Smiler IGBT Snubber Capacitor for DC-Link Applications

Product Details
Customization: Available
Type: Polypropylene Capacitor
Application: General Purpose, AC / Motor, Power, Air Conditioner, High Voltage, Automobile
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Year of Establishment
2010-09-01
Management System Certification
ISO9001:2015
  • Smiler IGBT Snubber Capacitor for DC-Link Applications
  • Smiler IGBT Snubber Capacitor for DC-Link Applications
  • Smiler IGBT Snubber Capacitor for DC-Link Applications
  • Smiler IGBT Snubber Capacitor for DC-Link Applications
  • Smiler IGBT Snubber Capacitor for DC-Link Applications
  • Smiler IGBT Snubber Capacitor for DC-Link Applications
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Basic Info.

Model NO.
Snubber
Packaging Type
Surface Mount
Capacitance
0.1~4.7UF
Structure
Fixed Capacitor
Manufacturing Material
Polypropylene
Transport Package
Carton
Specification
DC Link
Trademark
SMILER
Origin
Guangdong, China (Mainland)
Production Capacity
50, 000 PCS Per Day

Product Description


Smiler IGBT Snubber Capacitor for DC-Link Applications   
Product details
Product name IGBT Snubber capacitor
Type High Voltage Capacitor
Place of Origin Guangdong, China
Brand Name SMILER
Supplier Type Original manufacturer, ODM
Capacitance 2.0UF
Media Available Datasheet, Photo
Tolerance 5%
Package Type Through Hole
Rated Voltage 1200VDC
Operating Temperature -40°c ~ + 105°c
Voltage - Rated 1200VDC
ESR (Equivalent Series Resistance) ≤2mΩ
Voltage - Breakdown 700VDC~3000VDC
Capacitance Range ±5%(J) ± 10%(K)
Applications Power electric equipment absorption protection
Smiler IGBT Snubber Capacitor for DC-Link Applications  
Smiler IGBT Snubber Capacitor for DC-Link Applications
  1. A thickened edge of the metallized film
  2. Housing a flame retardant ABS/PBT
  3. One is filled with epoxy
  4. A tinned copper electrode is led out


Smiler IGBT Snubber Capacitor for DC-Link ApplicationsSmiler IGBT Snubber Capacitor for DC-Link ApplicationsSmiler IGBT Snubber Capacitor for DC-Link Applications
Smiler IGBT Snubber Capacitor for DC-Link Applications
Smiler IGBT Snubber Capacitor for DC-Link ApplicationsSmiler IGBT Snubber Capacitor for DC-Link Applications

Smiler IGBT Snubber Capacitor for DC-Link Applications
Smiler IGBT Snubber Capacitor for DC-Link Applications
Smiler IGBT Snubber Capacitor for DC-Link ApplicationsSmiler IGBT Snubber Capacitor for DC-Link Applications
Smiler IGBT Snubber Capacitor for DC-Link ApplicationsSmiler IGBT Snubber Capacitor for DC-Link Applications

Smiler IGBT Snubber Capacitor for DC-Link ApplicationsSmiler IGBT Snubber Capacitor for DC-Link Applications
Smiler IGBT Snubber Capacitor for DC-Link ApplicationsSmiler IGBT Snubber Capacitor for DC-Link Applications

Capacitor selection and precautions

Withstand voltage

(1) In the circuit, the actual voltage to be endured by the capacitor cannot exceed its withstand voltage value.

(2) In the filter circuit, the withstand voltage value of the capacitor should not be less than 1.42 times the effective value of the AC voltage. (3) When using electrolytic capacitors and other polar capacitors, be careful not to reverse the positive and negative poles. (4) For the capacitor withstand voltage of the linear power supply, it is generally considered to reserve 40%.

Capacitance

(1) Larger capacitors should be selected for filter capacitors, generally hundreds to thousands of microfarads.

(2) In order to achieve a better filtering effect, capacitors with one large and one small with a difference of at least two orders of magnitude in capacity can be used.
 (3) When there is no corresponding capacity in the nominal series, the method of parallel or series capacitors can be used to obtain.
(4) Under normal circumstances, if the fixed value capacitor is damaged, it should be replaced with a capacitor of the same value and withstand voltage.

(5) The general circuit allows to replace the small withstand voltage capacitor with a large withstand voltage capacitor of the same capacity, but not vice versa.

6) Non-polar capacitors cannot be replaced by polar electrolytic capacitors, nor polar capacitors can be replaced by non-polar capacitors.

(7) The coupling capacitor of the audio circuit is generally 0.1~lpF.

 

Type

(1) Electrolytic capacitors should be used in power supply filtering and low-frequency decoupling circuits.

(2) In high-frequency circuits and high-voltage circuits, ceramic capacitors and mica capacitors should be selected.

(3) In the resonant circuit, mica capacitors, ceramic capacitors and organic film capacitors can be selected.

(4) When used for DC isolation, paper capacitors, polyester capacitors, mica capacitors, electrolytic capacitors and ceramic capacitors can be selected.

1.Allowable deviation

For capacitors used in oscillation or delay circuits, the allowable deviation should be as small as possible (generally less than 5%), and in other cases the allowable deviation can be slightly larger (generally 10%~20%).

2.Inspection of capacitors before use--detection of polar capacitors

For polar capacitors with larger capacity, a pointer-type multimeter can be used to test whether the performance of charge and discharge is normal, so as to judge the quality of the capacitor.

3.Basic properties of capacitors

The basic properties of capacitors are charging and discharging.

(1) Charging

When the capacitor is connected to the power supply (or two points with potential difference), the capacitor will be charged (that is, the two poles of the capacitor will be charged with the same amount of different charges). The plate connected to the high potential point → the other plate → the negative electrode of the power supply (or the low potential point).

When charging, the voltage across the capacitor increases with the progress of charging. When the resistance values of the power supply and the charging circuit are fixed, the two ends of the capacitor increase exponentially, and the charging current decreases exponentially.

(2) Discharge

When the capacitor is connected to the load, the capacitor will discharge, and the discharge direction is: the positively charged plate of the capacitor - the load - the other plate, until the charge on the plate is zero, the discharge is over.

current direction current direction

During discharge, the voltage across the capacitor decreases with the progress of the discharge. When the resistance value of the discharge circuit is fixed, the voltage across the capacitor and the discharge current decrease exponentially.

Smiler IGBT Snubber Capacitor for DC-Link Applications

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