The SIDAC is a silicon bilateral voltage triggered switch. Upon application of a voltage exceeding the SIDAC breakover voltage point, the SIDAC switches on through a negative resistance region to a low on-state voltage. Conduction continues until the current is interrupted or drops below the minimum holding current of the device. SIDACs feature glass-passiva.
• A C Circuit Oriented
• T riggering Voltage of 79V
to 330V
• R oHS Compliant
Electrical Specifications (TJ = 25°C, unless otherwise specified)
Symbol
Parameters
VBO Breakover/Trigger Voltage
VDRM
Repetitive Peak Off-state Voltage
Note: xxx = voltage, z = circuit function, y = package
Applications Suitable for high voltage power supplies, natural gas igniters, high-pressure Sodium lamps, and Xenon f.
No. | Partie # | Fabricant | Description | Fiche Technique |
---|---|---|---|---|
1 | K1300 |
Champion |
5V Crystal Clock Oscillators | |
2 | K1300G |
JIEJIE |
Sidac | |
3 | K1300G |
Sunmate |
Axial Leaded Silicon Bilateral Voltage Triggered | |
4 | K1300S |
JIEJIE |
Sidac | |
5 | K1304 |
Renesas Technology |
2SK1304 | |
6 | K1305 |
Renesas |
Silicon N-Channel MOSFET | |
7 | K1305 |
Hitachi |
2SK1305 | |
8 | K1306 |
Hitachi Semiconductor |
2SK1306 | |
9 | K1307 |
Hitachi Semiconductor |
2SK1307 | |
10 | K1310A |
Toshiba Semiconductor |
N-Channel MOSFET | |
11 | K1315 |
Hitachi Semiconductor |
2SK1316 | |
12 | K1316 |
Hitachi Semiconductor |
2SK1316 |