No. |
Part Name |
Description |
Manufacturer |
1 |
24LC21A |
The 24LC21A is a 128 x 8-bit dual-mode Serial Electrically Erasable PROM designed to meet the plug-and-play requirements of today’s advanced monitors. The 24LC21A represents a simple, low-cost route to meeting the stringent standards |
Microchip |
2 |
24LCS21 |
The 24LCS21 is a 128 x 8-bit dual-mode Serial Electrically Erasable PROM designed to meet the plug-and-play requirements of today’s advanced monitors. The 24LCS21 represents a simple, low-cost route to meeting the stringent standards |
Microchip |
3 |
2N5060-D |
Sensitive Gate Sillicon Controlled Rectifiers Reverse Blocking Thyristors |
ON Semiconductor |
4 |
2N6266 |
10-, 16-, 30-, and 60-Watt Broadband (620-to-960-MHz) Power Amplifiers Using the RCA-2N6266 and 2N6267 Microwave Power Transistors - App. Note |
RCA Solid State |
5 |
2N6267 |
10-, 16-, 30-, and 60-Watt Broadband (620-to-960-MHz) Power Amplifiers Using the RCA-2N6266 and 2N6267 Microwave Power Transistors - App. Note |
RCA Solid State |
6 |
2N6394-D |
Silicon Controlled Rectifiers Reverse Blocking Thyristors |
ON Semiconductor |
7 |
2N6400-D |
Silicon Controlled Rectifiers Reverse Blocking Thyristors |
ON Semiconductor |
8 |
2N6504-D |
Reverse Blocking Thyristors |
ON Semiconductor |
9 |
307C LIGHTING THERMISTORS |
PTC Thermistors For Electronic Fluorescent Ballasts |
Vishay |
10 |
5962F9671801VRC |
Radiation Hardened Octal Non-Inverting Three-State Buffer |
Intersil |
11 |
5962F9671801VXC |
Radiation Hardened Octal Non-Inverting Three-State Buffer |
Intersil |
12 |
71128 |
Simple Solution for Dynamically Programming the Output Voltage of DC-DC Converters |
Vishay |
13 |
AB-015 |
EXTENDING THE COMMON-MODE RANGE OF DIFFERENCE AMPLIFIERS |
Burr Brown |
14 |
AB-019 |
USING THE ADS7800 12 BIT ADC WITH UNIPOLAR INPUT SIGNALS |
Burr Brown |
15 |
AB-029 |
INPUT FILTERING THE INA117 -200V DIFFERENCE AMPLIFIER |
Burr Brown |
16 |
AB-095 |
TIPS FOR USING THE ADS78XX FAMILY OF A/D CONVERTERS |
Burr Brown |
17 |
AB-112 |
INTERFACING THE ADS1210 WITH AN 8xC51 MICROCONTROLLER |
Burr Brown |
18 |
AB-113 |
ACCESSING THE ADS1210 DEMO BOARD WITH YOUR PC |
Burr Brown |
19 |
AB-115 |
OVERDRIVING THE INPUTS TO THE ADS1210, ADS1211, ADS1212, AND ADS1213 |
Burr Brown |
20 |
AB-117 |
SHORT CYCLING THE 8-PIN ADS78xx FAMILY |
Burr Brown |
21 |
AB-122 |
INTERFACING THE ADS7822 TO THE SYNCHRONOUS SERIAL PORT OF THE 80x51 MICROCONTROLLER |
Burr Brown |
22 |
AB-123 |
USING THE CONTINUOUS PARALLEL MODE WITH THE ADS7824 AND ADS7825 |
Burr Brown |
23 |
AB-125 |
CUSTOMIZING THE DDC112 EVALUATION FIXTURE |
Burr Brown |
24 |
AB-130 |
INTERFACING THE DAC714 TO MICRO-CONTROLLERS VIA SPI |
Burr Brown |
25 |
AB-131 |
UNDERSTANDING THE DDC112+s CONTINUOUS AND NON-CONTINUOUS MODES |
Burr Brown |
26 |
AB-146 |
USING THE ADS1201 EVALUATION BOARD |
Burr Brown |
27 |
AB-167 |
COMPARING THE ADS1201 TO THE CS5321 |
Burr Brown |
28 |
AB-185 |
AUTOMATIC GAIN CONTROL (AGC) USING THE DIAMOND TRANSISTOR OPA660 |
Burr Brown |
29 |
ACTS244D |
Radiation Hardened Octal Non-Inverting Three-State Buffer |
Intersil |
30 |
ACTS244HMSR |
Radiation Hardened Octal Non-Inverting Three-State Buffer |
Intersil |
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