Topdiode T4135-16N is a nice alternative offer for JST41SJ-1600BW
Glass Passivated Junctions
High voltage and surge capability
Low Thermal Resistance and Durability
Triggering in three quadrants
3-Quadrant TRIACs 40A 1600V T4135-16N-Topdiode
With high ability to withstand the shock loading oflarge current, T41 series triacs provide high dv/dtrate with strong resistance to electromagneticinterface. With high commutation performances, 3 quadrants products especially recommended foruse on inductive load
Topdiode T4135-16N is a nice alternative offer for JST41SJ-1600BW
3-Quadrant TRIACs 40A 1600V T4135-16N Topdiode DATA
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| Parameter | Symbol | Value | Unit | ||||
| Storage junction temperature range | Tstg | -40 ~ 150 | ℃ | ||||
| Operating junction temperature range | Tj | -40~ 125 | ℃ | ||||
| Repetitive peak off-state voltage (T =25℃) | VDRM | 600/800/1000 | V | ||||
| Repetitive peak reverse voltage (T =25℃) | VRRM | 600/800/1000 | V | ||||
| Non repetitive surge peak Off-state voltage | VDSM | VDRM +100 | V | ||||
| Non repetitive peak reverse voltage | VRSM | VRRM +100 | V | ||||
| RMS on-state current (T = 110℃) | IT(RMS) | 16 | A | ||||
| Non repetitive surge peak on-state current(180° conduction angle, F=50Hz) |
ITSM | 190 | A | ||||
| Average on-state current (180° conduction angle) | IT(AV) | 10 | A | ||||
| I2t value for fusing (tp= 10ms) | I2t | 180 | A2 S | ||||
| Critical rate of rise of on-state current(I =2×IGT, tr ≤ 100 ns) |
dI/dt | 50 | A/μS | ||||
| Peak gate current | IGM | 4 | A | ||||
| Average gate power dissipation | PG(AV) | 1 | W | ||||
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SCRs and Triacs Datasheet
Topdiode Thyristors Used in Home Appliances ( Vacuum cleaner, juicer, rice cooker)
Home appliances cover a wide range, such as air conditioners, washing machines, electric kettles, and lighting systems. They require components that can effectively control power and ensure stable operation.
Thyristors come in various types like SCRs (Silicon Controlled Rectifiers). They are designed with a PNPN structure and specific doping concentrations. Thyristors can precisely control the power delivered to home appliances. For example, in an electric kettle, they can control the heating time and power to quickly and safely boil water. In a dimmer switch for lighting, thyristors adjust the light intensity by regulating the current.
Topdiode use advanced semiconductor manufacturing processes to produce high-quality thyristors. These have low forward voltage drops, reducing power loss and improving energy efficiency. They also have high voltage and current withstand capabilities, ensuring they can work stably in different home appliance circuits.
Recommended Models:
F01 Series F02/T02 Series F04/T04 Series F08/T08 Series
F12/T12 Serles F16/T16 Series T20 Serie
Topdiode SCRs and Triacs Applications
A thyristor is a type of semiconductor device that acts as a switch, controlling the flow of electrical current in a circuit. Thyristors are typically used for switching and controlling high voltage or current in applications where the power must be turned on or off. They are made of four layers of semiconductor material (P-N-P-N) and typically have three terminals: anode, cathode, and gate.
Silicon Carbide Schottky Barrier Diodes are semiconductor devices that consist of a metal contact on a layer of n-type Silicon Carbide (SiC) material. The metal contact forms a Schottky barrier with the SiC material, which allows the flow of current in only one direction. SiC Schottky barrier diodes offer several advantages over conventional diodes, including lower forward voltage drop, shorter reverse recovery time, higher breakdown voltage, and higher temperature operation
SCR (Silicon Controlled Rectifier):
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- Structure: An SCR is a type of thyristor that has a single direction of current flow. It has four layers (P-N-P-N) and three terminals: anode, cathode, and gate.
- Control: It is controlled by a gate signal. Once triggered, it remains in the “on” state (conducting) until the current flowing through it drops below a certain threshold (called the “holding current”).
TRIAC (Triode for Alternating Current):
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- Structure: A TRIAC is similar to an SCR but can conduct current in both directions, making it suitable for AC applications. It has a similar structure but with an additional set of layers.
- Control: Like an SCR, a TRIAC is controlled by a gate signal, but it can conduct during both halves of an AC cycle, allowing bidirectional control.
Static relays
Heating regulation
In-duction motor starting circuits
Phase control operation in light dimmers
Motor speed controllers
- Topdiode produces TRIAC and SCR to replace tier 1 brands like ST, WeEn, Onsemi, Vishay etc.
- Cost down 30-60%
- Lead time around 3 weeks
- 100% guarantee quality