No. |
Part Name |
Description |
Manufacturer |
61 |
RPS 250 |
Power Resistors Mount onto a Heatsink, Thick Film Technology |
Vishay |
62 |
RPS 500 |
Power Resistors for Mounting onto a Heatsink Featuring High overload capability, Easy mounting, Low thermal radiation of the case, No partial discharge |
Vishay |
63 |
RTOP |
Power Resistors for Mounting onto a Heatsink Featuring Up to 4 different ohmic values in the same case, Non inductive, Easy mounting, Low Thermal Radiation of the case, Standard Isotop case (SOT 227 B) |
Vishay |
64 |
SL811HS |
The SL811HS is a single-chip, dual-speed USB Embedded Host controller that can operate as either a USB Host, or USB peripheral device. The SL811HS can interface to devices such as microprocessors, microcontrollers, DSPs or directly to a va |
Cypress |
65 |
STEVAL-ISV008V1 |
300 W PV converter demonstration board to be integrated into a photovoltaic panel based on the SPV1020 |
ST Microelectronics |
66 |
STEVAL-ISV018V1 |
300 W PV converter to be integrated into a photovoltaic panel based on SPV1020 and bypass diodes SPV1001N30 and SPV1001N40 |
ST Microelectronics |
67 |
STEVAL-MKI009V1 |
LIS3LV02DL adapter board designed to be plugged into a standard DIL 20 socket |
ST Microelectronics |
68 |
STEVAL-MKI084V1 |
LPY430AL adapter board designed to be plugged into a standard DIL24 socket |
ST Microelectronics |
69 |
STEVAL-MKI097V1 |
LPR430AL adapter board designed to be plugged into a standard DIL24 socket |
ST Microelectronics |
70 |
STEVAL-MKI106V1 |
LSM303DLHC adapter board designed to be plugged into a standard DIL24 socket |
ST Microelectronics |
71 |
STEVAL-MKI124V1 |
L3GD20, LSM303DLHC and LPS331AP 10-axis module designed to be plugged into a standard DIL 24 socket |
ST Microelectronics |
72 |
TC1044S |
The TC1044S is a pin-compatible upgrade to the Industry standard TC7660 charge pump voltage converter. It converts a +1.5V to +12V input to a corresponding –1.5V to –12V output using only two low cost capacitors, eliminating in |
Microchip |
73 |
TC1121 |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative output voltage. As with all charge pump converters, the TC1121 uses no inductors saving cost, size, an |
Microchip |
74 |
TC1121COA |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative ... |
Microchip |
75 |
TC1121COA713 |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative ... |
Microchip |
76 |
TC1121CPA |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative ... |
Microchip |
77 |
TC1121CUA |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative ... |
Microchip |
78 |
TC1121CUA713 |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative ... |
Microchip |
79 |
TC1121EOA |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative ... |
Microchip |
80 |
TC1121EOA713 |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative ... |
Microchip |
81 |
TC1121EPA |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative ... |
Microchip |
82 |
TC1121EUA |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative ... |
Microchip |
83 |
TC1121EUA713 |
The TC1121 is a charge pump converter with 100mA output current capability. It converts a 2.4V to 5.5V input to a corresponding negative ... |
Microchip |
84 |
TC125 |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical efficiencies above 80%. These devices employ pulse frequency modulation (PFM) for minimum supply current at l |
Microchip |
85 |
TC125301ECTTR |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical ... |
Microchip |
86 |
TC125331ECTTR |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical ... |
Microchip |
87 |
TC125501ECTTR |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical ... |
Microchip |
88 |
TC126 |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical efficiencies above 80%. These devices employ pulse frequency modulation (PFM) for minimum supply current at l |
Microchip |
89 |
TC126301ECTTR |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical ... |
Microchip |
90 |
TC126331ECTTR |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical ... |
Microchip |
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