LQP02TN3N9S02B
更新时间:2024-09-19 01:36:11
品牌:MURATA
描述:General Purpose Inductor, 0.0039uH, 1 Element, SMD, 01005, CHIP, 01005, ROHS COMPLIANT
LQP02TN3N9S02B 概述
General Purpose Inductor, 0.0039uH, 1 Element, SMD, 01005, CHIP, 01005, ROHS COMPLIANT
LQP02TN3N9S02B 数据手册
通过下载LQP02TN3N9S02B数据手册来全面了解它。这个PDF文档包含了所有必要的细节,如产品概述、功能特性、引脚定义、引脚排列图等信息。
PDF下载RF Inductors (Coils)
1
Data Sheet
LQP02TN_02 Series 01005/0402 (inch/mm)
Thickness
Film
0.1nH E-24
Tight
Tolerance
RoHS
General
0.22mm
Reflow
OK
Step Step
max.
Dimensions
Packaging
c
c
Code
Packaging
ø180mm Paper Taping
Packing in Bulk
Minimum Quantity
Polarity Marking
D
20000
500
B
0.4 0.02
0.095 0.025
(in mm)
Rated Value ( : packaging code)
p
c
Inductance
Test Frequency
Self-Resonance
Frequency (min.)
Part Number
Inductance
Rated Current Max. of DC Resistance Q (min.) Q Test Frequency
LQP02TN0N2B02
LQP02TN0N2C02
LQP02TN0N3B02
LQP02TN0N3C02
LQP02TN0N4B02
LQP02TN0N4C02
p
p
p
p
p
p
p
0.2nH ±0.1nH
0.2nH ±0.2nH
0.3nH ±0.1nH
0.3nH ±0.2nH
0.4nH ±0.1nH
0.4nH ±0.2nH
0.4nH ±0.3nH
0.5nH ±0.1nH
0.5nH ±0.2nH
0.5nH ±0.3nH
0.6nH ±0.1nH
0.6nH ±0.2nH
0.6nH ±0.3nH
0.7nH ±0.1nH
0.7nH ±0.2nH
0.7nH ±0.3nH
0.8nH ±0.1nH
0.8nH ±0.2nH
0.8nH ±0.3nH
0.9nH ±0.1nH
0.9nH ±0.2nH
0.9nH ±0.3nH
1.0nH ±0.1nH
1.0nH ±0.2nH
1.0nH ±0.3nH
1.1nH ±0.1nH
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
320mA
220mA
220mA
220mA
220mA
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.50Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
-
-
20000MHz
20000MHz
20000MHz
20000MHz
18000MHz
18000MHz
18000MHz
18000MHz
18000MHz
18000MHz
17000MHz
17000MHz
17000MHz
16500MHz
16500MHz
16500MHz
16500MHz
16500MHz
16500MHz
13000MHz
13000MHz
13000MHz
13000MHz
13000MHz
13000MHz
12500MHz
-
-
-
-
-
-
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
LQP02TN0N4S02
LQP02TN0N5B02
LQP02TN0N5C02
p
p
p
LQP02TN0N5S02
LQP02TN0N6B02
p
p
p
LQP02TN0N6C02
LQP02TN0N6S02
LQP02TN0N7B02
LQP02TN0N7C02
p
p
p
LQP02TN0N7S02
LQP02TN0N8B02
LQP02TN0N8C02
p
p
p
LQP02TN0N8S02
LQP02TN0N9B02
LQP02TN0N9C02
p
p
p
LQP02TN0N9S02
LQP02TN1N0B02
LQP02TN1N0C02
p
p
p
LQP02TN1N0S02
LQP02TN1N1B02
p
Operating Temperature Range (Self-temperature rise is not included): -55~125℃
For reflow soldering only.
Continued on the following page.
oThis data sheet is applied for CHIP INDUCTORS (CHIP COILS) used for General Electronics equipment for your design.
!Note:
1. This datasheet is downloaded from the website of Murata Manufacturing co., ltd. Therefore, it’s specifications are subject to change or our products in it
may be discontinued without advance notice. Please check with our sales representatives or product engineers before ordering.
2. This datasheet has only typical specifications because there is no space for detailed specifications. Therefore, please approve our product
specifications or transact the approval sheet for product specifications before ordering.
2014.1.14
http://www.murata.com/
RF Inductors (Coils)
2
Data Sheet
Continued from the preceding page.
Inductance
Test Frequency
Self-Resonance
Frequency (min.)
Part Number
Inductance
Rated Current Max. of DC Resistance Q (min.) Q Test Frequency
LQP02TN1N1C02
p
1.1nH ±0.2nH
1.1nH ±0.3nH
1.2nH ±0.1nH
1.2nH ±0.2nH
1.2nH ±0.3nH
1.3nH ±0.1nH
1.3nH ±0.2nH
1.3nH ±0.3nH
1.4nH ±0.1nH
1.4nH ±0.2nH
1.4nH ±0.3nH
1.5nH ±0.1nH
1.5nH ±0.2nH
1.5nH ±0.3nH
1.6nH ±0.1nH
1.6nH ±0.2nH
1.6nH ±0.3nH
1.7nH ±0.1nH
1.7nH ±0.2nH
1.7nH ±0.3nH
1.8nH ±0.1nH
1.8nH ±0.2nH
1.8nH ±0.3nH
1.9nH ±0.1nH
1.9nH ±0.2nH
1.9nH ±0.3nH
2.0nH ±0.1nH
2.0nH ±0.2nH
2.0nH ±0.3nH
2.1nH ±0.1nH
2.1nH ±0.2nH
2.1nH ±0.3nH
2.2nH ±0.1nH
2.2nH ±0.2nH
2.2nH ±0.3nH
2.3nH ±0.1nH
2.3nH ±0.2nH
2.3nH ±0.3nH
2.4nH ±0.1nH
2.4nH ±0.2nH
2.4nH ±0.3nH
2.5nH ±0.1nH
2.5nH ±0.2nH
2.5nH ±0.3nH
2.6nH ±0.1nH
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
220mA
220mA
220mA
220mA
220mA
220mA
220mA
220mA
220mA
220mA
220mA
220mA
220mA
220mA
220mA
220mA
220mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.60Ω
0.70Ω
0.70Ω
0.70Ω
0.70Ω
0.70Ω
0.70Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.75Ω
0.80Ω
0.80Ω
0.80Ω
0.80Ω
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
12500MHz
12500MHz
12500MHz
12500MHz
12500MHz
11500MHz
11500MHz
11500MHz
11500MHz
11500MHz
11500MHz
9500MHz
9500MHz
9500MHz
9500MHz
9500MHz
9500MHz
9500MHz
9500MHz
9500MHz
9000MHz
9000MHz
9000MHz
9000MHz
9000MHz
9000MHz
9000MHz
9000MHz
9000MHz
9000MHz
9000MHz
9000MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
LQP02TN1N1S02
p
LQP02TN1N2B02
LQP02TN1N2C02
p
p
p
LQP02TN1N2S02
LQP02TN1N3B02
LQP02TN1N3C02
p
p
p
LQP02TN1N3S02
LQP02TN1N4B02
LQP02TN1N4C02
p
p
p
LQP02TN1N4S02
LQP02TN1N5B02
LQP02TN1N5C02
p
p
p
LQP02TN1N5S02
LQP02TN1N6B02
LQP02TN1N6C02
p
p
p
LQP02TN1N6S02
LQP02TN1N7B02
LQP02TN1N7C02
p
p
p
LQP02TN1N7S02
LQP02TN1N8B02
p
p
p
LQP02TN1N8C02
LQP02TN1N8S02
LQP02TN1N9B02
p
p
p
LQP02TN1N9C02
LQP02TN1N9S02
LQP02TN2N0B02
LQP02TN2N0C02
p
p
p
LQP02TN2N0S02
LQP02TN2N1B02
LQP02TN2N1C02
p
p
p
LQP02TN2N1S02
LQP02TN2N2B02
LQP02TN2N2C02
p
p
p
LQP02TN2N2S02
LQP02TN2N3B02
LQP02TN2N3C02
p
p
p
LQP02TN2N3S02
LQP02TN2N4B02
p
p
p
LQP02TN2N4C02
LQP02TN2N4S02
LQP02TN2N5B02
p
p
p
LQP02TN2N5C02
LQP02TN2N5S02
LQP02TN2N6B02
p
Operating Temperature Range (Self-temperature rise is not included): -55~125℃
For reflow soldering only.
Continued on the following page.
oThis data sheet is applied for CHIP INDUCTORS (CHIP COILS) used for General Electronics equipment for your design.
!Note:
1. This datasheet is downloaded from the website of Murata Manufacturing co., ltd. Therefore, it’s specifications are subject to change or our products in it
may be discontinued without advance notice. Please check with our sales representatives or product engineers before ordering.
2. This datasheet has only typical specifications because there is no space for detailed specifications. Therefore, please approve our product
specifications or transact the approval sheet for product specifications before ordering.
2014.1.14
http://www.murata.com/
RF Inductors (Coils)
3
Data Sheet
Continued from the preceding page.
Inductance
Test Frequency
Self-Resonance
Frequency (min.)
Part Number
Inductance
Rated Current Max. of DC Resistance Q (min.) Q Test Frequency
LQP02TN2N6C02
p
2.6nH ±0.2nH
2.6nH ±0.3nH
2.7nH ±0.1nH
2.7nH ±0.2nH
2.7nH ±0.3nH
2.8nH ±0.1nH
2.8nH ±0.2nH
2.8nH ±0.3nH
2.9nH ±0.1nH
2.9nH ±0.2nH
2.9nH ±0.3nH
3.0nH ±0.1nH
3.0nH ±0.2nH
3.0nH ±0.3nH
3.1nH ±0.1nH
3.1nH ±0.2nH
3.1nH ±0.3nH
3.2nH ±0.1nH
3.2nH ±0.2nH
3.2nH ±0.3nH
3.3nH ±0.1nH
3.3nH ±0.2nH
3.3nH ±0.3nH
3.4nH ±0.1nH
3.4nH ±0.2nH
3.4nH ±0.3nH
3.5nH ±0.1nH
3.5nH ±0.2nH
3.5nH ±0.3nH
3.6nH ±0.1nH
3.6nH ±0.2nH
3.6nH ±0.3nH
3.7nH ±0.1nH
3.7nH ±0.2nH
3.7nH ±0.3nH
3.8nH ±0.1nH
3.8nH ±0.2nH
3.8nH ±0.3nH
3.9nH ±0.1nH
3.9nH ±0.2nH
3.9nH ±0.3nH
4.0nH ±0.1nH
4.0nH ±0.2nH
4.0nH ±0.3nH
4.1nH ±0.1nH
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
200mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
0.80Ω
0.80Ω
0.80Ω
0.80Ω
0.80Ω
1.10Ω
1.10Ω
1.10Ω
1.10Ω
1.10Ω
1.10Ω
1.10Ω
1.10Ω
1.10Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
7500MHz
LQP02TN2N6S02
p
LQP02TN2N7B02
LQP02TN2N7C02
p
p
p
LQP02TN2N7S02
LQP02TN2N8B02
LQP02TN2N8C02
p
p
p
LQP02TN2N8S02
LQP02TN2N9B02
LQP02TN2N9C02
p
p
p
LQP02TN2N9S02
LQP02TN3N0B02
LQP02TN3N0C02
p
p
p
LQP02TN3N0S02
LQP02TN3N1B02
LQP02TN3N1C02
p
p
p
LQP02TN3N1S02
LQP02TN3N2B02
LQP02TN3N2C02
p
p
p
LQP02TN3N2S02
LQP02TN3N3B02
p
p
p
LQP02TN3N3C02
LQP02TN3N3S02
LQP02TN3N4B02
p
p
p
LQP02TN3N4C02
LQP02TN3N4S02
LQP02TN3N5B02
LQP02TN3N5C02
p
p
p
LQP02TN3N5S02
LQP02TN3N6B02
LQP02TN3N6C02
p
p
p
LQP02TN3N6S02
LQP02TN3N7B02
LQP02TN3N7C02
p
p
p
LQP02TN3N7S02
LQP02TN3N8B02
LQP02TN3N8C02
p
p
p
LQP02TN3N8S02
LQP02TN3N9B02
p
p
p
LQP02TN3N9C02
LQP02TN3N9S02
LQP02TN4N0B02
p
p
p
LQP02TN4N0C02
LQP02TN4N0S02
LQP02TN4N1B02
p
Operating Temperature Range (Self-temperature rise is not included): -55~125℃
For reflow soldering only.
Continued on the following page.
oThis data sheet is applied for CHIP INDUCTORS (CHIP COILS) used for General Electronics equipment for your design.
!Note:
1. This datasheet is downloaded from the website of Murata Manufacturing co., ltd. Therefore, it’s specifications are subject to change or our products in it
may be discontinued without advance notice. Please check with our sales representatives or product engineers before ordering.
2. This datasheet has only typical specifications because there is no space for detailed specifications. Therefore, please approve our product
specifications or transact the approval sheet for product specifications before ordering.
2014.1.14
http://www.murata.com/
RF Inductors (Coils)
4
Data Sheet
Continued from the preceding page.
Inductance
Test Frequency
Self-Resonance
Frequency (min.)
Part Number
Inductance
Rated Current Max. of DC Resistance Q (min.) Q Test Frequency
LQP02TN4N1C02
p
4.1nH ±0.2nH
4.1nH ±0.3nH
4.2nH ±0.1nH
4.2nH ±0.2nH
4.2nH ±0.3nH
4.3nH ±3%
4.3nH ±5%
4.3nH ±0.3nH
4.7nH ±3%
4.7nH ±5%
4.7nH ±0.3nH
5.1nH ±3%
5.1nH ±5%
5.1nH ±0.3nH
5.6nH ±3%
5.6nH ±5%
5.6nH ±0.3nH
6.2nH ±3%
6.2nH ±5%
6.8nH ±3%
6.8nH ±5%
7.5nH ±3%
7.5nH ±5%
8.2nH ±3%
8.2nH ±5%
9.1nH ±3%
9.1nH ±5%
10nH ±3%
10nH ±5%
11nH ±3%
11nH ±5%
12nH ±3%
12nH ±5%
13nH ±3%
13nH ±5%
15nH ±3%
15nH ±5%
16nH ±3%
16nH ±5%
18nH ±3%
18nH ±5%
20nH ±3%
20nH ±5%
22nH ±3%
22nH ±5%
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
180mA
180mA
180mA
180mA
180mA
180mA
180mA
180mA
160mA
160mA
160mA
160mA
160mA
160mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
140mA
120mA
120mA
120mA
120mA
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.30Ω
1.50Ω
1.50Ω
1.50Ω
1.50Ω
1.50Ω
1.50Ω
1.80Ω
1.80Ω
1.80Ω
1.80Ω
1.80Ω
2.00Ω
2.00Ω
2.00Ω
2.00Ω
2.10Ω
2.10Ω
2.10Ω
2.10Ω
2.50Ω
2.50Ω
2.80Ω
2.80Ω
2.80Ω
2.80Ω
3.20Ω
3.20Ω
3.20Ω
3.20Ω
3.50Ω
3.50Ω
3.50Ω
3.50Ω
5.00Ω
5.00Ω
5.00Ω
5.00Ω
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
7
7
7
7
7
7
7
7
7
7
7
7
6
6
6
6
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
7500MHz
7500MHz
7000MHz
7000MHz
7000MHz
7000MHz
7000MHz
7000MHz
6500MHz
6500MHz
6500MHz
6500MHz
6500MHz
6500MHz
6000MHz
6000MHz
6000MHz
5500MHz
5500MHz
5500MHz
5500MHz
4500MHz
4500MHz
4500MHz
4500MHz
4000MHz
4000MHz
4000MHz
4000MHz
3500MHz
3500MHz
3500MHz
3500MHz
3000MHz
3000MHz
3000MHz
3000MHz
2500MHz
2500MHz
2500MHz
2500MHz
2300MHz
2300MHz
2300MHz
2300MHz
LQP02TN4N1S02
p
LQP02TN4N2B02
LQP02TN4N2C02
p
p
p
LQP02TN4N2S02
LQP02TN4N3H02
p
LQP02TN4N3J02
LQP02TN4N3S02
p
p
LQP02TN4N7H02
p
LQP02TN4N7J02
LQP02TN4N7S02
p
p
LQP02TN5N1H02
p
LQP02TN5N1J02
LQP02TN5N1S02
p
p
LQP02TN5N6H02
p
p
LQP02TN5N6J02
LQP02TN5N6S02
p
LQP02TN6N2H02
p
p
LQP02TN6N2J02
LQP02TN6N8H02
p
p
LQP02TN6N8J02
LQP02TN7N5H02
p
p
LQP02TN7N5J02
LQP02TN8N2H02
p
p
LQP02TN8N2J02
LQP02TN9N1H02
p
LQP02TN9N1J02
p
LQP02TN10NH02
p
LQP02TN10NJ02
p
LQP02TN11NH02
p
LQP02TN11NJ02
p
LQP02TN12NH02
p
LQP02TN12NJ02
p
LQP02TN13NH02
p
LQP02TN13NJ02
p
LQP02TN15NH02
p
LQP02TN15NJ02
p
LQP02TN16NH02
p
LQP02TN16NJ02
p
LQP02TN18NH02
p
LQP02TN18NJ02
p
LQP02TN20NH02
p
LQP02TN20NJ02
p
LQP02TN22NH02
p
LQP02TN22NJ02
p
Operating Temperature Range (Self-temperature rise is not included): -55~125℃
For reflow soldering only.
Continued on the following page.
oThis data sheet is applied for CHIP INDUCTORS (CHIP COILS) used for General Electronics equipment for your design.
!Note:
1. This datasheet is downloaded from the website of Murata Manufacturing co., ltd. Therefore, it’s specifications are subject to change or our products in it
may be discontinued without advance notice. Please check with our sales representatives or product engineers before ordering.
2. This datasheet has only typical specifications because there is no space for detailed specifications. Therefore, please approve our product
specifications or transact the approval sheet for product specifications before ordering.
2014.1.14
http://www.murata.com/
RF Inductors (Coils)
5
Data Sheet
Continued from the preceding page.
Inductance
Test Frequency
Self-Resonance
Frequency (min.)
Part Number
Inductance
Rated Current Max. of DC Resistance Q (min.) Q Test Frequency
LQP02TN24NH02
p
24nH ±3%
24nH ±5%
27nH ±3%
27nH ±5%
30nH ±3%
30nH ±5%
33nH ±3%
33nH ±5%
36nH ±3%
36nH ±5%
39nH ±3%
39nH ±5%
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
300MHz
300MHz
300MHz
300MHz
300MHz
300MHz
120mA
120mA
120mA
120mA
90mA
90mA
90mA
90mA
90mA
90mA
90mA
90mA
5.50Ω
5.50Ω
5.50Ω
5.50Ω
6.50Ω
6.50Ω
6.50Ω
6.50Ω
7.00Ω
7.00Ω
7.00Ω
7.00Ω
6
6
6
6
6
6
4
4
4
4
4
4
500MHz
500MHz
500MHz
500MHz
500MHz
500MHz
300MHz
300MHz
300MHz
300MHz
300MHz
300MHz
2000MHz
2000MHz
2000MHz
2000MHz
1800MHz
1800MHz
1800MHz
1800MHz
1600MHz
1600MHz
1600MHz
1600MHz
LQP02TN24NJ02
p
LQP02TN27NH02
p
LQP02TN27NJ02
p
LQP02TN30NH02
p
LQP02TN30NJ02
p
LQP02TN33NH02
p
LQP02TN33NJ02
p
LQP02TN36NH02
p
LQP02TN36NJ02
p
LQP02TN39NH02
p
LQP02TN39NJ02
p
Operating Temperature Range (Self-temperature rise is not included): -55~125℃
For reflow soldering only.
Q-Frequency Characteristics (Typ.)
Inductance-Frequency Characteristics (Typ.)
c
c
100
90
80
70
60
50
40
30
20
10
1000
39nH
30nH
0.2nH
20nH
100
10
1
10nH
1.0nH
3.3nH
5.6nH
5.6nH
3.3nH
2.2nH
1.0nH
2.2nH
10nH
20nH
30nH
0.2nH
39nH
1000
0.1
10
0
10
100
10000
100
1000
10000
Frequency (MHz)
Frequency (MHz)
Caution/Notice
c !
Caution (Rating)
Notice
!
Do not use products beyond the rated current as
this may create excessive heat.
Solderability of Tin plating termination chip might be
deteriorated when low temperature soldering profile
where peak solder temperature is below the Tin melting
point is used. Please confirm the solderability of Tin
plating termination chip before use.
oThis data sheet is applied for CHIP INDUCTORS (CHIP COILS) used for General Electronics equipment for your design.
!Note:
1. This datasheet is downloaded from the website of Murata Manufacturing co., ltd. Therefore, it’s specifications are subject to change or our products in it
may be discontinued without advance notice. Please check with our sales representatives or product engineers before ordering.
2. This datasheet has only typical specifications because there is no space for detailed specifications. Therefore, please approve our product
specifications or transact the approval sheet for product specifications before ordering.
2014.1.14
http://www.murata.com/
LQP02TN3N9S02B 相关器件
型号 | 制造商 | 描述 | 价格 | 文档 |
LQP02TN4N0B02 | MURATA | Inductance | 获取价格 | |
LQP02TN4N0B02# | MURATA | 获取价格 | ||
LQP02TN4N0C02 | MURATA | Inductance | 获取价格 | |
LQP02TN4N0C02# | MURATA | 获取价格 | ||
LQP02TN4N0S02B | MURATA | General Purpose Inductor, 0.004uH, 01005 | 获取价格 | |
LQP02TN4N1B02 | MURATA | Inductance | 获取价格 | |
LQP02TN4N1B02# | MURATA | 获取价格 | ||
LQP02TN4N1C02 | MURATA | Inductance | 获取价格 | |
LQP02TN4N1C02# | MURATA | 获取价格 | ||
LQP02TN4N2B02 | MURATA | Inductance | 获取价格 |
LQP02TN3N9S02B 相关文章
- 2024-09-20
- 5
- 2024-09-20
- 8
- 2024-09-20
- 8
- 2024-09-20
- 6