No. |
Part Name |
Description |
Manufacturer |
31 |
MAX629 |
28V, Low-Power, High-Voltage, Boost or Inverting DC-DC Converter |
MAXIM - Dallas Semiconductor |
32 |
MAX629C/D |
28V, Low-Power, High-Voltage, Boost or Inverting DC-DC Converter |
MAXIM - Dallas Semiconductor |
33 |
MAX629ESA |
28V, Low-Power, High-Voltage, Boost or Inverting DC-DC Converter |
MAXIM - Dallas Semiconductor |
34 |
MAX629ESA+ |
28V, Low-Power, High-Voltage, Boost or Inverting DC-DC Converter |
MAXIM - Dallas Semiconductor |
35 |
MAX629ESA+T |
28V, Low-Power, High-Voltage, Boost or Inverting DC-DC Converter |
MAXIM - Dallas Semiconductor |
36 |
MAX629ESA+TG071 |
28V, Low-Power, High-Voltage, Boost or Inverting DC-DC Converter |
MAXIM - Dallas Semiconductor |
37 |
MAX629ESA-T |
28V, Low-Power, High-Voltage, Boost or Inverting DC-DC Converter |
MAXIM - Dallas Semiconductor |
38 |
MTD12N06EZL-D |
TMOS E-FET High Energy Power FET DPAK for Surface Mount or Insertion Mount N-Channel Enhancement-Mode Silicon Gate |
ON Semiconductor |
39 |
MTD6N10 |
POWER FIELD EFFECT TRANSISTOR, N-CHANNEL ENHANCEMENT-MODE SILICON GATE, DPAK FOR SURFACE MOUNT OR INSERTION MOUNT |
Motorola |
40 |
NCP5104 |
Single Input High Voltage High and Low-Side MOSFET or IGBT Drivers |
ON Semiconductor |
41 |
PBL38582 |
Telephone Line interface circuit for DECT, DAM, CT Unisolated or Isolated |
Ericsson Microelectronics |
42 |
PBL385821NS |
Telephone Line interface circuit for DECT/ DAM/ CT Unisolated or Isolated |
Ericsson Microelectronics |
43 |
PBL385821SOS |
Telephone Line interface circuit for DECT/ DAM/ CT Unisolated or Isolated |
Ericsson Microelectronics |
44 |
PBL385821SOT |
Telephone Line interface circuit for DECT/ DAM/ CT Unisolated or Isolated |
Ericsson Microelectronics |
45 |
PBL385822SOS |
Telephone Line interface circuit for DECT/ DAM/ CT Unisolated or Isolated |
Ericsson Microelectronics |
46 |
PBL385822SOT |
Telephone Line interface circuit for DECT/ DAM/ CT Unisolated or Isolated |
Ericsson Microelectronics |
47 |
PBL38582_1NS |
Telephone line interface circuit for DECT, DAM, CT unisolated or isolated |
Ericsson Microelectronics |
48 |
PBL38582_1SOS |
Telephone line interface circuit for DECT, DAM, CT unisolated or isolated |
Ericsson Microelectronics |
49 |
PBL38582_1SOT |
Telephone line interface circuit for DECT, DAM, CT unisolated or isolated |
Ericsson Microelectronics |
50 |
PBL38582_2SOS |
Telephone line interface circuit for DECT, DAM, CT unisolated or isolated |
Ericsson Microelectronics |
51 |
PBL38582_2SOT |
Telephone line interface circuit for DECT, DAM, CT unisolated or isolated |
Ericsson Microelectronics |
52 |
SL701B |
Monolithic, bipolar integrated circuit intended primarily for use as operationa amplifiers or in intrumentation applications |
PLESSEY Semiconductors |
53 |
SL701C |
Monolithic, bipolar integrated circuit intended primarily for use as operationa amplifiers or in intrumentation applications |
PLESSEY Semiconductors |
54 |
SL702B |
Monolithic, bipolar integrated circuit intended primarily for use as operationa amplifiers or in intrumentation applications |
PLESSEY Semiconductors |
55 |
SL702C |
Monolithic, bipolar integrated circuit intended primarily for use as operationa amplifiers or in intrumentation applications |
PLESSEY Semiconductors |
56 |
ST2S06 |
Dual synchronous rectification with reset or inhibit, 0.5 A, 1.5 MHz adjustable step-down switching regulator |
ST Microelectronics |
57 |
ST2S06A33PQR |
Dual synchronous rectification with reset or inhibit, 0.5 A, 1.5 MHz adjustable step-down switching regulator |
ST Microelectronics |
58 |
ST2S06BPQR |
Dual synchronous rectification with reset or inhibit, 0.5 A, 1.5 MHz adjustable step-down switching regulator |
ST Microelectronics |
59 |
TC120 |
TC120 is a 300 KHz PFM/PWM step-down (Buck) DC/DC regulator/controller combination for use in systems operating from two or more cells, or in line-powered applications. It uses PWM as the primary modulation scheme, but automatically conver |
Microchip |
60 |
TC4403 |
The TC4403 is a modified version of the TC4425 driver, intended to drive floating or isolated loads requiring high-current pulses. The load is intended to be connected between the outputs without other reference to supply or ground. Then, |
Microchip |
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