Allicdata Part #: | LTC1329ACS8-50#PBF-ND |
Manufacturer Part#: |
LTC1329ACS8-50#PBF |
Price: | $ 3.75 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | Linear Technology/Analog Devices |
Short Description: | IC D/A CONV 8BIT MICROPWR 8-SOIC |
More Detail: | 8 Bit Digital to Analog Converter 1 8-SOIC |
DataSheet: | LTC1329ACS8-50#PBF Datasheet/PDF |
Quantity: | 1000 |
200 +: | $ 3.40578 |
Reference Type: | Internal |
Base Part Number: | LTC1329 |
Supplier Device Package: | 8-SOIC |
Package / Case: | 8-SOIC (0.154", 3.90mm Width) |
Operating Temperature: | 0°C ~ 70°C |
Architecture: | -- |
INL/DNL (LSB): | -, ±0.9 (Max) |
Voltage - Supply, Digital: | 2.7 V ~ 6.5 V |
Voltage - Supply, Analog: | 2.7 V ~ 6.5 V |
Series: | -- |
Data Interface: | SPI |
Differential Output: | No |
Output Type: | Current - Unbuffered |
Settling Time: | -- |
Number of D/A Converters: | 1 |
Number of Bits: | 8 |
Part Status: | Active |
Packaging: | Tube |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
The LTC1329ACS8-50#PBF is a digital to analog converter (DAC) designed for specific application fields. It is an eight-bit DAC specifically designed for a variety of applications, such as computing, audio, video, and telecommunications. The converter is easily programmable and can be adjusted manually or remotely. It is also well suited for high-speed, low-noise electronic applications.
The device features a wide range of features such as low power consumption to meet stringent power requirements, a high-precision, low-noise signal, and programmable control. It also offers a robust non-volatile storage, which allows the user to store settings without fear of data loss due to power outages.
The main purpose of the LTC1329ACS8-50#PBF is to convert a binary signal into an analog signal. This is accomplished by using a resistor ladder circuit to generate a voltage corresponding to the given digital input. The circuit is made up of several resistors connected in such a way that the voltage output is proportional to the given resistance value. This is done by using the voltage divider principle, whereby the resistor values act as the dividers of the input voltage.
The resistance value of each resistor is determined by the desired resolution of the analog signal and the resolution of the data word. The resolution is determined by the number of bits in the data word, as the more bits there are, the larger the number of possible voltage levels. The higher the resolution, the higher the accuracy and precision of the analog signal.
Once the resistor ladder is formed, the voltage value corresponding to the digital input is computed by subtracting the voltage at each of the resistor points from the maximum voltage value. This produces a discrete voltage output, which is then passed through an operational amplifier (op amp) to produce a more accurate analog output. The op amp is responsible for filtering out any unwanted noise and providing gain adjustment if needed.
The resulting analog output can then be used in a variety of applications. It can be used to drive a wide range of loads, such as displays, sensors, and actuators. It can also be used to control the speed and direction of a motor, or to control the intensity of light in lighting applications. Furthermore, the output can also be used in communication systems, to encode and decode digital audio signals.
In addition to its use in a wide range of applications, the LTC1329ACS8-50#PBF also features a number of features which make it uniquely suited for high-speed, low-noise applications. It is optimized for low power consumption, and its non-volatile storage enables the user to store settings without fear of data loss due to power outages. Furthermore, it also offers a programmable control which allows the user to adjust digital output resolution and gain.
In conclusion, the LTC1329ACS8-50#PBF is an excellent digital to analog converter which offers a wide range of features for a variety of applications. Its low power consumption and high-precision, low-noise design make it well suited for high-speed, low-noise applications, while its programmable control provides users with the ability to adjust their analog output resolution and gain. It also offers robust non-volatile storage, which allows the user to store settings without fear of data loss due to power outages.
The specific data is subject to PDF, and the above content is for reference
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