
Allicdata Part #: | IMS05ST3R3K-ND |
Manufacturer Part#: |
IMS05ST3R3K |
Price: | $ 0.00 |
Product Category: | Inductors, Coils, Chokes |
Manufacturer: | Vishay Dale |
Short Description: | IMS-5 3.3 10% RJ4 |
More Detail: | 3.3µH Shielded Molded Inductor 480mA 350 mOhm Max ... |
DataSheet: | ![]() |
Quantity: | 1000 |
1 +: | 0.00000 |
Q @ Freq: | 44 @ 7.9MHz |
Height - Seated (Max): | -- |
Size / Dimension: | 0.162" Dia x 0.410" L (4.11mm x 10.41mm) |
Supplier Device Package: | Axial |
Package / Case: | Axial |
Mounting Type: | Through Hole |
Features: | -- |
Inductance Frequency - Test: | 7.9MHz |
Operating Temperature: | -55°C ~ 105°C |
Ratings: | -- |
Frequency - Self Resonant: | 85MHz |
Series: | IMS-5 |
DC Resistance (DCR): | 350 mOhm Max |
Shielding: | Shielded |
Current - Saturation: | -- |
Current Rating: | 480mA |
Tolerance: | ±10% |
Inductance: | 3.3µH |
Material - Core: | Iron Powder |
Type: | Molded |
Part Status: | Obsolete |
Packaging: | -- |
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Fixed inductors are components which produce a constant amount of inductance in a specific circuit. They are often used to “decouple” one part of a circuit from another; for example, in power supplies to prevent unwanted feedback or in radio transmissions to reduce interference. One example of a fixed inductor is the IMS05ST3R3K, which is a part of the STMicroelectronics family of components.
The IMS05ST3R3K is a radial lead fixed inductor. It is designed as a low-profile, surface-mount (SMT) solution for ease of installation and can be easily incorporated into an existing electronics application. The nominal inductance value of the IMS05ST3R3K is 3.3 uH, although it can be changed through adjustment of the SMT pad size. The maximum rated ripple current for the IMS05ST3R3K is 35 mA over an operating frequency range of 100 kHz to 1 MHz. The operating temperature range of the component is from -40 to +85°C.
The IMS05ST3R3K is a multi-layer stack inductor. It is composed of two layers of different layers combined with a conductor in between. The two layers are a dielectric layer and a copper layer; these two layers are also referred to as a “core” and “winding”, respectively. The conductor between the two layers forms a loop, which is the basis of an inductive circuit. This loop allows electric current to flow in a circular motion, rather than in a single-directional current. As the current flows in the loop, an electromagnetic field is created; this field is the basis for producing the inductance.
The working principle of the IMS05ST3R3K is based on Faraday\'s law of induction, which states that a change in magnetic flux will induce a voltage in a conductor. In the case of the IMS05ST3R3K, the loop formed by the conductor in between the two layers creates a constant magnetic flux, which in turn produces an induced voltage. This voltage is the basis for the inductance produced by the IMS05ST3R3K. The exact value of the inductance is determined by the number of turns in the loop, the number of layers and the material used in the core and winding.
The IMS05ST3R3K has a number of applications in electronics. It is used in power supplies for decoupling of signal lines, to reduce interference in radio transmissions and to generate oscillations. It is also used in portable electronics such as smartphones and tablets, to reduce the effect of contact noise when connecting the device to other devices. Its low-profile design makes it suitable for use in applications with limited space and its wide range of operating temperature ensures it can be used in a variety of environmental conditions.
In summary, the IMS05ST3R3K is an example of a fixed inductor or multi-layer stack inductor. It is composed of two layers of different layers and a conductor in between which form a loop, which is used to produce a constant inductance. It has a wide range of applications, such as power supplies, radio transmissions, and portable electronics, and its low-profile design makes it suitable for use in limited space. The IMS05ST3R3K is one of the most popular fixed inductors on the market today.
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IMS05BH150K | Vishay Dale | 0.0 $ | 1000 | IMS-5 15 10% B0815H Shiel... |
IMS05EB392K | Vishay Dale | 0.0 $ | 1000 | IMS-5 3.9K 10% EB E23.9mH... |
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IMS05WDBH471K40 | Vishay Dale | 0.0 $ | 1000 | IMS-5WD-40 470 10% B08470... |
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IMS02WWDEB100K40 | Vishay Dale | 0.0 $ | 1000 | IMS-2WWD-40 10 10% EB E21... |
IMS02WWDM9R18K40 | Vishay Dale | 0.0 $ | 1000 | IMS-2WWD-40 .18 10% M2918... |
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IMS05BH390K | Vishay Dale | 0.0 $ | 1000 | IMS-5 39 10% B0839H Shiel... |
IMS05RUR15J | Vishay Dale | 0.0 $ | 1000 | IMS-5 .15 5% R36150nH Shi... |
IMS05SH561K | Vishay Dale | 0.0 $ | 1000 | IMS-5 560 10% RJ1560H Shi... |
IMS05ST3R3K | Vishay Dale | 0.0 $ | 1000 | IMS-5 3.3 10% RJ43.3H Shi... |
IMS05WDEBR22K40 | Vishay Dale | 0.0 $ | 1000 | IMS-5WD-40 .22 10% EB E22... |
IMS05WDSH272K40 | Vishay Dale | 0.0 $ | 1000 | IMS-5WD-40 2.7K 10% RJ12.... |
IMS02SH1R8J | Vishay Dale | 0.0 $ | 1000 | IMS-2 1.8 5% RJ11.8H Shie... |
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IMS05BH330K | Vishay Dale | 0.0 $ | 1000 | IMS-5 33 10% B0833H Shiel... |
IMS05BH682J | Vishay Dale | 0.0 $ | 1000 | IMS-5 6.8K 5% B086.8mH Sh... |
IMS05SH330K | Vishay Dale | 0.0 $ | 1000 | IMS-5 33 10% RJ133H Shiel... |
IMS05WDBH221J40 | Vishay Dale | 0.0 $ | 1000 | IMS-5WD-40 220 5% B08220H... |
IMS05WDST470K40 | Vishay Dale | 0.0 $ | 1000 | IMS-5WD-40 47 10% RJ447H ... |
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IMS02WWDBH271K40 | Vishay Dale | 0.0 $ | 1000 | IMS-2WWD-40 270 10% B0827... |
FIXED IND 10UH 590MA 350 MOHM10H Unshiel...

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