| No. |
Part Name |
Description |
Manufacturer |
| 1 |
1N34AH |
Germanium Point Contact for AM detector or logical circuit |
Hitachi Semiconductor |
| 2 |
1N60H |
Germanium Point Contact for Logical Circuit, Video, AM, FM Detector |
Hitachi Semiconductor |
| 3 |
AN222 |
AND / NOR circuit providing the logical function Q = NOT (A.B+C.D+E.F) |
Austria Mikro Systems |
| 4 |
AN321 |
AND / NOR circuit providing the logical function |
Austria Mikro Systems |
| 5 |
AO211 |
AO211 is an AND / OR circuit providing the logical function Q = (A.B+C+D). |
Austria Mikro Systems |
| 6 |
AO22 |
circuit providing the logical function |
Austria Mikro Systems |
| 7 |
AO331 |
AND / OR circuit providing the logical function Q |
Austria Mikro Systems |
| 8 |
HCS410 |
The HCS410 is a code hopping transponder device designed for secure entry systems. The HCS410 utilizes the patented KEELOQ® code hopping system and bi-directional challenge-and-response for logical and physical access control. High se |
Microchip |
| 9 |
HCS412 |
The HCS412 combines the patented KEELOQ® code hopping technology and bi-directional transponder challenge-and-response security into a single chip solution for logical and physical access control. High security learning mechanisms mak |
Microchip |
| 10 |
HCS473 |
The HCS473 combines the patented KEELOQ® code hopping technology and bi-directional transponder challenge-and-response security into a single chip solution for logical and physical access control. High security learning mechanisms mak |
Microchip |
| 11 |
MHB4001 |
Four logical terms of the negated sum |
Tesla Elektronicke |
| 12 |
MHB4011 |
Four logical terms of the negated product |
Tesla Elektronicke |
| 13 |
MHB4012 |
A pair of logical members of the negated product |
Tesla Elektronicke |
| 14 |
MHF4001B |
Four logical terms of the negated sum |
Tesla Elektronicke |
| 15 |
MHF4011B |
Four logical terms of the negated product |
Tesla Elektronicke |
| 16 |
MHF4012B |
A pair of logical members of the negated product |
Tesla Elektronicke |
| 17 |
MK50H28 |
MULTI LOGICAL LINK FRAME RELAY CONTROLLER |
SGS Thomson Microelectronics |
| 18 |
MK50H28 |
MULTI LOGICAL LINK FRAME RELAY CONTROLLER |
ST Microelectronics |
| 19 |
MK50H28DIP |
MULTI LOGICAL LINK FRAME RELAY CONTROLLER |
ST Microelectronics |
| 20 |
MK50H28N |
MULTI LOGICAL LINK FRAME RELAY CONTROLLER |
SGS Thomson Microelectronics |
| 21 |
MK50H28N |
MULTI LOGICAL LINK FRAME RELAY CONTROLLER |
ST Microelectronics |
| 22 |
MK50H28N25 |
MULTI LOGICAL LINK FRAME RELAY CONTROLLER |
ST Microelectronics |
| 23 |
MK50H28PLCC52 |
MULTI LOGICAL LINK FRAME RELAY CONTROLLER |
ST Microelectronics |
| 24 |
MK50H28Q |
MULTI LOGICAL LINK FRAME RELAY CONTROLLER |
SGS Thomson Microelectronics |
| 25 |
MK50H28Q |
MULTI LOGICAL LINK FRAME RELAY CONTROLLER |
ST Microelectronics |
| 26 |
MK50H28Q25 |
MULTI LOGICAL LINK FRAME RELAY CONTROLLER |
ST Microelectronics |
| 27 |
OA211 |
OA211 is an OR / AND circuit providing the logical function Q = [ (A+B).C.D ]. |
Austria Mikro Systems |
| 28 |
OA22 |
OR / AND circuit providing the logical function Q |
Austria Mikro Systems |
| 29 |
ON21 |
ON21 is an OR / NAND circuit providing the logical function Q = NOT ( (A+B) C ) |
Austria Mikro Systems |
| 30 |
ON22 |
ON22 is an OR / NAND circuit providing the logical function Q = NOT [ (A+B).(C+D) ]. |
Austria Mikro Systems |
| | | |
