S4 Series Square Shape Air Core Inductors
Graphic and dimensional descriptions

Drawing notes:
a, The slash grey area of the above drawing indicates: electroplated tin or tin dipping (Sn96.5%, Ag3%, Cu0.5%);.
b, Tin plating tolerance range minimum and maximum can not exceed max;
c, Beautiful appearance without deformation, no damage to the enamel etc.
Electrical Specification
NO. |
Part # |
A |
B |
C |
L(nh) |
±0.20 |
±0.15 |
±0.20 |
±5% |
||
1 |
SMDS41003-10N |
4.20 |
3.80 |
5.00 |
10.0nH |
2 |
SMDS41003-12N |
4.10 |
4.20 |
5.10 |
12.0nH |
3 |
SMDS41003-14N |
4.20 |
4.50 |
5.60 |
14.7nH |
4 |
SMDS41003-16N |
5.30 |
4.10 |
5.10 |
16.6nH |
5 |
SMDS41003-18N |
5.30 |
4.30 |
5.25 |
18.5nH |
6 |
SMDS41003-21N |
5.40 |
4.50 |
5.65 |
21.5nH |
7 |
SMDS41003-25N |
6.50 |
4.45 |
5.27 |
25.0nH |
8 |
SMDS41005-27N |
7.60 |
4.20 |
5.20 |
27.0nH |
9 |
SMDS41005-30N |
7.55 |
4.30 |
5.20 |
30.0nH |
10 |
SMDS41005-33N |
6.30 |
4.80 |
5.70 |
33.0nH |
11 |
SMDS41005-39N |
7.30 |
4.75 |
5.75 |
39.0nH |
12 |
SMDS41005-43N |
7.53 |
4.95 |
5.85 |
43.0nH |
13 |
SMDS41005-82N |
6.30 |
6.70 |
7.70 |
82.0nH |
14 |
SMDS41005-90N |
6.10 |
7.00 |
8.00 |
90.0nH |
15 |
SMDS41007-110 |
7.10 |
7.00 |
8.00 |
110nH |
16 |
SMDS41007-130 |
8.30 |
6.80 |
7.60 |
130nH |
17 |
SMDS41007-160 |
8.40 |
7.50 |
8.10 |
160nH |
18 |
SMDS41007-180 |
9.70 |
7.30 |
8.00 |
180nH |
19 |
SMDS41007-220 |
10.60 |
7.40 |
8.20 |
220nH |
20 |
SMDS41007-270 |
10.60 |
7.40 |
8.20 |
270nH |
21 |
SMDS41007-330 |
13.00 |
7.50 |
8.00 |
330nH |
Characteristics description
1. Measuring instrument: HP4287A LCRmeter or equivalent 9699 test fixture; inductance measured at 400MHz, 0.1Vrms, 0 a
2. Measurement conditions: 100MHz/250mv;
3. Storage performance: without special provisions, generally at -5~40°, relative humidity 40~60% RH;
4. Soldering conditions: 10±0.5 seconds immersion in a solder bath at 260°C, up to three reflow cycles, parts cooled to room temperature between cycles;
Product Applications
SMD hollow inductors can be used in a variety of products such as wireless charging devices, inductive sensors, medical devices, communication devices, industrial automation devices and consumer electronics. They are commonly used to enable wireless energy transfer, data communication, and sensor functions. The compact design of these coils makes them suitable for wireless energy transmission and communication where space is limited.Their high efficiency and reliability also make them ideal for use in compact electronic devices, contributing to the miniaturization and performance optimization of modern electronic products.

Product Dispaly
description2