No. |
Part Name |
Description |
Manufacturer |
61 |
CC1100RTK |
Highly Integrated MultiCh RF Transceiver Designed for Low-Power Wireless Apps |
Texas Instruments |
62 |
CC1100RTKG3 |
Highly Integrated MultiCh RF Transceiver Designed for Low-Power Wireless Apps |
Texas Instruments |
63 |
CC1100RTKR |
Highly Integrated MultiCh RF Transceiver Designed for Low-Power Wireless Apps |
Texas Instruments |
64 |
CC1150 |
Highly Integrated Multichannel RF Transmitter Designed for Low-Power Wireless Applications |
Texas Instruments |
65 |
CC1150-RTR1 |
Highly Integrated Multichannel RF Transmitter Designed for Low-Power Wireless Applications |
Texas Instruments |
66 |
CC1150-RTY1 |
Highly Integrated Multichannel RF Transmitter Designed for Low-Power Wireless Applications |
Texas Instruments |
67 |
CC1150RGVR |
Highly Integrated Multichannel RF Transmitter Designed for Low-Power Wireless Applications 16-VQFN -40 to 85 |
Texas Instruments |
68 |
CC1150RGVT |
Highly Integrated Multichannel RF Transmitter Designed for Low-Power Wireless Applications 16-VQFN -40 to 85 |
Texas Instruments |
69 |
CC1150RST |
Highly Integrated Multichannel RF Transmitter Designed for Low-Power Wireless Applications |
Texas Instruments |
70 |
CC1150RSTR |
Highly Integrated Multichannel RF Transmitter Designed for Low-Power Wireless Applications |
Texas Instruments |
71 |
CHL8112A |
Dual Loop, 4+1 multiphase AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
72 |
CHL8112A-00CRT |
Dual Loop, 4+1 multiphase AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
73 |
CHL8112B |
Dual Loop, 4+1 multiphase AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
74 |
CHL8112B-00CRT |
Dual Loop, 4+1 multiphase AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
75 |
CHL8325A |
Dual Loop, 4+1 multiphase VR12/AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
76 |
CHL8325A-00CRT |
Dual Loop, 4+1 multiphase VR12/AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
77 |
CHL8325B |
Dual Loop, 4+1 multiphase VR12/AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
78 |
CHL8325B-00CRT |
Dual Loop, 4+1 multiphase VR12/AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
79 |
CHL8326 |
Dual Loop, 5+1 multiphase VR12/AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
80 |
CHL8326-00CRT |
Dual Loop, 5+1 multiphase VR12/AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
81 |
CHL8328 |
Dual Loop, 7+1 multiphase VR12/AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
82 |
CHL8328-00CRT |
Dual Loop, 7+1 multiphase VR12/AMD PWM controller for high efficiency, highly accurate VR solutions |
International Rectifier |
83 |
CS5378 |
Highly integrated, multi-function decimation filter with PLL |
Cirrus Logic |
84 |
CS5378 |
Highly integrated, multi-function decimation filter with PLL |
Cirrus Logic |
85 |
CUSTOM NETWORKS (SURFACE MOUNT DIPS) |
Small Outline, Highly Stable Thick Film Resistors, Wide Operating Temperature Range (- 55°C to + 125°C), Surface Mount ""J"" Leads or Gull Wing Leads |
Vishay |
86 |
DAP024 |
Highly Integrated Green-Mode PWM Controller |
Fairchild Semiconductor |
87 |
DAP024L |
Highly Integrated Green-Mode PWM Controller |
Fairchild Semiconductor |
88 |
DFM14 |
Military, MIL-R-83401 Qualified, Type RZ, 11, 12, 15 Schematics, Hot Solder Dip, Highly Stable, Passes MIL-STD-202 Method 210, Condition E ""Resistance to Soldering Heat"" Test |
Vishay |
89 |
DFP14 |
Military, Hot Solder Dip or Gold Plated Leads, Highly Stable, Passes MIL-STD-202 Method 210, Condition E ""Resistance to Soldering Heat"" Test |
Vishay |
90 |
DFP16 |
Military, Hot Solder Dip or Gold Plated Leads, Highly Stable, Passes MIL-STD-202 Method 210, Condition E ""Resistance to Soldering Heat"" Test |
Vishay |
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