C410C512KAG5TA7200 vs VJ0603D330MLAAP
| Part Number |
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| Category | Ceramic Capacitors | Ceramic Capacitors |
| Manufacturer | KEMET | Vishay Vitramon |
| Description | CAP CER 5100PF 250V C0G AXIAL | CAP CER 33PF 50V C0G/NP0 0603 |
| Package | Tape & Reel (TR) | 0603 (1608 Metric) |
| Series | AxiMax 400 Comm C0G | VJ HIFREQ |
| Features | Low ESL | High Q, Low Loss |
| Operating Temperature | -55°C ~ 125°C | -55°C ~ 125°C |
| Mounting Type | Through Hole | Surface Mount, MLCC |
| Package / Case | Axial | 0603 (1608 Metric) |
| Applications | General Purpose | RF, Microwave, High Frequency |
| Tolerance | ±10% | ±20% |
| Temperature Coefficient | C0G, NP0 | C0G, NP0 |
| Size / Dimension | 0.095" Dia x 0.170" L (2.41mm x 4.32mm) | 0.063" L x 0.032" W (1.60mm x 0.80mm) |
| Voltage - Rated | 250V | 50V |
| Lead Spacing | - | - |
| Thickness (Max) | - | 0.037" (0.94mm) |
| Ratings | - | - |
| Height - Seated (Max) | - | - |
| Capacitance | 5100 pF | 33pF |
| Lead Style | Straight | - |
| Failure Rate | - | - |
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1. What are ceramic capacitors used for?
Ceramic capacitors are widely used in various electronic devices, mainly for:
Coupling and decoupling: used in circuits to isolate DC signals while transmitting AC signals.
Filtering: remove noise from the power supply or smooth the output voltage.
Resonant circuit: such as oscillators in radio frequency (RF) circuits.
Temperature compensation: some types of ceramic capacitors have temperature coefficients that can be used to stabilize circuit performance.
Bypass: provide a low impedance path for high-frequency signals, thereby reducing the impact on other parts. -
2. Can ceramic capacitors hold a charge?
Ceramic capacitors can store charge, but they have a higher leakage current than electrolytic capacitors, so they are less able to hold a charge.
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3. Can ceramic capacitors be used in AC?
Ceramic capacitors are well suited for AC circuits because they have good frequency response characteristics and low losses.
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4. Why are mica capacitors so expensive?
Mica capacitors are expensive because of their excellent electrical properties (such as very low dissipation factor and stable temperature coefficient) and their high production costs.
