Specializing in the production of High frequency transformers&Common mode choke &SMD power inductors &Digital amplifier inductors and other magnetic components.

Specializing in manufacturing alternatives to Wurth, Sumida, Coilcraft TDK (EPCOS) transformer inductors, the price is more competitive!

Sales & Support
Request A Quote - Email
Select Language
English
Russian
Home
Products
About Us
Factory Tour
Quality Control
Contact Us
Request A Quote
Home ProductsToroid Common mode choke

PZ-TCM403H Series toroidal Nanocrystalline Material Three-phase common mode power lin e choke Suppression noise

PZ-TCM403H Series toroidal Nanocrystalline Material Three-phase common mode power lin e choke Suppression noise

China PZ-TCM403H Series toroidal  Nanocrystalline Material Three-phase common mode power lin e choke Suppression  noise supplier
PZ-TCM403H Series toroidal  Nanocrystalline Material Three-phase common mode power lin e choke Suppression  noise supplier PZ-TCM403H Series toroidal  Nanocrystalline Material Three-phase common mode power lin e choke Suppression  noise supplier PZ-TCM403H Series toroidal  Nanocrystalline Material Three-phase common mode power lin e choke Suppression  noise supplier PZ-TCM403H Series toroidal  Nanocrystalline Material Three-phase common mode power lin e choke Suppression  noise supplier

Large Image :  PZ-TCM403H Series toroidal Nanocrystalline Material Three-phase common mode power lin e choke Suppression noise

Product Details:

Place of Origin: China
Brand Name: P&Z Electronics
Certification: ISO9001:2015
Model Number: PZ-TCM403H Series

Payment & Shipping Terms:

Minimum Order Quantity: 1000PCS
Price: Ask us
Packaging Details: Blister+Carton or Pearl cotton + carton
Delivery Time: 20 ~30days
Payment Terms: T/T
Supply Ability: 100K/M
Detailed Product Description
Material: Nanocrystalline Dimension:: D58*H38
L: 5mH~30mH Current: 4A~22A
DCR: 3.8mΩ~38.5mΩ Test Frequency: 10KHZ/0.25V

PZ-TCM403H Series toroidal  Nanocrystalline Material Three-phase common mode power lin e choke Suppression  noisePZ-TCM403H Series toroidal  Nanocrystalline Material Three-phase common mode power lin e choke Suppression  noisePZ-TCM403H Series toroidal  Nanocrystalline Material Three-phase common mode power lin e choke Suppression  noisePZ-TCM403H Series toroidal  Nanocrystalline Material Three-phase common mode power lin e choke Suppression  noise

Dimensions: [mm]

 

PZ-TCM403H Series toroidal  Nanocrystalline Material Three-phase common mode power lin e choke Suppression  noise

Characteristics

  • Core material: Nanocrystalline
  • Broadband filterring due to low capacitance winding technique
  • High suppression of asymmetrical interferences also at low frequency range
  • Very compact design
  • Highest possible rated current by small size
  • Operating temperature: –40 ºC to +125 ºC

Applications

  • Power electronics
  • Power line in- and output filter
  • Filterring of devices without any ground connection
  • Suppression of radio interferences in motors
  • Suppression of common mode noise

Electrical Properties:

Part Code Inductance (mH) ±30% Test conditions DC-Resistance (mΩ) Rated Current (A) Pin Diameter (mm) Hi-pot
PZ-TCM403H-502M 5*3 10KHZ/0.25V 3.8mΩ Max 22A Max 2.00 2000Vrms
PZ-TCM403H-702M 7*3 10KHZ/0.25V 8.5mΩ Max 20A Max 1.80 2000Vrms
PZ-TCM403H-103M 10*3 10KHZ/0.25V 9.2mΩ Max 15A Max 1.70 2000Vrms
PZ-TCM403H-153M 15*3 10KHZ/0.25V 12.5mΩ Max 10A Max 1.60 2000Vrms
PZ-TCM403H-203M 203 10KHZ/0.25V 19mΩ Max 9A Max 1.50 2000Vrms
PZ-TCM403H-253M 25*3 10KHZ/0.25V 25.2mΩ Max 6A Max 1.40 2000Vrms
PZ-TCM403H-303M 30*3 10KHZ/0.25V 38.5mΩ Max 4A Max 1.30 2000Vrms


Contact usAcceptable customers design custom
You may also interested in other products: More Products
 

justin yao
Skype: justin029
QQ: 2487952442
PDRH6D28系列3.0uH〜680uH贴片屏蔽功率电感器圆形

PZ-TCM403H-Series.pdf

Contact Details
P&Z Electronic (Hongkong) Limited

Contact Person: Mr. Justin yao

Tel: 86-769-83035525

Fax: 86-769-83035525

Send your inquiry directly to us (0 / 3000)

gtag('config', 'G-NQTXWVDE8C', {cookie_flags: "SameSite=None;Secure"});