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Safety Capacitors

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8853622100131
WURTH
680pF ±10% 1808
Quantity: 1342
Ship Date: 3-12 working days
5+ $0.5386
50+ $0.4826
250+ $0.4826
500+ $0.4739
1000+ $0.4739
2000+ $0.4739
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x $0.5386
Ext. Price: $10.77
MOQ: 20
Mult: 5
8853620100111
WURTH
47pF ±5% 1808
Quantity: 1536
Ship Date: 3-12 working days
5+ $0.6758
50+ $0.6056
250+ $0.6056
500+ $0.5947
1000+ $0.5947
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Ext. Price: $10.13
MOQ: 15
Mult: 5
8853620100171
WURTH
100pF ±5% 1808
Quantity: 487
Ship Date: 3-12 working days
1+ $0.7603
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100+ $0.6812
250+ $0.6812
500+ $0.6691
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Ext. Price: $9.88
MOQ: 13
Mult: 1
8853522110021
WURTH
680pF ±10% 1812
Quantity: 218
Ship Date: 3-12 working days
1+ $0.8184
50+ $0.7857
100+ $0.7333
250+ $0.7202
500+ $0.7202
1000+ $0.7202
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x $0.8184
Ext. Price: $9.82
MOQ: 12
Mult: 1

Safety Capacitors

A safety capacitor, also known as a suppressor capacitor, is a type of capacitor designed to protect electronic circuits from voltage spikes and transient voltages that can cause damage or malfunction. Here's a concise introduction to safety capacitors:

Definition:
A safety capacitor is an electrical component that stores energy in an electric field and is used to suppress voltage spikes and protect sensitive electronic components from electrical stress.

Function:
1. Voltage Suppression: It absorbs excess voltage that may exceed the normal operating range of a circuit, preventing damage to components.
2. Transient Voltage Protection: It helps to mitigate the effects of transient voltages, which are short-lived but potentially harmful spikes in voltage.
3. EMI/RFI Filtering: In some applications, safety capacitors are used to filter out electromagnetic interference (EMI) or radio frequency interference (RFI), improving the signal quality.

Applications:
1. Power Supplies: They are commonly used in power supply circuits to protect against voltage surges.
2. Motors and Transformers: Safety capacitors can be found in motor and transformer circuits to protect against voltage spikes that may occur during startup or load changes.
3. Telecommunications: In telecommunications equipment, they help to filter out noise and protect sensitive components from voltage fluctuations.
4. Automotive Electronics: They are used in automotive systems to protect electronic control units (ECUs) and other sensitive electronics from voltage spikes caused by ignition systems or other high-energy events.

Selection Criteria:
1. Capacitance Value: The capacitance should be chosen based on the specific requirements of the circuit, considering the amount of energy that needs to be stored or the level of voltage suppression required.
2. Voltage Rating: The capacitor must have a voltage rating that exceeds the maximum voltage it will experience to ensure it does not fail under high-voltage conditions.
3. Temperature Range: The capacitor should be able to operate within the temperature range of the application without degradation.
4. Physical Size and Mounting: The size and mounting options should be compatible with the available space in the circuit design.
5. Reliability and Lifespan: High-quality safety capacitors are designed for long-term reliability and should have a specified lifespan that meets the application's needs.

When selecting a safety capacitor, it's important to consider the specific requirements of the application and choose a capacitor that meets or exceeds those requirements to ensure optimal performance and protection.
Please refer to the product rule book for details.