CPC1219
IXYS
116.06kb
4-pin sip optomos relay. The CPC1219 is a voltage-controlled, single-pole, normally closed (1-Form-B) optically cou
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📁 Related Datasheet
CPC1215 - Normally Open OptoMOS Relay
(IXYS)
INTEGRATED CIRCUITS DIVISION
Parameter Blocking Voltage Load Current On-Resistance (max) Input Voltage to operate
Rating 400 500 6 5-12
Units VP
mA.
CPC1215G - Normally Open OptoMOS Relay
(IXYS)
INTEGRATED CIRCUITS DIVISION
Parameter Blocking Voltage Load Current On-Resistance (max) Input Voltage to operate
Rating 400 500 6 5-12
Units VP
mA.
CPC1217 - 4-Pin SIP OptoMOS Relay
(IXYS)
INTEGRATED CIRCUITS DIVISION
CPC1217
Voltage-Controlled, Single-Pole, Normally Open, 4-Pin SIP OptoMOS® Relay
Parameter Blocking Voltage Load Curren.
CPC1217Y - 4-Pin SIP OptoMOS Relay
(IXYS)
INTEGRATED CIRCUITS DIVISION
CPC1217
Voltage-Controlled, Single-Pole, Normally Open, 4-Pin SIP OptoMOS® Relay
Parameter Blocking Voltage Load Curren.
CPC1218 - 4-Pin SIP OptoMOS Relay
(IXYS)
INTEGRATED CIRCUITS DIVISION
Blocking Voltage Load Current On-Resistance (max) Input Voltage to operate
CPC1218 60 600 1.1 5-12
Units VP
mArms / mA.
CPC1218Y - 4-Pin SIP OptoMOS Relay
(Clare)
4-Pin SIP OptoMOS® Relay
CPC1218Y 60 600 0.8 5-12 Units VP mA Ω V
CPC1218Y
Description
The CPC1218Y is a miniature voltage-controlled 1-Form-A Solid.
CPC1218Y - 4-Pin SIP OptoMOS Relay
(IXYS)
INTEGRATED CIRCUITS DIVISION
Blocking Voltage Load Current On-Resistance (max) Input Voltage to operate
CPC1218 60 600 1.1 5-12
Units VP
mArms / mA.
CPC1219Y - 4-Pin SIP OptoMOS Relay
(IXYS)
INTEGRATED CIRCUITS DIVISION
Parameter Blocking Voltage Load Current On-Resistance (max) Input Voltage to operate
Rating 60 200 16 5-12
Units VP
mA.
CPC121J - Disc Ceramic Capacitors
(Mallory)
EIA Class 1 Temperature Compensating Disc Ceramic Capacitors
{ { { { Temperature Compensating Ideal For Use in Timing and Oscillating Circuits Conform.
CPC120J - Disc Ceramic Capacitors
(Mallory)
EIA Class 1 Temperature Compensating Disc Ceramic Capacitors
{ { { { Temperature Compensating Ideal For Use in Timing and Oscillating Circuits Conform.