Tin plated copper clad steel wire lead capacitor DGCX MPP223J2SB040C050ZR with flame retardant epoxy coating
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Delivery Time:
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Product Description
Product Overview
The CBB21/MPP series metallized polypropylene film capacitors are designed for electronic equipment with epoxy encapsulation. These capacitors feature a non-inductive winding structure with metallized polypropylene film and a tin-plated copper wire or tin-plated copper-clad steel wire lead. Encased in flame-retardant epoxy resin powder coating, they offer excellent self-healing properties, low loss, and low internal temperature rise. They are widely used for DC blocking, coupling, decoupling, filtering, bypassing, and other high-frequency, DC, AC, and pulse circuits.
Product Attributes
- Brand: DGCX (Company Trademark)
- Product Type: CBB21/MPP Series Metallized Polypropylene Film Capacitor (Impregnated Type)
- Origin: Dongguan, China
- Encapsulation Material: Flame-retardant epoxy resin powder coating (UL94V-0)
- Internal Protection Material: Epoxy Resin
- Lead Material: Tin-plated copper-clad steel wire
- Metallization: Zinc-tin alloy wire
- Certifications: RoHS compliant, REACH compliant, Halogen-free (if required)
Technical Specifications
| Product Code | Capacitance (uF) | Tolerance (%) | Rated Voltage (V.dc) | Dissipation Factor (DF) (1KHz) (%) | Dimensions (mm) (L x W x H) | Pitch (P) (mm) | Lead Diameter (d) (mm) |
|---|---|---|---|---|---|---|---|
| MPP223J2SB040C050ZR | 0.022 | 5% | 450 | 0.1 | 8.7 x 7.4 x 3.7 | 7.5 | 0.6 |
General Electrical Characteristics
| Parameter | Specification | Standard |
|---|---|---|
| Climatic Category | 40/105/21 | |
| Operating Temperature Range | -40 ~ +105 | |
| Rated Temperature | 85 | |
| Capacitance Range | 0.001F ~ 6.8F | |
| Capacitance Tolerance | 5%(K), 10%(M) | |
| Rated Voltage | 100Vdc, 160Vdc, 250Vdc, 400Vdc, 450Vdc, 630Vdc, 1000Vdc, 1250Vdc, 1600Vdc, 2000Vdc | |
| Dissipation Factor (DF) (1kHz, 20) | 0.0010 | |
| Insulation Resistance | 30,000M for C0.33uF (100VDC, 60s) 10000M*uF for C>0.33uF (100VDC, 60s) | |
| Withstand Voltage | 1.6 UR(VDC), 5 seconds |
Product Structure and Main Materials
| No. | Main Material | Description | Remarks |
|---|---|---|---|
| 1 | Metallized Polypropylene Film | MPPZAH | -/- |
| 2 | Sprayed Tin Layer | Zinc-tin alloy wire | -/- |
| 3 | Lead Wire | Tin-plated copper-clad steel wire | -/- |
| 4 | Outer Encapsulation Material | Epoxy resin powder | Flame-retardant UL94V-0 |
| 5 | Inner Protection Material | Epoxy resin |
Packaging Information
- Inner Box Dimensions: L*W*H = 34.5*23.5*24.5 cm
- Outer Box Dimensions: L*W*H = 49*36*27 cm
- Packaging includes: Manufacturer's part number, number of packages, quantity per package, Lot No.
- Capacitors are packed in transparent PVC bags for moisture and dust protection.
- RoHS environmental marking.
- Other customer marking requirements.
Storage Conditions
- Store in original packaging.
- Temperature: Max 35
- Relative Humidity: Max 80%
- Storage Time: Maximum 12 months from the production date marked on the packaging bag.
Environmental Characteristics
- Compliant with RoHS requirements.
- Compliant with REACH requirements.
- Compliant with Halogen-free requirements (if specified).
Product Electrical Characteristics and Test Conditions
| No. | Item | Characteristic | Test Method |
|---|---|---|---|
| 1 | Terminal Strength | Tensile Strength | No visible mechanical damage. Wire diameter: 0.6 & 0.8mm. Load: 10N, Time: 10 seconds. |
| Bending Strength | Wire diameter: 0.6 & 0.8mm. Force: 5N, 90 x 2 times. | ||
| 2 | Solderability | Tinning rate of leads | 95%. Soldering temperature: 2455. Immersion time: 2.50.5 seconds. |
| 3 | Soldering Heat Resistance | Appearance | No visible damage. Soldering temperature: 2605. Immersion time: 101 seconds. Recovery time: 1-2 hours. |
| Increase in Dissipation Factor | 0.004 (C1.0F, 10kHz); 0.004 (C>1.0F, 1kHz) | ||
| Capacitance Change | C/C3% | ||
| 4 | Temperature Rapid Change | Appearance | No visible damage. A=-40, B=+105, 5 cycles. Duration: t=30min. |
| Vibration | No visible damage. Amplitude 0.75mm or acceleration 98m/s (whichever is smaller), frequency 10-500Hz. Three directions, mutually perpendicular, 2h per direction, total 6h. | ||
| Shock | No visible damage. 4000 times, acceleration 390m/s, pulse duration 6ms. | ||
| Final Measurement | Appearance | No visible damage. | |
| Capacitance Change | C/C5% | ||
| Increase in Dissipation Factor | 0.004 | ||
| Insulation Resistance | IR/IR50% | ||
| 5 | Climatic Sequence | Appearance | No visible damage. Dry Heat +105, 16 hours. Cyclic Damp Heat, Test Db, first cycle. Cold -40, 2 hours. Low Pressure 8.5kPa, 1 hour. Cyclic Damp Heat, Test Db, remaining cycles. |
| Capacitance Change | C/C5% | ||
| Increase in Dissipation Factor | 0.005 | ||
| Insulation Resistance | IR/IR50% | ||
| 6 | Constant Damp Heat | Appearance | No visible damage. Relative Humidity 90-95%RH, Temperature: 402, No load, Duration: 21 days. Recovery time: 1-2 hours. |
| Capacitance Change | C/C5% | ||
| Increase in Dissipation Factor | 0.002 (C1.0F, 10kHz); 0.004 (C>1.0F, 1kHz) | ||
| Insulation Resistance | IR/IR50% | ||
| 7 | Endurance | Appearance | No visible damage. T=85, 1000 hours. Applied Voltage: 1.25UR. |
| Capacitance Change | C/C8% | ||
| Increase in Dissipation Factor | 0.004 | ||
| Insulation Resistance | IR/IR50% | ||
| 8 | Characteristics Dependent on Temperature | Capacitance measurement at points b, d, f. | Static method, capacitor is held sequentially at each temperature: a.(202), b.(-403), d.(20 2), f.(1052), g.(202). |
| Characteristics at lower category temperature -40: | 0(Cb-Cd)/Cd+3% | ||
| Characteristics at upper category temperature 105: | -4.0%(Cf-Cd)/Cd0 | ||
| 9 | Charge and Discharge | Capacitance Change | C/C5% |
| Charge/Discharge Cycles | 10,000 | ||
| Charging Time | 0.5 seconds | ||
| Discharging Time | 0.5 seconds | ||
| Charging Voltage | Rated voltage UR | ||
| Charging Resistance | 220/CR () | ||
| Discharging Resistance | 10/CR or 20 (whichever is larger) | ||
| Increase in Dissipation Factor | 0.005 (10KHz, CR1.0uF); 0.005 (1KHz, CR>1.0uF) | ||
| Insulation Resistance | IR/IR50% |
Usage Rules
- Usage Range: Do not exceed the upper category temperature. Avoid overload. Do not exceed maximum pulse current.
- Operation Precautions: Avoid repeated squeezing at the lead root. Pay attention to the lead tip.
- Soldering: Solder heat can transfer to the capacitor core. Avoid high temperatures and prolonged soldering that may cause attenuation or damage.
- Wave Soldering: TP110 for 120 seconds; Ts120 for 45 seconds. For P7.5mm, T4mm, wave soldering time
- Soldering Iron: Tip temperature not exceeding 350, time not exceeding 3 seconds.
- Lead-wire film capacitors are not suitable for reflow soldering.
Maximum Effective Voltage vs. Frequency Curve
Note: The curve represents typical values tested under conditions of sinusoidal voltage, ambient temperature 85, and capacitor internal temperature rise T=10.
Product Electrical Characteristic Curves
(Refer to page 13 for diagrams)
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Company
Beijing Silk Road Enterprise Management Services Co., Ltd.
Location
16 Floor, Unit B, Jiatai International Mansion, No 41, Dongsihuan Zhong Road, Chaoyang District, Beijing
Contact Person
Sellina