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Silicon-Based Dry Electrode: SiC Anode
LiFePO₄ Dry Electrode: LFP Cathode
NCM Dry Electrode: NCM Cathode
Graphite Dry Film Electrode: Graphite Anode
Supercapacitor
Axial Supercapacitor
Snap-In Supercapacitor
Hybrid Supercapacitor
Pouch-Type Supercapacitor
Axial Hybrid Energy Supercapacitor
Module/System
Supercapacitor Module
Hybrid Supercapacitor Module
Equipment for Dry Electrodes
5-roll Dry Process Film Forming Machine
6-Roll Dry Film Forming and Laminating Machine
10-Roll Dry Film Forming and Laminating Machine
Current Collector
Electrochemically Corroded Aluminum Foil
Carbon-Coated Etched
Carbon-Coated Aluminum Foil
Carbon-Coated Copper Foil
Technology
Company
Resource
Cases
Document Download
HESC40V5000 Product Specification
HESC40V10600 Product Specification
HESC40V15000 Product Specification
Specification for Supercapacitor 2.7V350F
Specification for Supercapacitor 2.7V400F
Specification for Supercapacitor 2.7V500F
Specification for Supercapacitor 2.7V600F
Specification for Supercapacitor 2.7V1500F
Specification for Supercapacitor 2.7V3000F
Specification for Supercapacitor 2.7V3300F
Specification for Supercapacitor 2.7V4500F
Specification for Supercapacitor 2.7V5000F
Specification for Supercapacitor 3.0V320F
Specification for Supercapacitor 3.0V350F
Specification for Supercapacitor 3.0V400F
Specification for Supercapacitor 3.0V500F
Specification for Supercapacitor 3.0V600F
Specification for Supercapacitor 3.0V1500F
Specification for Supercapacitor 3.0V3000F
Specification for Supercapacitor 3.0V3300F
Specification for Supercapacitor 3.0V4500F
Specification for Supercapacitor 4.2V42000F
Dry Electrode TY-235D-250-A117 Datasheet
Dry Electrode TY-255D-250-A067 Datasheet
28V12857F Specification for Supercapacitors
58V17142F Specification for Supercapacitors
72V8330F Specification for Supercapacitors
810V30KW Intelligent Energy Saving System Specification
FAQ
Video
CIBF2025-Tsingyan
PTFE-Based Copper-Clad Laminate Bolsters NVIDIA's GB300, Igniting the Computing Revolution
Tsingyan Equipment Product Display
Tsingyan Factory and Company Display
China's first fully automated dry electrode production line for 0.1 GWh lithium-ion batteries
News
Company News
INVITATION:Vietnam InternationalElectricity & Energy Exhibition
From Dry Electrode to Supercapacitor System: Unveiling the Full-Chain Technology of Tsingyan Electronic Supercapacitors
Exclusive Report by Gaogong | An Interview with Tsingyan Electronics: Ten Questions on the Necessity of Dry Electrodes
Win-Win Future | Tsingyan Electronics and Honggong Technology Reach a Strategic Partnership on Dry Film Innovation
''Process Equipmentization'' Helps Promote the Large-Scale Mass Production of Dry Electrodes! CIBF2024
New-Quality Productivity! Reach a Strategic Cooperation with BTR to Integrate and Develop the Dry Electrode Industry Chain and Innovation Chain.
New Product! Dry Electrode Film for Button-Type Supercapacitors, Achieving Roll-to-Roll Production for Enhanced Quality and Efficiency!
TSINGYANE& ONGOAL : Unveil Joint Venture, Aiming for Leadership in Dry Electrode Equipment
The first in China! Tsingyanak high-speed wide-width (solid-state) dry electrode equipment was successfully delivered
Tsingyan, Kedali, Daikin Japan, and Tsinghua University's Shenzhen Research Institute Jointly Participated in the Compilation of the Group Standard for lithium Battery Structural Parts.
Exhibitions & Events
CIBF Concurrent Forum Speech
Discussing New Opportunities of Dry Electrode Technology in Solid-State Battery Industry – Dr. Wang Chen from Tsingyan Electronics Attends 2025 Gaogong Lithium Battery Summit
BATTERY JAPAN 2024 | Tsingyan Electronics Makes a Splash at the Tokyo International Secondary Battery Exhibition
Blog
Dry Electrode Manufacturing Technology: The Rising Star of the Battery
Differences and Comparison Between Supercapacitors and Lithium Batteries
Dry Process: Simplifying Electrode Manufacturing
What is the Power Capacity of a 1-Farad Capacitor?
How Conductive Coatings Are Revolutionizing Dry Battery Electrode Manufacturing
Why Tesla is Using Dry Battery Electrode Technology
What Are the Differences between NMC and LCO Battery
Battery Energy Storage: How It Works & Why It's Important
What is a dry electrode?
Anode vs Cathode: Understanding the Difference
A Guide to the Six Main Types of Lithium Batteries
What is the Difference Between Supercapacitors and Batteries?
How Dry Electrode Coating is Revolutionizing Batteries
Tesla 4680 Battery's Secret Sauce: Dry Electrode Coating
New Ideas For Process Testing Of Dry Electrodes
How Dry Electrode Manufacturing Slashes Battery Costs by 50% or More
Dry-Processed Vs. Solution-Processed Electrodes
Dry Electrode Process: A Promising Path For Green Energy
A Closer Look at Li-Ion Dry Electrode Coating Technology
A Review of Lithium-ion Battery Electrode Drying
What Is the Cathode Material in Lithium Ion Batteries
What Are Battery Anode and Cathode Materials?
The Electric-Powered Future with New Cathode Materials
Structure and Performance of the Lifepo4 Cathode Material
Possible Cathode Materials for Solid State Batteries
Next-Generation Lithium-ion Battery Cathode Materials
Why Do Batteries Have Limited Charge Cycles?
What Is Graphite, And Why Is It so Important in Batteries?
What is a Silicon Anode Lithium-Ion Battery?
What Are the Metals Used in Lithium-ion Battery?
What Are Electric Car Batteries Made Of?
The Pros and Cons of Lithium Ion Batteries: A Deep Dive
Exploring the Future of 3000F Supercapacitors
Choosing the Right Current Collector Supplier
How to Find Reliable Supercapacitor Manufacturers
Advantages of Hybrid Super Capacitors Explained
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Emily Lee:+8617796332570
liliping@tsingyane.com
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Products
Dry Electrode for Supercapacitor
Dry Electrode for Lithium-Ion Battery
Supercapacitor
Hybrid Supercapacitor
Module/System
Equipment for Dry Electrodes
Current Collector
High-Cycle Series
High-Voltage Series
High-Capacity Series
Button-Type Dry Film Carbon Membrane
Silicon-Based Dry Electrode: SiC Anode
LiFePO₄ Dry Electrode: LFP Cathode
NCM Dry Electrode: NCM Cathode
Graphite Dry Film Electrode: Graphite Anode
Axial Supercapacitor
Snap-In Supercapacitor
Pouch-Type Supercapacitor
Axial Hybrid Energy Supercapacitor
Supercapacitor Module
Hybrid Supercapacitor Module
5-roll Dry Process Film Forming Machine
6-Roll Dry Film Forming and Laminating Machine
10-Roll Dry Film Forming and Laminating Machine
Electrochemically Corroded Aluminum Foil
Carbon-Coated Etched
Carbon-Coated Aluminum Foil
Carbon-Coated Copper Foil
High-Cycle Series
01
High-Voltage Series
02
High-Capacity Series
03
Button-Type Dry Film Carbon Membrane
04
Silicon-Based Dry Electrode: SiC Anode
01
LiFePO₄ Dry Electrode: LFP Cathode
02
NCM Dry Electrode: NCM Cathode
03
Graphite Dry Film Electrode: Graphite Anode
04
Axial Supercapacitor
01
Snap-In Supercapacitor
02
Pouch-Type Supercapacitor
01
Axial Hybrid Energy Supercapacitor
02
Supercapacitor Module
01
Hybrid Supercapacitor Module
02
5-roll Dry Process Film Forming Machine
01
6-Roll Dry Film Forming and Laminating Machine
02
10-Roll Dry Film Forming and Laminating Machine
03
Electrochemically Corroded Aluminum Foil
01
Carbon-Coated Etched
02
Carbon-Coated Aluminum Foil
03
Carbon-Coated Copper Foil
04
Technology
Company
Resource
Cases
Document Download
FAQ
Video
News
Company News
Exhibitions & Events
Blog
Contact Us
>
PTFE-Based Copper-Clad Laminate Bolsters NVIDIA's GB300, Igniting the Computing Revolution - Shenzhen Tsingyan Electronic Technology Co., Ltd.
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Search
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Products
Dry Electrode for Supercapacitor
Dry Electrode for Lithium-Ion Battery
Supercapacitor
Hybrid Supercapacitor
Module/System
Equipment for Dry Electrodes
Current Collector
Technology
Company
Resource
Cases
Document Download
FAQ
Video
News
Company News
Exhibitions & Events
Blog
Contact Us
Home
Products
Dry Electrode for Supercapacitor
High-Cycle Series
High-Voltage Series
High-Capacity Series
Button-Type Dry Film Carbon Membrane
Dry Electrode for Lithium-Ion Battery
Silicon-Based Dry Electrode: SiC Anode
LiFePO₄ Dry Electrode: LFP Cathode
NCM Dry Electrode: NCM Cathode
Graphite Dry Film Electrode: Graphite Anode
Supercapacitor
Axial Supercapacitor
Snap-In Supercapacitor
Hybrid Supercapacitor
Pouch-Type Supercapacitor
Axial Hybrid Energy Supercapacitor
Module/System
Supercapacitor Module
Hybrid Supercapacitor Module
Equipment for Dry Electrodes
5-roll Dry Process Film Forming Machine
6-Roll Dry Film Forming and Laminating Machine
10-Roll Dry Film Forming and Laminating Machine
Current Collector
Electrochemically Corroded Aluminum Foil
Carbon-Coated Etched
Carbon-Coated Aluminum Foil
Carbon-Coated Copper Foil
Technology
Company
Resource
Cases
Document Download
HESC40V5000 Product Specification
HESC40V10600 Product Specification
HESC40V15000 Product Specification
Specification for Supercapacitor 2.7V350F
Specification for Supercapacitor 2.7V400F
Specification for Supercapacitor 2.7V500F
Specification for Supercapacitor 2.7V600F
Specification for Supercapacitor 2.7V1500F
Specification for Supercapacitor 2.7V3000F
Specification for Supercapacitor 2.7V3300F
Specification for Supercapacitor 2.7V4500F
Specification for Supercapacitor 2.7V5000F
Specification for Supercapacitor 3.0V320F
Specification for Supercapacitor 3.0V350F
Specification for Supercapacitor 3.0V400F
Specification for Supercapacitor 3.0V500F
Specification for Supercapacitor 3.0V600F
Specification for Supercapacitor 3.0V1500F
Specification for Supercapacitor 3.0V3000F
Specification for Supercapacitor 3.0V3300F
Specification for Supercapacitor 3.0V4500F
Specification for Supercapacitor 4.2V42000F
Dry Electrode TY-235D-250-A117 Datasheet
Dry Electrode TY-255D-250-A067 Datasheet
28V12857F Specification for Supercapacitors
58V17142F Specification for Supercapacitors
72V8330F Specification for Supercapacitors
810V30KW Intelligent Energy Saving System Specification
FAQ
Video
CIBF2025-Tsingyan
PTFE-Based Copper-Clad Laminate Bolsters NVIDIA's GB300, Igniting the Computing Revolution
Tsingyan Equipment Product Display
Tsingyan Factory and Company Display
China's first fully automated dry electrode production line for 0.1 GWh lithium-ion batteries
News
Company News
INVITATION:Vietnam InternationalElectricity & Energy Exhibition
From Dry Electrode to Supercapacitor System: Unveiling the Full-Chain Technology of Tsingyan Electronic Supercapacitors
Exclusive Report by Gaogong | An Interview with Tsingyan Electronics: Ten Questions on the Necessity of Dry Electrodes
Win-Win Future | Tsingyan Electronics and Honggong Technology Reach a Strategic Partnership on Dry Film Innovation
''Process Equipmentization'' Helps Promote the Large-Scale Mass Production of Dry Electrodes! CIBF2024
New-Quality Productivity! Reach a Strategic Cooperation with BTR to Integrate and Develop the Dry Electrode Industry Chain and Innovation Chain.
New Product! Dry Electrode Film for Button-Type Supercapacitors, Achieving Roll-to-Roll Production for Enhanced Quality and Efficiency!
TSINGYANE& ONGOAL : Unveil Joint Venture, Aiming for Leadership in Dry Electrode Equipment
The first in China! Tsingyanak high-speed wide-width (solid-state) dry electrode equipment was successfully delivered
Tsingyan, Kedali, Daikin Japan, and Tsinghua University's Shenzhen Research Institute Jointly Participated in the Compilation of the Group Standard for lithium Battery Structural Parts.
Exhibitions & Events
CIBF Concurrent Forum Speech
Discussing New Opportunities of Dry Electrode Technology in Solid-State Battery Industry – Dr. Wang Chen from Tsingyan Electronics Attends 2025 Gaogong Lithium Battery Summit
BATTERY JAPAN 2024 | Tsingyan Electronics Makes a Splash at the Tokyo International Secondary Battery Exhibition
Blog
Dry Electrode Manufacturing Technology: The Rising Star of the Battery
Differences and Comparison Between Supercapacitors and Lithium Batteries
Dry Process: Simplifying Electrode Manufacturing
What is the Power Capacity of a 1-Farad Capacitor?
How Conductive Coatings Are Revolutionizing Dry Battery Electrode Manufacturing
Why Tesla is Using Dry Battery Electrode Technology
What Are the Differences between NMC and LCO Battery
Battery Energy Storage: How It Works & Why It's Important
What is a dry electrode?
Anode vs Cathode: Understanding the Difference
A Guide to the Six Main Types of Lithium Batteries
What is the Difference Between Supercapacitors and Batteries?
How Dry Electrode Coating is Revolutionizing Batteries
Tesla 4680 Battery's Secret Sauce: Dry Electrode Coating
New Ideas For Process Testing Of Dry Electrodes
How Dry Electrode Manufacturing Slashes Battery Costs by 50% or More
Dry-Processed Vs. Solution-Processed Electrodes
Dry Electrode Process: A Promising Path For Green Energy
A Closer Look at Li-Ion Dry Electrode Coating Technology
A Review of Lithium-ion Battery Electrode Drying
What Is the Cathode Material in Lithium Ion Batteries
What Are Battery Anode and Cathode Materials?
The Electric-Powered Future with New Cathode Materials
Structure and Performance of the Lifepo4 Cathode Material
Possible Cathode Materials for Solid State Batteries
Next-Generation Lithium-ion Battery Cathode Materials
Why Do Batteries Have Limited Charge Cycles?
What Is Graphite, And Why Is It so Important in Batteries?
What is a Silicon Anode Lithium-Ion Battery?
What Are the Metals Used in Lithium-ion Battery?
What Are Electric Car Batteries Made Of?
The Pros and Cons of Lithium Ion Batteries: A Deep Dive
Exploring the Future of 3000F Supercapacitors
Choosing the Right Current Collector Supplier
How to Find Reliable Supercapacitor Manufacturers
Advantages of Hybrid Super Capacitors Explained
Contact Us
Email Us
Emily Lee:+8617796332570
liliping@tsingyane.com
en
English
日本語
한국어
français
Deutsch
Español
italiano
русский
português
العربية
tiếng việt
Products
Dry Electrode for Supercapacitor
Dry Electrode for Lithium-Ion Battery
Supercapacitor
Hybrid Supercapacitor
Module/System
Equipment for Dry Electrodes
Current Collector
High-Cycle Series
High-Voltage Series
High-Capacity Series
Button-Type Dry Film Carbon Membrane
Silicon-Based Dry Electrode: SiC Anode
LiFePO₄ Dry Electrode: LFP Cathode
NCM Dry Electrode: NCM Cathode
Graphite Dry Film Electrode: Graphite Anode
Axial Supercapacitor
Snap-In Supercapacitor
Pouch-Type Supercapacitor
Axial Hybrid Energy Supercapacitor
Supercapacitor Module
Hybrid Supercapacitor Module
5-roll Dry Process Film Forming Machine
6-Roll Dry Film Forming and Laminating Machine
10-Roll Dry Film Forming and Laminating Machine
Electrochemically Corroded Aluminum Foil
Carbon-Coated Etched
Carbon-Coated Aluminum Foil
Carbon-Coated Copper Foil
High-Cycle Series
01
High-Voltage Series
02
High-Capacity Series
03
Button-Type Dry Film Carbon Membrane
04
Silicon-Based Dry Electrode: SiC Anode
01
LiFePO₄ Dry Electrode: LFP Cathode
02
NCM Dry Electrode: NCM Cathode
03
Graphite Dry Film Electrode: Graphite Anode
04
Axial Supercapacitor
01
Snap-In Supercapacitor
02
Pouch-Type Supercapacitor
01
Axial Hybrid Energy Supercapacitor
02
Supercapacitor Module
01
Hybrid Supercapacitor Module
02
5-roll Dry Process Film Forming Machine
01
6-Roll Dry Film Forming and Laminating Machine
02
10-Roll Dry Film Forming and Laminating Machine
03
Electrochemically Corroded Aluminum Foil
01
Carbon-Coated Etched
02
Carbon-Coated Aluminum Foil
03
Carbon-Coated Copper Foil
04
Technology
Company
Resource
Cases
Document Download
FAQ
Video
News
Company News
Exhibitions & Events
Blog
Contact Us
>
Home
Resource
Video
PTFE-Based Copper-Clad Laminate Bolsters NVIDIA's GB300, Igniting the Computing Revolution
PTFE-Based Copper-Clad Laminate Bolsters NVIDIA's GB300, Igniting the Computing Revolution
Related Energy Storage Solutions
Snap-In Supercapacitor 2.7V 500F
Axial Supercapacitor 3.0V 3300F
TY-125S-250-A117 High-Capacity Series
Related Video
China's first fully automated dry electrode production line for 0.1 GWh lithium-ion batteries
Tsingyan Factory and Company Display
CIBF2025-Tsingyan
Latest Insights about Tsingyan
Advantages of Hybrid Super Capacitors Explained
How to Find Reliable Supercapacitor Manufacturers
Choosing the Right Current Collector Supplier
Resource
Cases
Document Download
FAQ
Video
Products
Dry Electrode for Supercapacitor
High-Cycle Series
High-Voltage Series
High-Capacity Series
Button-Type Dry Film Carbon Membrane
Dry Electrode for Lithium-Ion Battery
Silicon-Based Dry Electrode: SiC Anode
LiFePO₄ Dry Electrode: LFP Cathode
NCM Dry Electrode: NCM Cathode
Graphite Dry Film Electrode: Graphite Anode
Supercapacitor
Axial Supercapacitor
Snap-In Supercapacitor
Hybrid Supercapacitor
Pouch-Type Supercapacitor
Axial Hybrid Energy Supercapacitor
Module/System
Supercapacitor Module
Hybrid Supercapacitor Module
Equipment for Dry Electrodes
5-roll Dry Process Film Forming Machine
6-Roll Dry Film Forming and Laminating Machine
10-Roll Dry Film Forming and Laminating Machine
Current Collector
Electrochemically Corroded Aluminum Foil
Carbon-Coated Etched
Carbon-Coated Aluminum Foil
Carbon-Coated Copper Foil
Dry Electrode for Supercapacitor
High-Cycle Series
High-Voltage Series
High-Capacity Series
Button-Type Dry Film Carbon Membrane
Dry Electrode for Lithium-Ion Battery
Silicon-Based Dry Electrode: SiC Anode
LiFePO₄ Dry Electrode: LFP Cathode
NCM Dry Electrode: NCM Cathode
Graphite Dry Film Electrode: Graphite Anode
Supercapacitor
Axial Supercapacitor
Snap-In Supercapacitor
Hybrid Supercapacitor
Pouch-Type Supercapacitor
Axial Hybrid Energy Supercapacitor
Module/System
Supercapacitor Module
Hybrid Supercapacitor Module
Equipment for Dry Electrodes
5-roll Dry Process Film Forming Machine
6-Roll Dry Film Forming and Laminating Machine
10-Roll Dry Film Forming and Laminating Machine
Current Collector
Electrochemically Corroded Aluminum Foil
Carbon-Coated Etched
Carbon-Coated Aluminum Foil
Carbon-Coated Copper Foil
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