No. |
Part Name |
Description |
Manufacturer |
151 |
MAX8595ZETA+T |
High-Efficiency, 32V Step-Up Converters with TA Derating Option for 2 to 8 White LEDs |
MAXIM - Dallas Semiconductor |
152 |
MAX8596 |
High-Efficiency, 36V Step-Up Converters with TA Derating Option for 2 to 9 White LEDs |
MAXIM - Dallas Semiconductor |
153 |
MAX8596X |
High-Efficiency, 36V Step-Up Converters with TA Derating Option for 2 to 9 White LEDs |
MAXIM - Dallas Semiconductor |
154 |
MAX8596XETA |
High-Efficiency, 36V Step-Up Converters with TA Derating Option for 2 to 9 White LEDs |
MAXIM - Dallas Semiconductor |
155 |
MAX8596XETA+ |
High-Efficiency, 36V Step-Up Converters with TA Derating Option for 2 to 9 White LEDs |
MAXIM - Dallas Semiconductor |
156 |
MAX8596XETA+T |
High-Efficiency, 36V Step-Up Converters with TA Derating Option for 2 to 9 White LEDs |
MAXIM - Dallas Semiconductor |
157 |
MAX8596Z |
High-Efficiency, 32V Step-Up Converters with TA Derating Option for 2 to 8 White LEDs |
MAXIM - Dallas Semiconductor |
158 |
MAX8596ZETA |
High-Efficiency, 32V Step-Up Converters with TA Derating Option for 2 to 8 White LEDs |
MAXIM - Dallas Semiconductor |
159 |
MAX8596ZETA+ |
High-Efficiency, 32V Step-Up Converters with TA Derating Option for 2 to 8 White LEDs |
MAXIM - Dallas Semiconductor |
160 |
MAX8596ZETA+T |
High-Efficiency, 32V Step-Up Converters with TA Derating Option for 2 to 8 White LEDs |
MAXIM - Dallas Semiconductor |
161 |
MCN |
Molded Sip, Molded Epoxy Case, Solderability per MIL-STD-202 Method 208E, Marking Resistance to Solvents per MIL-STD-202 Method 215 |
Vishay |
162 |
MOUNTING MODULES |
Application Note - Mounting considerations for Motorola RF power modules |
Motorola |
163 |
Mounting Techniques |
Thermal Considerations and Mounting Techniques |
Siliconix |
164 |
MP8037 |
17 Bit Moderate Speed Triple-Slope Integrating A/D Converter |
Analogic |
165 |
MRCN |
Molded Sip, Molded Epoxy Case, Solderability per MIL-STD-202 Method 208E, Marking Resistance to Solvents per MIL-STD-202 Method 215 |
Vishay |
166 |
S6431M |
Design Considerations for the RCA-S6431M Silicon Controlled Rectifier in High-Current Pulse Applications - App Note |
RCA Solid State |
167 |
SMM0102 |
Stable Metal Film on High Quality Ceramic, Force Fitted Steel Caps, Tin Plated on Nickel Barrier, Excellent Stability, Reliable Solderable Terminations to Facilitate Surface Mounting |
Vishay |
168 |
SMM0204 |
Stable Metal Film on High Quality Ceramic, Force Fitted Steel Caps, Tin Plated on Nickel Barrier, Excellent Stability at Different Environmental Conditions, Reliable Solderable Terminations to Facilitate Surface Mounting |
Vishay |
169 |
SMM0207 |
Stable Metal Film on High Quality Ceramic, Force Fitted Steel Caps, Tin Plated on Nickel Barrier, High Power Rating, Good Thermal Distribution, Reliable Solderable Terminations to Facilitate Surface Mounting |
Vishay |
170 |
SR1620C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 20V, max RMS voltage 14V, max DC blocking voltage 20V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
171 |
SR1630C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 30V, max RMS voltage 21V, max DC blocking voltage 30V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
172 |
SR1635C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 35V, max RMS voltage 25V, max DC blocking voltage 35V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
173 |
SR1640C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 40V, max RMS voltage 28V, max DC blocking voltage 40V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
174 |
SR1645CS |
Schottky barrier rectifier. Max recurrent peak reverse voltage 45V, max RMS voltage 32V, max DC blocking voltage 45V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
175 |
SR1650C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 50V, max RMS voltage 35V, max DC blocking voltage 50V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
176 |
SR1660C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 60V, max RMS voltage 42V, max DC blocking voltage 60V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
177 |
Thermal Considerations |
Thermal Considerations and Mounting Techniques |
Siliconix |
178 |
Thermal Considerations |
Thermal Considerations and Mounting Techniques |
Siliconix |
179 |
TRA06E |
Thin Film, Resistor Array, Flow solderable, Automatic placement capability, Inner electrode protection, Wrap around termination, Low noise, High frequency applications |
Vishay |
180 |
UL1601 |
Uk�ad dekodera sygna�u stereofonicznego |
Ultra CEMI |
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