No. |
Part Name |
Description |
Manufacturer |
121 |
24LC21-I/SN |
Note:This product has become 'Obsolete' and is no longer offered as a viable device for design. Please see device 24LCS21AThe 24LC21 ... |
Microchip |
122 |
24LC21/P |
Note:This product has become 'Obsolete' and is no longer offered as a viable device for design. Please see device 24LCS21AThe 24LC21 ... |
Microchip |
123 |
24LC21/SN |
Note:This product has become 'Obsolete' and is no longer offered as a viable device for design. Please see device 24LCS21AThe 24LC21 ... |
Microchip |
124 |
24LC21T-I/SN |
Note:This product has become 'Obsolete' and is no longer offered as a viable device for design. Please see device 24LCS21AThe 24LC21 ... |
Microchip |
125 |
24LC21T/SN |
Note:This product has become 'Obsolete' and is no longer offered as a viable device for design. Please see device 24LCS21AThe 24LC21 ... |
Microchip |
126 |
26LS31 |
QuadHighSpeedDifferentialLineDriver |
National Semiconductor |
127 |
26LS31 |
QUADRUPLEDIFFERENTIALLINEDRIVER |
Texas Instruments |
128 |
26LS32 |
QUADRUPLEDIFFERENTIALLINERECEIVERS |
Texas Instruments |
129 |
28C64A |
Note:This product has become 'Obsolete' and is no longer offered as a viable device for design.28C64A is a 64K bit CMOS Parallel EEPROM. The 28C64A is accessed like a static RAM for the read or write cycles without the need of external com |
Microchip |
130 |
28LV64A |
Note:This product has become 'Obsolete' and is no longer offered as a viable device for design.28LV64A is a 64K bit CMOS Parallel EEPROM organized as 8K words by 8 bits. The 28LV64A is accessed like a static RAM for the read or write cycle |
Microchip |
131 |
2N2060 |
NPN silicon annular Star dual transistor matched pair for differential amplifiers and other applications |
Motorola |
132 |
2N2060 |
Silicon transistor differential amplifiers |
SGS-ATES |
133 |
2N2060A |
NPN silicon annular Star dual transistor matched pair for differential amplifiers and other applications |
Motorola |
134 |
2N2060A |
Silicon transistor differential amplifiers |
SGS-ATES |
135 |
2N2223 |
NPN silicon annular Star dual transistor matched pair for differential amplifiers and other applications |
Motorola |
136 |
2N2223 |
Silicon transistor differential amplifiers |
SGS-ATES |
137 |
2N2223A |
NPN silicon annular Star dual transistor matched pair for differential amplifiers and other applications |
Motorola |
138 |
2N2453 |
Dual NPN silicon transistor designed for differential amplifier applications |
Motorola |
139 |
2N2453 |
Silicon transistor differential amplifiers |
SGS-ATES |
140 |
2N2453 |
Silicon transistor NPN differential amplifiers |
Sprague |
141 |
2N2453A |
Dual NPN silicon transistor designed for differential amplifier applications |
Motorola |
142 |
2N2480 |
NPN silicon annular Star dual transistor matched pair for differential amplifiers and other applications |
Motorola |
143 |
2N2480 |
Silicon transistor NPN differential amplifiers |
Sprague |
144 |
2N2480A |
NPN silicon annular Star dual transistor matched pair for differential amplifiers and other applications |
Motorola |
145 |
2N2639 |
Dual NPN silicon annular transistor designed for low-level, low-noise differential amplifiers |
Motorola |
146 |
2N2639 |
Silicon transistor NPN differential amplifiers |
Sprague |
147 |
2N2640 |
Dual NPN silicon annular transistor designed for low-level, low-noise differential amplifiers |
Motorola |
148 |
2N2640 |
Silicon transistor NPN differential amplifiers |
Sprague |
149 |
2N2641 |
Dual NPN silicon annular transistor designed for low-level, low-noise differential amplifiers |
Motorola |
150 |
2N2641 |
Silicon transistor NPN differential amplifiers |
Sprague |
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