
150
170
230
280
480
640
800
1330
2100
47
79
110
130
180
260
280
420
530
790
1200
2950
Saturation Rated
Current✽1
(mA max.)
Temperature
Rise Current✽2
(mA max.)
1950
1900
1200
1100
1000
750
580
520
430
330
1500
1300
1100
980
740
600
550
500
350
280
2200
2000
1800
1600
1350
1300
1200
1000
800
690
600
500
450
350
1400
1050
1000
900
700
600
550
450
410
350
260
180
1800
1600
1400
1250
820
770
650
600
490
400
1700
1550
1400
1250
1050
840
640
480
430
330
1800
1600
1550
1400
1100
1000
980
800
730
580
490
460
340
270
2000
1500
1300
1200
1000
860
730
670
600
450
360
250
Marking
7
A
C
D
E
H
K
M
O
R
a
c
d
e
h
k
m
o
r
t
A
B
C
D
E
F
H
K
M
N
O
R
T
V
Z V T R O N M K H E D A
Series
✽1 Saturation Rated Current : This DC current which causes a 30 % inductance reduction from its nominal value.
✽2 Temperature Rise Current : This indicates the value of current when temperature rise dt/t= 40 °C (at 20 °C).
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.
03
– 51 –
Oct. 2014
Power Inductors
A
R0
.6
0
Type
ELLVEG
ELLVFG-C
ELLVGG
ELLVGG-C
t
1.1±0.3
1.3±0.3
1.6±0.3
1.6±0.3
B
4.0 ° max.
B–B' Section
,
A
t
0.4±0.1
3.3±0.1
5.50±0.05
12.0±0.3
,
B
.20
R0
.1
+0 0
.50
f1
4.0 ° max.
2.00±0.05
4.0±0.1
8.0±0.1
1.75±0.10
Embossed Carrier Tape Dimensions in mm (not to scale)
3.3±0.1
R0.20
max.
R0
.1
A–A' Section
0
Tape running direction
Quantity 2,000 pcs./reel
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.
03
– 52 –
Oct. 2014
Power Inductors
Power Inductors / Wire Wound type
Series : G
Type : ELL4FG-A
ELL4GG
ELL4LG-A
Type ELL4FG–A
Type ELL4GG
Type ELL4LG–A
Features
● Magnetic
shielded structure
DC resistance and large current capability
● Shock resistant
● RoHS compliant
● Low
Recommended Applications
● DSC,
Tablet terminal, Portable game device, DC/DC converter circuit for cellular phone
Standard Packing Quantity
● 2,000
● 3,000
pcs./reel (ELL4FG-A/ELL4GG)
pcs./reel (ELL4LG-A)
■ As for Soldering Conditions and Safety Precautions,
Please see Data Files
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
E
L
L
4
F
G
1
0
0
M
Outer size Height Structure
Product Code
ELL
Choke Coil (Magnetic shielded type )
F
1.2 max.
G
1.4 max.
L
1.8 max.
Inductance
G
Series
11
Tolerance Design No.
2R2 → 2.2 µH
150 → 15 µH
M → ±20 %
N → ±30 %
F
A
G
—
L
A
Dimensions in mm (not to scale)
3.80±0.2
1.60
1.00
0.70
1.20
3.80±0.2
0.40
0.10
1.4 max.
(5
.0
0)
H
0.10
0.30
0.70
3.80±0.2
Type
1.70
1.70
Marking
1.60
1.00
ELL4GG
Marking
3.80±0.2
ELL4FG-A
ELL4LG-A
H
ELL4FG-A 1.1±0.10 (1.20 max.)
ELL4LG-A
1.80 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.
02
– 53 –
Oct. 2014
Power Inductors
Recommended land patterns in mm (not to scale)
ELL4FG-A
ELL4LG-A
ELL4GG
1.60
1.80
4.20
2.20
4.20
1.00
1.50
1.20
1.50
Standard Parts
Series
Series
4FG-A
Series
4GG
Series
4LG-A
Part No.
ELL4FG1R0NA
ELL4FG1R5NA
ELL4FG2R0NA
ELL4FG3R3NA
ELL4FG4R7NA
ELL4FG6R8NA
ELL4FG100MA
ELL4FG150MA
ELL4FG220MA
ELL4FG330MA
ELL4FG470MA
ELL4GG1R2N
ELL4GG1R8N
ELL4GG2R2N
ELL4GG3R3N
ELL4GG3R9N
ELL4GG4R7N
ELL4GG5R6N
ELL4GG6R8N
ELL4GG8R2N
ELL4GG100M
ELL4GG120M
ELL4GG150M
ELL4GG220M
ELL4GG330M
ELL4GG470M
ELL4GG101M
ELL4LG1R0NA
ELL4LG1R5NA
ELL4LG2R2NA
ELL4LG2R7NA
ELL4LG3R3NA
ELL4LG4R7NA
ELL4LG6R2NA
ELL4LG100MA
ELL4LG150MA
ELL4LG220MA
ELL4LG330MA
ELL4LG470MA
ELL4LG680MA
ELL4LG101MA
ELL4LG151MA
Inductance
(100 kHz)
(µH)
Tol.
1.0
1.5
2.0
±30 %
3.3
4.7
6.8
10.0
15.0
±20 %
22.0
33.0
47.0
1.2
1.8
2.2
3.3
3.9
±30 %
4.7
5.6
6.8
8.2
10.0
12.0
15.0
±20 %
22.0
33.0
47.0
100.0
1.0
1.5
2.2
2.7
±30 %
3.3
4.7
6.2
10.0
15.0
22.0
33.0
±20 %
47.0
68.0
100.0
150.0
RDC
(at 20 °C)
(mΩ)
Tol.
45
60
70
110
160
±20 %
220
290
480
620
1060
1600
50
71
88
110
120
160
170
200
±20 %
220
250
380
500
640
980
1250
2400
43
48
55
63
72
90
140
200
±20 %
300
390
610
920
1300
2200
3000
Saturation Rated
Current✽1
(mA max.)
1900
1600
1300
1100
1000
800
700
600
420
360
290
2400
1900
1700
1500
1400
1200
1100
1050
1000
900
800
700
600
450
400
290
2200
1700
1500
1400
1300
1100
930
800
620
550
430
360
270
250
220
Temperature
Rise Current✽2
(mA max.)
1950
1700
1550
1220
1000
860
750
580
500
400
330
1900
1550
1400
1200
1150
1000
970
930
870
770
650
580
500
400
350
250
1900
1800
1700
1550
1450
1300
1100
950
730
640
510
410
350
260
220
Marking
01
06
10
16
21
26
31
33
36
39
51
03
09
11
16
19
21
23
26
29
31
32
33
36
39
51
56
01
06
11
13
16
21
25
31
33
36
39
51
53
56
59
✽1 Saturation Rated Current : This DC current which causes a 30 % inductance reduction from its nominal value.
✽2 Temperature Rise Current : This indicates the value of current when temperature rise dt/t= 40 °C (at 20 °C).
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.
02
– 54 –
Oct. 2014
Power Inductors
R0
.3
m
ax
.
4.3±0.1
4.0 ° max.
,
A-A Section
B
0.8
0.8
A,
t
,
B-B Section
5.50±0.05
12.0±0.3
R0
.5 m
0.8
A
0.4±0.1
4.3±0.1
f
ax.
4.0±0.1
4.0 ° max.
8.0±0.1
0.8
.1
+0 0
0
1.5
B,
2.00±0.05
1.75±0.10
Embossed Carrier Tape Dimensions in mm (not to scale)
R0
.3
Tape running direction
m
ax
.
Type
t
ELL4FG-A
1.4±0.3
ELL4GG
1.6±0.3
ELL4LG-A
2.0±0.3
Quantity 2,000 pcs./reel (ELL4FG-A/ELL4GG)
Quantity 3,000 pcs./reel (ELL4LG-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.
02
– 55 –
Oct. 2014
Power Inductors
Power Inductors /
Wire Wound type
Series : G
Type : ELL6GG
ELL6PG
Features
● Magnetic
shielded structure
DC resistance and large current capability
● RoHS compliant
● Low
Recommended Applications
● DSC,
Tablet terminal, Portable game device, DC/DC converter circuit for cellular phone
Standard Packing Quantity
● 1,000
pcs./reel
■ As for Soldering Conditions and Safety Precautions,
Please see Data Files
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
E
L
L
6
P
G
1
0
0
M
Product Code
Inductance
Outer size Height Structure
ELL Choke Coil (Magnetic shielded type )
G
1.6 max.
P
2.0 max.
Dimensions in mm (not to scale)
G
11
Tolerance Design No.
2R2 → 2.2 µH
150 → 15 µH
Series
M → ±20 %
N → ±30 %
1.60 max.
Recommended land patterns in mm (not to scale)
6.0±0.3
Marking
2.9
Date code
1.05
2.7
1.20
6.0±0.3
2.1
0.15
H
0.5
2.1
Type
ELL6GG
ELL6PG
H
1.6 max.
2.0 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.
02
– 56 –
Oct. 2014
Power Inductors
Standard Parts
Series
Series
6GG
Series
6PG
Part No.
ELL6GG1R0N
ELL6GG1R5N
ELL6GG2R2M
ELL6GG2R7M
ELL6GG3R9M
ELL6GG4R7M
ELL6GG6R8M
ELL6GG100M
ELL6GG150M
ELL6GG220M
ELL6GG330M
ELL6GG470M
ELL6GG680M
ELL6GG101M
ELL6PGR08N
ELL6PG1R5N
ELL6PG2R2N
ELL6PG3R3N
ELL6PG3R9N
ELL6PG4R7N
ELL6PG5R6N
ELL6PG6R8N
ELL6PG100M
ELL6PG120M
ELL6PG150M
ELL6PG220M
ELL6PG270M
ELL6PG330M
ELL6PG470M
ELL6PG560M
ELL6PG680M
ELL6PG820M
ELL6PG101M
Inductance
(100 kHz)
(µH)
Tol.
1.0
±30 %
1.5
2.2
2.7
3.9
4.7
6.8
10.0
±20 %
15.0
22.0
33.0
47.0
68.0
100.0
0.8
1.5
2.2
3.3
±30 %
3.9
4.7
5.6
6.8
10.0
12.0
15.0
22.0
27.0
±20 %
33.0
47.0
56.0
68.0
82.0
100.0
RDC
(at 20 °C)
(mΩ)
Tol.
27
36
45
54
60
70
110
±20 %
170
210
300
510
610
860
1480
24
30
37
44
51
58
65
70
110
140
±20 %
150
230
260
300
470
520
700
800
1000
Temperature
Saturation
Rated Current✽1 Rise Current✽2
(mA max.)
(mA max.)
2500
2500
2300
2250
1950
2000
1850
1800
1650
1700
1400
1550
1150
1300
900
1000
800
900
620
850
490
580
400
480
380
410
300
350
3800
2800
2500
2500
2200
2200
1700
2000
1600
1900
1500
1750
1450
1650
1400
1600
1300
1300
1100
1200
1000
1100
800
900
730
800
700
750
550
600
500
550
420
500
400
450
380
400
Marking
1R0
1R5
2R2
2R7
3R9
4R7
6R8
100
150
220
330
470
680
101
R08
1R5
2R2
3R3
3R9
4R7
5R6
6R8
100
120
150
220
270
330
470
560
680
820
101
✽1 Saturation Rated Current : This DC current which causes a 30 % inductance reduction from its nominal value.
✽2 Temperature Rise Current : This indicates the value of current when temperature rise dt/t= 40 °C (at 20 °C).
B-B,Section
R0
.3
ma
x.
B
1.5±0.1
6.4±0.1
B
A,
t
0.4±0.1
4 ° max.
A
7.5±0.1
1.5±0.1
R0
.5
,
0m
ax
.
.1
+00
.50
f1
16.0±0.3
2.0±0.1
4.0±0.1
12.0±0.1
1.75±0.10
Embossed Carrier Tape Dimensions in mm (not to scale)
4 ° max.
6.4±0.1
R0
A-A,Section
.3
Type
ELL6GG
ELL6PG
ma
x.
t
1.8±0.3
2.2±0.3
Tape running direction
Quantity 1,000 pcs./reel
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.
02
– 57 –
Oct. 2014
Power Inductors
Power Inductors /
Wire Wound type
Series : H
Type : ELL6RH
ELL6SH
ELL6UH
Features
● Thin
(height 2.5 mm, 3.0 mm)
reliability in mounting by separating the user terminal and internal connection.
● Large current capability
● RoHS compliant
● Higher
Recommended Applications
● Audiovisual
equipment, Small portable device, DC/DC converter circuit for amusement machine
Cautionary Notes Regarding Usage in DC/DC converters
● Maximum
● Maximum
Dissipation of 1 W.
case temperature of 105 °C (Ambient & self-heating temperature)
Standard Packing Quantity
● 1,000
pcs./reel
■ As for Soldering Conditions and Safety Precautions,
Please see Data Files
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
E
L
L
6
S
H
2
2
0
M
Product Code
ELL
Outer size Height Structure
Choke Coil (Magnetic shielded type )
R
2.8 max.
S
3.3 max.
U
5.0 max.
Inductance
H
Series
11
Tolerance Design No.
2R2 → 2.2 µH
221 → 220 µH
M → ±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.
01
– 58 –
Oct. 2014
Power Inductors
Dimensions in mm (not to scale)
Connections (Top view)
Recommended land patterns in mm (not to scale)
Date Code
H
ELL6RH 2.5 mm±0.3 mm
0
H
0.15
0.05
Type
3.8
6.0±0.5
6.4±0.5
6.0±0.5
3.0±0.3
Marking
ELL6SH 3.0 mm±0.3 mm
ELL6UH
(0.9)
4.0
5.0 mm max.
7.4
Standard Parts
Part No.
Inductance (µH)
at 100 kHz
Tol. ±20 %
ELL6□H1R0M
ELL6□H1R5M
ELL6□H2R0M
ELL6□H2R2M
ELL6□H2R7M
ELL6□H3R3M
ELL6□H4R7M
ELL6□H5R1M
ELL6□H5R6M
ELL6□H6R2M
ELL6□H6R8M
ELL6□H7R5M
ELL6□H8R2M
ELL6□H100M
ELL6□H120M
ELL6□H150M
ELL6□H180M
ELL6□H220M
ELL6□H270M
ELL6□H330M
ELL6□H390M
ELL6□H470M
ELL6□H560M
ELL6□H680M
ELL6□H820M
ELL6□H101M
ELL6□H121M
ELL6□H151M
ELL6□H181M
ELL6□H221M
ELL6□H271M
ELL6□H331M
ELL6□H391M
ELL6□H471M
ELL6□H561M
ELL6□H681M
1.0
1.5
2.0
2.2
2.7
3.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
390.0
470.0
560.0
680.0
RDC (mΩ)
at 20 °C
Tol. ±20 %
6RH
19
24
—
30
39
44
49
56
—
62
—
80
87
95
130
150
170
220
260
380
410
480
540
770
870
1000
1500
1800
2000
2300
—
—
—
—
—
—
6SH
19
24
26
—
31
34
42
—
49
—
52
—
61
65
71
96
130
140
160
180
240
270
290
520
600
680
750
860
1300
1400
2400
2700
2800
3200
3700
4300
Rated
Current✽
(mA) max.
6RH
3000
2400
—
2300
1800
1600
1580
1550
—
1400
—
1250
1200
1100
1000
850
800
700
650
600
550
500
450
400
350
300
280
250
230
200
—
—
—
—
—
—
6SH
3400
3200
2600
—
2400
2200
2000
—
1800
—
1500
—
1400
1300
1200
1100
1000
900
800
700
650
600
550
500
450
400
370
350
300
280
260
240
210
200
180
160
Marking
1R0
1R5
2R0
2R2
2R7
3R3
4R7
5R1
5R6
6R2
6R8
7R5
8R2
100
120
150
180
220
270
330
390
470
560
680
820
101
121
151
181
221
271
331
391
471
561
681
✽ Current : This indicates the value of current when the inductance is 80% of nominal value or when the case temperature has risen 45 °C.
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.
01
– 59 –
Oct. 2014
Power Inductors
Standard Parts
Part No.
Inductance (µH)
at 100 kHz
Tol. ±20 %
RDC (mΩ)
at 20 °C
Tol. ±20 %
Rated
Current✽
(mA) max.
ELL6UH100M
ELL6UH120M
ELL6UH150M
ELL6UH180M
ELL6UH220M
ELL6UH270M
ELL6UH330M
ELL6UH390M
ELL6UH470M
ELL6UH560M
ELL6UH680M
ELL6UH820M
ELL6UH101M
ELL6UH121M
ELL6UH151M
ELL6UH181M
ELL6UH221M
ELL6UH271M
ELL6UH331M
ELL6UH391M
ELL6UH471M
ELL6UH561M
ELL6UH681M
ELL6UH821M
ELL6UH102M
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
390.0
470.0
560.0
680.0
820.0
1000.0
63
71
79
88
98
110
130
150
160
210
230
260
360
480
680
750
840
1200
1360
1500
1680
2530
2830
3140
3670
1800
1700
1600
1400
1300
1200
1100
1000
900
800
700
650
600
580
500
470
410
370
330
300
270
260
240
200
180
Marking
100
120
150
180
220
270
330
390
470
560
680
820
101
121
151
181
221
271
331
391
471
561
681
821
102
✽ Current : This indicates the value of current when the inductance is 70% of nominal value or when the case temperature has risen 45 °C.
1.0±0.1
A
A’
1.0±0.1
5 ° max. 6.3±0.3
R0
.3
m
Tape running
direction
Quantity 1,000 pcs./reel
ax
.
1.75±0.10
Type
t
ELL6RH 2.9±0.3
ELL6SH 3.4±0.3
ELL6UH 5.0±0.3
.3
R0
.
ax
m
,
A-A Section
t
,
B-B Section
.
max
0.4±0.1
5 ° max. 6.7±0.3
R0.5
.1
+0 0
.5
f1
7.5±0.1
16.0±0.3
1.0±0.1
2.0±0.1
4.0±0.1
B
1.0±0.1
12.0±0.1
B’
Embossed Carrier Tape Dimensions in mm (not to scale)
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.
01
– 60 –
Oct. 2014
Power Inductors
Power Inductors /
Wire Wound type
Series : P
Type : ELL8TP
Features
● Magnetic
shielded structure
DC resistance and large current capability
● Available on tape and reel for automatic insertion
● RoHS compliant
● Low
Recommended Applications
● Audiovisual
equipment, Appliance, Office automation equipment, Amusement machine,
Power circuit for electric device
Standard Packing Quantity
● 500
pcs./reel
■ As for Soldering Conditions and Safety Precautions,
Please see Data Files
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
11
E
L
L
8
T
P
2
2
0
M
B
Product Code
Outer size Height Structure
ELL Choke Coil (Magnetic shielded type )
T
5.0 max.
Dimensions in mm (not to scale)
Inductance
P
Tolerance Design No.
4R7 → 4.7 µH
101 → 100 µH
Series
M → ±20 %
N → ±30 %
Recommended land patterns in mm (not to scale)
2.
5±
0.
5
9.
9
6.
6
8.0±0.5
Marking
Date code
4.
3.
7±
8.0±0.5
0
0.
3
5)
.8
(0
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.
02
– 61 –
Oct. 2014
Power Inductors
Standard Parts
Part No.
ELL8TPR80NB
ELL8TP1R2NB
ELL8TP2R5NB
ELL8TP3R3NB
ELL8TP4R7NB
ELL8TP6R8NB
ELL8TP100MB
ELL8TP150MB
ELL8TP220MB
ELL8TP330MB
ELL8TP470MB
ELL8TP680MB
ELL8TP101MB
ELL8TP151MB
ELL8TP221MB
ELL8TP331MB
ELL8TP471MB
ELL8TP681MB
ELL8TP102MB
Inductance
(100 kHz)
(µH)
0.8
1.2
2.5
3.3
4.7
6.8
10.0
15.0
22.0
33.0
47.0
68.0
100.0
150.0
220.0
330.0
470.0
680.0
1000.0
RDC
(at 20 °C)
Tol.
±30 %
±20 %
(mΩ)
3.6
4.7
7
13
14
18
25
44
55
84
100
140
190
340
480
700
1000
1300
2100
Saturation
Temperature
Rated Current✽1 Rise Current✽2
(mA max.)
(mA max.)
Tol.
±30 %
9500
8500
±20 %
5500
5000
4000
3500
3000
2300
2200
1600
1400
1000
900
700
550
450
400
300
250
9000
8000
6500
4200
4000
3500
3000
2300
2000
1600
1500
1300
1100
800
700
570
480
430
330
Marking
R80
1R2
2R5
3R3
4R7
6R8
100
150
220
330
470
680
101
151
221
331
471
681
102
✽1 Saturation Rated Current : This DC current which causes a 30% inductance reduction from its nominal value.
✽2 Temperature Rise Current : This indicates the value of current when temperature rise dt/t= 40 °C (at 20 °C).
5.
2±
0.
2
Embossed Carrier Tape Dimensions in mm (not to scale)
0.4
n
io
ct
0±
0.
1.75±0.30 05
, Se
B
B-
R0.5 max.
8
°m
ax
11.5±0.3
24.0±0.5
.
n
R0.5 max.
AA ,
Se
ct
io
8
°m
ax
. 8
.6
±0
.
3
B’
A
B
A’
f1
7
0.0
±
.50
3
0.
6±
4.0±0.3
8.
2.0±0.3
16.0±0.3
Tape running direction
Quantity 500 pcs./reel
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.
02
– 62 –
Oct. 2014
Power Inductors
Power Inductors /
Wire Wound type
Series : P
Type : ELLATP
Features
● Magnetic
shielded structure
DC resistance and large current capability
● Available on tape and reel for automatic insertion
● The new version of ELLATV serise
● RoHS compliant
● Low
Recommended Applications
● Audiovisual
equipment, Appliance, Office automation equipment, Amusement machine,
Power circuit for electric device
Standard Packing Quantity
● 500
pcs./reel
■ As for Soldering Conditions and Safety Precautions,
Please see Data Files
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
11
E
L
L
A
T
P
2
2
0
M
B
Product Code
Outer size Height Structure
ELL Choke Coil (Magnetic shielded type )
T
4.5 max.
Dimensions in mm (not to scale)
Inductance
P
Tolerance Design No.
4R7 → 4.7 µH
101 → 100 µH
Series
M → ±20 %
N → ±30 %
Recommended land patterns in mm (not to scale)
2.
4±
0.
5
12
.0
8.
3
10.0±0.5
Marking
Date code
4.
3.
2±
10.0±0.5
0
0.
3
)
.3
(1
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.
03
– 63 –
Oct. 2014
Power Inductors
Standard Parts
Part No.
ELLATP1R0NB
ELLATP1R5NB
ELLATP2R7NB
ELLATP3R3NB
ELLATP4R7NB
ELLATP5R1NB
ELLATP6R8NB
ELLATP8R2NB
ELLATP100MB
ELLATP120MB
ELLATP150MB
ELLATP220MB
ELLATP270MB
ELLATP330MB
ELLATP390MB
ELLATP470MB
ELLATP680MB
ELLATP820MB
ELLATP101MB
ELLATP121MB
ELLATP151MB
ELLATP181MB
ELLATP221MB
ELLATP331MB
ELLATP471MB
ELLATP681MB
ELLATP102MB
RDC
(at 20 °C)
Inductance
(100 kHz)
(µH)
1.0
1.5
2.7
3.3
4.7
5.1
6.8
8.2
10.0
12.0
15.0
22.0
27.0
33.0
39.0
47.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
330.0
470.0
680.0
1000.0
Tol.
±30 %
±20 %
(mΩ)
3.6
4.4
6.4
7.5
9.1
12
15
18
22
25
29
38
47
59
66
80
120
140
180
200
250
320
360
550
780
1150
1700
Saturation
Temperature
Rated Current✽1 Rise Current✽2
(mA max.)
(mA max.)
Tol.
9000
8000
5500
5350
4500
4350
4000
3700
3300
2900
2700
2200
1900
1800
1600
1500
1100
1050
1000
900
780
750
700
550
470
380
310
±30 %
±20 %
Marking
8000
7000
6500
5500
5000
4500
4000
3700
3300
2900
2700
2500
2200
2000
1800
1700
1400
1300
1200
1000
900
750
700
600
500
450
370
1R0
1R5
2R7
3R3
4R7
5R1
6R8
8R2
100
120
150
220
270
330
390
470
680
820
101
121
151
181
221
331
471
681
102
✽1 Saturation Rated Current : This DC current which causes a 30% inductance reduction from its nominal value.
✽2 Temperature Rise Current : This indicates the value of current when temperature rise dt/t= 40 °C (at 20 °C).
.1
+0 0
5
1.
f
0.4±0.1
8 ° max.
10.6±0.3
4.0±0.3
11.5±0.3
24.0±0.5
2.0±0.3
16.0±0.3
1.75±0.30
Embossed Carrier Tape Dimensions in mm (not to scale)
4.8±0.3
R0
.5
m
ax
.
Tape running direction
Quantity 500 pcs./reel
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.
03
– 64 –
Oct. 2014
Power Inductors
Power Inductors /
Wire Wound type
Series : P
Type : ELLCTP
Features
● Magnetic
shielded structure
DC resistance and large current capability
● Available on tape and reel for automatic insertion
● RoHS compliant
● Low
Recommended Applications
● Audiovisual
equipment, Appliance, Office automation equipment, Amusement machine,
Power circuit for electric device
Standard Packing Quantity
● 500
pcs./reel
■ As for Soldering Conditions and Safety Precautions,
Please see Data Files
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
E
L
L
C
T
P
2
2
0
M
Product Code
Outer size Height Structure
ELL Choke Coil (Magnetic shielded type )
T
4.5 max.
Dimensions in mm (not to scale)
Inductance
P
Series
11
Tolerance Design No.
4R7 → 4.7 µH
101 → 100 µH
M → ±20 %
N → ±30 %
Recommended land patterns in mm (not to scale)
3.
0±
0.
5
.2
10
.3
12.0±0.5
Marking
14
Date code
4.
2±
12.0±0.5
3.
0.
6
3
)
.4
(1
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.
01
– 65 –
Oct. 2014
Power Inductors
Standard Parts
Part No.
ELLCTP1R2NB
ELLCTP2R0NB
ELLCTP3R3NB
ELLCTP4R3NB
ELLCTP5R6NB
ELLCTP6R8NB
ELLCTP9R1NB
ELLCTP150MB
ELLCTP220MB
ELLCTP330MB
ELLCTP470MB
ELLCTP680MB
ELLCTP101MB
ELLCTP151MB
ELLCTP221MB
ELLCTP331MB
ELLCTP471MB
ELLCTP681MB
ELLCTP102MB
Inductance
(100 kHz)
(µH)
Tol.
1.2
2.0
3.3
4.3
±30 %
5.6
6.8
9.1
15.0
22.0
33.0
47.0
68.0
100.0
±20 %
150.0
220.0
330.0
470.0
680.0
1000.0
RDC
(at 20 °C)
(mΩ)
4.6
5.6
7.0
8.5
10.0
12.5
15.0
27.0
34.0
52.0
72.0
97.0
150.0
220.0
310.0
500.0
670.0
1070.0
1470.0
Saturation
Temperature
Rated Current✽1 Rise Current✽2
(mA max.)
(mA max.)
Tol.
11000
9000
±30 %
7000
6000
5500
5000
4400
3100
2600
2200
1900
1500
1200
1050
900
750
600
550
400
±20 %
7000
6500
5800
5000
4500
4000
3800
3100
2600
2100
1800
1500
1200
1000
850
700
550
450
400
Marking
1R2
2R0
3R3
4R3
5R6
6R8
9R1
150
220
330
470
680
101
151
221
331
471
681
102
✽1 Saturation Rated Current : This DC current which causes a 30% inductance reduction from its nominal value.
✽2 Temperature Rise Current : This indicates the value of current when temperature rise dt/t= 40 °C (at 20 °C).
Embossed Carrier Tape Dimensions in mm (not to scale)
x.
4.70±0.30
ma
0.40±0.05
2.50±0.10
2.50±0.10
R0
8 ° max. 12.6±0.3
11.5±0.3
24.0±0.5
.5
1.75±0.30
f1
16.0±0.3
.50
+0
0 .10
2.0±0.3 cumulative pitch
deviation 4.0±0.3
4.0±0.3
Tape running direction
Quantity 500 pcs./reel
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.
01
– 66 –
Oct. 2014
Power Inductors
Soldering Conditions
Temperature (°C)
Reflow soldering conditions
T3
T2
T1
t2
t1
0
Time
● Pb
free solder recommended temperature profile
Preheat
Soldering
Peak Temperature
Products Item
Power Inductors /
Wire Wound type
T1 [°C]
t1 [s]
T2 [°C]
t2 [s]
150 to 170
60 to 120
230 °C
30 max.
T3
T3 Limit
Time of
Reflow
245 °C, 10 s 260 °C, 10 s 2 times 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.
02
– 67 –
Oct. 2014
Power Inductors
Safety Precautions
(Common precautions for Power Inductors / Wire Wound type)
• 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. Operation range and environments
1 These products are designed and manufactured for general and stan dard use in general elec tron ic
equipment (e.g. AV equipment, home electric appliances, office equipment, information and communication
equipment)
2 These products are not intended for use in the following special conditions. Before using the products, carefully
check the effects on their quality and performance, and determine whether or not they can be used.
• In liquid, such as water, oil, chemicals, or organic solvent
• In direct sunlight, outdoors, or in dust
• In salty air or air with a high concentration of corrosive gas, such as Cl2, H2S, NH3, SO2, or NO2
• In an environment where these products cause dew condensation
2. Handling
1 Do not bring magnets or magnetized materials close to the product. The influence of their magnetic field can
change the inductance value.
2 Do not apply strong mechanical shocks by either dropping or collision with other parts.
Excessive shock can damage the part.
3. Washing of board
Kindly consult the Technical department before washing of the PWB with any cleansing agent, and provide the
washing condition.
4. Resoldering with a soldering iron
The temperature of the tip of the soldering iron should be 360 °C or less, 4 seconds.
And resoldering with a soldering iron should be limited to 1 time, and after that should be cooling these.
5. Mounting side
External force must be less than 5.0 [N] : while mounting.
6. Storage conditions
Normal temperature (–5 to 35 °C), normal humidity (85 % RH max.), shall not be exposed to direct sunlight and
harmful gases and care should be taken so as not to cause dew.
<Package markings>
Package markings include the product number, quantity, and country of origin.
In principle, the country of origin should be indicated in English.
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.
02 Sep. 2014
– 68 –
Voltage Step-up Coils
Voltage Step-up Coils
Series : Chip
Type : 3KN
ELT3KN
High inductance Voltage Step-up coil chip series for
piezoelectric buzzers and DC/DC circuitry of EL panels
Features
● Small and thin
● High inductance
● RoHS compliant
Recommended Applications
● Piezoelectric buzzer, Booster circuit for EL backlight
● HAC inductor (Smartphone, Cellular phone)
(Watch, Electric thermometer, Portable device)
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
E
L
T
3
K
N
0
0
4
C
Product Code
Outer size
Construction
Design No.
Packaging
B
f180 Reel
C
f370 Reel
Standard Packing Quantity
● 1,000
or 5,000 pcs./reel
Dimensions in mm (not to scale)
2
5
1
5.5±0.2
1.1±0.2
0.25±0.05
0.18±0.05
3
4
5
H
0.8±0.1
3.1±0.2
1.2±0.1
(3.3)
5.5±0.2
1.1±0.2
0.10±0.05
1.4 max.
1
(3.1)
4.5±0.2
4.5±0.2
3.3±0.1
2.
73
±0
0.8±0.1
3.3±0.1
D
1.65±0.20
0.125±0.050
0.18±0.05
1.4±0.2
(3.3)
5
5.5±0.2
2
3
4
1.2±0.1
.1
0
2
4
6
0.10±0.05
3.3±0.2
1.2±0.1
1
0.6±0.1
0.85±0.10
3.3±0.1
(3.1)
5
5.5±0.2
B
4
4
1.2±0.1
3.1±0.2
2.5±0.1
1.2±0.1
(3.1)
5
3.3±0.2
1.2±0.1
1.5±0.1
4
3
1.1±0.1
3
0.18±0.05
3
1
2
0.6±0.1
0.85±0.10
2
0.18±0.05
2
3.3±0.1
0.2
1±
3.3±0.2
1.2±0.1
1
E
f3.
3.3±0.2
1.2±0.1
1
3.3±0.1
C
2.0±0.2
3.3±0.1
A
0.6±0.1
0.85±0.10
3KN
0.6±0.1
0.85±0.10
● Type
5
Part Name: 1 Core 2 Terminal 3Ring 4 Coil 5 Terminal board 6 Adhesive
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.
03
– 69 –
Oct. 2014
Voltage Step-up Coils
Standard Parts
Part No.
Inductance
(mH)
ELT3KN004□
14.00
ELT3KN007□
20.00
ELT3KN113□
1.00
ELT3KN126□
1.50
ELT3KN142□
0.82
ELT3KN019□
14.00
ELT3KN109□
3.80
ELT3KN114□
2.50
Tolerance(%)
±40
R. D. C
(Ω)
I.D.C
Dimensions
Tolerance(%) (mA) max.
125
±10
170
34
49
±15
±40
125
±10
115
±20
24
83
±15
15.0
ELT3KN028□
50.00
±35
250
ELT3KN032□
25.00
±40
185
ELT3KN101□
10.00
285
ELT3KN104□
1.00
35
30.0
ELT3KN118□
2.50
64
20.0
ELT3KN121□
1.00
22.5
40.0
ELT3KN122□
2.00
44
20.0
25
30.0
85
15.0
1.00
±10
235
±10
±15
±10
1.9
10.0
1.4
0.47
14
0.56
15
ELT3KN129□
0.68
17
34.0
2.30
51
23.0
2.00
44
20.0
ELT3KN020□
30.00
ELT3KN111□
7.50
ELT3KN125□
4.00
ELT3KN041□
14.00
ELT3KN042□
20.00
ELT3KN043□
12.00
150
2.5
177
10.0
85
15.0
125
1.7
175
1.7
40.0
ELT3KN139□
0.68
19
0.82
22
ELT3KN135□
1.10
32
ELT3KN136□
2.00
55
ELT3KN137□
4.00
117
ELT3KN149□
0.33
ELT3KN151□
0.56
17
±15
Permalloy ring
D
1.4
117
ELT3KN140□
±10
±10
Brass ring
45.0
ELT3KN130□
±40
C
50.0
ELT3KN131□
±10
11
Brass ring
Permalloy ring
30.0
30.0
E
20.0
±10
Brass ring
Permalloy ring
1.4
ELT3KN127□
±30
B
1.9
ELT3KN128□
±15
Permalloy ring
15.0
30.00
4.00
150
1.7
35.00
ELT3KN123□
Brass ring
30.0
ELT3KN014□
ELT3KN124□
A
29.0
ELT3KN018□
±40
Permalloy ring
1.4
25.0
±10
±10
1.7
Magnetic
Composition
Brass ring
15.0
60.0
±15
50.0
ELT3KN152□
0.47
14
ELT3KN155□
1.10
38
50.0
ELT3KN162□
4.00
117
±10
15.0
ELT3KN163□
1.10
32
±15
30.0
25.0
H
Ring less
E
Brass ring
“□” shows the packaging specifications.
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.
03
– 70 –
Oct. 2014
Voltage Step-up Coils
Packaging Methods
● Embossed
Packing Quantity
Kind of Taping
B
1,000 pcs.
C
5,000 pcs.
Embossed Carrier
Taping
E
ELT3KN
Chip pocket
Sprocket hole
fD0
t1
Packaging
Carrier Tape Dimensions in mm (not to scale)
F
Chip component
Tape running direction
P1 P2 P3
t2
● Reel
W
A
B
● Standard
Part No.
A
B
W
F
E
P1
ELT3KN
3.7
6.4
12.0
5.5
1.75
8.0
Part No.
P2
P3
0D0
t1
t2
ELT3KN
2.0
4.0
1.5
0.3
2.6
Dimensions in mm (not to scale)
T
E
B
C
D
● Leader
Part, Vacant Position
Leader part
W
A
t
200 min.
Packaging
A
B
C
D
E
W
t
B
180 60
13
21
2
13
1.1 15.2
C
370 60
13
21
2
14
2.0
50 min.
Vacant position
T
Tape end
50 min.
18
Vacant position
Applied Diagram Examples
Vo
+3.0 V
V2
+1.5 V
V1
SC
Vo
Vi
Vi
V1
V2
Load
SC
Vi
Vi
For buzzer
For EL DC/DC
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.
02
– 71 –
Oct. 2014
Voltage Step-up Coils
Soldering Conditions
Temperature (°C)
Reflow soldering conditions
T3
T2
T1
t2
t1
0
Time
● Pb
free solder recommended temperature profile
Preheat
Soldering
Peak Temperature
Part No.
ELT3KN
T1 [°C]
t1 [s]
T2 [°C]
t2 [s]
150 to 170
60 to 120
230 °C
30 max.
T3
T3 Limit
Time of
Reflow
245 °C, 10 s 260 °C, 10 s 2 times 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.
02
– 72 –
Oct. 2014
Voltage Step-up Coils
Safety Precautions
(Common precautions for Voltage Step-up Coils)
• 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. Operation range and environments
1 These products are designed and manufactured for general and stan dard use in general elec tron ic
equipment (e.g. AV equipment, home electric appliances, office equipment, information and com munication
equipment)
2 These products are not designed for the use in the following special conditions. Before using the products, carefully
check the effects on their quality and performance, and determine whether or not they can be used.
• In liquid, such as water, oil, chemicals, or organic solvent
• In direct sunlight, outdoors, or in dust
• In salty air or air with a high concentration of corrosive gas, such as Cl2, H2S, NH3, SO2, or NO2
• In an environment where these products cause dew condensation
2. Handling
1 Do not bring magnets or magnetized materials close to the product. The influence of their magnetic field can
change the inductance value.
2 Do not apply strong mechanical shocks by either dropping or collision with other parts.
Excessive schock can damage the part.
3. Resoldering with a soldering iron
1 Resoldering should be done within 3 seconds by soldering iron, the temperature with 350 °C or less and should be cooling
down after ward. Both side of terminals shall be fixed closely to PWB. And terminals shall not be pressed in heating.
Don’t Press
2 The wiring tab shall not be held by sharp-edged tool.
Wiring Tab
3 Iron shall not be put to the component itself.
4. Mounting side
1 External force must be less than 4.9N while mounting.
2 The wiring tab is expose the terminal, so please be careful when you design PWB pattern of coil
circumference.
5. Cleaning
If you clean the inductor, please use own your ultrasonic cleaning to check specified conditions.
6. Storage conditions
Normal temperature (–5 to 35 °C), normal humidity (85 % RH max.), shall not be exposed to direct sunlight and
harmful gases and care should be taken so as not to cause dew.
<Package markings>
Package markings include the product number, quantity, and country of origin.
In principle, the country of origin should be indicated in English.
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.
02
– 73 –
Oct. 2014
Power Inductors
Choke Coils
Series : Pin terminal
Type : 09D, 11D, 12D, 16B, 18B,
Type 09D
Type 11D
Type 12D
Type 16B
Type 18B
Type 10E–L
10E, 12E, 15E, 18E
Pin terminal inductors featuring small size
and high performance
Features
● High - µ and High Bm cores
● Wide inductor range
● Magnetic shield type (E Type)
● RoHS compliant
Recommended Applications
● Appliance,
Office automation equipment,
Amusement machine, Power circuit for electric
device
Type 12E–L
Type 15E–L
Type 18E–L
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
E
L
C
0
9
D
2
R
2
Product code
Style
09
Terminal
11
Core size
Terminal board
or
15
B
Core
Terminal board
Terminal
E
Core (Magnetic Shielded)
Terminal board
Terminal
11
✽
Inductance
Core
Case
Terminal
Core
D
12
Construction
10
Packaging Design No.
✽
Taping
D
Other
Omission
E, F etc.
Case size
16
18
Core
P
Direct terminal by wire
Available I-L Characteristics
L (µH)
10000
L (µH)
10000
5000
5000
10E
15E
12E
18E
1000
1000
09D
500
16B
18B
500
100
100
50
50
10
10
5
5
1
1
10
50
100
500
1000
5000 10000
10
50
100
500
1000
IDC(mA)
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.
02
– 74 –
5000 10000
IDC(mA)
Oct. 2014
Power Inductors
Performance Characteristics by Series
Type
09D
Regular
11D
✽
✽
12D
Construction
Extermal
Dimensions
D×H (mm)
Inductance
0.1
09.5×8.9
(with case)
1.0
10
100
18B
10E–L
011.5×13.9
(with case)
2.2
10000
0.16 to 5.3
012.5×16.5
0.27 to 1.9
18E–L
10000
016.0×23.0
0.26 to 8.5
3.3
10000
3.3
10000
020.0×27.0
0.36 to 8.5
010.0×13.0
0.10 to 2.9
8200
013.0×18.5
0.13 to 4.4
Shield
15E–L
IDC (A)
0.08 to 3.5
10000
3.9
12E–L
1000
2.2
100
16B
Current
(µH)
10000
016.0×22.0
(3 pin terminal)
4.7
10000
5.6
10000
5.6
10000
0.30 to 5.4
019.0×25.1
(4 pin terminal)
0.33 to 5.9
✽ : Taping Available
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.
02
– 75 –
Oct. 2014
Power Inductors
Examples Type 09D
Part No.
[Dimensions in mm]
(not to scale)
4.0±1.0 8.9 max.
f9.5 max.
5.0±0.5
2–f0.6
Recommended PWB
piercing plan
2–f1.00±0.05
5.0±0.1
Connection Schematic
S
F
Inductance
(µH)
Tolerance
(%)
Test Freq.
(kHz)
RDC.(Ω)
[at 20 °C]
(Tol.±20 %)
IDC.✽
[at 20 °C]
(A)max.
ELC09D2R2□F
2.2
0.012
3.50
ELC09D2R7□F
2.7
0.013
3.30
ELC09D3R3□F
3.3
0.015
3.20
ELC09D3R9□F
3.9
0.016
3.10
ELC09D4R7□F
4.7
0.018
3.00
ELC09D5R6□F
5.6
ELC09D6R8□F
6.8
±20
0.019
2.90
0.021
2.80
ELC09D8R2□F
8.2
0.024
2.60
ELC09D100□F
10.0
0.027
2.50
ELC09D120□F
12.0
0.031
2.30
ELC09D150□F
15.0
0.035
2.10
ELC09D180□F
18.0
0.038
2.00
ELC09D220□F
22.0
0.051
1.80
ELC09D270□F
27.0
0.058
1.60
ELC09D330□F
33.0
0.081
1.40
ELC09D390□F
39.0
0.087
1.30
ELC09D470□F
47.0
0.110
1.20
ELC09D560□F
56.0
0.130
1.10
ELC09D680□F
68.0
0.140
1.00
ELC09D820□F
82.0
0.160
0.90
ELC09D101□F
100.0
0.200
0.82
ELC09D121□F
120.0
0.250
0.77
ELC09D151□F
150.0
0.320
0.74
ELC09D181□F
180.0
0.360
0.61
ELC09D221□F
220.0
0.410
0.58
ELC09D271□F
270.0
0.500
0.52
ELC09D331□F
330.0
0.650
0.49
ELC09D391□F
390.0
0.860
0.46
10
±10
ELC09D471□F
470.0
0.980
0.39
ELC09D561□F
560.0
1.100
0.36
ELC09D681□F
680.0
1.400
0.34
ELC09D821□F
820.0
1.600
0.30
ELC09D102□F
1000.0
2.100
0.28
ELC09D122□F
1200.0
2.400
0.23
ELC09D152□F
1500.0
2.800
0.21
ELC09D182□F
1800.0
3.800
0.19
ELC09D222□F
2200.0
4.400
0.17
ELC09D272□F
2700.0
6.100
0.16
ELC09D332□F
3300.0
7.000
0.14
ELC09D392□F
3900.0
8.000
0.13
ELC09D472□F
4700.0
11.200
0.12
ELC09D562□F
5600.0
12.600
0.11
ELC09D682□F
6800.0
14.400
0.10
ELC09D822□F
8200.0
16.600
0.09
ELC09D103□F
10000.0
18.800
0.08
✽ Allowable DC Current: Smaller current value either when the inductance is –10 % or when the case temperature has risen 45 °C.
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.
02
– 76 –
Oct. 2014
Power Inductors
Examples Type 11D
Part No.
[Dimensions in mm]
(not to scale)
4.0±1.0 13.9 max.
f11.5 max.
5.0±0.5
2–f0.6
Recommended PWB
piercing plan
2–f1.00±0.05
5.0±0.1
Connection Schematic
S
F
Inductance
(µH)
Tolerance
(%)
Test Freq.
(kHz)
R.DC.(Ω)
[at 20 °C]
(Tol.±20 %)
IDC.✽
[at 20 °C]
(A)max.
ELC11D2R2□F
2.2
0.013
5.30
ELC11D2R7□F
2.7
0.014
5.10
ELC11D3R3□F
3.3
0.015
4.90
ELC11D3R9□F
3.9
0.016
4.80
ELC11D4R7□F
4.7
0.018
4.70
ELC11D5R6□F
5.6
0.020
4.60
ELC11D6R8□F
6.8
0.022
4.40
±20
ELC11D8R2□F
8.2
0.024
3.90
ELC11D100□F
10.0
0.029
3.50
ELC11D120□F
12.0
0.030
3.40
ELC11D150□F
15.0
0.033
3.30
ELC11D180□F
18.0
0.037
3.10
ELC11D220□F
22.0
0.040
2.80
ELC11D270□F
27.0
0.048
2.70
ELC11D330□F
33.0
0.051
2.60
ELC11D390□F
39.0
0.057
2.50
ELC11D470□F
47.0
0.063
2.30
ELC11D560□F
56.0
0.071
2.10
ELC11D680□F
68.0
0.082
2.00
ELC11D820□F
82.0
0.090
1.90
ELC11D101□F
100.0
0.120
1.80
ELC11D121□F
120.0
0.160
1.60
ELC11D151□F
150.0
0.180
1.40
ELC11D181□F
180.0
0.200
1.30
ELC11D221□F
220.0
0.230
1.20
ELC11D271□F
270.0
0.320
1.10
ELC11D331□F
330.0
0.350
1.00
ELC11D391□F
390.0
0.400
0.95
10
±10
ELC11D471□F
470.0
0.490
0.82
ELC11D561□F
560.0
0.620
0.73
ELC11D681□F
680.0
0.780
0.64
ELC11D821□F
820.0
0.870
0.62
ELC11D102□F
1000.0
1.100
0.57
ELC11D122□F
1200.0
1.200
0.52
ELC11D152□F
1500.0
1.700
0.43
ELC11D182□F
1800.0
2.000
0.40
ELC11D222□F
2200.0
2.300
0.38
ELC11D272□F
2700.0
2.800
0.34
ELC11D332□F
3300.0
3.600
0.31
ELC11D392□F
3900.0
4.500
0.29
ELC11D472□F
4700.0
5.200
0.26
ELC11D562□F
5600.0
6.900
0.23
ELC11D682□F
6800.0
7.800
0.21
ELC11D822□F
8200.0
10.600
0.18
ELC11D103□F
10000.0
11.800
0.16
✽ Allowable DC Current: Smaller current value either when the inductance is –10 % or when the case temperature has risen 45 °C.
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.
02
– 77 –
Oct. 2014
Power Inductors
Examples Type 12D
Part No.
[Dimensions in mm]
(not to scale)
16.5max.
14.0 max.
f12.0±0.5
3.5±0.8
f0.8
7.5±0.5
Recommended PWB
piercing plan
2–f1.20±0.05
7.5±0.1
Connection Schematic
S
F
Inductance
(µH)
Tolerance
(%)
Test Freq.
(kHz)
RDC.(Ω)
[at 20 °C]
(Tol.±20 %)
IDC.✽
[at 20 °C]
(A)max.
ELC12D101E
100
0.150
1.90
ELC12D121E
120
0.170
1.78
ELC12D151E
150
0.190
1.67
ELC12D181E
180
0.210
1.58
ELC12D221E
220
0.230
1.55
ELC12D271E
270
0.270
1.44
ELC12D331E
330
0.300
1.34
ELC12D391E
390
0.330
1.32
ELC12D471E
470
0.380
1.25
ELC12D561E
560
0.420
1.15
ELC12D681E
680
0.460
0.98
ELC12D821E
820
0.650
0.94
ELC12D102E
1000
0.720
0.87
ELC12D122E
1200
0.830
0.86
ELC12D152E
1500
1.270
0.64
ELC12D182E
1800
1.330
0.63
ELC12D222E
2200
1.500
0.60
ELC12D272E
2700
1.890
0.54
ELC12D332E
3300
2.370
0.48
ELC12D392E
3900
2.830
0.45
ELC12D472E
4700
3.190
0.41
ELC12D562E
5600
4.080
0.34
ELC12D682E
6800
5.740
0.29
ELC12D822E
8200
6.340
0.28
ELC12D103E
10000
7.200
0.27
±10
10
✽ Allowable DC Current: Smaller current value either when the inductance is –10 % or when the case temperature has risen 45 °C.
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.
02
– 78 –
Oct. 2014
Power Inductors
Examples Type 16B
Part No.
[Dimensions in mm]
(not to scale)
16.0 max.
23.0 max.
f 13.0±0.5
4.5±0.5
f 1.0
7.5±0.5
Recommended PWB
piercing plan
2–f 1.50±0.05
7.5±0.1
Connection Schematic
S
F
Inductance
(µH)
ELC16B3R3L
3.3
ELC16B3R9L
3.9
Tolerance
(%)
Test Freq.
(kHz)
RDC.(Ω)
[at 20 °C]
(Tol.±30 %)✽✽
(Tol.±20 %)
✽✽
0.012
±25
✽✽
0.013
✽✽
IDC.✽
[at 20 °C]
(A)max.
8.50
8.00
ELC16B4R7L
4.7
0.015
ELC16B5R6L
5.6
0.016
7.40
ELC16B6R8L
6.8
0.018
6.70
ELC16B8R2L
8.2
0.019
6.10
ELC16B100L
10.0
0.022
5.60
ELC16B120L
12.0
0.023
5.50
ELC16B150L
15.0
0.026
5.40
ELC16B180L
18.0
0.028
5.10
ELC16B220L
22.0
0.031
4.60
ELC16B270L
27.0
0.034
4.30
ELC16B330L
33.0
0.039
4.00
ELC16B390L
39.0
0.042
3.90
ELC16B470L
47.0
0.045
3.80
ELC16B560L
56.0
0.051
3.40
ELC16B680L
68.0
0.057
3.20
ELC16B820L
82.0
0.064
3.00
ELC16B101L
100.0
0.072
2.60
ELC16B121L
120.0
0.080
2.50
ELC16B151L
150.0
0.103
2.20
ELC16B181L
180.0
0.115
2.10
ELC16B221L
220.0
0.130
1.90
ELC16B271L
270.0
0.170
1.60
ELC16B331L
330.0
0.200
1.50
ELC16B391L
390.0
0.250
1.30
ELC16B471L
470.0
0.280
1.20
ELC16B561L
560.0
0.380
1.10
ELC16B681L
680.0
0.430
1.00
ELC16B821L
820.0
0.580
0.88
ELC16B102L
1000.0
0.660
0.85
ELC16B122L
1200.0
0.740
0.82
ELC16B152L
1500.0
0.870
0.74
ELC16B182L
1800.0
1.220
0.60
ELC16B222L
2200.0
1.380
0.57
ELC16B272L
2700.0
1.570
0.54
ELC16B332L
3300.0
2.000
0.47
ELC16B392L
3900.0
2.400
0.42
ELC16B472L
4700.0
3.300
0.36
ELC16B562L
5600.0
3.700
0.34
ELC16B682L
6800.0
4.200
0.32
ELC16B822L
8200.0
5.600
0.28
ELC16B103L
10000.0
6.400
0.26
✽✽
±20
10
±10
7.80
✽ Allowable DC Current: Smaller current value either when the inductance is –10 % or when the case temperature has risen 45 °C.
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.
02
– 79 –
Oct. 2014
Power Inductors
Examples Type 18B
Part No.
[Dimensions in mm]
(not to scale)
20.0 max.
5.0±1
27.0 max.
f 16.0 max.
f 1.0
f18.0 max.
7.5±0.5
Recommended PWB
piercing plan
2–f 1.50±0.05
7.5±0.1
Connection Schematic
S
F
Inductance
(µH)
Tolerance
(%)
Test Freq.
(kHz)
RDC.(Ω)
[at 20 °C]
(Tol.±20 %)
IDC.✽
[at 20 °C]
(A)max.
ELC18B3R3L
3.3
0.010
8.50
ELC18B3R9L
3.9
0.011
8.00
ELC18B4R7L
4.7
0.012
7.80
ELC18B5R6L
5.6
0.013
7.40
ELC18B6R8L
6.8
0.015
6.80
ELC18B8R2L
8.2
0.016
6.60
ELC18B100L
10.0
0.017
6.50
ELC18B120L
12.0
0.018
6.00
ELC18B150L
15.0
0.021
5.90
ELC18B180L
18.0
0.022
5.60
ELC18B220L
22.0
0.025
5.40
ELC18B270L
27.0
0.028
4.80
ELC18B330L
33.0
0.030
4.60
ELC18B390L
39.0
0.033
4.40
ELC18B470L
47.0
0.037
4.30
ELC18B560L
56.0
0.040
4.20
ELC18B680L
68.0
0.046
4.00
ELC18B820L
82.0
0.051
3.70
ELC18B101L
100.0
0.057
3.20
ELC18B121L
120.0
0.065
3.00
ELC18B151L
150.0
0.072
2.70
ELC18B181L
180.0
0.082
2.60
ELC18B221L
220.0
0.090
2.40
ELC18B271L
270.0
0.110
2.20
ELC18B331L
330.0
0.130
1.90
ELC18B391L
390.0
0.150
1.80
ELC18B471L
470.0
0.210
1.60
ELC18B561L
560.0
0.230
1.50
ELC18B681L
680.0
0.260
1.40
ELC18B821L
820.0
0.340
1.30
ELC18B102L
1000.0
0.390
1.10
ELC18B122L
1200.0
0.440
1.00
ELC18B152L
1500.0
0.580
0.85
ELC18B182L
1800.0
0.650
0.84
ELC18B222L
2200.0
0.880
0.75
ELC18B272L
2700.0
1.200
0.68
ELC18B332L
3300.0
1.400
0.60
ELC18B392L
3900.0
1.500
0.57
ELC18B472L
4700.0
1.700
0.55
ELC18B562L
5600.0
2.200
0.46
ELC18B682L
6800.0
2.800
0.45
ELC18B822L
8200.0
3.100
0.41
ELC18B103L
10000.0
3.900
0.36
±20
10
±10
✽ Allowable DC Current: Smaller current value either when the inductance is –10 % or when the case temperature has risen 45 °C.
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.
02
– 80 –
Oct. 2014
Power Inductors
Examples Type 10E-L
Part No.
[Dimensions in mm]
(not to scale)
2– f 0.7
5.0±1.0
13.0 max.
f 10.0 max.
5.0±0.5
Recommended PWB
piercing plan
2– f1.20±0.05
5.0±0.1
Connection Schematic
S
F
Inductance
(µH)
Tolerance
(%)
Test Freq.
(kHz)
RDC.(Ω)
[at 20 °C]
(Tol.±20 %)
IDC.✽
[at 20 °C]
(A)max.
ELC10E3R9L
3.9
0.024
2.90
ELC10E4R7L
4.7
0.027
2.80
ELC10E5R6L
5.6
0.030
2.70
ELC10E6R8L
6.8
0.032
2.60
ELC10E8R2L
8.2
0.035
2.50
ELC10E100L
10.0
±20
0.038
2.40
ELC10E120L
12.0
0.040
2.30
ELC10E150L
15.0
0.046
2.20
ELC10E180L
18.0
0.049
2.10
ELC10E220L
22.0
0.056
2.00
ELC10E270L
27.0
0.062
1.90
ELC10E330L
33.0
0.068
1.80
ELC10E390L
39.0
0.074
1.70
ELC10E470L
47.0
0.098
1.50
ELC10E560L
56.0
0.120
1.30
±15
ELC10E680L
68.0
0.150
1.20
ELC10E820L
82.0
0.190
1.00
ELC10E101L
100.0
0.210
0.96
ELC10E121L
120.0
0.240
0.92
ELC10E151L
150.0
0.260
0.83
10
ELC10E181L
180.0
0.290
0.74
ELC10E221L
220.0
0.410
0.64
ELC10E271L
270.0
0.590
0.54
ELC10E331L
330.0
0.660
0.52
ELC10E391L
390.0
0.720
0.50
ELC10E471L
470.0
0.800
0.45
ELC10E561L
560.0
1.100
0.41
ELC10E681L
680.0
1.200
0.37
±10
ELC10E821L
820.0
1.600
0.33
ELC10E102L
1000.0
1.800
0.31
ELC10E122L
1200.0
2.000
0.29
ELC10E152L
1500.0
2.800
0.26
ELC10E182L
1800.0
3.200
0.23
ELC10E222L
2200.0
3.600
0.20
ELC10E272L
2700.0
5.200
0.18
ELC10E332L
3300.0
5.900
0.17
ELC10E392L
3900.0
6.500
0.16
ELC10E472L
4700.0
9.600
0.14
ELC10E562L
5600.0
10.800
0.12
ELC10E682L
6800.0
11.900
0.11
ELC10E822L
8200.0
13.200
0.10
✽ Allowable DC Current: Smaller current value either when the inductance is –10 % or when the case temperature has risen 45 °C.
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.
02
– 81 –
Oct. 2014
Power Inductors
Examples Type 12E-L
Part No.
[Dimensions in mm]
(not to scale)
3.5±1.0
18.5max.
f13.0 max.
f0.7
7.0±0.5
Recommended PWB
piercing plan
2–f 1.20±0.05
7.0±0.1
Connection Schematic
S
F
Inductance
(µH)
Tolerance
(%)
Test Freq.
(kHz)
RDC.(Ω)
[at 20 °C]
(Tol.±20 %)
IDC.✽
[at 20 °C]
(A)max.
ELC12E4R7L
4.7
0.014
4.40
ELC12E5R6L
5.6
0.016
4.10
ELC12E6R8L
6.8
0.018
3.90
ELC12E8R2L
8.2
0.020
3.70
ELC12E100L
10.0
0.023
3.50
ELC12E120L
12.0
0.024
3.30
ELC12E150L
15.0
0.028
3.20
ELC12E180L
18.0
0.030
3.10
ELC12E220L
22.0
0.033
2.80
ELC12E270L
27.0
0.037
2.50
ELC12E330L
33.0
0.041
2.40
ELC12E390L
39.0
0.044
2.20
ELC12E470L
47.0
0.048
2.00
ELC12E560L
56.0
0.053
1.80
ELC12E680L
68.0
0.073
1.70
ELC12E820L
82.0
0.098
1.40
ELC12E101L
100.0
0.140
1.30
ELC12E121L
120.0
0.160
1.20
ELC12E151L
150.0
0.180
1.10
ELC12E181L
180.0
0.200
1.00
±25
±20
10
ELC12E221L
220.0
0.220
0.91
ELC12E271L
270.0
0.320
0.83
ELC12E331L
330.0
0.360
0.79
ELC12E391L
390.0
0.400
0.70
ELC12E471L
470.0
0.440
0.64
ELC12E561L
560.0
0.490
0.57
ELC12E681L
680.0
0.610
0.52
ELC12E821L
820.0
0.760
0.47
ELC12E102L
1000.0
1.100
0.43
ELC12E122L
1200.0
1.200
0.40
ELC12E152L
1500.0
1.400
0.36
ELC12E182L
1800.0
1.900
0.32
ELC12E222L
2200.0
2.500
0.30
ELC12E272L
2700.0
3.500
0.26
ELC12E332L
3300.0
3.900
0.24
ELC12E392L
3900.0
4.300
0.22
ELC12E472L
4700.0
6.000
0.20
ELC12E562L
5600.0
6.600
0.17
ELC12E682L
6800.0
9.900
0.15
ELC12E822L
8200.0
10.900
0.14
ELC12E103L
10000.0
12.200
0.13
±10
✽ Allowable DC Current: Smaller current value either when the inductance is –10 % or when the case temperature has risen 45 °C.
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.
02
– 82 –
Oct. 2014
Power Inductors
Examples Type 15E-L
Part No.
[Dimensions in mm]
(not to scale)
23.0 max.
4.5±1.0
f10.0±0.2
3–f 0.7
Recommended PWB
piercing plan
3–f 1.2±0.05
f 10.0±0.1
Tolerance
(%)
Test Freq.
(kHz)
RDC.(Ω)
[at 20 °C]
(Tol.±20 %)
IDC.✽
[at 20 °C]
(A)max.
ELC15E5R6L
5.6
0.012
6.80
ELC15E6R8L
6.8
0.013
6.30
ELC15E8R2L
f 16.0 max.
Inductance
(µH)
8.2
0.016
5.80
0.018
5.40
12
0.019
5.10
15
0.022
4.70
ELC15E180L
18
0.024
4.50
ELC15E220L
22
0.027
4.30
ELC15E270L
27
0.029
4.10
ELC15E330L
33
0.032
4.00
ELC15E390L
39
0.033
3.80
ELC15E470L
47
0.037
3.70
ELC15E560L
56
0.039
3.60
ELC15E680L
68
0.045
3.50
ELC15E820L
82
0.048
3.20
ELC15E101L
100
0.053
3.00
ELC15E121L
120
0.059
2.60
ELC15E151L
150
0.077
2.40
ELC15E181L
180
0.100
2.30
ELC15E221L
220
0.140
2.00
ELC15E271L
270
0.150
1.70
ELC15E331L
330
0.170
1.60
ELC15E391L
390
0.190
1.50
ELC15E471L
470
0.210
1.30
ELC15E561L
560
0.280
1.20
ELC15E681L
680
0.310
1.10
ELC15E821L
820
0.440
1.00
ELC15E102L
1000
0.490
0.95
ELC15E122L
1200
0.540
0.85
ELC15E152L
1500
0.710
0.80
ELC15E182L
1800
0.870
0.75
ELC15E222L
2200
1.100
0.63
ELC15E272L
2700
1.400
0.60
ELC15E332L
3300
1.600
0.53
ELC15E392L
3900
1.700
0.47
ELC15E472L
4700
2.400
0.43
ELC15E562L
5600
2.600
0.39
ELC15E682L
6800
2.900
0.36
ELC15E822L
8200
3.500
0.34
ELC15E103L
10000
4.600
0.30
ELC15E100L
10
ELC15E120L
ELC15E150L
±20
10
±10
✽ Allowable DC Current: Smaller current value either when the inductance is –10 % or when the case temperature has risen 45 °C.
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.
02
– 83 –
Oct. 2014
Power Inductors
Examples Type 18E-L
Part No.
3.5±1.0
25.0 max.
[Dimensions in mm]
(not to scale)
4–f 0.8
8.3±0.5
11.3±0.5
f 19.0 max.
Recommended PWB
piercing plan
8.3±0.1
4–f 1.2±0.05
11.3±0.1
(Top View)
Inductance
(µH)
Tolerance
(%)
Test Freq.
(kHz)
RDC.(Ω)
[at 20 °C]
(Tol.±20 %)
IDC.✽
[at 20 °C]
(A)max.
ELC18E5R6L
5.6
0.011
6.70
ELC18E6R8L
6.8
0.013
6.50
ELC18E8R2L
8.2
0.013
6.20
ELC18E100L
10
0.014
5.90
ELC18E120L
12
±20
0.016
5.60
ELC18E150L
15
0.017
5.40
ELC18E180L
18
0.019
5.20
ELC18E220L
22
0.022
5.00
ELC18E270L
27
0.023
4.80
ELC18E330L
33
0.026
4.60
ELC18E390L
39
0.028
4.50
ELC18E470L
47
0.030
4.10
ELC18E560L
56
0.031
3.80
ELC18E680L
68
0.036
3.60
ELC18E820L
82
0.040
3.50
ELC18E101L
100
0.044
3.00
ELC18E121L
120
0.047
2.80
ELC18E151L
150
0.061
2.60
ELC18E181L
180
0.067
2.50
ELC18E221L
220
0.076
2.10
ELC18E271L
270
0.083
2.00
ELC18E331L
330
0.110
1.90
ELC18E391L
390
0.120
1.80
ELC18E471L
470
0.150
1.50
ELC18E561L
560
0.170
1.40
ELC18E681L
680
0.190
1.20
ELC18E821L
820
0.210
1.10
ELC18E102L
1000
0.280
1.00
ELC18E122L
1200
0.360
0.95
ELC18E152L
1500
0.510
0.90
ELC18E182L
1800
0.570
0.80
ELC18E222L
2200
0.630
0.73
ELC18E272L
2700
0.890
0.65
ELC18E332L
3300
1.000
0.60
ELC18E392L
3900
1.100
0.50
ELC18E472L
4700
1.400
0.48
ELC18E562L
5600
1.600
0.46
ELC18E682L
6800
2.200
0.39
ELC18E822L
8200
2.400
0.35
ELC18E103L
10000
2.700
0.33
10
±10
✽ Allowable DC Current: Smaller current value either when the inductance is –10 % or when the case temperature has risen 45 °C.
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.
02
– 84 –
Oct. 2014
Power Inductors
1.3 max.
2.0 max.
f11.5 max.
2.0 max.
12.7
5.0±1.0
f4.0
Tape
running
direction
1.3 max.
12.7
1.3 max. 2.0 max.
5.0
500 pcs./reel
9.0
5.0 min.
18.0
11.0 max.
0.6
3.85
1.0 max.
5.0
18.0
13.9 max.
Marking
3.0 max.
1.3 max.
12.7
9.0
5.0 min.
18.0
18.0
3.85
1.0 max.
11.0 max.
8.9 max.
f9.5 max.
Marking
Tape Dimensions in mm for Type 11D (not to scale)
12.7
2.0 max.
3.0 max.
Tape Dimensions in mm for Type 09D (not to scale)
5.0±1.0
0.6
f4.0
Tape
running
direction
500 pcs./reel
Safety Precautions
• 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. Rated current
The rated current is defined as the smaller value of either the current value when the inductance drops 10 %
down from its initial point, or when the average temperature of coil interior rises 45 °C up on power source.
Do not operate these coils beyond the specified rated current.
2. Mounting
1 Cores may be damaged when excessive force or shock is applied.
Do not use products which may have been dropped.
2 Be careful not to make contact with other parts and consider possible interaction between coils due to magnetic
interference.
3 Be careful of being too close to heat-radiating parts (high temperature).
4 Do not bend the pin-terminals during assembly.
The pin-terminals must connect correctly.
Do not apply them a shock to avoid causing an open or short circuit condition.
5 The float on PWB must not be after mounting.
3. Soldering
1 Use flux which will not effect copper wire. (Be sure to use proper amounts of chloride, pH and other solvents)
2 When using a soldering iron, wait at least 3 minutes before attempting to re-solder.
4. Storage
1 Avoid high temperatures, high moisture, gases and magnetic fields.
2 For long term storage of more than 1 year, use the prod ucts only after inspecting their outer structure.
(Look for possible rusting of the core and oxidation of the lead wire, which would affect its solderability.)
<Package markings>
Package markings include the product number, quantity, and country of origin.
In principle, the country of origin should be indicated in English.
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.
02
– 85 –
Oct. 2014
CAUTION AND WARNING
1. The electronic components contained in this catalog are designed and produced for use in home electric appliances, office equipment, information equipment,
communications equipment, and other general purpose electronic devices.
Before use of any of these components for equipment that requires a high degree of safety, such as medical instruments, aerospace equipment, disaster-prevention
equipment, security equipment, vehicles (automobile, train, vessel),
please be sure to contact our sales representative.
2. When applying one of these components for equipment requiring a high degree of safety, no matter what sort of application it might be, be sure to install a protective
circuit or redundancy arrangement to enhance the safety of your equipment. In addition, please carry out the safety test on your own responsibility.
3. 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.
4. Technical information contained in this catalog is intended to convey examples of typical performances and/or applications and is not intended to make any
warranty with respect to the intellectual property rights or any other related rights of our company or any third parties nor grant any license under such rights.
5. In order to export products in this catalog, the exporter may be subject to the export license requirement under the Foreign Exchange and Foreign Trade Law of
Japan.
6. No ozone-depleting substances (ODSs) under the Montreal Protocol are used in the manufacturing processes of Automotive & Industrial Systems Company, Panasonic
Corporation.
● Please contact
● Factory
Device Solutions Business Division
Automotive & Industrial Systems Company
Panasonic Corporation
1006 Kadoma, Kadoma City, Osaka 571-8506,
JAPAN
The information in this catalog is valid as of May 2015.