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2Pin Radial Leaded NTC Current Limiting Power Thermistor 18D-5 16D-5 16Ohm 5mm 0.6A
Product Details:
| Place of Origin: | DONGGUAN,GUANGDONG,CHINA |
| Brand Name: | AMPFORT |
| Certification: | UL,ROHS |
| Model Number: | 16D-5 |
Payment & Shipping Terms:
| Minimum Order Quantity: | 10000PCS |
|---|---|
| Price: | 0.02~0.025 USD/PC |
| Packaging Details: | Bulk |
| Delivery Time: | 10 workdays |
| Payment Terms: | T/T, Western Union, MoneyGram |
| Supply Ability: | 100KKPCS Per month |
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Detail Information |
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| Name: | Power Thermistor | Resistance: | 16 Ohm |
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| Max Current: | 0.6A | B25/85: | 2800 |
| Package: | Radial,2pin | Resin: | PF |
| Color: | Black | Pin: | Tin-plated Steel Wire |
| Lead Shape: | In-forming | Type: | Power |
| High Light: | 2Pin Current Limiting Thermistor,NTC Current Limiting Thermistor,Current Limiting Power NTC Thermistor |
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Product Description
2Pin Radial Leaded NTC Current Limiting Power Thermistor 18D-5 16D-5 16Ohm 5mm 0.6A
R25(Ω): 0.7~400
[Product Features] Small size, high power, strong ability to suppress surge current
[Product use] UPS power supply, USB wiring board, power adapter, picture tube, lighting fixture, lighting distribution box, ballast, etc.
Features Of The Power Thermistor
● Small size, high power, and strong ability to suppress surge current.
● Quick response.
● The material constant (B value) is large and the residual resistance is small.
● Long life and high reliability.
● Complete series, wide application range.
Specification Of The Power Thermistor
| P/N | D | T | d | F | L | ||
| Tin-plated copper wire | Tin-plated steel wire | Normal | Cutting | ||||
| MF72 16D-5 | ≤7 | ≤4.5 | 0.55±0.06 | 0.5±0.06 | 5.0±1.0 | ≥25 | Customization |
| P/N | Rated zero power resistance | Max stable current | Residual resistance | B25/85(K) | Thermal time constant(s) | Dissipation factor(mw/C) | Certification | Operating temperature |
| MF72 16D-5 | 16 | 0.6 | 1.628 | 2800 | ≤18 | ≥6 | -40~150 | UL |
Series Parameters Of The Power Thermistor
| P/N | Rated zero power resistance | Max stable current | Residual resistance | B25/85(K) | Thermal time constant(s) | Dissipation factor(mw/C) | Certification | Operating temperature |
| 5D-5 | 5 | 1 | 0.584 | 2700 | ≤18 | ≥6 | -40~150 | CQC UL CUL TUV |
| 6D-5 | 6 | 0.7 | 0.675 | 2700 | ≥6 | -40~150 | TUV | |
| 7D-5 | 7 | 0.7 | 0.766 | 2700 | ≥6 | -40~150 | TUV | |
| 8D-5 | 5 | 0.7 | 0.857 | 2700 | ≥6 | -40~150 | TUV | |
| 10D-5 | 10 | 0.7 | 1.039 | 2700 | ≥6 | -40~150 | CQC UL CUL TUV | |
| 12D-5 | 12 | 0.6 | 1.235 | 2800 | ≥6 | -40~150 | TUV | |
| 15D-5 | 15 | 0.6 | 1.530 | 2800 | ≥6 | -40~150 | CQC UL CUL TUV | |
| 16D-5 | 16 | 0.6 | 1.628 | 2800 | ≥6 | -40~150 | TUV | |
| 18D-5 | 18 | 0.6 | 1.824 | 2800 | ≥6 | -40~150 | TUV | |
| 20D-5 | 20 | 0.6 | 2.020 | 2800 | ≥6 | -40~150 | CQC UL CUL TUV | |
| 22D-5 | 22 | 0.6 | 2.060 | 2800 | ≥6 | -40~150 | CQC UL CUL TUV | |
| 25D-5 | 25 | 0.5 | 2.123 | 2800 | ≥6 | -40~150 | TUV | |
| 30D-5 | 30 | 0.5 | 2.227 | 2800 | ≥6 | -40~150 | CQC UL CUL TUV | |
| 33D-5 | 33 | 0.5 | 2.436 | 2800 | ≥6 | -40~150 | CQC UL CUL TUV | |
| 50D-5 | 50 | 0.4 | 2.653 | 3000 | ≥6 | -40~150 | CQC UL CUL TUV | |
| 60D-5 | 60 | 0.3 | 2.753 | 3000 | ≥6 | -40~150 | CQC UL CUL TUV | |
| 200D-5 | 200 | 0.1 | 18.7 | 3000 | ≥6 | -40~150 | UL |
In the switching power supply, the main parameters of the power thermistor (NTC)
1. Rated zero-power resistance (R25): also called the nominal resistance value, unless otherwise specified, refers to the resistance value of the power NTC thermistor measured at an ambient temperature of 25°C. Commonly used resistance values are 2.5Ω, 5Ω, 10Ω, etc. The commonly used resistance errors are: ±15%, ±20%, ±30%, etc.
2. Maximum steady-state current (A): The maximum current that can be continuously applied to the power NTC thermistor at the nominal ambient temperature.
3. Maximum allowable capacitance (joule energy) (UF): the maximum allowable capacitance value of a capacitor connected to a power NTC thermistor under load.
4. Operating temperature range (℃): The ambient temperature range that the power NTC thermistor can work continuously under zero power state, which is determined by the upper limit category temperature and the lower limit category temperature.
Briefly introduce the function and selection of power thermistor (NTC) in suppressing surge current in switching power supply:
1. Selection of R25 resistance value of power NTC thermistor.
The maximum starting current value allowed by the circuit determines the resistance value of the power NTC thermistor.
Assuming that the rated input of the power supply is 220VAC, the internal resistance is 1Ω, and the maximum allowable starting current is 60A, then the minimum resistance value of the selected power NTC in the initial state is: Rmin=(220×1.414/60)-1=4.2( Ω)
For this application, we recommend that the resistance value of R25 of the power NTC thermistor is ≧4.2Ω.
2. Selection of the maximum steady-state current of the power NTC thermistor.
The selection principle of the maximum steady-state current should satisfy: the actual working current of the circuit < the maximum steady-state current of the power NTC thermistor.
Many power supplies are of wide-voltage design (AC 85V-264V), but the power of the product is fixed, so it should be noted that when the input voltage is low, the operating current is much higher than when the input voltage is high.
According to the formula: P=U*I , under the same power conditions, such as when the input voltage is 85V, the working current is 3 times that when the input voltage is 264V. Therefore, the actual working current of the circuit is calculated at the lowest voltage.
3. Selection of the maximum allowable capacitance (joule energy) of the power NTC thermistor.
For a certain type of power NTC thermistor, the size of the filter capacitor that is allowed to be connected is strictly required, and this value is also related to the maximum rated voltage.
The power-on surge is caused by the charging of the capacitor, so the capacity of the power NTC thermistor to withstand surge current is usually evaluated by the allowable access capacitance under a given voltage value.
For a specific power NTC thermistor, the maximum Joule energy that can be tolerated has been determined.
Joule energy calculation formula of power NTC thermistor: E=(1/2)*C*(U^2)
It can be seen from the above formula that the allowable access capacitance value is inversely proportional to the square of the rated voltage. Simply put, the larger the input voltage, the smaller the maximum capacitance allowed to be connected, and vice versa.
The specifications of power NTC thermistor products generally define the maximum capacitance value that is allowed to be connected under 220VAC.
Assume that the maximum rated voltage of an application condition is 420VAC, and the filter capacitor value is 200μF. According to the above energy formula, it can be calculated that the equivalent capacitance value under 220VAC should be: 200×(420)2/(220)2=729μF, so when selecting the model, it is necessary to select the power with a capacitance value greater than 729μF under 220VAC Type of NTC thermistor.