
Allicdata Part #: | LQP03TN24NJ02D-ND |
Manufacturer Part#: |
LQP03TN24NJ02D |
Price: | $ 0.01 |
Product Category: | Inductors, Coils, Chokes |
Manufacturer: | Murata Electronics North America |
Short Description: | FIXED IND 24NH 140MA 2.3 OHM SMD |
More Detail: | 24nH Unshielded Thin Film Inductor 140mA 2.3 Ohm M... |
DataSheet: | ![]() |
Quantity: | 1000 |
15000 +: | $ 0.00803 |
DC Resistance (DCR): | 2.3 Ohm Max |
Height - Seated (Max): | 0.013" (0.33mm) |
Size / Dimension: | 0.024" L x 0.012" W (0.60mm x 0.30mm) |
Supplier Device Package: | 0201 (0603 Metric) |
Package / Case: | 0201 (0603 Metric) |
Mounting Type: | Surface Mount |
Inductance Frequency - Test: | 500MHz |
Operating Temperature: | -55°C ~ 125°C |
Ratings: | -- |
Frequency - Self Resonant: | 2GHz |
Q @ Freq: | 12 @ 500MHz |
Series: | LQP03 |
Shielding: | Unshielded |
Current - Saturation: | -- |
Current Rating: | 140mA |
Tolerance: | ±5% |
Inductance: | 24nH |
Material - Core: | Non-Magnetic |
Type: | Thin Film |
Part Status: | Active |
Packaging: | Tape & Reel (TR) |
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Fixed inductors are passive electronic components used to generate an inductance in a circuit. Their primary purpose is to decrease the current in a circuit, usually when reaching a certain frequency. The primary purpose of the LQP03TN24NJ02D is to act as a low-loss wide-band inductor for applications in high frequency circuits.
LQP03TN24NJ02D fixed inductors are generally used for high frequency RF circuit, power management, and cell phone applications. The inductor helps in the regulating of the power from a power source to the load, as well as filtering out unwanted currents. It can help to decrease EMI (electromagnetic interference) and RFI (radio frequency interference) emanating from the load. These solid-state inductors can provide a high-Q factor over a wide frequency range of 9kHz to 6GHz.
The working principle of the LQP03TN24NJ02D fixed inductor involves three main concepts. The first is known as Faraday’s Law, which states that a varying magnetic field produces a voltage across a conductor. The second concept is known as Lenz’s Law, which states that a magnetic field will always oppose the changes in current flow that produces it. Finally, there is Ohm’s Law, which states that voltage across a conductor will be equal to the current times the resistance.
To understand how the LQP03TN24NJ02D fixed inductor works, we must first understand how a current flows in a coil. A current in a coil creates an outward flow of magnetic field, however, the current also creates a force that opposes the current in a coil. This force is known as inductance. The inductance is determined by the size of the coil, the amount of current that it delivers, and the materials used in its construction. The inductor’s design is optimized to create a certain amount of inductance over a frequency range.
The inductor creates an impedance in the circuit, meaning that the higher the frequency, the lower the impedance. This causes the current to reduce, which in turn results in a decrease in the current flowing through the inductor. This is known as the inductive effect. The inductor’s frequency response is also affected by its internal resistance and capacitance. Internal resistance affects the higher frequencies while capacitance affects the lower frequencies.
The LQP03TN24NJ02D fixed inductor combines high inductance and low DC resistance, which allows for a high Q-factor over a wide frequency range. This makes it ideal for applications where the signal needs to be filtered or amplified. The inductor is also highly efficient, with a minimal amount of energy being lost due to its design. The inductor’s small size and low profile allow it to be used in high frequency applications where space is at a premium.
In summary, the LQP03TN24NJ02D fixed inductor is a high-performance device designed to reduce current in a circuit, filter unwanted EMI and RFI, provide a high-Q factor over a wide frequency range, and offer a small size and low profile. Its application field includes high frequency RF circuit, power management, and cell phone applications, and its working principle is based on Faraday’s Law, Lenz’s Law, and Ohm’s Law.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
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LQP03TN2N1B02D | Murata Elect... | -- | 1000 | FIXED IND 2.1NH 600MA 150... |
LQP03TN0N8C02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 0.8NH 800MA 80 ... |
LQP02TN3N1B02D | Murata Elect... | 0.02 $ | 1000 | FIXED IND 3.1NH 180MA 1.3... |
LQP02TQ6N2J02D | Murata Elect... | 0.02 $ | 1000 | FIXED IND 6.2NH 220MA 1.3... |
LQP02HQ5N6J02E | Murata Elect... | 0.04 $ | 1000 | FIXED IND 5.6NH 300MA 400... |
LQP02HQ10NH02L | Murata Elect... | 0.04 $ | 1000 | 01005 (0402) 0.3 0.02MM 1... |
LQP03TN1N5C02D | Murata Elect... | -- | 1000 | FIXED IND 1.5NH 600MA 150... |
LQP03TG6N2H02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 6.2NH 200MA 1.1... |
LQP03HQ2N4C02D | Murata Elect... | 0.04 $ | 1000 | FIXED IND 2.4NH 600MA 120... |
LQP03HQ4N3H02D | Murata Elect... | 0.04 $ | 1000 | FIXED IND 4.3NH 500MA 170... |
LQP03TN22NJ02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 22NH 150MA 1.9 ... |
LQP02TN18NH02D | Murata Elect... | 0.02 $ | 1000 | FIXED IND 18NH 140MA 3.5 ... |
LQP02TQ2N2C02D | Murata Elect... | 0.02 $ | 1000 | FIXED IND 2.2NH 380MA 300... |
LQP02HQ1N7C02L | Murata Elect... | 0.02 $ | 1000 | 01005 (0402) 0.3 0.02MM 1... |
LQP02HQ3N7B02L | Murata Elect... | -- | 1000 | 01005 (0402) 0.3 0.02MM 3... |
LQP03TN27NJ02D | Murata Elect... | 0.01 $ | 60000 | FIXED IND 27NH 140MA 2.3 ... |
LQP03TN6N2H02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 6.2NH 300MA 600... |
LQP03HQ3N3C02D | Murata Elect... | 0.04 $ | 1000 | FIXED IND 3.3NH 500MA 170... |
LQP03HQ2N1B02D | Murata Elect... | 0.04 $ | 1000 | FIXED IND 2.1NH 600MA 120... |
LQP03TG1N3C02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 1.3NH 600MA 150... |
LQP02HQ9N1H02L | Murata Elect... | 0.04 $ | 1000 | 01005 (0402) 0.3 0.02MM 9... |
LQP02HQ2N5B02E | Murata Elect... | 0.04 $ | 1000 | FIXED IND 2.5NH 450MA 200... |
LQP03TN2N9B02D | Murata Elect... | 0.01 $ | 15000 | FIXED IND 2.9NH 500MA 200... |
LQP03TQ1N8B02D | Murata Elect... | 0.01 $ | 15000 | FIXED IND 1.8NH 650MA 100... |
LQP03TN1N7B02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 1.7NH 600MA 150... |
LQP03TNR12H02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 120NH 80MA 12 O... |
LQP03TQ0N8W02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 0.8NH 1A 50 MOH... |
LQP03HQ4N0B02D | Murata Elect... | 0.04 $ | 1000 | FIXED IND 4NH 500MA 170 M... |
LQP02TN7N5J02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 7.5NH 140MA 2 O... |
LQP02TN0N5B02D | Murata Elect... | 0.02 $ | 1000 | FIXED IND 0.5NH 320MA 500... |
LQP02TQ4N7J02D | Murata Elect... | 0.02 $ | 1000 | FIXED IND 4.7NH 270MA 1 O... |
LQP02HQ3N5B02L | Murata Elect... | 0.04 $ | 1000 | 01005 (0402) 0.3 0.02MM 3... |
LQP02HQ9N1H02E | Murata Elect... | -- | 1000 | FIXED IND 9.1NH 300MA 500... |
LQP03TQ13NJ02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 13NH 250MA 690 ... |
LQP03TQ8N2H02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 8.2NH 250MA 650... |
LQP03HQ0N7W02D | Murata Elect... | -- | 1000 | FIXED IND 0.7NH 1.1A 40 M... |
LQP03TG2N9B02D | Murata Elect... | 0.01 $ | 1000 | FIXED IND 2.9NH 450MA 250... |
LQP02TQ0N9C02D | Murata Elect... | 0.02 $ | 1000 | FIXED IND 0.9NH 580MA 150... |
LQP02HQ5N6J02L | Murata Elect... | 0.02 $ | 1000 | 01005 (0402) 0.3 0.02MM 5... |
LQP02HQ2N8C02E | Murata Elect... | 0.04 $ | 1000 | FIXED IND 2.8NH 450MA 200... |
FIXED IND 10UH 590MA 350 MOHM10H Unshiel...

FIXED IND 22NH 1.4A 70 MOHM SMD22nH Unsh...

FIXED IND 13NH 600MA SMD13nH Unshielded ...

FIXED IND 680UH 210MA 4.6 OHM680H Unshie...

FIXED IND 470UH 1.3A 280 MOHM TH470H Uns...

FIXED IND 8.2UH 165MA 2.2 OHM TH8.2H Uns...
