No. |
Part Name |
Description |
Manufacturer |
1 |
194D |
Solid Tantalum Chip Capacitors, Conformal, High Reliability, MIDGET® Solid-Electrolyte, New Extended Range, Minimum Size |
Vishay |
2 |
195D |
Solid Tantalum Chip Capacitors, Conformal, Industrial Grade, TANTAMOUNT® Tantalum Chips with Conformal Terminals, Minimum size, Meets IEC Specification QC300801/US0002, 2 Standard Electroplate Terminations |
Vishay |
3 |
2N5090 |
NPN silicon RF Power Transistor, 1.2W Output Minimum at 400MHz (7.8 dB Gain) |
Motorola |
4 |
54ACT2525 |
1-to-8 Minimum Skew Clock Driver |
National Semiconductor |
5 |
54ACT2525DMQB |
1-to-8 Minimum Skew Clock Driver |
National Semiconductor |
6 |
54ACT2525FMQB |
1-to-8 Minimum Skew Clock Driver |
National Semiconductor |
7 |
54ACT2525LMQB |
1-to-8 Minimum Skew Clock Driver |
National Semiconductor |
8 |
74B2529 |
500 PS 2-to-10 Minimum Skew Clock Driver |
National Semiconductor |
9 |
74C2525 |
1-to-8 Minimum Skew Clock Driver |
National Semiconductor |
10 |
74C2526 |
1-to-8 Minimum Skew Clock Driver |
National Semiconductor |
11 |
74CT2525 |
1-to-8 Minimum Skew Clock Driver |
National Semiconductor |
12 |
74CT2526 |
1-to-8 Minimum Skew Clock Driver |
National Semiconductor |
13 |
AN1438 |
LOW NOISE AMPLIFIER OPTIMIZED FOR MINIMUM NOISE FIGURE AT 1.9GHZ USING START420 |
SGS Thomson Microelectronics |
14 |
BD51180TL |
65V, 1A, 2MHz Synchronous Step-Down Regulator with 20ns minimum on pulse |
ROHM |
15 |
CA2812 |
Wide Bandwidth Linear Hybrid Amplifier, 1-520MHz 30db Gain, Power Output 250mW Minimum, optimized for 12V Operation |
TRW |
16 |
CA2820 |
Wide Bandwidth Linear Hybrid Amplifier 1-520MHz, 30dB Gain, 400mW power output minimum |
TRW |
17 |
CDCLVD110 |
1-to-10 LVDS clock buffer up to 900MHz with minimum skew for clock distribution |
Texas Instruments |
18 |
CDCLVD110A |
1-to-10 LVDS Clock Buffer up to 1100MHz with Minimum Skew for Clock Distribution |
Texas Instruments |
19 |
CDCLVD110ARHBR |
1-to-10 LVDS Clock Buffer up to 1100MHz with Minimum Skew for Clock Distribution 32-VQFN -40 to 85 |
Texas Instruments |
20 |
CDCLVD110ARHBRG4 |
1-to-10 LVDS Clock Buffer up to 1100MHz with Minimum Skew for Clock Distribution 32-VQFN -40 to 85 |
Texas Instruments |
21 |
CDCLVD110ARHBT |
1-to-10 LVDS Clock Buffer up to 1100MHz with Minimum Skew for Clock Distribution 32-VQFN -40 to 85 |
Texas Instruments |
22 |
CDCLVD110ARHBTG4 |
1-to-10 LVDS Clock Buffer up to 1100MHz with Minimum Skew for Clock Distribution 32-VQFN -40 to 85 |
Texas Instruments |
23 |
CDCLVD110AVF |
1-to-10 LVDS Clock Buffer up to 1100MHz with Minimum Skew for Clock Distribution 32-LQFP -40 to 85 |
Texas Instruments |
24 |
CDCLVD110AVFG4 |
1-to-10 LVDS Clock Buffer up to 1100MHz with Minimum Skew for Clock Distribution 32-LQFP -40 to 85 |
Texas Instruments |
25 |
CDCLVD110AVFR |
1-to-10 LVDS Clock Buffer up to 1100MHz with Minimum Skew for Clock Distribution 32-LQFP -40 to 85 |
Texas Instruments |
26 |
CDCLVD110AVFRG4 |
1-to-10 LVDS Clock Buffer up to 1100MHz with Minimum Skew for Clock Distribution 32-LQFP -40 to 85 |
Texas Instruments |
27 |
CDCLVD110VF |
1-to-10 LVDS clock buffer up to 900MHz with minimum skew for clock distribution |
Texas Instruments |
28 |
CDCLVD110VFG4 |
1-to-10 LVDS clock buffer up to 900MHz with minimum skew for clock distribution 32-LQFP -40 to 85 |
Texas Instruments |
29 |
CDCLVD110VFR |
1-to-10 LVDS clock buffer up to 900MHz with minimum skew for clock distribution |
Texas Instruments |
30 |
CDCLVD110VFRG4 |
1-to-10 LVDS clock buffer up to 900MHz with minimum skew for clock distribution 32-LQFP -40 to 85 |
Texas Instruments |
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