Onsemi Silicone Diode For Alternating Current (SIDAC) 21

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Part	Manufacturer	Trigger Device Type	Package Style (Meter)	Surface Mount	Terminal Position	Configuration	Case Connection	Package Body Material	Non Repetitive Peak On-state Current	Nominal Holding Current	Minimum Breakdown Voltage	Terminal Form	Package Shape	No. of Elements	Repetitive Peak Reverse Voltage	No. of Terminals	Sub-Category	Maximum Operating Temperature	Minimum Operating Temperature	Terminal Finish	JESD-30 Code	Qualification	Maximum Holding Current	JEDEC-95 Code	JESD-609 Code	Maximum Breakdown Voltage	Peak Reflow Temperature (C)	Reference Standard
MKP1V130RL	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	120 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	140 V	260	UL RECOGNIZED
MKP3V240RLG	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	20 A	100 mA	220 V	WIRE	ROUND	1	180 V	2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA		e3	250 V	260	UL RECOGNIZED
MKP3V240	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	20 A	100 mA	220 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA		e3	250 V	260	UL RECOGNIZED
MKP3V120RLG	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	20 A	100 mA	110 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA		e3	130 V	260	UL RECOGNIZED
MKP3V120	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	20 A	100 mA	110 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA		e3	130 V	260	UL RECOGNIZED
MKP3V240G	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	20 A	100 mA	220 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA		e3	250 V	260	UL RECOGNIZED
MKP3V240RL	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	20 A	100 mA	220 V	WIRE	ROUND	1	180 V	2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA		e3	250 V	260	UL RECOGNIZED
MKP3V120RL	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	20 A	100 mA	110 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN LEAD	O-PALF-W2	Not Qualified	100 mA		e0	130 V		UL RECOGNIZED
MKP3V120G	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	20 A	100 mA	110 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA		e3	130 V	260	UL RECOGNIZED
MKP1V120RL	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	110 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	130 V	260	UL RECOGNIZED
MKP1V240RLG	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	220 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	250 V	260	UL RECOGNIZED
MKP1V240	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	220 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	250 V	260	UL RECOGNIZED
MKP1V120RLG	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	110 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	130 V	260	UL RECOGNIZED
MKP1V160RLG	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	150 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	170 V	260	UL RECOGNIZED
MKP1V120	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	110 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN LEAD	O-PALF-W2	Not Qualified	100 mA	DO-41	e0	130 V
MKP1V130RLG	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	120 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	140 V	260	UL RECOGNIZED
MKP1V160G	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	150 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	170 V	260	UL RECOGNIZED
MKP1V160RL	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	150 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	170 V	260	UL RECOGNIZED
MKP1V240G	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	220 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	250 V	260	UL RECOGNIZED
MKP1V240RL	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	220 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	250 V	260	UL RECOGNIZED
MKP1V160	Onsemi	SIDAC	LONG FORM	NO	AXIAL	SINGLE	ISOLATED	PLASTIC/EPOXY	4 A	100 mA	150 V	WIRE	ROUND	1		2	Silicon Surge Protectors	125 Cel	-40 Cel	TIN	O-PALF-W2	Not Qualified	100 mA	DO-41	e3	170 V	260	UL RECOGNIZED

Silicone Diode For Alternating Current (SIDAC)

A Silicone Diode For Alternating Current (SIDAC) is a type of semiconductor device that is used to control the flow of current in AC circuits. It is similar to a thyristor but operates at a lower voltage and current rating.

SIDACs consist of a bidirectional switching element that allows for the control of AC current in both directions. They are typically used in applications where a low-voltage, low-current trigger signal is required.

SIDACs work by applying a trigger voltage to the device, which causes it to turn on and conduct current in both directions. Once the voltage across the device drops below a certain level, the SIDAC turns off.

SIDACs are commonly used in AC power control applications such as lamp dimmers, motor control, and power supplies. They are often used in conjunction with other components such as capacitors, inductors, and diodes to form complete electronic circuits.

Proper selection and use of SIDACs are critical to ensure safe and reliable operation of power control circuits. Factors such as the maximum voltage rating, maximum current rating, and operating temperature range should be considered when selecting a SIDAC for a particular application.