FK18X7R1C224K - Brand New TDK Corporation Ceramic Disc Capacitors
-
Description
Electronic Component Model FK18X7R1C224K is a Ceramic Disc Capacitor designed for use in electronic devices. The FK General (Up to 50V) Series offers high capacitance due to improvements in ceramic dielectric layers and multi-layer lamination technology. This model maintains high reliability under specified environmental conditions, has low residual inductance, and excellent frequency characteristics. The leads of this capacitor are formed with a "kink" to achieve consistent insertion heights and facilitate the release of gases during soldering for improved solderability. Taping specifications are available for automatic insertions, which help reduce on-board costs.
Specifications and features
The FK18X7R1C224K capacitor has the following specifications and features:
- Product Category: Ceramic Disc Capacitors
- Model: FK18X7R1C224K
- Series: FK General (Up to 50V)
- Capacitance: High capacitance achieved through improvements in ceramic dielectric layers and multi-layer lamination technology
- Reliability: High reliability is maintained under specified environmental conditions
- Inductance: Low residual inductance
- Frequency Characteristics: Excellent frequency characteristics
- Leads: Formed with a "kink" to achieve consistent insertion heights and facilitate the release of gases during soldering
- Taping Specifications: Available for automatic insertions, which contribute to reducing on-board costs
Application Scenarios
The FK18X7R1C224K capacitor can be used in various electronic devices and circuits that require high capacitance, low residual inductance, and excellent frequency characteristics. Some common applications include power supplies, amplifiers, filters, and oscillators.
Comparison
Advantages- High capacitance achieved through improvements in ceramic dielectric layers and multi-layer lamination technology
- High reliability maintained under specified environmental conditions
- Low residual inductance
- Excellent frequency characteristics
- The leads are formed with a "kink" to achieve consistent insertion heights and facilitate the release of gases during soldering for improved solderability
- Taping specifications are available for automatic insertions, which help reduce on-board costs
DisadvantagesNo significant disadvantages have been identified for this model of ceramic disc capacitor.
-
Similar parts: 12524 , Click to view
-
Datasheet
-
Shopping guide
Delivery period:
- - Will ship out in 2-3 days
- - DHL Express: 3-7 business days
- - DHL eCommerce: 12-22 business days
- - FedEx International Priority: 3-7 business days
- - EMS: 10-15 business days
Shipping fee:
- - Automatic Email notification (above 5 times)
- - View in your order page
Shipping option:
DHL, FedEx, EMS, SF Express, and Registered Air MailShipping tracking:
- - Automatic Email notification (above 5 times)
- - View in your order page
How to Buy:
- - In-stock, Add to cart > Check out > Submit order > Complete payment >Delivery.
- - Inquiry, Add to inquiry sheet/Submit bom/inquire file/Send email us > Quote > Place order > Complete payment >Delivery.
- View more
Payment:
- - Paypal,Credit Card includes Visa, Master, American Express.
- - Wire transfer, include Local bank transfer.
- - Western Union.
- View more
- Datasheet: Download FK18X7R1C224K
- Chipdatas Part: CD86-FK18X7R1C224K
- Warehouse: China, Hong Kong
- Dispatch: Within 24 hours
- Free Shipping: Yes
- Prority Shipping: Yes, 3-5 days
- Last Updated: 2024/09/30 04:38 +0800
-
- Full Refund if you don't receive your order
- Full or Partial Refund , If the item is not as described
-
The fee is charged according to the rule of PayPal.
-
The fee is charged according to the rule of PayPal.
-
Western Union charge US$0.00 banking fee.
-
We recommend to use bank transfer for large orders to save on handling fees.
-
DHL(www.dhl.com)
$40 limited time offer. -
UPS(www.ups.com)
$40 limited time offer. -
FedEx(www.fedex.com)
$40 limited time offer. -
Registered Mail(www.singpost.com)
Free shipping without minimum order.