| No. |
Part Name |
Description |
Manufacturer |
| 871 |
MCP606 |
The MCP606 operational amplifier (op amp) has a gain bandwidth product of 155 kHz with a low typical operating current of 18.7 µA and an offset voltage that is less than 250 µV. The MCP606 uses Microchip's advanced CMOS technolog |
Microchip |
| 872 |
MCP607 |
The MCP607 dual operational amplifier (op amp) has a gain bandwidth product of 155 kHz with a low typical operating current of 18.7 �A and an offset voltage that is less than 250 �V. The MCP607 uses Microchip's advanced CMOS technology, wh |
Microchip |
| 873 |
MCP608 |
The MCP608 operational amplifier (op amp) has a gain bandwidth product of 155 kHz with a low typical operating current of 18.7 �A and an offset voltage that is less than 250 �V. The MCP608uses Microchip's advanced CMOS technology, which pr |
Microchip |
| 874 |
MCP609 |
The MCP609 quad operational amplifier (op amp) has a gain bandwidth product of 155 kHz with a low typical operating current of 18.7 �A and an offset voltage that is less than 250 �V. The MCP609 uses Microchip's advanced CMOS technology, wh |
Microchip |
| 875 |
MCP616 |
The MCP616 operational amplifier (op amp) has a gain bandwidth product of 190 kHz with a low typical operating current of 19 �A and an offset voltage that is less than 150 �V. The MCP616 uses Microchip's advanced CMOS technology, which pro |
Microchip |
| 876 |
MCP617 |
The MCP617 dual operational amplifier (op amp) has a gain bandwidth product of 190 kHz with a low typical operating current of 19 �A and an offset voltage that is less than 150 �V. The MCP617 uses Microchip's advanced CMOS technology, whic |
Microchip |
| 877 |
MCP618 |
The MCP618 operational amplifier (op amp) has a gain bandwidth product of 190 kHz with a low typical operating current of 19 �A and an offset voltage that is less than 150 �V. The MCP618 uses Microchip's advanced CMOS technology, which pro |
Microchip |
| 878 |
MCP619 |
The MCP619 quad operational amplifier (op amp) has a gain bandwidth product of 190 kHz with a low typical operating current of 19 �A and an offset voltage that is less than 150 �V. The MCP619 uses Microchip's advanced CMOS technology, whic |
Microchip |
| 879 |
MDC1000A |
MOSFET TURN OFF DEVICE |
Motorola |
| 880 |
MDC1000ARLRM |
MOSFET TURN OFF DEVICE |
Motorola |
| 881 |
MDC1000BLT1 |
MOSFET TURN OFF DEVICE |
Motorola |
| 882 |
MDC1000BLT3 |
MOSFET TURN OFF DEVICE |
Motorola |
| 883 |
MDC1000CT1 |
MOSFET TURN OFF DEVICE |
Motorola |
| 884 |
MDC1000CT3 |
MOSFET TURN OFF DEVICE |
Motorola |
| 885 |
MGTO1200 |
GATE TURN OFF THYRISTORS |
Motorola |
| 886 |
MJE3055 |
10 Ampere NPN Power Transistor 60 Volts, 90 Watts, plastic version of 2N3055, complementary to MJE2955 |
Motorola |
| 887 |
MM1291AF |
Protection of Lithium Ion Batteries (one cell) |
Mitsumi Electric |
| 888 |
MM1291AW |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 889 |
MM1291BF |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 890 |
MM1291BW |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 891 |
MM1291CF |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 892 |
MM1291DF |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 893 |
MM1291EF |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 894 |
MM1291GF |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 895 |
MM1291HF |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 896 |
MM1291HW |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 897 |
MM1291JW |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 898 |
MM1291KF |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 899 |
MM1291MW |
Protection of lithium ion battery (one cell) |
Mitsumi Electric |
| 900 |
MM1292 |
Protection of Lithium Ion Batteries (two cells in series) |
Mitsumi Electric |
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