You use the DAC7801KU when you need a dual 12-bit precision dac for accurate signal processing. This device changes digital signals into smooth analog outputs. Many engineers use it to control automation equipment or measure signals in test systems. You can count on its steady performance for jobs that need high accuracy.
Key Takeaways
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The DAC7801KU is a dual 12-bit precision DAC. It changes digital signals into smooth analog outputs. This makes it great for automation and measurement systems.
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It has low crosstalk and a double-buffered design. This lets it give synchronized outputs and clean signals. These features help it work better in complex circuits.
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The device uses only one +5V supply. This makes circuit design easier. It is good for small or tight spaces.
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Users can pick serial or parallel interfaces. The choice depends on speed or space needs. This gives more options for design.
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Always check the datasheet for detailed specifications and setup steps. This helps you get the best performance and avoid mistakes.
DAC7801KU Precision DAC Overview
What Is a Precision DAC?
A precision dac helps change digital signals into exact analog voltages. The DAC7801KU is special because it has two 12-bit channels in one chip. Each channel can make smooth and steady analog outputs. Monolithic CMOS technology means all parts are on one piece of silicon. This helps the DAC7801KU work well and stay stable. That is why it is good for modern integrated circuits.
If you pick a monolithic CMOS DAC like the DAC7801KU, you get many good things:
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You get real 12-bit accuracy from strong on-chip resistors.
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You save space since both DACs are in one chip.
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You can update both channels at once with double-buffered design.
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You get fast results because of the quick digital interface.
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You do not get much signal mix-up because of low crosstalk.
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You can use it in many places because it works in hot or cold.
These things make the DAC7801KU a good part for many circuits, especially when you need small size and high accuracy.
Key Specifications
You might want to see how the DAC7801KU matches up with other choices. The table below lists some main features and what they do:
| Feature | Benefit |
|---|---|
| Dual Channels | Two 12-bit outputs |
| Low Crosstalk | Clean, accurate signals |
| Wide Temperature | Works in many environments |
| Simple Power | Easy to use |
The DAC7801KU also has strong technical details. Here are some key facts:
| Product Attribute | Attribute Value |
|---|---|
| Voltage - Supply, Digital | 5V |
| Voltage - Supply, Analog | 5V |
| Settling Time | 800ns |
| Number of Bits | 12 |
You can use the DAC7801KU in systems that need just one +5V supply. Its small size makes it fit in tight spots. The fast interface lets you use it in quick digital systems. You will see this device in many circuits, like automation controls and measurement tools.
Tip: If you need both accuracy and speed for your analog outputs, the DAC7801KU gives you a good mix of both.
DAC7801KU Features and Performance
Dual DAC Configuration
The DAC7801KU has two digital-to-analog converters in one chip. This means you can control two analog signals at once. You can use both channels together or just one at a time. This helps when you need more than one output in your system. The chip keeps both outputs working together. Your signals stay steady and accurate.
Here is how having two DACs helps you:
| Feature | Benefit |
|---|---|
| Synchronized outputs | Both DACs work together, so signals stay strong. |
| Low crosstalk | Channels do not mess up each other, so signals are clean. |
| Double-buffered setup | You can update both DACs at the same time, so things work fast. |
This design is good for systems with many channels. It keeps signals clean and makes sure both outputs change quickly.
High Resolution and Speed
The DAC7801KU gives you high resolution and works fast. It has 12 bits of resolution. This means you can pick from 4096 levels for your output. You get smooth and exact analog signals. The chip can update outputs quickly because it works at a high data rate.
Here is a table that shows the main features for resolution and speed:
| Feature | Description |
|---|---|
| True 12-bit accuracy | On-chip resistors help keep signals exact. |
| Fast digital interface | Good for jobs that need quick changes. |
| Low crosstalk | Signals stay clean between channels. |
| Double-buffered setup | Both DACs can update at the same time. |
| Balanced mix of accuracy, speed | You get both in one chip. |
You can use the DAC7801KU for jobs that need both accuracy and speed. It works well in test equipment and control systems. It is also good for other places where you want smooth and fast analog outputs.
Tip: High resolution and speed help you get better analog signals. You can trust the DAC7801KU to give you both.
Power and Interface Options
You only need one +5V supply to power the DAC7801KU. This makes your design easier. You do not have to worry about using different voltages.
When you connect the DAC7801KU, you can pick serial or parallel data interfaces. The parallel interface sends data fast but uses more pins. This can make your circuit board crowded if it is small. The serial interface uses fewer pins, so it saves space.
Here are some things to remember:
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The DAC7801KU uses just one +5V supply, so setup is simple.
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The parallel interface needs more pins, so plan your layout if space is tight.
Pick the interface that works best for your project. If you need speed, use parallel. If you want to save space, use serial.
Note: The DAC7801KU gives you choices for power and data connections. You can use it in many designs, even if space is limited.
The DAC7801KU is a precision dac with two channels, high resolution, and flexible features. You can use it in many projects that need accurate and fast analog outputs, even when space is small.
Pinout and Integration
24-Pin Layout
When you work with the DAC7801KU, you will see it comes in a quad flat package. This package has 24 pins arranged around the edges, making it easy to place on your circuit board. The quad flat package supports surface-mount packaging, so you can use it in modern, compact designs. You will find the pinout clearly marked, which helps you connect each signal correctly. The quad flat package keeps the device small and lets you fit it into tight spaces. If you look at the pinout, you will notice that the pins are grouped by function, making your layout easier.
Pin Functions
Understanding the pinout is important for your project. Each pin on the DAC7801KU has a special job. The table below shows the pinout and what each pin does:
| Pin No. | Pin Name | Description |
|---|---|---|
| 1 | AGND A | Analog ground for channel A |
| 2 | IOUT A | Current output for DAC A |
| 3 | RFB A | Feedback resistor for DAC A |
| 4 | VREF A | Reference voltage input for DAC A |
| 5 | CS | Chip select input |
| 6 | DB0 | Data bit 0 (LSB) |
| 7 | DB1 | Data bit 1 |
| 8 | DB2 | Data bit 2 |
| 9 | DB3 | Data bit 3 |
| 10 | DB4 | Data bit 4 |
| 11 | DB5 | Data bit 5 |
| 12 | DGND | Digital ground |
| 13 | DB6 | Data bit 6 |
| 14 | DB7 | Data bit 7 |
| 15 | A0 | Address input 0 |
| 16 | A1 | Address input 1 |
| 17 | CLR | Clear input (resets DAC outputs) |
| 18 | WR | Write control input |
| 19 | UPD | Update control for DAC registers |
| 20 | VDD | Positive power supply |
| 21 | VREF B | Reference voltage input for DAC B |
| 22 | RFB B | Feedback resistor for DAC B |
| 23 | IOUT B | Current output for DAC B |
| 24 | AGND B | Analog ground for channel B |
You should always check the pinout before you start soldering. The quad flat package makes it easy to access each pin, but you need to match each signal to the right spot. If you connect the pinout correctly, your DAC7801KU will work as expected.
PCB Integration Tips
You want your DAC7801KU to give you the best performance. Good pinout planning and careful layout help you avoid noise and errors. Here are some tips to help you integrate the quad flat package into your PCB:
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Place EMI filters at the input and output to block high-frequency noise.
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Use ground planes or metal shields around sensitive parts to protect against interference.
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Keep analog and digital sections apart to reduce crosstalk.
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Add decoupling capacitors close to the power pins for clean power.
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Route signal traces away from noisy areas and high-current paths.
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Use a solid ground plane for a stable return path.
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Connect all grounds to a single point to avoid ground loops.
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Place ground vias near ground pins to lower inductance.
Tip: Careful pinout planning and following these layout tips will help you get the most from your quad flat package DAC7801KU.
If you follow these steps, you will have a strong, reliable design. The pinout and quad flat package make it easy to build high-quality analog systems.
DAC7801KU Datasheet Insights
Where to Find the Datasheet
You can get the DAC7801KU datasheet from trusted places. The datasheet has all the important facts about this device. Texas Instruments is the main company that makes the official datasheet.
You should always use the newest datasheet for your project. The datasheet helps you learn how to use the DAC7801KU in your work.
Critical Parameters
When you look at the DAC7801KU datasheet, you will see many sections. Each part gives you important facts about the device. Here are some main parts you should look at:
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Electrical Characteristics: This part shows the voltage, current, and power limits. You learn how much power the DAC7801KU needs and how it works in different places.
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Timing Information: Timing diagrams show how fast the device can work. You find out how quickly the DAC changes digital signals. This is important for fast jobs.
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Application Notes: These notes give you tips for using the DAC7801KU in real circuits. You see sample circuits and learn how to avoid mistakes. Application notes help you get the best results in your projects.
The datasheet also lists the pinout, package details, and test conditions. You should read these parts before you start your design. The datasheet is your main guide for safe and good use of the DAC7801KU.
Tip: Always check the datasheet before you use the DAC7801KU in new projects. The datasheet answers most questions about setup and how it works.
Applications of DAC7801KU
Automation Systems
The DAC7801KU is used a lot in automation systems. This precision dac helps control machines and processes very accurately. It makes signals that help equipment work smoothly. Many automation jobs need steady and dependable outputs. The DAC7801KU gives you both.
Here are some ways it is used in automation:
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Industrial control systems use it to help machines run well.
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Robotics and motion control systems use it for careful movements.
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Process monitoring devices need its steady outputs for good tracking.
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Audio and video equipment use it to change signals clearly.
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Programmable filters and gain circuits use its flexible outputs.
You can count on this device to work in hard places. The datasheet says it works from –40 °C to +85 °C. Low crosstalk at –94 dB keeps your signals clean. The table below shows how the DAC7801KU helps your automation systems:
| Feature | Description |
|---|---|
| Output Signals | Makes exact signals for equipment to work well. |
| Crosstalk Level | Low crosstalk keeps signals clean and working better. |
| Temperature Range | Works in many different places and temperatures. |
Measurement Tools
The DAC7801KU is also found in measurement tools. This precision dac gives you exact analog outputs, so you get good readings. Measurement tools need steady work, and this device does that.
Some tools that use the DAC7801KU are:
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Precision instruments for careful measurements.
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Process monitoring systems that watch and adjust operations.
You get exact outputs and steady work, even if things change. Low crosstalk between channels keeps your readings clear. The datasheet tells you how to set up the device for these jobs.
Other Use Cases
The DAC7801KU can be used in many other ways. You can use it in test equipment when you need exact level settings. Calibration systems use its two outputs to match signals. Programmable filters and auto-calibration circuits use it to shape and fix signals.
When you make a new system, always check the datasheet for setup tips and facts. The datasheet helps you see if the DAC7801KU fits your needs. You can find more uses by reading the datasheet and seeing how others use this precision dac.
Tip: Always look at the datasheet before you start your design. It gives you the best tips for using the DAC7801KU in different jobs.
You can trust the DAC7801KU for jobs that need exact work. It gives steady results every time. The table below shows why people pick this device for tough jobs:
| Feature | Description |
|---|---|
| Dual 12-bit accuracy | Helps you get very exact results. |
| Low crosstalk | Makes sure your signals stay clean. |
| Fast digital interface | Moves data quickly for jobs that need speed. |
| Wide temperature range | Works from –40 °C to +85 °C in many places. |
You should read the datasheet before you use the DAC7801KU. The datasheet and notes show how to use each feature and pin. This helps you do your project the right way.
Written by Jack Elliott from AIChipLink.
AIChipLink, one of the fastest-growing global independent electronic components distributors in the world, offers millions of products from thousands of manufacturers, and many of our in-stock parts is available to ship same day.
We mainly source and distribute integrated circuit (IC) products of brands such as Broadcom, Microchip, Texas Instruments, Infineon, NXP, Analog Devices, Qualcomm, Intel, etc., which are widely used in communication & network, telecom, industrial control, new energy and automotive electronics.
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Frequently Asked Questions
What is the main use of the DAC7801KU?
You use the DAC7801KU to turn digital signals into accurate analog outputs. This helps you control machines, measure signals, or set voltage levels in your projects.
Can you use the DAC7801KU with only a 5V power supply?
Yes, you can. The DAC7801KU works with a single +5V supply. This makes your circuit design easier and helps you save space.
How do you choose between serial and parallel interface?
You pick parallel if you want faster data transfer. You pick serial if you want to save board space. Both options work well, so you choose based on your project needs.
What should you check before connecting the DAC7801KU?
Always check the datasheet for pinout and voltage details. Make sure you connect each pin correctly. Use decoupling capacitors for stable power.
Where can you find more help for using the DAC7801KU?
You can read the official datasheet or look for application notes from Texas Instruments. Aichiplink websites also offer guides and tips for using this DAC.
