0.01uf 630V DC PPC Capacitor
- Capacitance: 0.01uf
- Voltage Rating DC: 630 V
- Tolerance: +/-10%
- Mounting: THT
- Leakage Current: 3 uA
- Dimensions:31*6*2.5 mm
- Operating Temperature: -40~85 C
- Lead Spacing: 7mm
- Lead Diameter : 0.5mm
- Non-inductive, epoxy DIP coated, high moisture resistance.
- The dissipation factor is normally low and it is stable against high frequency and change of temperature.
- Recommended for high-frequency circuits like an s-curve compensating circuit.
- High reliability because of its excellent Self-Healing performance
0.1uf 100V DC PPC Polyester Capacitor
- Capacitance: 0.1uf
- Voltage Rating DC: 100 V
- Tolerance: +/-10%
- Mounting: THT
- Leakage Current: 3 uA
- Dimensions:31*6*2.5 mm
- Operating Temperature: -40~85 C
- Lead Spacing: 7mm
- Lead Diameter : 0.5mm
- Non-inductive, epoxy DIP coated, high moisture resistance.
- The dissipation factor is normally low and it is stable against high frequency and change of temperature.
- Recommended for high-frequency circuits like an s-curve compensating circuit.
- High reliability because of its excellent Self-Healing performance
BF494 NPN Transistor 30V 0.03A
0.1uf 275V AC Box Capacitor Yellow
0.01uf 1KV DC Box Capacitor
4.7uf 450V Samwha DC Electrolytic Capacitor
47uf 160V DC Electrolytic Capacitor
IN5822 Power Schottky Rectifier Diode
- Maximum Repetitive Reverse Voltage, VRRM: 40V
- Average Rectified Forward Current at TLÂ = 95oC, IO: 3A
- Peak Surge Forward Current, IFSM: 80A
- Guardring for overvoltage protection
- Very small conduction losses
- Extremely fast switching
- Low forward voltage drop
- High forward surge capability
- High frequency operation
- Solder dip 275 °C max. 10 s, per JESD 22-B106
0.015uf 250V DC Polyester Capacitor
- Capacitance: 0.015uf
- Voltage Rating DC: 250 V
- Tolerance: +/-5%
- Mounting: THT
- Leakage Current: 3 uA
- Dimensions:31*6*2.5 mm
- Operating Temperature: -40~85 C
- Lead Spacing: 7mm
- Lead Diameter : 0.5mm
- Non-inductive, epoxy DIP coated, high moisture resistance.
- The dissipation factor is normally low and it is stable against high frequency and change of temperature.
- Recommended for high-frequency circuits like an s-curve compensating circuit.
- High reliability because of its excellent Self-Healing performance.