| No. |
Part Name |
Description |
Manufacturer |
| 121 |
MP1972 |
3/4 inche photoncounting module. Window material quartz. Dark counts per second 5000 cps. |
PerkinElmer Optoelectronics |
| 122 |
MP1973 |
3/4 inche photoncounting module. Window material UV glass. Dark counts per second 5000 cps. |
PerkinElmer Optoelectronics |
| 123 |
MP1982 |
3/4 inche photoncounting module. Window material quartz. Dark counts per second 25 cps. |
PerkinElmer Optoelectronics |
| 124 |
MP1983 |
3/4 inche photoncounting module. Window material UV glass. Dark counts per second 25 cps. |
PerkinElmer Optoelectronics |
| 125 |
MP953 |
1/3 inche photoncounting module. Window material UV glass. Dark counts per second 40 cps. |
PerkinElmer Optoelectronics |
| 126 |
MP963 |
1/3 inche photoncounting module. Window material UV glass. Dark counts per second 100 cps. |
PerkinElmer Optoelectronics |
| 127 |
MP972 |
1/3 inche photoncounting module. Window material quartz. Dark counts per second 500 cps. |
PerkinElmer Optoelectronics |
| 128 |
MP973 |
1/3 inche photoncounting module. Window material UV glass. Dark counts per second 500 cps. |
PerkinElmer Optoelectronics |
| 129 |
MP982 |
1/3 inche photoncounting module. Window material quartz. Dark counts per second 3 cps. |
PerkinElmer Optoelectronics |
| 130 |
MP983 |
1/3 inche photoncounting module. Window material UV glass. Dark counts per second 3 cps. |
PerkinElmer Optoelectronics |
| 131 |
MRCN |
Molded Sip, Molded Epoxy Case, Solderability per MIL-STD-202 Method 208E, Marking Resistance to Solvents per MIL-STD-202 Method 215 |
Vishay |
| 132 |
MRCN |
Molded Sip, Molded Epoxy Case, Solderability per MIL-STD-202 Method 208E, Marking Resistance to Solvents per MIL-STD-202 Method 215 |
Vishay |
| 133 |
NTE6200 |
Positive Center Tapped Silicon Recitifers 30 Amp(15A per diode) |
NTE Electronics |
| 134 |
NTE6210 |
Positive Center Tapped Silicon Recitifers 30 Amp(15A per diode) |
NTE Electronics |
| 135 |
Q62702-A1223 |
Silicon Schottky Diodes (Parallel connection for maximum IF per package Low forward voltage drop For power supply) |
Siemens |
| 136 |
QIC0610001 |
Dual Common Emitter IGBT Module 100A 600V Per Switch |
Powerex Power Semiconductors |
| 137 |
QIC0620001 |
Dual Common Emitter IGBT Module 200A 600V Per Switch |
Powerex Power Semiconductors |
| 138 |
SN75FC1000 |
1-Gigabyte Per Second Fibre Channel Transceiver 64-HTQFP |
Texas Instruments |
| 139 |
SN75FC1000PHD |
1-Gigabyte Per Second Fibre Channel Transceiver 64-HTQFP |
Texas Instruments |
| 140 |
SN75FC1000PJD |
1-Gigabyte Per Second Fibre Channel Transceiver 64-HTQFP |
Texas Instruments |
| 141 |
SNA-586 |
DC-5 GNz cascadable GaAs HBT MMIC amplifier. High output IP3: 32.5 dBm at 850 MHz. Devices per reel 1000. Reel size 7 |
Stanford Microdevices |
| 142 |
STEVAL-TLL013V1 |
5-channel (2 LEDs in series per channel) step-up white LED driver demonstration board based on the STLED25 |
ST Microelectronics |
| 143 |
SXL-208-BLK |
800-970 MHz, 50 Ohm power MMIC amplifier. High 3rd order intercept: +46dBm typ. at 900 MHz. Devices per reel 100/TRAY. |
Stanford Microdevices |
| 144 |
SXL-208-TR1 |
800-970 MHz, 50 Ohm power MMIC amplifier. High 3rd order intercept: +46dBm typ. at 900 MHz. Devices per reel 500. Reel size 7 |
Stanford Microdevices |
| 145 |
SXL-208-TR2 |
800-970 MHz, 50 Ohm power MMIC amplifier. High 3rd order intercept: +46dBm typ. at 900 MHz. Devices per reel 1000. Reel size 13 |
Stanford Microdevices |
| 146 |
SXL-316-BLK |
800-970 MHz, 50 Ohm power amplifier module. High 3rd order intercept: +52dBm typ. at 850 MHz. Devices per reel 100/TRAY. |
Stanford Microdevices |
| 147 |
SXL-316-TR2 |
800-970 MHz, 50 Ohm power amplifier module. High 3rd order intercept: +52dBm typ. at 850 MHz. Devices per reel 1000. Reel size 13 |
Stanford Microdevices |
| 148 |
TC3400 |
The TC3400 is a low cost, low power analog-to-digital converter based on Microchip’s Sigma-Delta technology. It will perform 16-bit conversions (15-bit plus sign) at up to eight per second. The TC3400 is optimized for use as a microc |
Microchip |
| 149 |
TC3401 |
The TC3401 is a low cost, low power analog-to-digital converter based on Microchip’s Sigma-Delta technology. It will perform 16-bit conversions (15-bit plus sign) at up to eight per second. The TC3401 is optimized for use as a microc |
Microchip |
| 150 |
TC3402 |
The TC3402 is a low cost, low power analog-to-digital converter based on Microchip’s Sigma-Delta technology. It will perform 16-bit conversions (15-bit plus sign) at up to eight per second. The TC3402 is optimized for use as a microc |
Microchip |
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