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Smart Electronic PTC Thermistor High reliability For Energy-saving Lamps

Categories PTC Thermistor
Place of Origin: Dongguan,Guangdong,China
Brand Name: UCHI
Certification: UL,SGS,ROHS
Model Number: ZD
MOQ: 5000PCS
Price: Negotiable
Packaging Details: Bulk
Delivery Time: 7 working days
Payment Terms: T/T,Paypal,Western Union,Money gram
Supply Ability: 600,000,000PCS Per Month
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    Smart Electronic PTC Thermistor High reliability For Energy-saving Lamps

    Smart PTC Thermistors Used For Energy-saving Lamps


    Quick Details


    1. Used in the frequent-switching,typical switching life can pass over 100,000 times;
    2. High reliability, good performance of safety and stability;
    3. Wide operating temperature range;
    -25 ~ +125℃(when V=0V)
    0~ +60℃(when V=Vmax)
    4. The withstanding voltage can reach to over 420-1000VAC;
    5. The resistance will not drift in normal temperature.
    6. Small dimension
    7. Complete specifications
    8. Stable delayed time


    Description


    ZD Smart PTC series is our patent product with the patent number of, mainly applied in the time-delay circuit of Electronic Ballasts and energy-saving lamp, to preheat the filament.

    Application
    It applies in the over-current overload and short circuit protection of transformers, battery charger, switches, switch power supply, adaptor, meter, instrumentation, apparatus, electronic coils, control panels, air conditioner, automotive electron, etc.
    Specification
    PTC Thermistor outline and dimension (mm)
    PTC Thermistor for Overload Over-current Protection 265V/250V Series Data

    Model Number

    Withstanding Voltage

    (V)

    Voltage of the Tube applicable

    (Reference)(V)

    Dimension(mm)

    Wattage of the compact fluorescent Lamp Applicable

    (Reference)

    (W)

    Dmax

    Tmax

    A

    d

    ZD1-070906/048018

    ≥1000

    45±5

    9.5


    7.5

    5±1

    0.6

    7W lamps

    ZD1-070906/046016

    60±5

    9W,10 W Lamps

    ZD1-071406/046016

    90±10

    11W,13 W Lamps

    ZD1-071406/041025

    90±10

    ZD1-071456/047016

    95±5

    15W,18 W Lamps

    ZD1-071506/043515

    100±5

    ZD1-071506/052014

    105±5

    20W,26W Lamps

    ZD1-071505/062013

    105±5

    ZD1-071756/054014

    105±5

    20W,30W Lamps

    ZD1-071756/057016

    105±5

    ZD1-070906/052014

    60±5

    18 W Electronic Ballasts

    ZD1-071406/062013

    85±5

    30W Electronic Ballasts

    ZD1-071505/052012

    100±5

    34W Electronic Ballasts

    ZD1-101805/072013

    105±5

    12.5

    7.8

    7.5±1

    0.75

    36W,40W Electronic Ballasts

    ZD1-102055/055012

    165±5

    T5 28W Electronic Ballasts

    ZD1-102255/052512

    165±5

    T5 28W Electronic Ballasts

    Note: If not specified, Resistance @25C (R25) tolerance shall be +/-25%.


    Reference information in selecting PTC thermistor over-current protection devices for overcurrent and overload protection.


    1) Maximum operating voltage


    PTC Thermistor over-current protection device is connected in series in the circuit , In normal operating state, only a small portion voltage is on PTC thermistor protector. When PTC thermistor current limiting devices is in high resistance state, it must bear almost all the power voltage. Therefore in PTC thermistor protector model selection, it must have sufficient high operating voltage, and also power voltage fluctuation must be taken into consideration.


    2) Rated current ( Non-trip current) and Switching current (Trip current)


    The PTC thermistor over-current protection device should have sufficient high rated current (that current at which the PTC thermistor protector will under no circumstances turn off) within the suitable voltage class. Consider whether the overall layout of the circuit can handle the increased power for the short time until the PTC thermistor protector reduces it. Here a worst case estimate is necessary. Rated current ( Non-trip current) and Switching current (Trip current) depend on the ambient temperature. So, as the worst case for the rated current, the maximum permissible temperature for the application should be taken, and for the switching current the lowest possible ambient temperature. In order to get reliable switching function, tripping current should be at least twice of non-trip current.


    3) Maximum current permissible in maximum operating voltage


    When PTC Thermistor over-current protection device is required for protective function, it needs to check whether there is the case that the maximum permissible current, which has been listed in data sheet, has been exceeded. Overloading the PTC thermistor protector by too high a switching current must be avoided, it may lead to PTC thermistor protector destroyed, or early failure.


    4)Selection of Reference temperature (also called Switch temperature or Curie temperature)


    We can offer PTC thermistor for over-current protection with reference temperature 80 ℃, 100 ℃, 120 ℃, 140 ℃. The rated current (non-trip current) depends on reference temperature and ceramic body diameter. In consideration of cutting down cost, high reference temperature and small dimension PTC Thermistor current limiting devices shall be more economical, but it may leads to higher PTC thermistor surface temperature, and need to check whether it will cause undesired unfavorable effects. Generally, reference temperature should be 20--40 ℃ higher than maximum operating ambient temperature.


    5) Application environmental effects


    If there is any contact with chemicals or use of potting or sealing compounds, all due care should be taken. The reduction of the titanate ceramic that can be caused by chemical effects on the surface of the thermistor and the resulting formation of low-resistance conducting paths. And the altered thermal relations in the sealant can lead to local overheating of the PTC thermistor protector and thus to failure.


    An example of PTC thermistor over-current protection devices part selection for overload protection of power transformer.
    An transformer has primary voltage 220V, secondary voltage 16V, secondary current 1.5A , primary current 330mA in abnormal condition, it shall enter into protective state within 10 minutes. Operating ambient temperature: -10C--+40C , temperature may rise 15--20C in normal operating state. PTC Thermistor will be installed near transformer. Please select an appropriate PTC thermistor part for primary protection.


    1) Determine maximum operating voltage


    Operating voltage 220V, considering power fluctuation, maximum operating voltage should be
    220V x (1+20% ) =264V
    Maximum operating voltage shall be 265V.


    2) Determine non-trip current


    According to calculation and actual measurement, primary current is 125mA in transformer normal operation. In consideration the ambient temperature in installation position may reach to 60℃ , Non-trip current in 60℃ should be 130--140mA.


    3) Determine trip current


    As the ambient temperature in PTC thermistor protector installation position may reach -10 ℃ , non trip current in -10 ℃ should be 320-330mA, tripping time within 5 minutes.


    4) Determine rated zero power resistance at 25 centigrade. R25


    PTC thermistor is in series in the primary circuit, the voltage decreasing should be possibly small, the heating power of PTC Thermistor itself also maintain possibly small. Generally, the voltage decreasing should be less than total power voltage 1%. We can get R25 through calculation
    220V X 1% ÷125mA=17.6Ω


    5) Determine maximum current


    Trough practical measurement, primary current can reach 500mA in transformer secondary circuit in short circuit state. If considering that larger current may pass through PTC thermistor in the state of primary coil partial short circuit. The maximum current should be more than 1A .


    6) Determine reference temperature and dimension of PTC thermistor over-current protection device


    Maximum ambient temperature in PTC thermistor protector installation position may reach 60 ℃ , reference temperature should be 40 ℃ higher than that, then the reference temperature can be 100 ℃ . In considering cutting down cost, also PTC thermistor is not installed in the transformer windings coil, higher surface temperature won't have unfavorable effect to transformer, therefore reference temperature can also be 120 ℃ , and then the diameter of PTC Thermistor can be smaller.


    7) Determine PTC thermistor over-current protection device part number.


    Based on the above technical requirement, in reference of our technical data, AMZ11-10P15RH265 shall be more appropriate.
    Maximum operating voltage 265V, rated zero power resistance at 25C (R25) 15 Ω±20% , non-trip current 140mA , trip current 350 mA , maximum current 1.5A , reference temperature 120 ℃ , diameter 11mm .


    Competitive Advantage:,


    1. Factory supply directly

    2. Completed certificates such as UL,VDE,SGS,etc and high quality available

    3. Quick delivery

    4. Best after-sales services

    5. OEM & ODM available


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