NTC Thermistor Resistors 33D-5 0.5A 33 Ohm Inrush Current Limiter Temperature Sensors 50D-5
Brand Name:AMPFORT
Certification:CQC,UL,TUV
Model Number:33D-5
Minimum Order Quantity:10000PCS
Delivery Time:10 workdays
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NTC Thermistor Resistors 33D-5 0.5A 33 Ohm Inrush Current Limiter Temperature Sensors 50D-5
Applications Of The NTC Thermistor Resistors 33D-5
Inrush current limiting, e.g. in switch-mode power supplies, soft-start motors
Features Of The NTC Thermistor Resistors 33D-5
* Leaded and coated NTC thermistors
* Tinned copper wire, kinked
* Coating material flame retardant to UL 94 V-0
* Highly stable electrical characteristics
Approvals Of The NTC Thermistor Resistors 33D-5
* UL 1434
* TUV
* CQC
Specification Of The NTC Thermistor Resistors 33D-5
| P/N | Rated zero power resistance @25C(Ohm) | Max stable current @25C(A) | Residual resistance at max current @25C(A) | 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 |
Why should use power NTC thermistors
In order to prevent the surge current that occurs at the moment of
power-on in the electronic circuit, a power NTC thermistor is
connected in series in the power supply circuit, which can
effectively suppress the surge current during power-on, and after
the surge current suppression effect is completed, due to the
Through the continuous effect of its current, the resistance value
of the power type thermistor will drop to a very small degree, and
the power it consumes can be ignored, and it will not affect the
normal operating current, so the power type thermistor is used in
the power circuit. NTC thermistor is the most concise and effective
way to suppress the power-on surge current to protect electronic
equipment from damage.
Selection criteria for power NTC thermistors
1. The maximum operating current of the resistor> the operating
current of the actual power circuit
2. Nominal resistance value of power resistors
R≥1.414*E/Im
where E is the line voltage Im is the surge current
About conversion power supply, inverter power supply, switching
power supply, UPS power supply, Im=100 times the operating current
About the filament, heater and other circuits Im=30 times the
operating current
3. The larger the B value, the smaller the remaining resistance and
the smaller the temperature rise during operation.
4. Generally speaking, the greater the product of the time constant
and the dissipation factor, the greater the thermal capacity of the
resistor and the stronger the resistor's ability to suppress inrush
current.
NTC Negative Temperature Coefficient Thermistor Terminology
Zero power resistance value RT (Ω)
RT refers to the resistance value measured by the measurement power
that causes the change in resistance value to be negligible
relative to the total measurement error at the specified
temperature T.
The relationship between resistance value and temperature change
is:
RT = RN expB(1/T – 1/TN)
RT : NTC thermistor resistance value at temperature T (K).
RN: NTC thermistor resistance value at extra temperature TN (K).
T: Regular temperature (K).
B: The data constant of the NTC thermistor, also known as the
thermal index.
exp : The exponent to the base e of the natural number ( e =
2.71828 … ).
This relationship is an empirical formula and only has a certain
accuracy within a limited range of the additional temperature TN or
the additional resistance value RN, since the material constant B
itself is also a function of the temperature T.
Additional zero power resistor value R25 (Ω)
According to the national standard rules, the additional zero-power
resistance value is the resistance value R25 of the NTC thermistor
measured at the reference temperature of 25 ℃, and this resistance
value is the nominal resistance value of the NTC thermistor.
Generally speaking, the resistance value of the NTC thermistor also
refers to this value.
Maximum steady state current
The maximum continuous current allowed to be applied to the
thermistor at an ambient temperature of 25°C.
Approximate resistance value (Ω) at maximum current at 25°C
The approximate resistance value at the maximum current at 25°C is
the remaining resistance value of the thermistor when the allowed
maximum continuous current is applied to the thermistor at an
ambient temperature of 25°C, also known as the maximum remaining
resistance value.
NTC Thermistor Resistors 33D-5 0.5A 33 Ohm Inrush Current Limiter Temperature Sensors 50D-5
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