| No. |
Part Name |
Description |
Manufacturer |
| 1 |
2SD1585 |
Trans GP BJT NPN 60V 3A 3-Pin(3+Tab) TO-220 Isolated |
New Jersey Semiconductor |
| 2 |
AN137 |
The X9520 in Fibre Channel / Gigabit Ethernet Applications |
Xicor |
| 3 |
AN1436 |
CHANGING FROM THE ST95010/ST95020 TO THE M95010/M95020 IN YOUR APPLICATION USING A SIMPLE RECOGNITION METHOD |
SGS Thomson Microelectronics |
| 4 |
BGB420 |
Silicon MMICs - Mirror-Biased BFP 420 in SIEGET 25 Technology, Icmax = 30mA, SOT343 |
Infineon |
| 5 |
EPM7256AETC144-10 |
Programmable logic , 256 macrocells, 16 logic array blocks, 120 I/O pins, 10ns |
Altera Corporation |
| 6 |
EPM7256AETC144-5 |
Programmable logic , 256 macrocells, 16 logic array blocks, 120 I/O pins, 5ns |
Altera Corporation |
| 7 |
EPM7256AETC144-7 |
Programmable logic , 256 macrocells, 16 logic array blocks, 120 I/O pins, 7ns |
Altera Corporation |
| 8 |
EPM7256AETI144-7 |
Programmable logic , 256 macrocells, 16 logic array blocks, 120 I/O pins, 7ns |
Altera Corporation |
| 9 |
EPM7512AETC144-10 |
Programmable logic , 512 macrocells, 32 logic array blocks, 120 I/O pins, 10ns |
Altera Corporation |
| 10 |
EPM7512AETC144-12 |
Programmable logic , 512 macrocells, 32 logic array blocks, 120 I/O pins, 12ns |
Altera Corporation |
| 11 |
EPM7512AETC144-7 |
Programmable logic , 512 macrocells, 32 logic array blocks, 120 I/O pins, 7ns |
Altera Corporation |
| 12 |
GMKPG 1100-220 IBY |
MKP-DC Filter Capacitors, Tubular Case, Type GMKPg110-220IBY |
Vishay |
| 13 |
HCS320 |
The HCS320 is a code hopping encoder designed for secure Remote Keyless Entry (RKE) systems. The HCS320 utilizes Microchip’s patented KEELOQ® hopping technology, which incorporates high security, a small package outline, and low |
Microchip |
| 14 |
HCS320-I/P |
The HCS320 is a code hopping encoder designed for secure Remote Keyless Entry (RKE) systems. The HCS320 utilizes Microchip’s ... |
Microchip |
| 15 |
HCS320-I/SN |
The HCS320 is a code hopping encoder designed for secure Remote Keyless Entry (RKE) systems. The HCS320 utilizes Microchip’s ... |
Microchip |
| 16 |
HCS320/P |
The HCS320 is a code hopping encoder designed for secure Remote Keyless Entry (RKE) systems. The HCS320 utilizes Microchip’s ... |
Microchip |
| 17 |
HCS320/SN |
The HCS320 is a code hopping encoder designed for secure Remote Keyless Entry (RKE) systems. The HCS320 utilizes Microchip’s ... |
Microchip |
| 18 |
KT830L11 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .010 inches. |
Optek Technology |
| 19 |
KT830L15 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. |
Optek Technology |
| 20 |
KT830L51 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. |
Optek Technology |
| 21 |
KT830L55 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells . Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. |
Optek Technology |
| 22 |
KT830W11 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .010 inches. |
Optek Technology |
| 23 |
KT830W15 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. |
Optek Technology |
| 24 |
KT830W51 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. |
Optek Technology |
| 25 |
KT830W55 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. |
Optek Technology |
| 26 |
KT831L15 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. |
Optek Technology |
| 27 |
KT831L51 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. |
Optek Technology |
| 28 |
KT831L55 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. |
Optek Technology |
| 29 |
KT831W15 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. |
Optek Technology |
| 30 |
KT831W51 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. |
Optek Technology |
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