| No. |
Part Name |
Description |
Manufacturer |
| 91 |
MCP6041 |
The MCP6041 operational amplifier (op amp) has a gain bandwidth product of 14 kHz with a low typical operating current of 600 nA and an offset voltage that is less than 3 mV. The MCP6041 uses Microchip's advanced CMOS technology, which pro |
Microchip |
| 92 |
MCP6042 |
The MCP6042 dual operational amplifier (op amp) has a gain bandwidth product of 14 kHz with a low typical operating current of 600 nA and an offset voltage that is less than 3 mV. The MCP6042 uses Microchip's advanced CMOS technology, whic |
Microchip |
| 93 |
MCP6043 |
The MCP6043 operational amplifier (op amp) has a gain bandwidth product of 14 kHz with a low typical operating current of 600 nA and an offset voltage that is less than 3 mV. The MCP6043 uses Microchip's advanced CMOS technology, which pro |
Microchip |
| 94 |
MCP6044 |
The MCP6044 quad operational amplifier (op amp) has a gain bandwidth product of 14 kHz with a low typical operating current of 600 nA and an offset voltage that is less than 3 mV. The MCP6044 uses Microchip's advanced CMOS technology, whic |
Microchip |
| 95 |
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 |
| 96 |
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 |
| 97 |
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 |
| 98 |
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 |
| 99 |
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 |
| 100 |
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 |
| 101 |
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 |
| 102 |
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 |
| 103 |
MRF264 |
Application Note - 60W VHF amplifier uses splitting/combining techniques |
Motorola |
| 104 |
PC1414BSR |
14,400 bps modem with MNP classes 2-5, v.42, v.42bis, 14,400 bps group 3 fax, stackthrough bus. |
XECOM |
| 105 |
PC1414SR |
14,400 bps modem with MNP classes 2-5, v.42, v.42bis, 14,400 bps group 3 fax, stackthrough bus. |
XECOM |
| 106 |
PC2814SR |
28,800 bps modem with MNP classes 2-5 & 10, V.42, V.42bis, 14,400 bps group 3 fax, stackthrough bus. |
XECOM |
| 107 |
PC3301SR |
33,600 bps modem with MNP classes 2-5, 10; V.42, V.42bis, 14,400 bps group 3 fax, stackthrough bus. |
XECOM |
| 108 |
SFC50026 |
Two phases MOS clock driver |
SESCOSEM |
| 109 |
SN54ACT8997FK |
SCAN-PATH LINKERS WITH 4-BIT IDENTIFICATION BUSES SCAN-CONTROLLED IEEE STD 1149.1 JTAG TAP CONCATENATORS |
Texas Instruments |
| 110 |
SN54ACT8997JT |
SCAN-PATH LINKERS WITH 4-BIT IDENTIFICATION BUSES SCAN-CONTROLLED IEEE STD 1149.1 JTAG TAP CONCATENATORS |
Texas Instruments |
| 111 |
SN74ACT8997 |
Scan Path Linkers With 4-Bit Identification Buses Scan-Controlled TAP Concatenators |
Texas Instruments |
| 112 |
SN74ACT8997DW |
Scan Path Linkers With 4-Bit Identification Buses Scan-Controlled TAP Concatenators |
Texas Instruments |
| 113 |
SN74ACT8997DWR |
Scan Path Linkers With 4-Bit Identification Buses Scan-Controlled TAP Concatenators |
Texas Instruments |
| 114 |
SN74ACT8997NT |
Scan Path Linkers With 4-Bit Identification Buses Scan-Controlled TAP Concatenators |
Texas Instruments |
| 115 |
SN74ACT8999 |
Scan Path Selectors With 8-Bit Bidirectional Data Buses Scan-Controlled TAP Multiplexers 28-PDIP -40 to 85 |
Texas Instruments |
| 116 |
SN74ACT8999DW |
Scan Path Selectors With 8-Bit Bidirectional Data Buses Scan-Controlled TAP Multiplexers 28-SOIC -40 to 85 |
Texas Instruments |
| 117 |
SN74ACT8999NT |
Scan Path Selectors With 8-Bit Bidirectional Data Buses Scan-Controlled TAP Multiplexers 28-PDIP -40 to 85 |
Texas Instruments |
| 118 |
SPA02N80C3 |
for lowest Conduction Losses & fastest SwitchingPlease note: Infineon has changed the CoolMOS 800V C2 marking to C3. 800V C2 ... |
Infineon |
| 119 |
SPA03N60C3 |
for lowest Conduction Losses & fastest Switching |
Infineon |
| 120 |
SPA04N50C3 |
for lowest Conduction Losses & fastest Switching |
Infineon |
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