Description
DAC8728SRTQT Texas Instruments - Yeehing Electronics
Octal Low-Power 16-Bit +/-16.5V Output Parallel Input Digital-to-Analog Converter
Pricing (USD)
| Quantity | Unit Price |
| 1 — 99 | 39.765 |
| 100 — 249 | 35.346 |
| 250 — 999 | 29.057 |
| 1,000 + | 18.19 |
The above prices are for reference only.
Specifications
| Manufacturer | Texas Instruments |
| Product Category | Digital to Analog Converters - DAC |
| RoHS | Y |
| Series | DAC8728 |
| Resolution | 16 bit |
| Number of Channels | 8 Channel |
| Interface Type | Parallel |
| Supply Voltage - Max | 36 V |
| Supply Voltage - Min | 9 V |
| Minimum Operating Temperature | - 40 C |
| Maximum Operating Temperature | + 105 C |
| Mounting Style | SMD/SMT |
| Package / Case | QFN-56 |
| Packaging | Reel |
| Features | On-chip Offset and Gain Calibration |
| Height | 0.9 mm |
| Number of Converters | 8 Converter |
| Power Consumption | 107 mW |
| Architecture | Resistor-String |
| Brand | Texas Instruments |
| Development Kit | DAC8728EVM |
| Gain Error | 0.01 % FSR |
| Moisture Sensitive | Yes |
| Operating Supply Voltage | 30.5 V, 33.5 V |
| Product Type | DACs - Digital to Analog Converters |
| Factory Pack Quantity | 250 |
| Subcategory | Data Converter ICs |
| Unit Weight | 0.007055 oz |
For more information, please refer to datasheet
Documents
| DAC8728SRTQT Datasheet |
More Information
The DAC8728 is a low-power, octal, 16-bit digital-to-analog converter (DAC). With a 5V reference, the output can either be a bipolar ±15V voltage when operating from a dual ±15.5V (or higher) power supply, or a unipolar 0V to +30V voltage when operating from a +30.5V power supply. With a 5.5V reference, the output can either be a ±16.5V for a dual ±17V (or higher) power supply, or a unipolar 0V to +33V voltage when operating from a +33.5V (or higher) power supply. This DAC provides low-power operation, good linearity, and low glitch over the specified temperature range of –40°C to +105°C. This device is trimmed in manufacturing and has very low zero and full-scale error. In addition, user calibration can be performed to achieve ±1 LSB bipolar zero/full-scale error for a bipolar supply, or ±1 LSB zero-code/full-scale error for a unipolar supply over the entire signal chain. The output range can be offset by using the DAC Offset Register.
