<
>
Specifications
Operating Temperature:
-25℃~+105℃
Lifetime:
2000hrs@105℃
Capacitance:
1000uF
Height - Seated (Max):
50mm
Pin Spacing:
10mm
Voltage Rating:
400V
Diameter:
35mm
Equivalent Series Resistance(ESR):
-
Tolerance:
±20%
Ripple Current:
2.3A@120Hz
Mfr. Part #:
TDC 400V1000 35*50
Package:
Through Hole,D35xL50mm
Key Attributes
Model Number:
TDC 400V1000 35*50
Product Description
Product Overview
Large sized aluminum electrolytic capacitors from the TDC Series, designed for SMPS and inverter applications. These capacitors are downsized, RoHS compliant, and available in halogen-free options. They offer 105 operation for 2,000 hours with assured performance.
Product Attributes
- Non-solvent proof
- Downsized
- For SMPS, Inverter
- RoHS compliant
- Halogen-free capacitors are also available
- 105, 2,000Hrs assured
- Marking: BROWN SLEEVE, SILVER INK
- Standard design has no bottom plate
- Satisfied characteristics: KS C IEC 60384-4
Technical Specifications
| Series | Rated Voltage Range | Operating Temperature Range | Capacitance Tolerance | Leakage Current | Load Life | Shelf Life | Rated Voltage (VDC) | Tan (Max.) | Z(-25)/Z(20) | Frequency (Hz) | Dissipation Factor (Tan) (at 20, 5 minutes) | Rated Ripple Current (Arms/105, 120Hz) | Case Size DL(mm) |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 160400 | 0.15 | 4 | 120 | 0.02CV or 3mA, whichever is smaller | 0.55 | 2220 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 420500 | 0.20 | 8 | 120 | 0.02CV or 3mA, whichever is smaller | 0.50 | 2220 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 160250VDC | - | - | 60 | 0.81 | - | 2220 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 315500VDC | - | - | 60 | 0.77 | - | 2220 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 160250VDC | - | - | 1k | 1.32 | - | 2220 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 315500VDC | - | - | 1k | 1.30 | - | 2220 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 160250VDC | - | - | 10k~ | 1.45 | - | 2220 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 315500VDC | - | - | 10k~ | 1.41 | - | 2220 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 160 | - | - | 120 | - | 0.55 | 2220 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 200 | - | - | 120 | - | 0.75 | 2225 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 250 | - | - | 120 | - | 0.66 | 2225 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 315 | - | - | 120 | - | 0.75 | 25.425 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 350 | - | - | 120 | - | 0.88 | 25.430 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 400 | - | - | 120 | - | 1.04 | 2240 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 420 | - | - | 120 | - | 0.58 | 2220 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 450 | - | - | 120 | - | 0.59 | 2225 |
| TDC | 160 500 VDC | -25 +105 | 20% (M) | I=0.02CV or 3mA, whichever is smaller | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | Capacitance change 20%, Tan 200% of initial, Leakage Current initial | 500 | - | - | 120 | - | 0.50 | 2235 |
2304140030_SAMYOUNG-TDC-400V1000-35-50_C350233.pdf
Request A Quote
Please Use Our Online Inquiry Contact Form Below If You Have Any Questions, Our Team Will Get Back To You As Soon As Possible
