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Specifications
Capacitance:
1uF
Tolerance:
±5%
Voltage Rating:
100V
Mfr. Part #:
MPE105J2AM050B200ZR
Package:
Through Hole,P=5mm
Key Attributes
Model Number:
MPE105J2AM050B200ZR
Product Description
Product Overview
The CL21/MPE series capacitors are epoxy-encapsulated, metallized polyester film capacitors designed for electronic equipment. Featuring a non-inductive winding structure with tin-plated copper-clad steel leads, these capacitors are sealed with flame-retardant epoxy resin powder. They are widely used in DC, pulse, and switching circuits, as well as DC filtering circuits in electronic ballasts and frequency converters. Key advantages include small size, good self-healing properties, and a flame-retardant coating.
Product Attributes
- Brand: DGCX
- Product Type: CL21/MPE Metallized Polyester Film Capacitor (Impregnated Type)
- Origin: Dongguan, Guangdong, China
- Material: Metallized Polyester Film (MPEA), Zinc-tin alloy wire spray-welded layer, Tin-plated copper-clad steel wire leads, Flame-retardant epoxy resin powder outer encapsulation (UL94V-0), Epoxy resin inner protective material.
- Environmental Compliance: RoHS, REACH, Halogen-free (if required).
Technical Specifications
| Model/Part Number | Capacitance (uF) | Tolerance (%) | Rated Voltage (VDC) | Dissipation Factor (DF) (1KHz) | Dimensions (mm) W (1.0) | Dimensions (mm) H (1.0) | Dimensions (mm) T (1.0) | Lead Pitch (1.0) | Lead Length (Min) | Lead Diameter (d 0.05) |
|---|---|---|---|---|---|---|---|---|---|---|
| MPE105J2AM050B200ZR | 1.0 | 5% | 100 | 1.0% | 6.3 | 9.8 | 5.3 | 5.0 | 20 | 0.6 |
General Electrical Characteristics
| Parameter | Specification | Test Method/Conditions |
|---|---|---|
| Climate Category | 55/105/21 | |
| Operating Temperature Range | -55~+105 (Voltage derating of 1.25%/ above +85) | |
| Rated Temperature | 85 | |
| Capacitance Range | 0.01F10F | |
| Capacitance Tolerance | 5%(K), 10%(M), 20%(M) | |
| Rated Voltage | 63Vdc, 100Vdc, 160Vdc, 250Vdc, 400Vdc, 630Vdc | |
| Dissipation Factor (DF) | 0.01 (1kHz, 20) | |
| Insulation Resistance (IR) | U100VDC: 3750M for C0.33uF (10VDC, 60s); 1250M*uF for C>0.33uF (10VDC, 60s) U>100VDC: 7500M for C0.33uF (100VDC, 60s); 2500M*uF for C>0.33uF (100VDC, 60s) | |
| Withstand Voltage | 1.6UR(VDC), 5 seconds | |
| Max. Pulse Rise Rate (dV/dt) | Refer to table in source document for values based on UR and lead pitch. Formula: Allowed dV/dt = Table Value (UR/U) | |
| Terminal Strength (Tensile) | No visible mechanical damage | Wire dia: 0.6&0.8mm; Load: 10N, Time: 10s |
| Terminal Strength (Bending) | No visible mechanical damage | Wire dia: 0.6&0.8mm; Force: 5N, 902 times |
| Solderability | 95% tinning rate on leads | Flux temp: 2455; Immersion time: 2.50.5s |
| Soldering Heat Resistance | Appearance: No visible damage DF increase: 0.005 (C1.0F, 10kHz); 0.003 (C>1.0F, 1kHz) Capacitance change: C/C2% | Solder temp: 2605; Immersion time: 101s; Recovery time: 1-2 hours |
| Rapid Change of Temperature | Appearance: No visible damage | A=-40, B=+105, 5 cycles; Duration: t=30min |
| Vibration | Appearance: No visible damage | Amplitude 0.75mm or acceleration 98m/s (whichever is smaller), Frequency 10-500Hz, 3 directions, 2h each, total 6h |
| Shock | Appearance: No visible damage | 4000 times, acceleration 390m/s, Pulse duration: 6ms |
| Climate Sequence | Appearance: No visible damage Capacitance change: C/C5% DF increase: 0.005 (C1.0F, 10kHz); 0.003 (C>1.0F, 1kHz) Insulation Resistance change: IR/IR50% | Dry heat +105, 16h; Cyclic damp heat (Test Db, 1st cycle); Cold -40, 2h; Low pressure 8.5kPa, 1h; Cyclic damp heat (Test Db, remaining cycles) |
| Steady State Damp Heat | Appearance: No visible damage Capacitance change: C/C5% DF increase: 0.005 Insulation Resistance change: IR/IR50% | RH 90-95%, Temp: 402, No load, Duration: 21 days; Recovery time: 1-2 hours |
| Endurance | Appearance: No visible damage Capacitance change: C/C8% DF increase: 0.003 (C1.0F, 10kHz); 0.002 (C>1.0F, 1kHz) Insulation Resistance change: IR/IR50% | T=85, 1000 hours; Applied voltage: 1.25UR |
| Characteristics Dependent on Temperature | At points b, d, f: -40: 0(Cb-Cd)/Cd+3% 105: -4.0%(Cf-Cd)/Cd0 | Static method, capacitor held sequentially at temperatures: a.(202), b.(-403), d.(20 2), f.(1052), g.(202) |
| Charge/Discharge | Capacitance change: C/C5% DF increase: 0.003 (10KHz, CR1.0uF); 0.002 (1KHz, CR>1.0uF) Insulation Resistance change: IR/IR50% | Cycles: 10,000; Charge time: 0.5s; Discharge time: 0.5s; Charge voltage: UR; Charge resistance: 220/CR (); Discharge resistance: 10/CR or 20 (whichever is larger) |
Usage Rules
- Usage Range: Do not exceed the upper category temperature. Avoid overload. Do not exceed maximum pulse current.
- Handling Precautions: Avoid repeated squeezing at the lead root. Be mindful of lead tips.
- Soldering:
- Wave Soldering (MPE Metallized Polyester Film Capacitors): Peak temperature (Tp) 125 for 120 seconds; Sustained temperature (Ts) 160 for 45 seconds.
- Soldering Iron: Tip temperature not exceeding 350 for no more than 3 seconds.
- Note: Lead-type film capacitors are not suitable for reflow soldering.
Storage Conditions
- Prolonged exposure to air may degrade lead solderability.
- Avoid high temperature and high humidity environments.
- Conditions: Temperature: Max 35, Relative Humidity: Max 80% (in original packaging).
- Storage Time: Maximum 12 months from the production date marked on the packaging bag.
2504101957_DGCX-MPE105J2AM050B200ZR_C42460058.pdf
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