No. |
Part Name |
Description |
Manufacturer |
1651 |
STM8AF52AATDY |
Automotive CAN and LIN line 8-bit MCU with 128 Kbytes Flash, 24 MHz CPU, integrated EEPROM |
ST Microelectronics |
1652 |
T6C96A |
The T6C96A is an advanced-function 4-bit single-chip microcontroller that integrates ROM, work RAM, I/O ports, timers and LCD driver, etc., into one chip. |
TOSHIBA |
1653 |
TA0016 |
EUROPEAN APPLICANTIONS FOR RF 403 CORDLESS TELEPHONE FRONT END RFIC |
RF Micro Devices |
1654 |
TC1046 |
The TC1046 is a linear output temperature sensor whose output voltage is directly proportional to measured temperature. The TC1046 can accurately measure temperature from -40C to +125C. The output voltage range for this device is typically |
Microchip |
1655 |
TC1047 |
The TC1047 is a linear output temperature sensor whose output voltage is directly proportional to measured temperature. The TC1047 can accurately measure temperature from -40C to +125C. For the TC1047, the output voltage range is typically |
Microchip |
1656 |
TC1047A |
The TC1047A is a linear output temperature sensor whose output voltage is directly proportional to measured temperature. The TC1047A can accurately measure temperature from -40C to +125C. For the TC1047A, the output voltage range is typica |
Microchip |
1657 |
TC1174 |
The TC1174 is an adjustable output CMOS low dropout regulator. Total supply current is typically 50�A at full load (20 to 60 times lower than in bipolar regulators!). TC1174 key features include ultra low noise operation (plus optional Byp |
Microchip |
1658 |
TC1174VOA |
The TC1174 is an adjustable output CMOS low dropout regulator. Total supply current is typically 50µA at full load (20 to 60 ... |
Microchip |
1659 |
TC1174VOATR |
The TC1174 is an adjustable output CMOS low dropout regulator. Total supply current is typically 50µA at full load (20 to 60 ... |
Microchip |
1660 |
TC1174VUA |
The TC1174 is an adjustable output CMOS low dropout regulator. Total supply current is typically 50µA at full load (20 to 60 ... |
Microchip |
1661 |
TC1174VUATR |
The TC1174 is an adjustable output CMOS low dropout regulator. Total supply current is typically 50µA at full load (20 to 60 ... |
Microchip |
1662 |
TC1266 |
The TC1266 is an application-specific, low dropout regulator (LDO) specifically intended for use in PCI peripheral card applications complying with PCI Power Management (PCI 2.0). It provides an uninterrupted, 3.3V, 200mA (max) output volt |
Microchip |
1663 |
TC1266VOA |
The TC1266 is an application-specific, low dropout regulator (LDO) specifically intended for use in PCI peripheral card applications ... |
Microchip |
1664 |
TC1266VOATR |
The TC1266 is an application-specific, low dropout regulator (LDO) specifically intended for use in PCI peripheral card applications ... |
Microchip |
1665 |
TC1266VUA |
The TC1266 is an application-specific, low dropout regulator (LDO) specifically intended for use in PCI peripheral card applications ... |
Microchip |
1666 |
TC1266VUATR |
The TC1266 is an application-specific, low dropout regulator (LDO) specifically intended for use in PCI peripheral card applications ... |
Microchip |
1667 |
TC1267 |
The TC1267 is an application-specific, low dropout regulator (LDO) specifically intended for use in PCI peripheral card applications complying with PCI Power Management (PCI 2.0). It provides an uninterrupted, 3.3V output voltage when the |
Microchip |
1668 |
TC1267VETTR |
The TC1267 is an application-specific, low dropout regulator (LDO) specifically intended for use in PCI peripheral card applications ... |
Microchip |
1669 |
TC4431 |
The TC4431/4432 are 30V CMOS buffer/drivers suitable for use in high-side driver applications. They will not latch up under any conditions within their power and voltage ratings. They can accept, without damage or logic upset, up to 300mA |
Microchip |
1670 |
TC4432 |
The TC4431/4432 are 30V CMOS buffer/drivers suitable for use in high-side driver applications. They will not latch up under any conditions within their power and voltage ratings. They can accept, without damage or logic upset, up to 300mA |
Microchip |
1671 |
TC642B |
The TC642B is a new version of the existing TC642 fan speed controller. This device is a switch mode fan speed controller, which incorporates a new fan auto restart function. Temperature proportional speed control is accomplished using pul |
Microchip |
1672 |
TC646B |
The TC646B is a new version of the existing TC646 fan speed controller. This device is a switch mode fan speed controller, which incorporates a new fan auto restart function. Temperature proportional speed control is accomplished using pul |
Microchip |
1673 |
TC647B |
The TC647B is a new version of the existing TC647 fan speed controller. This device is a switch mode fan speed controller, which incorporates a new fan auto restart function. Temperature proportional speed control is accomplished using pul |
Microchip |
1674 |
TC648B |
The TC648B is a new version of the existing TC648 fan speed controller. This device is a switch mode fan speed controller, which incorporates a new fan auto restart function. Temperature proportional speed control is accomplished using pul |
Microchip |
1675 |
TC649B |
The TC649B is a new version of the existing TC649 fan speed controller. This device is a switch mode fan speed controller, which incorporates a new fan auto restart function. Temperature proportional speed control is accomplished using pul |
Microchip |
1676 |
TC670 |
The TC670 is an integrated fan speed sensor that predicts and/or detects fan failure, preventing thermal damage to systems with cooling fans. When the fan speed falls below a user specified level, the TC670 asserts an ALERT signal. With th |
Microchip |
1677 |
TC7135 |
The TC7135 4-1/2 digit analog-to-digital converter (ADC) offers 50 ppm (1 part in 20,000)resolution with a maximum nonlinearity error of 1 count.An auto-zero cycle reduces zero error to below 10 µV and zero drift to 0.5 µV/° |
Microchip |
1678 |
TC826 |
In many applications a graphical display is preferred over a digital display. Knowing a process or system operates, for example, within design limits is more valuable than a direct system variable readout. A bar or moving dot display suppl |
Microchip |
1679 |
TC913A |
The TC913 is a monolithic, auto-zeroed operational amplifier. Elimination of the external capacitors allows the designer to increase reliability, lower cost,and simplify design by lowering parts count. Since the TC913 is an auto-zeroing op |
Microchip |
1680 |
TC913B |
The TC913 is a monolithic, auto-zeroed operational amplifier. Elimination of the external capacitors allows the designer to increase reliability, lower cost,and simplify design by lowering parts count. Since the TC913 is an auto-zeroing op |
Microchip |
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