| Compliant | |
| EAR99 | |
| Unconfirmed | |
| SVHC | Yes |
| Automotive | No |
| PPAP | No |
| General Purpose | |
| SAR | |
| 16bit | |
| 1 | |
| 1 | |
| 250ksps | |
| Parallel | |
| Voltage | |
| Single-Ended | |
| Internal|External | |
| Bipolar | |
| Analog and Digital | |
| ±10V | |
| 70 | |
| 100 | |
| ±1.5LSB | |
| ±0.25%FSR | |
| 88dB(Typ) | |
| 16 | |
| Yes | |
| Yes | |
| -40 | |
| 85 | |
| Tape and Reel | |
| Industrial | |
| Mounting | Surface Mount |
| Package Height | 2(Max) - 0.05(Min) mm |
| Package Width | 5.6(Max) mm |
| Package Length | 10.5(Max) mm |
| PCB changed | 28 |
| Standard Package Name | SO |
| Supplier Package | SSOP |
| 28 | |
| Lead Shape | Gull-wing |
Before converting analog signals into digital data that a computer can read, this ADS8505IBDBRG4 ADC from Texas Instruments uses a transducer to convert real world physical signals into analog electrical signals. This device is based on SAR architecture. It has a single-ended input signal. Its maximum power dissipation is 100 mW. This device's digital interface is parallel. This ADC has a resolution of 16bit. This ADC has an input voltage of ±10 V. This ADC has a temperature range of -40 °C to 85 °C.
| EDA / CAD Models |
Design AI-powered medical devices
Explore system design tips, part recs and AI insights to help you build faster, safer diagnostic and therapy solutions—all in Arrow’s latest white paper.