| Compliant | |
| 3A991c.3. | |
| Active | |
| 8542.39.00.30 | |
| SVHC | Yes |
| Automotive | Yes |
| PPAP | No |
| General Purpose | |
| Pipelined | |
| 14bit | |
| 1 | |
| 1 | |
| 8Msps | |
| Parallel | |
| Voltage | |
| Differential | |
| Internal|External | |
| Bipolar | |
| Analog and Digital | |
| ±2V | |
| 270 | |
| 360 | |
| ±5LSB | |
| 1%FSR | |
| 72dB(Typ) | |
| 14 | |
| Yes | |
| No | |
| -40 | |
| 85 | |
| Tray | |
| Industrial | |
| Mounting | Surface Mount |
| Package Height | 1 |
| Package Width | 7.2(Max) |
| Package Length | 7.2(Max) |
| PCB changed | 48 |
| Standard Package Name | QFP |
| Supplier Package | TQFP |
| 48 | |
| Lead Shape | Gull-wing |
Easily perform calculations on real world physical signals such as light and temperature by using this THS1408IPFB ADC from Texas Instruments to convert those analog signals into digital data that a computer can read. This device's digital interface is parallel. It has a differential input signal. This device is based on Pipelined architecture. Its maximum power dissipation is 360 mW. This ADC has a resolution of 14bit. This ADC has an input voltage of ±2 V. This ADC has a minimum operating temperature of -40 °C and a maximum of 85 °C.
| EDA / CAD Models |
Smarter Drone Systems from Concept to Deployment
Download the playbook and get equipped with powerful tools and smart strategies for designing agile, efficient, modular drone systems.